https://sigrok.org/w/api.php?action=feedcontributions&user=Mrnuke&feedformat=atomsigrok - User contributions [en]2024-03-28T14:29:17ZUser contributionsMediaWiki 1.37.1https://sigrok.org/w/index.php?title=Supported_hardware&diff=14954Supported hardware2020-04-08T03:51:06Z<p>Mrnuke: /* GPIB interfaces */</p>
<hr />
<div>sigrok is intended as a flexible, cross-platform, and '''hardware-independent''' software suite, i.e., it supports various devices from many different vendors.<br />
<br />
Here is a list of currently supported devices (various stages of completeness) in the [http://sigrok.org/gitweb/?p=libsigrok.git;a=summary latest git version of libsigrok] (fewer devices might be supported in tarball releases) and devices we plan to support in the future.<br />
<br />
The lists are sorted by category ([[File:Nuvola OK.png|16px]] <span style="background-color: lime">supported</span>: [[:Category:Supported|{{PAGESINCATEGORY:Supported|pages}}]], [[File:Nuvola Orange.png|16px]] <span style="background-color: orange">in progress</span>: [[:Category:In progress|{{PAGESINCATEGORY:In progress|pages}}]], [[File:Nuvola Red.png|16px]] <span style="background-color: red">planned</span>: [[:Category:Planned|{{PAGESINCATEGORY:Planned|pages}}]]), and alphabetically within those categories.<br />
<br />
== Logic analyzers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:ARMFLY MINI LOGIC.png|link=ARMFLY Mini-Logic|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY Mini-Logic]] (8ch, 24MHz)</small><br />
File:ASIX SIGMA 2.png|link=ASIX SIGMA|[[File:Nuvola OK.png|16px]] <small>[[ASIX SIGMA]] (16ch, 200MHz)</small><br />
File:BeagleLogic.jpg|link=BeagleLogic|[[File:Nuvola OK.png|16px]] <small>[[BeagleLogic]] (12(max 14)ch, 100MHz)</small><br />
File:Braintechnology_usb_interface_v26.png|link=Braintechnology USB Interface V2.x|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB Interface V2.x]] (8/16ch, 24/12MHz)</small><br />
File:Braintechnology_usb_lps.png|link=Braintechnology USB-LPS|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB-LPS]] (8/16ch, 24/12MHz)</small><br />
File:Chronovu la8 front.png|link=ChronoVu LA8|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA8]] (8ch, 100MHz)</small><br />
File:Chronovu la16.png|link=ChronoVu LA16|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA16]] (16ch, 200MHz)</small><br />
File:Cwav_usbee_sx.png|link=CWAV USBee SX|[[File:Nuvola OK.png|16px]] <small>[[CWAV USBee SX]] (8ch, 24MHz)</small><br />
File:Buspirate_v3.png|link=Dangerous Prototypes Buspirate|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes Buspirate]] (5ch, 1MHz)</small><br />
File:Dangerous prototypes irtoy mugshot.png|link=Dangerous Prototypes USB IR Toy|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes USB IR Toy]] (1ch, 10kHz)</small><br />
File:DSLogic.png|link=DreamSourceLab DSLogic|[[File:Nuvola OK.png|16px]] <small>[[DreamSourceLab DSLogic]] (16ch, 400MHz)</small><br />
File:DSLogic.png|link=DreamSourceLab DSLogic Basic|[[File:Nuvola OK.png|16px]] <small>[[DreamSourceLab DSLogic Basic]] (16ch, 100MHz)</small><br />
File:DSLogic.png|link=DreamSourceLab DSLogic Plus|[[File:Nuvola OK.png|16px]] <small>[[DreamSourceLab DSLogic Plus]] (16ch, 400MHz)</small><br />
File:DSLogic.png|link=DreamSourceLab DSLogic Pro|[[File:Nuvola OK.png|16px]] <small>[[DreamSourceLab DSLogic Pro]] (16ch, 400MHz)</small><br />
File:Eeelec xla esla100.png|link=EE Electronics ESLA100|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA100]] (8ch, 24MHz)</small><br />
File:Chronovu la8 ftdi ft245rl.jpg|link=FTDI-LA|[[File:Nuvola OK.png|16px]] <small>[[FTDI-LA]] (8ch, ~10MHz)</small><br />
File:Hantek 4032l mugshot.png|link=Hantek 4032L|[[File:Nuvola OK.png|16px]] <small>[[Hantek 4032L]] (32ch, 400MHz)</small><br />
File:Hantek 6022be mugshot.png|link=Hantek 6022BL|[[File:Nuvola OK.png|16px]] <small>[[Hantek 6022BL]] (8ch, 24MHz)</small><br />
File:Hobby components hctest0006 mugshot.png|link=Hobby Components HCTEST0006|[[File:Nuvola OK.png|16px]] <small>[[Hobby Components HCTEST0006]] (8ch, 24MHz)</small><br />
File:Ikalogic_scanalogic2.png|link=IKALOGIC Scanalogic-2|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC Scanalogic-2]] (4ch, 20MHz)</small><br />
File:Ikalogic scanaplus mugshot.png|link=IKALOGIC ScanaPLUS|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC ScanaPLUS]] (9ch, 100MHz)</small><br />
File:Kingst kqs3506 la16100.png|link=KingST KQS3506-LA16100|[[File:Nuvola OK.png|16px]] <small>[[KingST KQS3506-LA16100]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Lcsoft-miniboard-front.png|link=Lcsoft Mini Board|[[File:Nuvola OK.png|16px]] <small>[[Lcsoft Mini Board]] (8/16ch, 24/12MHz)</small><br />
File:Lecroy logicstudio16 mugshot.png|link=LeCroy LogicStudio|[[File:Nuvola OK.png|16px]] <small>[[LeCroy LogicStudio]] (8/16ch, 1GHz/500MHz)</small><br />
File:logic-shrimp-front.png|link=Logic Shrimp|[[File:Nuvola OK.png|16px]] <small>[[Logic Shrimp]] (4ch, 20MHz)</small><br />
File:Mcu123 saleae logic clone.png|link=MCU123 Saleae Logic clone|[[File:Nuvola OK.png|16px]] <small>[[MCU123 Saleae Logic clone]] (8ch, 24MHz)</small><br />
File:Meilhaus logian 16l mugshot.png|link=Meilhaus Logian-16L|[[File:Nuvola OK.png|16px]] <small>[[Meilhaus Logian-16L]] (16ch, 200MHz)</small><br />
File:Microchip_pickit2.png|link=Microchip PICkit2|[[File:Nuvola OK.png|16px]] <small>[[Microchip PICkit2]] (3ch, 1MHz)</small><br />
File:Usbee_ax_clone_front.png|link=MCU123 USBee AX Pro clone|[[File:Nuvola OK.png|16px]] <small>[[MCU123 USBee AX Pro clone]] (8ch, 24MHz)</small><br />
File:Mcupro_Logic16_overview.png|link=mcupro Logic16 clone|[[File:Nuvola OK.png|16px]] <small>[[mcupro Logic16 clone]] (16ch, 100MHz)</small><br />
File:Openbench logic sniffer front.png|link=Openbench Logic Sniffer|[[File:Nuvola OK.png|16px]] <small>[[Openbench Logic Sniffer]] (32ch, 100MHz)</small><br />
File:Prist akip 9101 mugshot.png|link=Prist AKIP-9101|[[File:Nuvola OK.png|16px]] <small>[[Prist AKIP-9101]] (16ch, 200MHz)</small><br />
File:Robomotic buglogic3.png|link=Robomotic BugLogic 3|[[File:Nuvola OK.png|16px]] <small>[[Robomotic BugLogic 3]] (8ch, 24MHz)</small><br />
File:Robomotic_minilogic.png|link=Robomotic MiniLogic|[[File:Nuvola OK.png|16px]] <small>[[Robomotic MiniLogic]] (8ch, 24MHz)</small><br />
File:Saleae Logic.png|link=Saleae Logic|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic]] (8ch, 24MHz)</small><br />
File:Saleae_Logic16_bottom.png|link=Saleae Logic16|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Saanlima Pipistrello-OLS.png|link=Saanlima Pipistrello OLS|[[File:Nuvola OK.png|16px]] <small>[[Saanlima Pipistrello OLS]] (32ch, 100MHz)</small><br />
File:Sysclk lwla1016.png|link=Sysclk LWLA1016|[[File:Nuvola OK.png|16px]] <small>[[Sysclk LWLA1016]] (16ch, 100MHz)</small><br />
File:Sysclk lwla1034 mugshot.png|link=Sysclk LWLA1034|[[File:Nuvola OK.png|16px]] <small>[[Sysclk LWLA1034]] (34ch, 125MHz)</small><br />
File:Sysclk sla5032 mugshot.png|link=Sysclk SLA5032|[[File:Nuvola OK.png|16px]] <small>[[Sysclk SLA5032]] (32ch, 500MHz)</small><br />
File:VKTECH_thumb.jpg|link=VKTECH_saleae_clone|[[File:Nuvola OK.png|16px]] <small>[[VKTECH_saleae_clone|VKTECH saleae clone]] (8ch, 24MHz)</small><br />
File:Wayengineer saleae16.png|link=WayEngineer Saleae16|[[File:Nuvola OK.png|16px]] <small>[[WayEngineer Saleae16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Zeroplus Logic Cube.png|link=ZEROPLUS Logic Cube LAP-C(16032)|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(16032)]] (16ch, 100MHz)</small><br />
File:Zeroplus Logic Cube.png|link=ZEROPLUS Logic Cube LAP-C(322000)|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(322000)]] (32ch, 200MHz)</small><br />
File:Zeroplus_lap-16128u.png|link=ZEROPLUS LAP-16128U|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS LAP-16128U]] (16ch, 200MHz)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Acute_pkla1216.png|link=Acute PKLA-1216|[[File:Nuvola Red.png|16px]] <small>[[Acute PKLA-1216]] (16ch, 200MHz)</small><br />
File:Arduino_Uno-R3.jpg|link=Arduino|[[File:Nuvola Orange.png|16px]] <small>[[Arduino]] (6ch, 4MHz)</small><br />
File:ASIX Omega.png|link=ASIX OMEGA|[[File:Nuvola Red.png|16px]] <small>[[ASIX OMEGA]] (16ch, 400MHz)</small><br />
File:IMG 20191206 105430.jpg|link=CoLA|[[File:Nuvola Red.png|16px]] <small>[[CoLA]] (96/48/24ch, 25/50/100MHz)</small><br />
File:Hsa-logic.png|link=HSA Logic|[[File:Nuvola Red.png|16px]] <small>[[HSA Logic]] (8ch, 6.25MHz)</small><br />
File:Ideofy_la_08.png|link=Ideofy LA-08|[[File:Nuvola Red.png|16px]] <small>[[Ideofy LA-08]] (8ch, 96/60/30MHz @ 2/4/8ch)</small><br />
File:Intronix Logicport.png|link=Intronix Logicport LA1034|[[File:Nuvola Red.png|16px]] <small>[[Intronix Logicport LA1034]] (34ch, 500MHz)</small><br />
File:Kingst la2016 mugshot.png|link=Kingst LA2016|[[File:Nuvola Red.png|16px]] <small>[[Kingst LA2016]] (16ch, 200MHz)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Link Instruments LA-5580|[[File:Nuvola Red.png|16px]] <small>[[Link Instruments LA-5580]] (80ch, 500MHz)</small><br />
File:Minila parport.png|link=MiniLA|[[File:Nuvola Red.png|16px]] <small>[[MiniLA]] (32ch, 100MHz)</small><br />
File:Minila_mockup.png|link=MiniLA Mockup|[[File:Nuvola Red.png|16px]] <small>[[MiniLA Mockup]] (32ch, 100MHz)</small><br />
File:Noname_la16_mugshot.png|link=Noname LA16|[[File:Nuvola Red.png|16px]] <small>[[Noname LA16]] (16ch, 100MHz)</small><br />
File:Noname xl logic16 100m mugshot.png|link=Noname XL-LOGIC16-100M|[[File:Nuvola Orange.png|16px]] <small>[[Noname XL-LOGIC16-100M]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Rockylogic_ant8.png|link=RockyLogic Ant8|[[File:Nuvola Red.png|16px]] <small>[[RockyLogic Ant8]] (8ch, 500MHz)</small><br />
File:RockyLogic Ant18e.png|link=RockyLogic Ant18e|[[File:Nuvola Red.png|16px]] <small>[[RockyLogic Ant18e]] (8ch, 1GHz)</small><br />
File:Sysclk lwla2034 mugshot.png|link=Sysclk LWLA2034|[[File:Nuvola Red.png|16px]] <small>[[Sysclk LWLA2034]] (34ch, 200MHz)</small><br />
File:Techtools_digiview_dv1-100.png|link=TechTools DigiView DV1-100|[[File:Nuvola Red.png|16px]] <small>[[TechTools DigiView DV1-100]] (18ch, 100MHz)</small><br />
File:Tektronix TLA5204 1000.png|link=Tektronix TLA520X|[[File:Nuvola Red.png|16px]] <small>[[Tektronix TLA520X]] (128ch, 2Ghz)</small><br />
File:Xmos xtag2.png|link=XMOS XTAG-2|[[File:Nuvola Red.png|16px]] <small>[[XMOS XTAG-2]] (?ch, 50MHz)</small><br />
File:Zlg_la1032.png|link=ZLG LA1032|[[File:Nuvola Red.png|16px]] <small>[[ZLG LA1032]] (32ch, 100MHz)</small><br />
</gallery><br />
<br />
== Mixed-signal devices ==<br />
<br />
<gallery widths=105px heights=105px><br />
File:Armfly_ax_pro.png|link=ARMFLY AX-Pro|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY AX-Pro]] (8ch, 24MHz; 1ch analog, 3MHz BW)</small><br />
File:Sysclk ax pro mugshot.png|link=Sysclk AX-Pro|[[File:Nuvola OK.png|16px]] <small>[[Sysclk AX-Pro]] (8ch, 24MHz; 1ch analog, 3MHz BW)</small><br />
File:Esla201a.png|link=EE Electronics ESLA201A|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA201A]] (8ch, 24MHz; 1ch analog, 3MHz BW)</small><br />
File:Ht usbee axpro v5 mugshot.png|link=HT USBee-AxPro|[[File:Nuvola OK.png|16px]] <small>[[HT USBee-AxPro]] (8ch, 24MHz; 1ch analog, 3MHz BW)</small><br />
File:LeCroy_WaveSurfer_24Xs-A_front.png|link=LeCroy oscilloscope series|[[File:Nuvola OK.png|16px]] <small>[[LeCroy oscilloscope series]] (various)</small><br />
File:Noname lht00su1 mugshot.png|link=Noname LHT00SU1|[[File:Nuvola OK.png|16px]] <small>[[Noname LHT00SU1]] (8ch, 24MHz; 1ch analog, 3MHz BW)</small><br />
File:Rigol DS1052E.png|link=Rigol DS1000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000 series|Rigol DS1000D series]] (16ch, 2ch analog, 50-150MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Rigol DS4000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS4000 series]] (0/16ch , 2-4ch analog, 2-4GS/s, 100MHz/200MHz/350MHz/500MHz BW)</small><br />
File:Rigol_VS5202D.png|link=Rigol VS5000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol VS5000 series|Rigol VS5000D series]] (16ch, 2ch analog, 20-200MHz BW)</small><br />
File:RS HMO1002.png|link=Rohde&Schwarz HMO1002 series|[[File:Nuvola OK.png|16px]] <small>[[Rohde&Schwarz HMO1002 series]] (2ch, 1GS/s, 50-100MHz BW)</small><br />
File:HMO3000.jpg|link=Rohde&Schwarz HMO3000 series|[[File:Nuvola OK.png|16px]] <small>[[Rohde&Schwarz HMO 3000 series]] (16ch, 2/4ch analog, 4GS/s, 300-500MHz BW)</small><br />
File:RTA4000.jpg|link=Rohde&Schwarz RT series|[[File:Nuvola OK.png|16px]] <small>[[Rohde&Schwarz RT series]] (8/16ch, 2/4ch analog, 2-5GS/s, 50MHz-1GHz BW)</small><br />
File:Saleae Logic Pro 16 bottom.jpg|link=Saleae Logic Pro 16|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic Pro 16]] (4/16ch, 500/100MHz; 16ch analog, 50MSa/s, 5MHz BW)</small><br />
File:Siglent_SDS1202X-E_front.png|link=Siglent SDS1000X series|[[File:Nuvola OK.png|16px]] <small>[[Siglent SDS1000X series]] (16ch, 2ch analog, 1GSa/s, 200/100MHz BW)</small><br />
File:sds2304x-mugshot.png|link=Siglent SDS2000X series|[[File:Nuvola OK.png|16px]] <small>[[Siglent SDS2000X series]] (16ch, 2/4ch analog, 2GSa/s, 300/200/150/100/70MHz BW)</small><br />
File:Yokogawa DLM2000 front.png|link=Yokogawa DLM2000 series|[[File:Nuvola OK.png|16px]] <small>[[Yokogawa DLM2000 series]] (8ch, 2/4ch analog, 2.5GSa/s, 200/350/500MHz BW)</small><br />
File:Xzl studio ax mugshot.png|link=XZL_Studio AX|[[File:Nuvola OK.png|16px]] <small>[[XZL_Studio AX]] (8ch, 24MHz; 1ch analog, 3MHz BW)</small><br />
File:Xzl studio-dx mugshot.png|link=XZL_Studio DX|[[File:Nuvola OK.png|16px]] <small>[[XZL_Studio DX]]<br/> (16ch, 24MHz; 2ch analog),<br />Analog not supported</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Agilent_MSO7104A.png|link=Agilent MSO7104A|[[File:Nuvola Red.png|16px]] <small>[[Agilent MSO7104A]] (16ch, ?; 4ch analog, 2GSa/s, 1GHz BW)</small><br />
File:BitScope BS10.png|link=BitScope BS10|[[File:Nuvola Red.png|16px]] <small>[[BitScope BS10]] (8ch, 40MHz; 2ch analog, 20MSa/s, ? BW)</small><br />
File:Digilent_analog_discovery.png|link=Digilent Analog Discovery|[[File:Nuvola Red.png|16px]] <small>[[Digilent Analog Discovery]] (16ch, 100MHz; 2ch analog, 100MSa/s, 5MHz BW)</small><br />
File:Hantek_1008C.png|link=Hantek 1008C|[[File:Nuvola Red.png|16px]] <small>[[Hantek 1008C]] (8ch)</small><br />
File:Ht usbee dxpro mugshot.png|link=HT USBee-DxPro|[[File:Nuvola Red.png|16px]] <small>[[HT USBee-DxPro]] (16ch, 24MHz; 2ch analog)</small><br />
File:Lab nation smartscope mugshot.png|link=LabNation SmartScope|[[File:Nuvola Red.png|16px]] <small>[[LabNation SmartScope]] (8ch, 100MHz; 2ch analog, 100MSa/s, 45MHz BW)</small><br />
File:Link Instruments MSO-19 front.png|link=Link Instruments MSO-19|[[File:Nuvola Red.png|16px]] <small>[[Link Instruments MSO-19]] (8ch, 200MHz; 1ch analog, 200MSa/s, 60MHz BW)</small><br />
File:Meilhaus_mephisto_scope1.png|link=Meilhaus MEphisto Scope1|[[File:Nuvola Red.png|16px]] <small>[[Meilhaus MEphisto Scope1]] (16ch, 100kHz; 2ch analog, 1MSa/s, 500kHz BW)</small><br />
File:Polabs_poscope_basic2.png|link=PoLabs PoScope Basic2|[[File:Nuvola Red.png|16px]] <small>[[PoLabs PoScope Basic2]] (16ch, 8MHz; 2ch analog, 200kSa/s, ? BW)</small><br />
File:QuantAsylum QA100.png|link=QuantAsylum QA100|[[File:Nuvola Red.png|16px]] <small>[[QuantAsylum QA100]] (12ch; 2ch analog)</small><br />
File:Saleae_Logic8_case_bottom.jpg|link=Saleae Logic8|[[File:Nuvola Red.png|16px]] <small>[[Saleae Logic8]] (3/6/7/8ch, 100/50/40/25MHz; 8ch analog, 10MSa/s, 1MHz BW)</small><br />
File:Saleae_logic_pro_8-bottom.png|link=Saleae Logic Pro 8|[[File:Nuvola Red.png|16px]] <small>[[Saleae Logic Pro 8]] (4/8ch, 500/100MHz; 8ch analog, 50MSa/s, 5MHz BW)</small><br />
File:Picoscope 3205D MSO fp.jpg|link=Pico Technology PicoScope 3205D MSO|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 3205D MSO]] (16ch, 100MHz; 2ch analog, 1/0.5GS/s, 100MHz BW)</small><br />
File:DSO3254A.jpg|link=Hantek DSO3254A|[[File:Nuvola Red.png|16px]] <small>[[Hantek DSO3254A]] (16ch, 250MHz; 4ch analog, 1GS/s, 250MHz BW; 1 ch func/arb generator, 200MHz)</small><br />
<br />
</gallery><br />
<br />
== Oscilloscopes ==<br />
<br />
<gallery widths=100px heights=100px><br />
File:Agilent DSO1014A.png|link=Agilent DSO1000 series|[[File:Nuvola OK.png|16px]] <small>[[Agilent DSO1000 series]] (2-4ch, 2GS/s, 60-200MHz BW)</small><br />
File:Fluke_Scopemeter_199B.png|link=Fluke ScopeMeter 199B|[[File:Nuvola OK.png|16px]] <small>[[Fluke ScopeMeter 199B]] (2ch, 2.5GS/s, 200MHz BW)</small><br />
File:Voltcraft dso-6060c mugshot.png|link=GW Instek GDS-800 series|[[File:Nuvola OK.png|16px]] <small>[[GW Instek GDS-800 series]] (2ch, 25GS/s, 60-250MHz BW)</small><br />
File:Hameg HMO2024.png|link=Hameg HMO compact series|[[File:Nuvola OK.png|16px]] <small>[[Hameg HMO compact series]] (2-4ch, 2GS/s, 70-200MHz BW)</small><br />
File:Hantek 6022be mugshot.png|link=Hantek 6022BE|[[File:Nuvola OK.png|16px]] <small>[[Hantek 6022BE]] (2ch, 48MS/s, 20MHz BW)</small><br />
File:Hantek DSO-2090.png|link=Hantek DSO-2090|[[File:Nuvola OK.png|16px]] <small>[[Hantek DSO-2090]] (2ch, 100MS/s, 40MHz)</small><br />
File:Hung chang dso 2100 mugshot.png|link=Hung-Chang_DSO-2100|[[File:Nuvola OK.png|16px]] <small>[[Hung-Chang DSO-2100]] (2ch, 100MS/s, 30MHz BW)</small><br />
File:Rigol DS1052E.png|link=Rigol DS1000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000 series|Rigol DS1000E series]] (2ch, 1GS/s, 50-150MHz BW)</small><br />
File:Rigol DS1074Z front.png|link=Rigol DS1000Z series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000Z series|Rigol DS1000Z series]] (4ch, 1GS/s, 50-100MHz BW)</small><br />
File:Rigol-ds2072 mugshot.png|link=Rigol DS2000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS2000 series]] (2ch, 2GS/s, 70-200MHz BW)</small><br />
File:Rigol_VS5202D.png|link=Rigol VS5000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol VS5000 series]] (2ch, 20-200MHz BW)</small><br />
File:Rocktech bm102 mugshot.png|link=Rocktech BM102|[[File:Nuvola OK.png|16px]] <small>[[Rocktech BM102]] (2ch, 50MS/s, 20MHz BW)</small><br />
File:Dds120 mugshot.png|link=SainSmart DDS120|[[File:Nuvola OK.png|16px]] <small>[[SainSmart DDS120]] (2ch, 50MS/s, 20MHz BW)</small><br />
File:YiXingDianZi-MDSO.png|link=YiXingDianZi MDSO|[[File:Nuvola OK.png|16px]] <small>[[YiXingDianZi MDSO]] (2ch, 48MS/s, 20MHz BW)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Dreamsourcelab dscope c20p front.jpg|link=DreamSourceLab DScope C20P|[[File:Nuvola Red.png|16px]] <small>[[DreamSourceLab DScope C20P]] (2ch, 200MS/s, 50MHz BW)</small><br />
File:Fluke scopemeter123.png|link=Fluke ScopeMeter 123|[[File:Nuvola Red.png|16px]] <small>[[Fluke ScopeMeter 123]] (2ch, 25MS/s, 20MHz BW)</small><br />
File:Focussz_fosc21_mugshot.png|link=Focussz Fosc21|[[File:Nuvola Red.png|16px]] <small>[[Focussz Fosc21]] (2ch, 8kS/s, 3kHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=GW Instek GDS-2000 series|[[File:Nuvola Red.png|16px]] <small>[[GW Instek GDS-2000 series]] (2ch, 1GS/s, 60MHz/100MHz/200MHz BW)</small><br />
File:Hantek front.jpg|link=Hantek 6052BE|[[File:Nuvola Red.png|16px]] <small>[[Hantek 6052BE]] (2ch, 150MS/s, 50MHz BW)</small><br />
File:Hantek 6254bd mugshot.png|link=Hantek 6254BD|[[File:Nuvola Red.png|16px]] <small>[[Hantek 6254BD]] (4ch, 1GS/s, 250MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Hantek DSO-1200|[[File:Nuvola Red.png|16px]] <small>[[Hantek DSO-1200]] (2ch, 500MS/s, 200MHz BW)</small><br />
File:Hantek_DSO_2100_usb.jpg|link=Hantek DSO-2100|[[File:Nuvola Red.png|16px]] <small>[[Hantek DSO-2100]] (2ch, 100M/s, 30MHz BW)</small><br />
File:Hantek_PSO2020_0.JPG|link=Hantek PSO2020|[[File:Nuvola Red.png|16px]] <small>[[Hantek PSO2020]] (1ch, 96MS/s, 20MHz BW)</small><br />
File:Hantek dso2250 mugshot.png|link=Hantek DSO-2250|[[File:Nuvola Red.png|16px]] <small>[[Hantek DSO-2250]] (2ch, 250MS/s, 100MHz BW)</small><br />
File:Hantek dso-5200a device front.png|link=Hantek DSO-5200A|[[File:Nuvola Red.png|16px]] <small>[[Hantek DSO-5200A]] (2ch, 250MS/s, 200MHz BW)</small><br />
File:Hantek iDSO1070A.JPG|link=Hantek iDSO1070|[[File:Nuvola Red.png|16px]] <small>[[Hantek iDSO1070]] (2ch, 250MS/s, 70MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Hantek iDSO1070A|[[File:Nuvola Red.png|16px]] <small>[[Hantek iDSO1070A]] (2ch, 125MS/s, 70MHz BW)</small><br />
File:Usbduxfast.png|link=Incite Technology USB-DUXfast|[[File:Nuvola Red.png|16px]] <small>[[Incite Technology USB-DUXfast]] (16ch, 3MHz, ? BW)</small><br />
File:Instrustar-IDS205A CaseFront.jpg|link=Instrustar ISDS205A|[[File:Nuvola Red.png|16px]] <small>[[Instrustar_ISDS205A]] (2ch, 48MS/s, 20MHz BW)</small><br />
File:Loto_OSC802.jpg|link=Loto OSC802|[[File:Nuvola Red.png|16px]] <small>[[Loto OSC802]] (2ch, 80MS/s, 20MHz BW)</small><br />
File:OsciPrime.png|link=Nexus-Computing OsciPrime|[[File:Nuvola Red.png|16px]] <small>[[Nexus-Computing OsciPrime]] (2ch, ?MS/s, 3.3MHz-8MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Owon SDS series|[[File:Nuvola Red.png|16px]] <small>[[Owon SDS series]] (2ch, 0.5-3.2GS/s, 60-300MHz BW)</small><br />
File:Picoscope 2203.png|link=Pico Technology PicoScope 2203|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2203]] (40/20MS/s, 5MHz BW)</small><br />
File:Picoscope 2204A.png|link=Pico Technology PicoScope 2204A|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2204A]] (100MS/s, 10MHz BW)</small><br />
File:PicoScope_2205.png|link=Pico Technology PicoScope 2205|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2205]] (200/100MS/s, 25MHz BW)</small><br />
File:Picoscope 3206.png|link=Pico Technology PicoScope 3206|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 3206]] (200/100MS/s, 200MHz BW)</small><br />
File:Picoscope 5203.png|link=Pico Technology PicoScope 5203|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 5203]] (1/0.5GS/s, 250MHz BW)</small><br />
File:Sainsmart dds140 mugshot.png|link=SainSmart DDS140|[[File:Nuvola Red.png|16px]] <small>[[SainSmart DDS140]] (2ch, 200MS/s, 40MHz BW)</small><br />
File:Tektronix tds2024b mugshot.png|link=Tektronix TDS2000B series|[[File:Nuvola Red.png|16px]] <small>[[Tektronix TDS2000B series]] (2-4ch, 1-2GS/s, 60-200MHz BW)</small><br />
File:UNI-T UTD2042C.png|link=UNI-T UTD2042C|[[File:Nuvola Red.png|16px]] <small>[[UNI-T UTD2042C]] (2ch, 500MS/s, 40MHz BW)</small><br />
File:Velleman PCSU1000.png|link=Velleman PCSU1000|[[File:Nuvola Red.png|16px]] <small>[[Velleman PCSU1000]] (2ch, 1GS/s, 50MHz BW)</small><br />
File:VellemanWFS210.png|link=Velleman WFS210|[[File:Nuvola Red.png|16px]] <small>[[Velleman WFS210]] (2ch, 10MS/s, ?? MHz BW)</small><br />
File:Voltcraft dso-220 usb.png|link=Voltcraft DSO-220|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DSO-220]] (2ch, 60MS/s, 20MHz BW)</small><br />
File:Voltcraft DSO-3062C.png|link=Voltcraft DSO-3062C|[[File:Nuvola Orange.png|16px]] <small>[[Voltcraft DSO-3062C]] (2ch, 1GS/s, 60MHz BW)</small><br />
</gallery><br />
<br />
== Multimeters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Agilent_34405A.png|link=Agilent_34405A|[[file:Nuvola OK.png|16px]] <small>[[Agilent 34405A]] (120000 counts, USB TMC)</small><br />
File:Agilent U1232A.png|link=Agilent U12xxx series|[[File:Nuvola OK.png|16px]] <small>[[Agilent U12xxx series]] (USB/Bluetooth)</small><br />
File:Bbc gm m2110 mugshot.png|link=BBC Goertz Metrawatt M2110|[[File:Nuvola OK.png|16px]] <small>[[BBC Goertz Metrawatt M2110]] (30000 counts, RS232)</small><br />
File:Brymen BM257.png|link=Brymen BM257|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM257]] (6000 counts, RS232/USB)</small><br />
File:Brymen bm257s mugshot.png|link=Brymen BM257s|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM257s]] (6000 counts, RS232/USB)</small><br />
File:Bm_857_mugshot_500000.png|link=Brymen BM857|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM857]] (50000 counts, RS232)</small><br />
File:Bm869_mugshot.png|link=Brymen BM869|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM869]] (50000 counts, USB)</small><br />
File:Digitek_dt4000zc_device_front.png|link=Digitek DT4000ZC|[[File:Nuvola OK.png|16px]] <small>[[Digitek DT4000ZC]] (4000 counts, RS232)</small><br />
File:Eevblog 121gw mugshot.png|link=EEVBlog 121GW|[[File:Nuvola OK.png|16px]] <small>[[EEVBlog 121GW]] (50000 counts, BLE, SD)</small><br />
File:Fluke 187.png|link=Fluke 187/189|[[File:Nuvola OK.png|16px]] <small>[[Fluke 187/189]] (50000 counts, RS232)</small><br />
File:Fluke 287.png|link=Fluke 287/289|[[File:Nuvola OK.png|16px]] <small>[[Fluke 287/289]] (50000 counts, RS232)</small><br />
File:Fluke_45_mugshot.png|link=Fluke 45|[[File:Nuvola OK.png|16px]] <small>[[Fluke 45]] (100000 counts, GPIB/RS232)</small><br />
File:Gmc metrahit 14a logo.png|link=Gossen Metrawatt Metrahit 14A|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 14A]] (3100 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 16I small.png|link=Gossen Metrawatt Metrahit 16I|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 16I]] (3100 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 18S small.png|link=Gossen Metrawatt Metrahit 18S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 18S]] (31000 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 25S Logo.png|link=Gossen Metrawatt Metrahit 25S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 25S]] (31000 counts, RS232/USB)</small><br />
File:Gmc metrahit 29s logo.png|link=Gossen Metrawatt Metrahit 29S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 29S]] (310000 counts, RS232/USB)</small><br />
File:Gmc kmm2002 logo.png|link=Gossen Metrawatt T-Com KMM2002|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt T-Com KMM2002]] (3100 counts, RS232)</small><br />
File:HP_3457a_sigrok_teaser.png|link=HP 3457A|[[File:Nuvola OK.png|16px]] <small>[[HP 3457A]] (7.5 digits, GPIB)</small><br />
File:Hp3478a mugshot.png|link=HP 3478A|[[File:Nuvola OK.png|16px]] <small>[[HP 3478A]] (5.5 digits, GPIB)</small><br />
File:HT410 logo.png|link=HT Instruments HT410|[[File:Nuvola OK.png|16px]] <small>[[HT Instruments HT410]] (3100 counts, RS232)</small><br />
File:100px_Idm103n.png|link=ISO-TECH IDM103N|[[File:Nuvola OK.png|16px]] <small>[[ISO-TECH IDM103N]] (4000 counts, RS232)</small><br />
File:keysight-34465a-mugshot.png|link=Keysight 34465A|[[File:Nuvola OK.png|16px]] <small>[[Keysight 34465A]] (1200000 counts, LAN/USB/GPIB)</small><br />
File:Mastech mas345 device front.png|link=MASTECH MAS345|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MAS345]] (4000 counts, RS232)</small><br />
File:Mastech_ms2115b_mugshot.png|link=MASTECH MS2115B|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MS2115B]] (6000 counts, USB)</small><br />
File:Mastech ms8250b mugshot.png|link=MASTECH MS8250B|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MS8250B]] (4000 counts, USB)</small><br />
File:Mastech ms8250d mugshot.png|link=MASTECH MS8250D|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MS8250D]] (6600 counts, USB)</small><br />
File:Metex M3850M mugshot.png|link=Metex M-3850M|[[File:Nuvola OK.png|16px]] <small>[[Metex M-3850M]] (4000 counts, RS232)</small><br />
File:Metex m4650cr mugshot.png|link=Metex M-4650CR|[[File:Nuvola OK.png|16px]] <small>[[Metex M-4650CR]] (20000 counts, RS232)</small><br />
File:Metex_me-31.png|link=Metex ME-31|[[File:Nuvola OK.png|16px]] <small>[[Metex ME-31]] (4000 counts, RS232)</small><br />
File:Metrix mx56c.png|link=Metrix MX56C|[[File:Nuvola OK.png|16px]] <small>[[Metrix MX56C]] (50000 counts, RS232)</small><br />
File:Mooshimeter_mugshot.png|link=Mooshim Engineering Mooshimeter|[[File:Nuvola OK.png|16px]] <small>[[Mooshim Engineering Mooshimeter]] (24bit, BLE)</small><br />
File:Norma dm950.png|link=Norma DM950|[[File:Nuvola OK.png|16px]] <small>[[Norma DM950]] (21000 counts, RS232)</small><br />
File:Pce-pce-dm32.png|link=PCE PCE-DM32|[[File:Nuvola OK.png|16px]] <small>[[PCE PCE-DM32]] (4000 counts, RS232)</small><br />
File:Peaktech 3330 mugshot.png|link=PeakTech 3330|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 3330]] (4000 counts, RS232/USB)</small><br />
File:Metex_me-31.png|link=PeakTech 3410|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 3410]] (4000 counts, RS232)</small><br />
File:Peaktech3415_top.png|link=PeakTech 3415|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 3415]] (6000 counts, USB)</small><br />
File:Peaktech 4370 device front.png|link=PeakTech 4370|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 4370]] (2000 counts, RS232)</small><br />
File:Peaktech 4390a metex m-3860m mugshot.png|link=PeakTech 4390A|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 4390A]] (4000 counts, RS232)</small><br />
File:Rs_22_168_mugshot.png|link=RadioShack 22-168|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-168]] (2000 counts, RS232)</small><br />
File:Rs_22-805_front.png|link=RadioShack 22-805|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-805]] (4000 counts, RS232)</small><br />
File:radioshack_22_812_front.png|link=RadioShack 22-812|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-812]] (4000 counts, RS232)</small><br />
File:siemens_b1026_logo.png|link=Siemens B1026|[[File:Nuvola OK.png|16px]] <small>[[Siemens B1026]] (21000 counts, RS232)</small><br />
File:Siemens B1105 small.png|link=Siemens B1105|[[File:Nuvola OK.png|16px]] <small>[[Siemens B1105]] (310000 counts, RS232/USB)</small><br />
File:Sparkfun 70c mugshot.png|link=SparkFun 70C|[[File:Nuvola OK.png|16px]] <small>[[SparkFun 70C]] (6000 counts, USB)</small><br />
File:Tecpel dmm8061.png|link=Tecpel DMM-8061|[[File:Nuvola OK.png|16px]] <small>[[Tecpel DMM-8061]] (4000 counts, RS232/USB)</small><br />
File:Tp4000zc_front.png|link=TekPower TP4000ZC|[[File:Nuvola OK.png|16px]] <small>[[TekPower TP4000ZC]] (4000 counts, RS232)</small><br />
File:Tenma 72-7730.png|link=Tenma 72-7730|[[File:Nuvola OK.png|16px]] <small>[[Tenma 72-7730]] (20000 counts, RS232/USB)</small><br />
File:Tenma 72-7732.png|link=Tenma 72-7732|[[File:Nuvola OK.png|16px]] <small>[[Tenma 72-7732]] (40000 counts, RS232/USB)</small><br />
File:Tenma 72-7745.png|link=Tenma 72-7745|[[File:Nuvola OK.png|16px]] <small>[[Tenma 72-7745]] (4000 counts, RS232/USB)</small><br />
File:Tenma 72-7750.png|link=Tenma 72-7750|[[File:Nuvola OK.png|16px]] <small>[[Tenma 72-7750]] (6000 counts, RS232/USB)</small><br />
File:Tenma 72-9380A.png|link=Tenma 72-9380A|[[File:Nuvola OK.png|16px]] <small>[[Tenma 72-9380A]] (40000 counts, RS232/USB)</small><br />
File:Ut60e_-_front_-_alpha.png|link=UNI-T UT60E|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT60E]] (4000 counts, RS232/USB)</small><br />
File:Uni-t ut61b mugshot.png|link=UNI-T UT61B|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61B]] (4000 counts, RS232/USB)</small><br />
File:Uni-t ut61c mugshot.png|link=UNI-T UT61C|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61C]] (6000 counts, RS232/USB)</small><br />
File:Uni t ut61d device.png|link=UNI-T UT61D|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61D]] (6000 counts, RS232/USB)</small><br />
File:Old ver front.png|link=UNI-T UT61E|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61E]] (22000 counts, RS232/USB)</small><br />
File:Ut71c mugshot.png|link=UNI-T UT71C|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT71C]] (40000 counts, RS232/USB)</small><br />
File:Va_va18b.png|link=V&A VA18B|[[File:Nuvola OK.png|16px]] <small>[[V&A VA18B]] (6000 counts, USB)</small><br />
File:Va va40b mugshot.png|link=V&A VA40B|link=V&A VA40B|[[File:Nuvola OK.png|16px]] <small>[[V&A VA40B]] (6000 counts, USB)</small><br />
File:DVM4100.png|link=Velleman DVM4100|link=Velleman DVM4100|[[File:Nuvola OK.png|16px]] <small>[[Velleman DVM4100]] (6000 counts, USB)</small><br />
File:Victor 70C.png|link=Victor 70C|[[File:Nuvola OK.png|16px]] <small>[[Victor 70C]] (4000 counts, USB)</small><br />
File:Victor 86c device front.png|link=Victor 86C|[[File:Nuvola OK.png|16px]] <small>[[Victor 86C]] (4000 counts, USB)</small><br />
File:Voltcraft m-3650cr.png|link=Voltcraft M-3650CR|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-3650CR]] (2000 counts, RS232)</small><br />
File:Voltcraft_M-3650D_transparent.png|link=Voltcraft M-3650D|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-3650D]] (2000 counts, RS232)</small><br />
File:Voltcraft m4650cr.png|link=Voltcraft M-4650CR|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-4650CR]] (20000 counts, RS232)</small><br />
File:Voltcraft ME-42 logo.png|link=Voltcraft ME-42|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft ME-42]] (4000 counts, RS232)</small><br />
File:Voltcraft vc820 device.png|link=Voltcraft VC-820|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-820]] (4000 counts, RS232/USB)</small><br />
File:Voltcraft vc830.png|link=Voltcraft VC-830|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-830]] (6000 counts, RS232/USB)</small><br />
File:Voltcraft vc840 device front.png|link=Voltcraft VC-840|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-840]] (4000 counts, RS232/USB)</small><br />
File:Voltcraft vc870 mugshot.png|link=Voltcraft VC-870|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-870]] (40000 counts, RS232/USB)</small><br />
File:Voltcraft vc920.png|link=Voltcraft VC-920|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-920]] (40000/4000 counts, RS232/USB)</small><br />
File:Voltcraft vc940.png|link=Voltcraft VC-940|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-940]] (40000/4000 counts, RS232/USB)</small><br />
File:Voltcraft vc96 mugshot.png|link=Voltcraft VC-96|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-96]] (4000 counts, RS232)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Appa 107.png|link=APPA 107|[[File:Nuvola Red.png|16px]] <small>[[APPA 107]] (4000 / 20000 counts, RS232)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=CEM DT-987BT|[[File:Nuvola Red.png|16px]] <small>[[CEM DT-987BT]] (50000 counts, BLE)</small><br />
File:Digitek dt8000.png|link=Digitek DT8000|[[File:Nuvola Red.png|16px]] <small>[[Digitek DT8000]] (8000 counts, RS232)</small><br />
File:Digitek dt80000.png|link=Digitek DT80000|[[File:Nuvola Red.png|16px]] <small>[[Digitek DT80000]] (80000 counts, RS232)</small><br />
File:Escort 179 device front.png|link=Escort 179|[[File:Nuvola Red.png|16px]] <small>[[Escort 179]] (10000 counts, RS232)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Gossen Metrawatt Metrahit 28C|[[File:Nuvola Red.png|16px]] <small>[[Gossen Metrawatt Metrahit 28C]] (310000 counts, RS232/USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Gossen Metrawatt Metrahit 28S|[[File:Nuvola Red.png|16px]] <small>[[Gossen Metrawatt Metrahit 28S]] (310000 counts, RS232/USB)</small><br />
File:Gossen metrahit 30m.png|link=Gossen-Metrawatt METRAHIT 30M|[[File:Nuvola Red.png|16px]] <small>[[Gossen-Metrawatt METRAHIT 30M]] (1200000 counts, RS232/USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Gossen Metrawatt Metrahit X-Tra|[[File:Nuvola Red.png|16px]] <small>[[Gossen Metrawatt Metrahit X-Tra]] (12000 counts, USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=GW Instek GDM-8251A|[[File:Nuvola Red.png|16px]] <small>[[GW Instek GDM-8251A]] (120000 counts, RS232/USB/DigitalIO)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=HYELEC MS8236|[[File:Nuvola Red.png|16px]] <small>[[HYELEC MS8236]] (6000 counts, USB)</small><br />
File:800px-Mastech m9803r device front.png|link=MASTECH M9803R|[[File:Nuvola Red.png|16px]] <small>[[MASTECH M9803R]] (4000 counts, RS232)</small><br />
File:Metrix mx53.png|link=Metrix MX53|[[File:Nuvola Red.png|16px]] <small>[[Metrix MX53]] (50000 counts, RS232)</small><br />
File:Peaktech-3442-front.png|link=PeakTech 3442|[[File:Nuvola Red.png|16px]] <small>[[PeakTech 3442]] (50000 counts, BLE)</small><br />
File:Peaktech 4380 mugshot.png|link=PeakTech 4380|[[File:Nuvola Red.png|16px]] <small>[[PeakTech 4380]] (4000 counts, RS232)</small><br />
File:Peaktech 4390 mugshot.png|link=PeakTech 4390|[[File:Nuvola Red.png|16px]] <small>[[PeakTech 4390]] (6000 counts, USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Protek 6500|[[File:Nuvola Red.png|16px]] <small>[[Protek 6500]] (50000 counts, RS232)</small><br />
File:Rigol DM3068 front.png|link=Rigol DM3068|[[File:Nuvola Red.png|16px]] <small>[[Rigol DM3068]] (2200000 counts, LAN/USB/GPIB/RS232)</small><br />
File:Tenma 72-1016.png|link=Tenma 72-1016|[[File:Nuvola Red.png|16px]] <small>[[Tenma 72-1016]] (6000 counts, RS232/USB)</small><br />
File:Uni-t-ut81b mugshot.png|link=UNI-T UT81B|[[File:Nuvola Red.png|16px]] <small>[[UNI-T UT81B]] (6000 counts, USB)</small><br />
File:UNI-T-UT181A.jpg|link=UNI-T UT181A|[[File:Nuvola Red.png|16px]] <small>[[UNI-T UT181A]] (60000 counts, USB)</small><br />
File:Voltcraft 3850D front transp.png|link=Voltcraft M-3850D|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-3850D]] (4000 counts, RS232)</small><br />
File:Voltcraft m3890dt usb.png|link=Voltcraft M-3890DT|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-3890DT]] (4000 counts, USB)</small><br />
File:Voltcraft m4660a device front.png|link=Voltcraft M-4660A|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-4660A]] (20000 counts, RS232)</small><br />
File:Voltcraft vc890 mugshot.png|link=Voltcraft VC-890|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft VC-890]] (60000 counts, USB/serial)</small><br />
</gallery><br />
<br />
== LCR meters ==<br />
<br />
<gallery widths="100Px" heights="100px"><br />
File:Der ee de-5000 mugshot.png|link=DER EE DE-5000|[[File:Nuvola_OK.png|16px]] <small>[[DER EE DE-5000]] (serial)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=MASTECH MS5308|[[File:Nuvola_OK.png|16px]] <small>[[MASTECH MS5308]] (serial)</small><br />
File:peaktech2165-front.png|link=Peaktech 2165|[[File:Nuvola_OK.png|16px]] <small>[[Peaktech 2165]] (serial)</small><br />
File:Peaktech 2170 mugshot.png|link=PeakTech 2170|[[File:Nuvola_OK.png|16px]] <small>[[PeakTech 2170]] (serial)</small><br />
File:uni_t_ut612_1.png|link=UNI-T UT612|[[File:Nuvola_OK.png|16px]] <small>[[UNI-T UT612]] (USB/HID)</small><br />
File:Voltcraft4080_2.png|link=Voltcraft 4080|[[File:Nuvola_OK.png|16px]] <small>[[Voltcraft 4080]] (serial)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Agilent U1732B.png|link=Agilent U1732B|[[File:Nuvola Red.png|16px]] <small>[[Agilent U1732B]] (IR)</small><br />
</gallery><br />
<br />
== Sound level meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:CEM DT-8852.png|link=CEM DT-8852|[[File:Nuvola OK.png|16px]] <small>[[CEM DT-8852]] (USB)</small><br />
File:Colead SL-5868P.png|link=Colead SL-5868P|[[File:Nuvola OK.png|16px]] <small>[[Colead SL-5868P]] (RS232)</small><br />
File:Kecheng KC-330B.png|link=Kecheng KC-330B|[[File:Nuvola OK.png|16px]] <small>[[Kecheng KC-330B]] (RS232)</small><br />
File:PCE-322A.png|link=PCE PCE-322A|[[File:Nuvola OK.png|16px]] <small>[[PCE PCE-322A]] (USB)</small><br />
File:Tondaj sl-814.png|link=Tondaj SL-814|[[File:Nuvola OK.png|16px]] <small>[[Tondaj SL-814]] (USB)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (also: light-/thermo-/hygrometer; RS232)</small><br />
File:Voltcraft_dl_160s.png|link=Voltcraft DL-160S|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-160S]] (USB)</small><br />
File:Voltcraft_DL-161S.png|link=Voltcraft DL-161S|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-161S]] (USB)</small><br />
</gallery><br />
<br />
== Thermometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:rs55ii.png|link=APPA 55II|[[File:Nuvola OK.png|16px]] <small>[[APPA 55II]] (2xtemp, RS232)</small><br />
File:EL-USB-2.png|link=Lascar Electronics EL-USB-2|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-2]] (1xtemp, 1xhum, USB)</small><br />
File:MASTECH_MS6514_mugshot.png|link=MASTECH MS6514|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MS6514]] (2x temp, USB/serial)</small><br />
File:Mic 98581.png|link=MIC 98581|[[File:Nuvola OK.png|16px]] <small>[[MIC 98581]] (1xtemp, USB)</small><br />
File:Mic 98583.png|link=MIC 98583|[[File:Nuvola OK.png|16px]] <small>[[MIC 98583]] (1xtemp, 1xhum, USB)</small><br />
File:Uni-t ut325 front.png|link=UNI-T UT325|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT325]] (2xtemp, USB)</small><br />
File:Voltcraft k204.png|link=Voltcraft K204|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft K204]] (4xtemp, RS232)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Elitech rc3.png|link=Elitech RC-3|[[File:Nuvola Red.png|16px]] <small>[[Elitech RC-3]] (1xtemp, RS232)</small><br />
File:Escort 19.png|link=Escort 19|[[File:Nuvola Red.png|16px]] <small>[[Escort 19]] (1x temp, RS232)</small><br />
File:Pax_instruments_t400.jpg|link=Pax Instruments T400|[[File:Nuvola Red.png|16px]] <small>[[Pax Instruments T400]] (4xtemp, USB)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (1xtemp, RS232)</small><br />
File:Rding temper front.png|link=RDing TEMPer|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer]] (1xtemp, USB)</small><br />
File:Rding temper gold device front.png|link=RDing TEMPer Gold|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer Gold]] (1xtemp, USB)</small><br />
File:Rding temper1 device front.png|link=RDing TEMPer1|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer1]] (1xtemp, USB)</small><br />
File:Pcsensor_temper1k2.png|link=RDing TEMPer1K2|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer1K2]] (1xtemp, USB)</small><br />
File:Voltcraft dl-120th.png|link=Voltcraft DL-120TH|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-120TH]] (1xtemp, USB)</small><br />
File:Voltcraft dl-140th.png|link=Voltcraft DL-140TH|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-140TH]] (1xtemp, USB)</small><br />
</gallery><br />
<br />
== Hygrometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:EL-USB-2.png|link=Lascar Electronics EL-USB-2|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-2]] (temp/humidity, USB)</small><br />
File:Mic 98583.png|link=MIC 98583|[[File:Nuvola OK.png|16px]] <small>[[MIC 98583]] (temp/humidity, USB)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (also: light-/soundlevelmeter; RS232)</small><br />
File:Silabs si7005usb dgl eb top.jpg|link=SiLabs Si7005USB-Dongle|[[File:Nuvola Red.png|16px]] <small>[[SiLabs Si7005USB-Dongle]] (USB)</small><br />
</gallery><br />
<br />
== Anemometers ==<br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Mastech ms6252b.png|link=MASTECH MS6252B|[[File:Nuvola Red.png|16px]] <small>[[MASTECH MS6252B]] (USB)</small><br />
</gallery><br />
<br />
== Light meters ==<br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Lutron YK-2005LX.png|link=Lutron YK-2005LX|[[File:Nuvola Red.png|16px]] <small>[[Lutron YK-2005LX]] (RS232)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (RS232)</small><br />
</gallery><br />
<br />
== Energy meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Actaris_a14c5_teleinfo.png|link=EDF Teleinfo|[[File:Nuvola OK.png|16px]] <small>[[EDF Teleinfo]] (RS232)</small><br />
File:Acme.png|link=BayLibre ACME|[[File:Nuvola OK.png|16px]] <small>[[BayLibre ACME]] (I2C)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:UM24C_display.jpg|link=RDTech_UM_series|[[File:Nuvola Red.png|16px]] <small>[[RDTech UM series]] USB testers</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=RDTech_TC66C|[[File:Nuvola Red.png|16px]] <small>[[RDTech TC66C]] USB tester</small><br />
</gallery><br />
<br />
== DAQs ==<br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Ni usb 6008.png|link=NI USB-6008|[[File:Nuvola Red.png|16px]] <small>[[NI USB-6008]] (8/2 analog inputs/outputs, 12 digital I/Os)</small><br />
</gallery><br />
<br />
== Dataloggers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:EL-USB-CO.png|link=Lascar Electronics EL-USB-CO|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-CO]] (carbon monoxide (CO) logger, USB)</small><br />
File:Testo_435-4.png|link=Testo 435-4|[[File:Nuvola OK.png|16px]] <small>[[Testo 435-4]] (USB)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Gsg_indoor_air_monitor.png|link=GSG Indoor Air Monitor|[[File:Nuvola Red.png|16px]] <small>[[GSG Indoor Air Monitor]] (air quality monitor, USB)</small><br />
File:Maul_studio_i.png|link=MAUL studio i|[[File:Nuvola Red.png|16px]] <small>[[MAUL studio i]] (weighing scale, RS232)</small><br />
File:Voltcraft co-20.png|link=Voltcraft CO-20|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft CO-20]] (air quality monitor, USB)</small><br />
</gallery><br />
<br />
== Tachometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Uni-t ut372 mugshot.png|link=UNI-T UT372|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT372]] (USB)</small><br />
</gallery><br />
<br />
== Scales ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Kern ew-6200-2nm mugshot.png|link=KERN scale series|[[File:Nuvola OK.png|16px]] <small>[[KERN scale series]] (RS232)</small><br />
</gallery><br />
<br />
== Digital loads ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Arachnid Labs ReLoad Pro - Mugshot.png|link=Arachnid Labs Reload Pro|[[File:Nuvola OK.png|16px]] <small>[[Arachnid Labs Reload Pro]] (USB)</small><br />
File:Maynuo m9812 mugshot.png|link=Maynuo M9812|[[File:Nuvola OK.png|16px]] <small>[[Maynuo M9812]]</small><br />
File:Ztetech-ebd-usb%2B.png|link=ZKETECH_EBD-USB|[[File:Nuvola OK.png|16px]] <small>[[ZKETECH EBD-USB]]</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Atten ATZ9711.png|link=ATTEN ATZ9711|[[File:Nuvola Red.png|16px]] <small>[[ATTEN ATZ9711]]</small><br />
</gallery><br />
<br />
== Function generators ==<br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:BG7TBL small.png|link=BG7TBL|[[File:Nuvola Red.png|16px]] <small>[[BG7TBL]] (138MHz-4.4GHz, PC-based, USB)</small><br />
File:Hantek DDS-3X25 top.png|link=Hantek DDS-3X25|[[File:Nuvola Red.png|16px]] <small>[[Hantek DDS-3X25]] (25MHz, PC-based, USB)</small><br />
File:Hp_3325a_front.png|link=HO 3325A|[[File:Nuvola Red.png|16px]] <small>[[HP 3325A]] (20MHz, GPIB)</small><br />
File:Jds6600-mugshot.png|link=Joy-IT JDS6600|[[File:Nuvola Red.png|16px]] <small>[[Joy-IT JDS6600]] (60MHz, USB RS232)</small><br />
File:MHINSTEK UDB1305S persp.jpg|link=MHINSTEK UDB1xxxS|[[File:Nuvola Red.png|16px]] <small>[[MHINSTEK UDB1xxxS]] (2/5/8MHz, Serial)</small><br />
File:MHINSTEK MHS-5200A persp.jpg|link=MHINSTEK MHS-5200A|[[File:Nuvola Red.png|16px]] <small>[[MHINSTEK MHS-5200A]] (6/12/20/25MHz, USB)</small><br />
File:Siglent sdg1010 device front 8116.png|link=Siglent SDG1010|[[File:Nuvola Red.png|16px]] <small>[[Siglent SDG1010]] (10MHz, USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Velleman PCG10|[[File:Nuvola Red.png|16px]] <small>[[Velleman PCG10]] (1MHz, PC-based, LPT)</small><br />
</gallery><br />
<br />
== Frequency counters ==<br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Hantek DDS-3X25 top.png|link=Hantek DDS-3X25|[[File:Nuvola Red.png|16px]] <small>[[Hantek DDS-3X25]] (50MHz, PC-based, USB)</small><br />
File:HP 5350B.png|link=HP 5350B|[[File:Nuvola Red.png|16px]] <small>[[HP 5350B]] (10Hz-20GHz, GPIB)</small><br />
</gallery><br />
<br />
== RF receivers ==<br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Per vices noctar.png|link=Per Vices Noctar|[[File:Nuvola Red.png|16px]] <small>[[Per Vices Noctar]] (100kHz-4GHz, IQ modulator/demodulator, PCIe)</small><br />
</gallery><br />
<br />
== Spectrum analyzers ==<br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Siglent SSA3000X series|[[File:Nuvola Red.png|16px]] <small>[[Siglent SSA3000X series]] (9kHz-2.1GHz, USB, Ethernet)</small><br />
</gallery><br />
<br />
== Power supplies ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Atten PPS3203T-3S.png|link=Atten PPS3203T-3S|[[File:Nuvola OK.png|16px]] <small>[[Atten PPS3203T-3S]] (3ch, 2x 0-32V, 1x 0-6V at 0-3A, USB&RS232)</small><br />
File:Chroma_61604_front.png|link=Chroma 61604|[[File:Nuvola OK.png|16px]] <small>[[Chroma 61604]] (1ch, 0-300V, 0-16A, 2kVA)</small><br />
File:Conrad_digi_35_cpu_logo.png|link=Conrad DIGI 35 CPU|[[File:Nuvola OK.png|16px]] <small>[[Conrad DIGI 35 CPU]] (1ch, 0-35V / 0-2.55A, RS232)</small><br />
File:Agilent-66312a-mugshot.png|link=HP 66312A|[[File:Nuvola OK.png|16px]] <small>[[HP 66312A]] (1ch, 0-20V / 0-2A, GPIB&RS232)</small><br />
File:HP-6632B_mugshot.png|link=HP 6632B|[[File:Nuvola OK.png|16px]] <small>[[HP 6632B]] (1ch, 0-20V / 0-5A, GPIB&RS232)</small><br />
File:Sigrok logo no text transparent 512.png|link=GW Instek GPD series|[[File:Nuvola OK.png|16px]] <small>[[GW Instek GPD series]] (2/3/4ch, 0-30V / 0-3A, USB/serial)</small><br />
File:Velleman ps3005d mugshot.png|link=Korad KAxxxxP series|[[File:Nuvola OK.png|16px]] <small>[[Korad KAxxxxP series]] (1ch, 0-30V / 0-5A, USB&RS232)</small><br />
File:Manson hcs3202.png|link=Manson HCS-3xxx series|[[File:Nuvola OK.png|16px]] <small>[[Manson HCS-3xxx series]] (1ch, 1-36V / 0-10A, USB)</small><br />
File:Motech_LPS-301_logo.png|link=Motech LPS-301|[[File:Nuvola OK.png|16px]] <small>[[Motech LPS-301]] (1ch, 1-32V / 0-2A, RS232)</small><br />
File:Philips PM2813.png|link=Philips PM2800 series|[[File:Nuvola OK.png|16px]] <small>Fluke/Philips PM2800 series</small><br />
File:Rigol DP832.png|link=Rigol DP800 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DP800 series]]</small><br />
File:rs_hmc8043_mugshot.png|link=Rohde&Schwarz HMC 8043|[[File:Nuvola OK.png|16px]] <small>[[Rohde&Schwarz HMC 8043]] (3ch, 0-32V / 0-3A, USB&LXI)</small><br />
File:Rdtech-dps.png|link=RDTech DPS series|[[File:Nuvola OK.png|16px]] <small>[[RDTech DPS series]] (1ch, various, USB/BT)</small><br />
</gallery><br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery><br />
File:Sigrok logo no text transparent 512.png|link=Voltcraft 18220|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft 18220]] (1ch, 0-40V/0-5A, RS232)</small><br />
File:Sigrok logo no text transparent 512.png|link=Delta Elektronika SM3300 series|[[File:Nuvola Red.png|16px]] <small>[[Delta Elektronika SM3300 series]] (1ch, 18V-660V/3.3kW, USB, RS232, RS485, RS422)</small><br />
</gallery><br />
<br />
== GPIB interfaces ==<br />
<br />
'''Work in progress [[File:Nuvola Orange.png|16px]] / planned [[File:Nuvola Red.png|16px]]:'''<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Agilent_82357a_top_cover_removed.jpg|link=Agilent_82357A|[[File:Nuvola Red.png|16px]] <small>[[Agilent 82357A]] (Hardware-based, USB)</small><br />
File:Sigrok logo no text transparent 512.png|link=AR488|[[File:Nuvola Red.png|16px]] <small>[[AR488]] (Arduino based, USB/RS232)</small><br />
File:Beiming_s82357.png|link=Beiming S82357|[[File:Nuvola Red.png|16px]] <small>[[Beiming S82357]] (hardware-based, USB)</small><br />
File:ICS 488-USB.png|link=ICS 488-USB|[[File:Nuvola Red.png|16px]] <small>[[ICS 488-USB]] (hardware-based, USB)</small><br />
File:GPIB-USB 82357B clone.png|link=GPIB-USB 82357B clone|[[File:Nuvola Red.png|16px]] <small>[[GPIB-USB 82357B clone]] (hardware-based, USB)</small><br />
File:NI GPIB-ENET.png|link=National Instruments GPIB-ENET|[[File:Nuvola Red.png|16px]] <small>[[National Instruments GPIB-ENET]] (hardware-based, Ethernet)</small><br />
File:NI GPIB-USB-HS.png|link=National Instruments GPIB-USB-HS|[[File:Nuvola Red.png|16px]] <small>[[National Instruments GPIB-USB-HS]] (hardware-based, USB)</small><br />
File:Prologix-usb.png|link=Prologix GPIB-USB|[[File:Nuvola Red.png|16px]] <small>[[Prologix GPIB-USB]] (firmware-based, USB)</small><br />
File:GalvantGPIBUSBrev4.JPG|link=Galvant GPIBUSB|[[File:Nuvola Red.png|16px]] <small>[[Galvant GPIBUSB]] (firmware-based, USB, OSHW)</small><br />
</gallery><br />
<br />
== Potential other candidates ==<br />
<br />
If you own any other logic analyzers, oscilloscopes, multimeters, dataloggers, ... and want to add support for them in sigrok (or donate/lend devices to developers), please let us know. We're always happy to add more hardware support! Join the [https://lists.sourceforge.net/lists/listinfo/sigrok-devel mailing list] or ask on [irc://chat.freenode.net/sigrok IRC #sigrok] if you want to help out.<br />
<br />
__FORCETOC__</div>Mrnukehttps://sigrok.org/w/index.php?title=Agilent_82357A&diff=14953Agilent 82357A2020-04-08T03:40:20Z<p>Mrnuke: /* Hardware */</p>
<hr />
<div>[[File:Agilent_82357a_top_cover_removed.jpg|thumb|right]]<br />
<br />
The Agilent [https://www.keysight.com/en/pd-1000004416%3Aepsg%3Apro-pn-82357A/usb-gpib-interface 82357A] is an obsolete, yet sleek and powerful [[GPIB]] interface.<br />
<br />
== Hardware ==<br />
{|<br />
|- style="vertical-align: top;"<br />
| [[File:Agilent_82357a_board_top.jpg|thumb|left]]<br />
|<br />
# Cypress CY74C64613 EZ-USB FX (not FX2 -- this is a very old chip)<br />
# TODO<br />
Note: The adapter in this picture has had its original 8k EEPROM (24C08) replaced with a 256K EEPROM, pre-programmed with the Agilent firmware. This was done to avoid the silly EZUSB FX firmware upload and renumeration.<br />
|}<br />
<br />
== Photos ==<br />
<gallery><br />
Agilent_82357a_case_opened.jpg<br />
Agilent_82357a_top_cover_removed.jpg<br />
Agilent_82357a_board_top.jpg<br />
Agilent_82357a_board_bottom.jpg<br />
</gallery><br />
<br />
== Protocol ==<br />
<br />
TODO<br />
<br />
== Resources ==<br />
<br />
TODO.<br />
<br />
[[Category:Device]]<br />
[[Category:GPIB interface]]<br />
[[Category:Planned]]</div>Mrnukehttps://sigrok.org/w/index.php?title=Agilent_82357A&diff=14952Agilent 82357A2020-04-08T03:34:31Z<p>Mrnuke: </p>
<hr />
<div>[[File:Agilent_82357a_top_cover_removed.jpg|thumb|right]]<br />
<br />
The Agilent [https://www.keysight.com/en/pd-1000004416%3Aepsg%3Apro-pn-82357A/usb-gpib-interface 82357A] is an obsolete, yet sleek and powerful [[GPIB]] interface.<br />
<br />
== Hardware ==<br />
{|<br />
|- style="vertical-align: top;"<br />
| [[File:Agilent_82357a_board_top.jpg|thumb|left]]<br />
|<br />
# TODO<br />
|}<br />
<br />
== Photos ==<br />
<gallery><br />
Agilent_82357a_case_opened.jpg<br />
Agilent_82357a_top_cover_removed.jpg<br />
Agilent_82357a_board_top.jpg<br />
Agilent_82357a_board_bottom.jpg<br />
</gallery><br />
<br />
== Protocol ==<br />
<br />
TODO<br />
<br />
== Resources ==<br />
<br />
TODO.<br />
<br />
[[Category:Device]]<br />
[[Category:GPIB interface]]<br />
[[Category:Planned]]</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Agilent_82357a_board_bottom.jpg&diff=14951File:Agilent 82357a board bottom.jpg2020-04-08T03:33:59Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Agilent_82357a_board_top.jpg&diff=14950File:Agilent 82357a board top.jpg2020-04-08T03:33:31Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=Agilent_82357A&diff=14949Agilent 82357A2020-04-08T03:32:38Z<p>Mrnuke: </p>
<hr />
<div>[[File:Agilent_82357a_top_cover_removed.jpg|thumb|right]]<br />
<br />
The Agilent [https://www.keysight.com/en/pd-1000004416%3Aepsg%3Apro-pn-82357A/usb-gpib-interface 82357A] is an obsolete, yet sleek and powerful [[GPIB]] interface.<br />
<br />
== Hardware ==<br />
{|<br />
|- style="vertical-align: top;"<br />
| [[File:Agilent_82357a_top_cover_removed.jpg|thumb|left]]<br />
|<br />
# TODO<br />
|}<br />
<br />
== Photos ==<br />
<gallery><br />
Agilent_82357a_case_opened.jpg<br />
Agilent_82357a_top_cover_removed.jpg<br />
</gallery><br />
<br />
== Protocol ==<br />
<br />
TODO<br />
<br />
== Resources ==<br />
<br />
TODO.<br />
<br />
[[Category:Device]]<br />
[[Category:GPIB interface]]<br />
[[Category:Planned]]</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Agilent_82357a_case_opened.jpg&diff=14948File:Agilent 82357a case opened.jpg2020-04-08T03:31:59Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=Agilent_82357A&diff=14947Agilent 82357A2020-04-08T03:30:04Z<p>Mrnuke: Created page with "right The Agilent [https://www.keysight.com/en/pd-1000004416%3Aepsg%3Apro-pn-82357A/usb-gpib-interface 82357A] is an obsol..."</p>
<hr />
<div>[[File:Agilent_82357a_top_cover_removed.jpg|thumb|right]]<br />
<br />
The Agilent [https://www.keysight.com/en/pd-1000004416%3Aepsg%3Apro-pn-82357A/usb-gpib-interface 82357A] is an obsolete, yet sleek and powerful [[GPIB]] interface.<br />
<br />
== Hardware ==<br />
{|<br />
|- style="vertical-align: top;"<br />
| [[File:Agilent_82357a_top_cover_removed.jpg|thumb|left]]<br />
|<br />
# TODO<br />
|}<br />
<br />
== Photos ==<br />
<gallery><br />
Agilent_82357a_top_cover_removed.jpg<br />
</gallery><br />
<br />
== Protocol ==<br />
<br />
TODO<br />
<br />
== Resources ==<br />
<br />
TODO.<br />
<br />
[[Category:Device]]<br />
[[Category:GPIB interface]]<br />
[[Category:Planned]]</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Agilent_82357a_top_cover_removed.jpg&diff=14946File:Agilent 82357a top cover removed.jpg2020-04-08T03:26:14Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3325A&diff=14945HP 3325A2020-04-08T03:19:27Z<p>Mrnuke: </p>
<hr />
<div>{{Infobox signal generator<br />
| image = [[File:Hp_3325a_front.png|180px]]<br />
| name = Hewlett-Packard 3325A<br />
| status = abandoned<br />
| source_code_dir = <br />
| freqsine = 20MHz<br />
| freqsquare = 10MHz<br />
| freqother = 10KHz (triangle, sawtooth)<br />
| waveforms = sine, square, triangle, sawtooth<br />
| modulation = AM, FM<br />
| connectivity = GPIB<br />
| website = [http://www.keysight.com/en/pd-3325A%3Aepsg%3Apro-pn-3325A/synthesizer-function-generator?cc=US&lc=eng keysight.com]<br />
}}<br />
The Hewlett-Packard 3325A is a 20MHz function generator with GPIB connectivity.<br />
<br />
<br />
=== GPIB settings ===<br />
<br />
<gallery><br />
File:Hp_3325a_gpib_addr_ctl.jpg|<small>GPIB address selection switches</small><br />
File:Hp_3325a_gpib_addr_17_example.jpg|<small>Example setting for GPIB address 17</small><br />
File:Hp_3325a_gpib_lon_setting.jpg|<small>Location of LON switch, with correct setting indicated by red dot</small><br />
</gallery><br />
<br />
=== Status ===<br />
<br />
mrnuke had a 3325A, but he had to get rid of it before he could implement sigrok support. As such, the project is currently abandoned. The page is left as a quick reference on how to configure the GPIB controller, in case anyone wants to pick this up.</div>Mrnukehttps://sigrok.org/w/index.php?title=Supported_hardware&diff=11756Supported hardware2016-06-11T17:43:39Z<p>Mrnuke: /* Function generators */</p>
<hr />
<div>sigrok is intended as a flexible, cross-platform, and '''hardware-independent''' software suite, i.e., it supports various devices from many different vendors.<br />
<br />
Here is a list of currently supported devices (various stages of completeness) and devices we plan to support in the near future.<br />
<br />
The lists are sorted by category ([[File:Nuvola OK.png|16px]] <span style="background-color: lime">supported</span>: [[:Category:Supported|{{PAGESINCATEGORY:Supported|pages}}]], [[File:Nuvola Orange.png|16px]] <span style="background-color: orange">in progress</span>: [[:Category:In progress|{{PAGESINCATEGORY:In progress|pages}}]], [[File:Nuvola Red.png|16px]] <span style="background-color: red">planned</span>: [[:Category:Planned|{{PAGESINCATEGORY:Planned|pages}}]]), and alphabetically within those categories.<br />
<br />
== Logic analyzers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:ARMFLY MINI LOGIC.png|link=ARMFLY Mini-Logic|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY Mini-Logic]] (8ch, 24MHz)</small><br />
File:ASIX SIGMA 2.png|link=ASIX SIGMA|[[File:Nuvola OK.png|16px]] <small>[[ASIX SIGMA]] (16ch, 200MHz)</small><br />
File:BeagleLogic.jpg|link=BeagleLogic|[[File:Nuvola OK.png|16px]] <small>[[BeagleLogic]] (12(max 14)ch, 100MHz)</small><br />
File:Braintechnology_usb_interface_v26.png|link=Braintechnology USB Interface V2.x|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB Interface V2.x]] (8/16ch, 24/12MHz)</small><br />
File:Braintechnology_usb_lps.png|link=Braintechnology USB-LPS|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB-LPS]] (8/16ch, 24/12MHz)</small><br />
File:Chronovu la8 front.png|link=ChronoVu LA8|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA8]] (8ch, 100MHz)</small><br />
File:Chronovu la16.png|link=ChronoVu LA16|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA16]] (16ch, 200MHz)</small><br />
File:Cwav_usbee_sx.png|link=CWAV USBee SX|[[File:Nuvola OK.png|16px]] <small>[[CWAV USBee SX]] (8ch, 24MHz)</small><br />
File:Buspirate_v3.png|link=Dangerous Prototypes Buspirate|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes Buspirate]] (5ch, 1MHz)</small><br />
File:Dangerous prototypes irtoy mugshot.png|link=Dangerous Prototypes USB IR Toy|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes USB IR Toy]] (1ch, 10kHz)</small><br />
File:Eeelec xla esla100.png|link=EE Electronics ESLA100|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA100]] (8ch, 24MHz)</small><br />
File:Hantek 6022be mugshot.png|link=Hantek 6022BL|[[File:Nuvola OK.png|16px]] <small>[[Hantek 6022BL]] (8ch, 24MHz)</small><br />
File:Hobby components hctest0006 mugshot.png|link=Hobby Components HCTEST0006|[[File:Nuvola OK.png|16px]] <small>[[Hobby Components HCTEST0006]] (8ch, 24MHz)</small><br />
File:Ikalogic_scanalogic2.png|link=IKALOGIC Scanalogic-2|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC Scanalogic-2]] (4ch, 20MHz)</small><br />
File:Ikalogic scanaplus mugshot.png|link=IKALOGIC ScanaPLUS|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC ScanaPLUS]] (9ch, 100MHz)</small><br />
File:Kingst kqs3506 la16100.png|link=KingST KQS3506-LA16100|[[File:Nuvola OK.png|16px]] <small>[[KingST KQS3506-LA16100]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Lcsoft-miniboard-front.png|link=Lcsoft Mini Board|[[File:Nuvola OK.png|16px]] <small>[[Lcsoft Mini Board]] (8/16ch, 24/12MHz)</small><br />
File:Lecroy logicstudio16 mugshot.png|link=LeCroy LogicStudio|[[File:Nuvola OK.png|16px]] <small>[[LeCroy LogicStudio]] (8/16ch, 1GHz/500MHz)</small><br />
File:logic-shrimp-front.png|link=Logic Shrimp|[[File:Nuvola OK.png|16px]] <small>[[Logic Shrimp]] (4ch, 20MHz)</small><br />
File:Mcu123 saleae logic clone.png|link=MCU123 Saleae Logic clone|[[File:Nuvola OK.png|16px]] <small>[[MCU123 Saleae Logic clone]] (8ch, 24MHz)</small><br />
File:Usbee_ax_clone_front.png|link=MCU123 USBee AX Pro clone|[[File:Nuvola OK.png|16px]] <small>[[MCU123 USBee AX Pro clone]] (8ch, 24MHz)</small><br />
File:Mcupro_Logic16_overview.png|link=mcupro Logic16 clone|[[File:Nuvola OK.png|16px]] <small>[[mcupro Logic16 clone]] (16ch, 100MHz)</small><br />
File:Openbench logic sniffer front.png|link=Openbench Logic Sniffer|[[File:Nuvola OK.png|16px]] <small>[[Openbench Logic Sniffer]] (32ch, 100MHz)</small><br />
File:Prist akip 9101 mugshot.png|link=Prist AKIP-9101|[[File:Nuvola OK.png|16px]] <small>[[Prist AKIP-9101]] (16ch, 200MHz)</small><br />
File:Robomotic buglogic3.png|link=Robomotic BugLogic 3|[[File:Nuvola OK.png|16px]] <small>[[Robomotic BugLogic 3]] (8ch, 24MHz)</small><br />
File:Robomotic_minilogic.png|link=Robomotic MiniLogic|[[File:Nuvola OK.png|16px]] <small>[[Robomotic MiniLogic]] (8ch, 24MHz)</small><br />
File:Saleae Logic.png|link=Saleae Logic|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic]] (8ch, 24MHz)</small><br />
File:Saleae_Logic16_bottom.png|link=Saleae Logic16|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Saanlima Pipistrello-OLS.png|link=Saanlima Pipistrello OLS|[[File:Nuvola OK.png|16px]] <small>[[Saanlima Pipistrello OLS]] (32ch, 100MHz)</small><br />
File:Sysclk lwla1016.png|link=Sysclk LWLA1016|[[File:Nuvola OK.png|16px]] <small>[[Sysclk LWLA1016]] (16ch, 100MHz)</small><br />
File:Sysclk lwla1034 mugshot.png|link=Sysclk LWLA1034|[[File:Nuvola OK.png|16px]] <small>[[Sysclk LWLA1034]] (34ch, 125MHz)</small><br />
File:Wayengineer saleae16.png|link=WayEngineer Saleae16|[[File:Nuvola OK.png|16px]] <small>[[WayEngineer Saleae16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Zeroplus Logic Cube.png|link=ZEROPLUS Logic Cube LAP-C(16032)|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(16032)]] (16ch, 100MHz)</small><br />
File:Zeroplus Logic Cube.png|link=ZEROPLUS Logic Cube LAP-C(322000)|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(322000)]] (32ch, 200MHz)</small><br />
File:Zeroplus_lap-16128u.png|link=ZEROPLUS LAP-16128U|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS LAP-16128U]] (16ch, 200MHz)</small><br />
<br />
File:ASIX Omega.png|link=ASIX OMEGA|[[File:Nuvola Orange.png|16px]] <small>[[ASIX OMEGA]] (16ch, 400MHz)</small><br />
File:DSLogic.png|link=DreamSourceLab DSLogic|[[File:Nuvola Orange.png|16px]] <small>[[DreamSourceLab DSLogic]] (16ch, 400MHz)</small><br />
File:DSLogic.png|link=DreamSourceLab DSLogic Pro|[[File:Nuvola Orange.png|16px]] <small>[[DreamSourceLab DSLogic Pro]] (16ch, 400MHz)</small><br />
File:Hsa-logic.png|link=HSA Logic|[[File:Nuvola Orange.png|16px]] <small>[[HSA Logic]] (8ch, 6.25MHz)</small><br />
File:RockyLogic Ant18e.png|link=RockyLogic Ant18e|[[File:Nuvola Orange.png|16px]] <small>[[RockyLogic Ant18e]] (8ch, 1GHz)</small><br />
File:Sysclk sla5032 mugshot.png|link=Sysclk SLA5032|[[File:Nuvola Orange.png|16px]] <small>[[Sysclk SLA5032]] (32ch, 500MHz)</small><br />
<br />
File:Acute_pkla1216.png|link=Acute PKLA-1216|[[File:Nuvola Red.png|16px]] <small>[[Acute PKLA-1216]] (16ch, 200MHz)</small><br />
File:Hantek 4032l mugshot.png|link=Hantek 4032L|[[File:Nuvola Red.png|16px]] <small>[[Hantek 4032L]] (32ch, 400MHz)</small><br />
File:Ideofy_la_08.png|link=Ideofy LA-08|[[File:Nuvola Red.png|16px]] <small>[[Ideofy LA-08]] (8ch, 96/60/30MHz @ 2/4/8ch)</small><br />
File:Intronix Logicport.png|link=Intronix Logicport LA1034|[[File:Nuvola Red.png|16px]] <small>[[Intronix Logicport LA1034]] (34ch, 500MHz)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Link Instruments LA-5580|[[File:Nuvola Red.png|16px]] <small>[[Link Instruments LA-5580]] (80ch, 500MHz)</small><br />
File:Microchip_pickit2.png|link=Microchip PICkit2|[[File:Nuvola Red.png|16px]] <small>[[Microchip PICkit2]] (3ch, 1MHz)</small><br />
File:Minila parport.png|link=MiniLA|[[File:Nuvola Red.png|16px]] <small>[[MiniLA]] (32ch, 100MHz)</small><br />
File:Minila_mockup.png|link=MiniLA Mockup|[[File:Nuvola Red.png|16px]] <small>[[MiniLA Mockup]] (32ch, 100MHz)</small><br />
File:Noname_la16_mugshot.png|link=Noname LA16|[[File:Nuvola Red.png|16px]] <small>[[Noname LA16]] (16ch, 100MHz)</small><br />
File:Noname xl logic16 100m mugshot.png|link=Noname XL-LOGIC16-100M|[[File:Nuvola Red.png|16px]] <small>[[Noname XL-LOGIC16-100M]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Rockylogic_ant8.png|link=RockyLogic Ant8|[[File:Nuvola Red.png|16px]] <small>[[RockyLogic Ant8]] (8ch, 500MHz)</small><br />
File:Sysclk lwla2034 mugshot.png|link=Sysclk LWLA2034|[[File:Nuvola Red.png|16px]] <small>[[Sysclk LWLA2034]] (34ch, 200MHz)</small><br />
File:Techtools_digiview_dv1-100.png|link=TechTools DigiView DV1-100|[[File:Nuvola Red.png|16px]] <small>[[TechTools DigiView DV1-100]] (18ch, 100MHz)</small><br />
File:Xmos xtag2.png|link=XMOS XTAG-2|[[File:Nuvola Red.png|16px]] <small>[[XMOS XTAG-2]] (?ch, 50MHz)</small><br />
File:Zlg_la1032.png|link=ZLG LA1032|[[File:Nuvola Red.png|16px]] <small>[[ZLG LA1032]] (32ch, 100MHz)</small><br />
</gallery><br />
<br />
== Mixed-signal devices ==<br />
<br />
<gallery widths=105px heights=105px><br />
File:Armfly_ax_pro.png|link=ARMFLY AX-Pro|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY AX-Pro]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:Sysclk ax pro mugshot.png|link=Sysclk AX-Pro|[[File:Nuvola OK.png|16px]] <small>[[Sysclk AX-Pro]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 3MHz BW)</small><br />
File:Esla201a.png|link=EE Electronics ESLA201A|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA201A]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:Ht-usbee-axpro.png|link=HT USBee-AxPro|[[File:Nuvola OK.png|16px]] <small>[[HT USBee-AxPro]] (8ch, 24MHz; 1ch analog)</small><br />
File:Rigol DS1052E.png|link=Rigol DS1000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000 series|Rigol DS1000D series]] (16ch, 2ch analog, 50-150MHz BW)</small><br />
File:Rigol_VS5202D.png|link=Rigol VS5000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol VS5000 series|Rigol VS5000D series]] (16ch, 2ch analog, 20-200MHz BW</small><br />
File:Yokogawa DLM2000 front.png|link=Yokogawa DLM2000 series|[[File:Nuvola OK.png|16px]] <small>[[Yokogawa DLM2000 series]] (8ch, 2/4ch analog, 2.5GSa/s, 200/350/500MHz BW)</small><br />
File:Xzl studio ax mugshot.png|link=XZL_Studio AX|[[File:Nuvola OK.png|16px]] <small>[[XZL_Studio AX]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:BitScope BS10.png|link=BitScope BS10|[[File:Nuvola Orange.png|16px]] <small>[[BitScope BS10]] (8ch, 40MHz; 2ch analog, 20MSa/s, ? BW)</small><br />
File:Link Instruments MSO-19 front.png|link=Link Instruments MSO-19|[[File:Nuvola Orange.png|16px]] <small>[[Link Instruments MSO-19]] (8ch, 200MHz; 1ch analog, 200MSa/s, 60MHz BW)</small><br />
<br />
File:Agilent_MSO7104A.png|link=Agilent MSO7104A|[[File:Nuvola Red.png|16px]] <small>[[Agilent MSO7104A]] (16ch, ?; 4ch analog, 2GSa/s, 1GHz BW)</small><br />
File:Digilent_analog_discovery.png|link=Digilent Analog Discovery|[[File:Nuvola Red.png|16px]] <small>[[Digilent Analog Discovery]] (16ch, 100MHz; 2ch analog, 100MSa/s, 5MHz BW)</small><br />
File:Hantek_1008C.png|link=Hantek 1008C|[[File:Nuvola Red.png|16px]] <small>[[Hantek 1008C]] (8ch)</small><br />
File:Lab nation smartscope mugshot.png|link=LabNation SmartScope|[[File:Nuvola Red.png|16px]] <small>[[LabNation SmartScope]] (8ch, 100MHz; 2ch analog, 100MSa/s, 45MHz BW)</small><br />
File:Meilhaus_mephisto_scope1.png|link=Meilhaus MEphisto Scope1|[[File:Nuvola Red.png|16px]] <small>[[Meilhaus MEphisto Scope1]] (16ch, 100kHz; 2ch analog, 1MSa/s, 500kHz BW)</small><br />
File:Polabs_poscope_basic2.png|link=PoLabs PoScope Basic2|[[File:Nuvola Red.png|16px]] <small>[[PoLabs PoScope Basic2]] (16ch, 8MHz; 2ch analog, 200kSa/s, ? BW)</small><br />
File:QuantAsylum QA100.png|link=QuantAsylum QA100|[[File:Nuvola Red.png|16px]] <small>[[QuantAsylum QA100]] (12ch; 2ch analog)</small><br />
File:Saleae_Logic8_case_bottom.jpg|link=Saleae Logic8|[[File:Nuvola Red.png|16px]] <small>[[Saleae Logic8]] (3/6/7/8ch, 100/50/40/25MHz; 8ch analog, 10MSa/s, 1MHz BW)</small><br />
File:Saleae Logic Pro 16 bottom.jpg|link=Saleae Logic Pro 16|[[File:Nuvola Red.png|16px]] <small>[[Saleae Logic Pro 16]] (4/16ch, 500/100MHz; 16ch analog, 50MSa/s, 5MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=XZL_Studio DX|[[File:Nuvola Red.png|16px]] <small>[[XZL_Studio DX]] (16ch, 24MHz; 2ch analog)</small><br />
File:Picoscope 3205D MSO fp.jpg|link=Pico Technology PicoScope 3205D MSO|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 3205D MSO]] (16ch, 100MHz; 2ch analog, 1/0.5GS/s, 100MHz BW)</small><br />
</gallery><br />
<br />
<small><br />
<sup>1</sup> Only the logic analyzer functionality is supported so far, analog support is work in progress.<br /><br />
</small><br />
<br />
== Oscilloscopes ==<br />
<br />
<gallery widths=100px heights=100px><br />
File:Agilent DSO1014A.png|link=Agilent DSO1000 series|[[File:Nuvola OK.png|16px]] <small>[[Agilent DSO1000 series]] (2-4ch, 2GS/s, 60-200MHz BW)</small><br />
File:Fluke_Scopemeter_199B.png|link=Fluke ScopeMeter 199B|[[File:Nuvola OK.png|16px]] <small>[[Fluke ScopeMeter 199B]] (2ch, 2.5GS/s, 200MHz BW)</small><br />
File:Voltcraft dso-6060c mugshot.png|link=GW Instek GDS-800 series|[[File:Nuvola OK.png|16px]] <small>[[GW Instek GDS-800 series]] (2ch, 25GS/s, 60-250MHz BW)</small><br />
File:Hameg HMO2024.png|link=Hameg HMO compact series|[[File:Nuvola OK.png|16px]] <small>[[Hameg HMO compact series]] (2-4ch, 2GS/s, 70-200MHz BW)</small><br />
File:Hantek 6022be mugshot.png|link=Hantek 6022BE|[[File:Nuvola OK.png|16px]] <small>[[Hantek 6022BE]] (2ch, 48MS/s, 20MHz BW)</small><br />
File:Hantek DSO-2090.png|link=Hantek DSO-2090|[[File:Nuvola OK.png|16px]] <small>[[Hantek DSO-2090]] (2ch, 100MS/s, 40MHz)</small><br />
File:Hung chang dso 2100 mugshot.png|link=Hung-Chang_DSO-2100|[[File:Nuvola OK.png|16px]] <small>[[Hung-Chang DSO-2100]] (2ch, 100MS/s, 30MHz BW)</small><br />
File:Rigol DS1052E.png|link=Rigol DS1000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000 series|Rigol DS1000E series]] (2ch, 1GS/s, 50-150MHz BW)</small><br />
File:Rigol DS1074Z front.png|link=Rigol DS1000Z series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000Z series|Rigol DS1000Z series]] (4ch, 1GS/s, 50-100MHz BW)</small><br />
File:Rigol-ds2072 mugshot.png|link=Rigol DS2000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS2000 series]] (2ch, 2GS/s, 70-200MHz BW)</small><br />
File:Rigol_VS5202D.png|link=Rigol VS5000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol VS5000 series]] (2ch, 20-200MHz BW)</small><br />
<br />
File:RS HMO1002.png|link=Rohde&Schwarz HMO 1002 Series|[[File:Nuvola OK.png|16px]] <small>[[Rohde&Schwarz HMO 1002 Series]] (2ch, 1GS/s, 50-100MHz BW)</small><br />
<br />
File:Hantek dso2250 mugshot.png|link=Hantek DSO-2250|[[File:Nuvola Orange.png|16px]] <small>[[Hantek DSO-2250]] (2ch, 250MS/s, 100MHz BW)</small><br />
File:Hantek dso-5200a device front.png|link=Hantek DSO-5200A|[[File:Nuvola Orange.png|16px]] <small>[[Hantek DSO-5200A]] (2ch, 250MS/s, 200MHz BW)</small><br />
File:OsciPrime.png|link=Nexus-Computing OsciPrime|[[File:Nuvola Orange.png|16px]] <small>[[Nexus-Computing OsciPrime]] (2ch, ?MS/s, 3.3MHz-8MHz BW)</small><br />
File:Velleman PCSU1000.png|link=Velleman PCSU1000|[[File:Nuvola Orange.png|16px]] <small>[[Velleman PCSU1000]] (2ch, 1GS/s, 50MHz BW)</small><br />
<br />
File:Fluke scopemeter123.png|link=Fluke ScopeMeter 123|[[File:Nuvola Red.png|16px]] <small>[[Fluke ScopeMeter 123]] (2ch, 25MS/s, 20MHz BW)</small><br />
File:Focussz_fosc21_mugshot.png|link=Focussz Fosc21|[[File:Nuvola Red.png|16px]] <small>[[Focussz Fosc21]] (2ch, 8kS/s, 3kHz BW)</small><br />
File:Hantek front.jpg|link=Hantek 6052BE|[[File:Nuvola Red.png|16px]] <small>[[Hantek 6052BE]] (2ch, 150MS/s, 50MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Hantek DSO-1200|[[File:Nuvola Red.png|16px]] <small>[[Hantek DSO-1200]] (2ch, 500MS/s, 200MHz BW)</small><br />
File:Usbduxfast.png|link=Incite Technology USB-DUXfast|[[File:Nuvola Red.png|16px]] <small>[[Incite Technology USB-DUXfast]] (16ch, 3MHz, ? BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Owon SDS series|[[File:Nuvola Red.png|16px]] <small>[[Owon SDS series]] (2ch, 0.5-3.2GS/s, 60-300MHz BW)</small><br />
File:Picoscope 2203.png|link=Pico Technology PicoScope 2203|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2203]] (40/20MS/s, 5MHz BW)</small><br />
File:PicoScope_2205.png|link=Pico Technology PicoScope 2205|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2205]] (200/100MS/s, 25MHz BW)</small><br />
File:Picoscope 3206.png|link=Pico Technology PicoScope 3206|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 3206]] (200/100MS/s, 200MHz BW)</small><br />
File:Picoscope 5203.png|link=Pico Technology PicoScope 5203|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 5203]] (1/0.5GS/s, 250MHz BW)</small><br />
File:Dds120 mugshot.png|link=SainSmart DDS120|[[File:Nuvola Red.png|16px]] <small>[[SainSmart DDS120]] (2ch, 48MS/s, 20MHz BW)</small><br />
File:Sainsmart dds140 mugshot.png|link=SainSmart DDS140|[[File:Nuvola Red.png|16px]] <small>[[SainSmart DDS140]] (2ch, 200MS/s, 40MHz BW)</small><br />
File:Tektronix tds2024b mugshot.png|link=Tektronix TDS2000B series|[[File:Nuvola Red.png|16px]] <small>[[Tektronix TDS2000B series]] (2-4ch, 1-2GS/s, 60-200MHz BW)</small><br />
File:UNI-T UTD2042C.png|link=UNI-T UTD2042C|[[File:Nuvola Red.png|16px]] <small>[[UNI-T UTD2042C]] (2ch, 500MS/s, 40MHz BW)</small><br />
File:VellemanWFS210.png|link=Velleman WFS210|[[File:Nuvola Red.png|16px]] <small>[[Velleman WFS210]] (2ch, 10MS/s, ?? MHz BW)</small><br />
File:Voltcraft dso-220 usb.png|link=Voltcraft DSO-220|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DSO-220]] (2ch, 60MS/s, 20MHz BW)</small><br />
File:Voltcraft DSO-3062C.png|link=Voltcraft DSO-3062C|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DSO-3062C]] (2ch, 1GS/s, 60MHz BW)</small><br />
</gallery><br />
<br />
== Multimeters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Agilent U1232A.png|link=Agilent U12xxx series|[[File:Nuvola OK.png|16px]] <small>[[Agilent U12xxx series]] (USB/Bluetooth)</small><br />
File:Bbc gm m2110 mugshot.png|link=BBC Goertz Metrawatt M2110|[[File:Nuvola OK.png|16px]] <small>[[BBC Goertz Metrawatt M2110]] (30000 counts, RS232)</small><br />
File:Brymen BM257.png|link=Brymen BM257|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM257]] (6000 counts, RS232/USB)</small><br />
File:Brymen bm257s mugshot.png|link=Brymen BM257s|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM257s]] (6000 counts, RS232/USB)</small><br />
File:Bm_857_mugshot_500000.png|link=Brymen BM857|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM857]] (50000 counts, RS232)</small><br />
File:Bm869_mugshot.png|link=Brymen BM869|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM869]] (50000 counts, USB)</small><br />
File:Digitek_dt4000zc_device_front.png|link=Digitek DT4000ZC|[[File:Nuvola OK.png|16px]] <small>[[Digitek DT4000ZC]] (4000 counts, RS232)</small><br />
File:Fluke 187.png|link=Fluke 187/189|[[File:Nuvola OK.png|16px]] <small>[[Fluke 187/189]] (50000 counts, RS232)</small><br />
File:Fluke 287.png|link=Fluke 287/289|[[File:Nuvola OK.png|16px]] <small>[[Fluke 287/289]] (50000 counts, RS232)</small><br />
File:Gmc metrahit 14a logo.png|link=Gossen Metrawatt Metrahit 14A|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 14A]] (3100 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 16I small.png|link=Gossen Metrawatt Metrahit 16I|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 16I]] (3100 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 18S small.png|link=Gossen Metrawatt Metrahit 18S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 18S]] (31000 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 25S Logo.png|link=Gossen Metrawatt Metrahit 25S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 25S]] (31000 counts, RS232/USB)</small><br />
File:Gmc kmm2002 logo.png|link=Gossen Metrawatt T-Com KMM2002|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt T-Com KMM2002]] (3100 counts, RS232)</small><br />
File:Gmc metrahit 29s logo.png|link=Gossen Metrawatt Metrahit 29S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 29S]] (310000 counts, RS232/USB)</small><br />
File:HP_3457a_sigrok_teaser.png|link=HP 3457A|[[File:Nuvola OK.png|16px]] <small>[[HP 3457A]] (7.5 digits, GPIB)</small><br />
File:HT410 logo.png|link=HT Instruments HT410|[[File:Nuvola OK.png|16px]] <small>[[HT Instruments HT410]] (3100 counts, RS232)</small><br />
File:100px_Idm103n.png|link=ISO-TECH IDM103N|[[File:Nuvola OK.png|16px]] <small>[[ISO-TECH IDM103N]] (4000 counts, RS232)</small><br />
File:Mastech mas345 device front.png|link=MASTECH MAS345|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MAS345]] (4000 counts, RS232)</small><br />
File:Mastech ms8250b mugshot.png|link=MASTECH MS8250B|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MS8250B]] (4000 counts, USB)</small><br />
File:Metex m4650cr mugshot.png|link=Metex M-4650CR|[[File:Nuvola OK.png|16px]] <small>[[Metex M-4650CR]] (20000 counts, RS232)</small><br />
File:Metex_me-31.png|link=Metex ME-31|[[File:Nuvola OK.png|16px]] <small>[[Metex ME-31]] (4000 counts, RS232)</small><br />
File:Norma dm950.png|link=Norma DM950|[[File:Nuvola OK.png|16px]] <small>[[Norma DM950]] (21000 counts, RS232)</small><br />
File:Pce-pce-dm32.png|link=PCE PCE-DM32|[[File:Nuvola OK.png|16px]] <small>[[PCE PCE-DM32]] (4000 counts, RS232)</small><br />
File:Metex_me-31.png|link=PeakTech 3410|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 3410]] (4000 counts, RS232)</small><br />
File:Peaktech 4370 device front.png|link=PeakTech 4370|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 4370]] (2000 counts, RS232)</small><br />
File:Rs_22_168_mugshot.png|link=RadioShack 22-168|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-168]] (2000 counts, RS232)</small><br />
File:Rs_22-805_front.png|link=RadioShack 22-805|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-805]] (4000 counts, RS232)</small><br />
File:radioshack_22_812_front.png|link=RadioShack 22-812|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-812]] (4000 counts, RS232)</small><br />
File:siemens_b1026_logo.png|link=Siemens B1026|[[File:Nuvola OK.png|16px]] <small>[[Siemens B1026]] (21000 counts, RS232)</small><br />
File:Siemens B1105 small.png|link=Siemens B1105|[[File:Nuvola OK.png|16px]] <small>[[Siemens B1105]] (310000 counts, RS232/USB)</small><br />
File:Tecpel dmm8061.png|link=Tecpel DMM-8061|[[File:Nuvola OK.png|16px]] <small>[[Tecpel DMM-8061]] (4000 counts, RS232/USB)</small><br />
File:Tp4000zc_front.png|link=TekPower TP4000ZC|[[File:Nuvola OK.png|16px]] <small>[[TekPower TP4000ZC]] (4000 counts, RS232)</small><br />
File:Tenma 72-7745.png|link=Tenma 72-7745|[[File:Nuvola OK.png|16px]] <small>[[Tenma 72-7745]] (4000 counts, RS232/USB)</small><br />
File:Ut60e_-_front_-_alpha.png|link=UNI-T UT60E|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT60E]] (4000 counts, RS232/USB)</small><br />
File:Uni-t ut61b mugshot.png|link=UNI-T UT61B|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61B]] (4000 counts, RS232/USB)</small><br />
File:Uni-t ut61c mugshot.png|link=UNI-T UT61C|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61C]] (6000 counts, RS232/USB)</small><br />
File:Uni t ut61d device.png|link=UNI-T UT61D|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61D]] (6000 counts, RS232/USB)</small><br />
File:Old ver front.png|link=UNI-T UT61E|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61E]] (22000 counts, RS232/USB)</small><br />
File:Ut71c mugshot.png|link=UNI-T UT71C|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT71C]] (40000 counts, RS232/USB)</small><br />
File:Va_va18b.png|link=V&A VA18B|[[File:Nuvola OK.png|16px]] <small>[[V&A VA18B]] (6000 counts, USB)</small><br />
File:Va va40b mugshot.png|link=V&A VA40B|link=V&A VA40B|[[File:Nuvola OK.png|16px]] <small>[[V&A VA40B]] (6000 counts, USB)</small><br />
File:DVM4100.png|link=Velleman DVM4100|link=Velleman DVM4100|[[File:Nuvola OK.png|16px]] <small>[[Velleman DVM4100]] (6000 counts, USB)</small><br />
File:Victor 70C.png|link=Victor 70C|[[File:Nuvola OK.png|16px]] <small>[[Victor 70C]] (4000 counts, USB)</small><br />
File:Victor 86c device front.png|link=Victor 86C|[[File:Nuvola OK.png|16px]] <small>[[Victor 86C]] (4000 counts, USB)</small><br />
File:Voltcraft m-3650cr.png|link=Voltcraft M-3650CR|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-3650CR]] (2000 counts, RS232)</small><br />
File:Voltcraft_M-3650D_transparent.png|link=Voltcraft M-3650D|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-3650D]] (2000 counts, RS232)</small><br />
File:Voltcraft m4650cr.png|link=Voltcraft M-4650CR|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-4650CR]] (20000 counts, RS232)</small><br />
File:Voltcraft ME-42 logo.png|link=Voltcraft ME-42|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft ME-42]] (4000 counts, RS232)</small><br />
File:Voltcraft vc820 device.png|link=Voltcraft VC-820|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-820]] (4000 counts, RS232/USB)</small><br />
File:Voltcraft vc830.png|link=Voltcraft VC-830|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-830]] (6000 counts, RS232/USB)</small><br />
File:Voltcraft vc840 device front.png|link=Voltcraft VC-840|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-840]] (4000 counts, RS232/USB)</small><br />
File:Voltcraft vc870 mugshot.png|link=Voltcraft VC-870|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-870]] (40000 counts, RS232/USB)</small><br />
File:Voltcraft vc920.png|link=Voltcraft VC-920|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-920]] (40000/4000 counts, RS232/USB)</small><br />
File:Voltcraft vc940.png|link=Voltcraft VC-940|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-940]] (40000/4000 counts, RS232/USB)</small><br />
<br />
File:Tenma 72-1016.png|link=Tenma 72-1016|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-1016]] (6000 counts, RS232/USB)</small><br />
File:Tenma 72-7730.png|link=Tenma 72-7730|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7730]] (20000 counts, RS232/USB)</small><br />
File:Tenma 72-7732.png|link=Tenma 72-7732|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7732]] (40000 counts, RS232/USB)</small><br />
File:Tenma 72-7750.png|link=Tenma 72-7750|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7750]] (6000 counts, RS232/USB)</small><br />
File:Tenma 72-9380A.png|link=Tenma 72-9380A|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-9380A]] (40000 counts, RS232/USB)</small><br />
<br />
File:Appa 107.png|link=APPA 107|[[File:Nuvola Red.png|16px]] <small>[[APPA 107]] (4000 / 20000 counts, RS232)</small><br />
File:Digitek dt8000.png|link=Digitek DT8000|[[File:Nuvola Red.png|16px]] <small>[[Digitek DT8000]] (8000 counts, RS232)</small><br />
File:Digitek dt80000.png|link=Digitek DT80000|[[File:Nuvola Red.png|16px]] <small>[[Digitek DT80000]] (80000 counts, RS232)</small><br />
File:Escort 179 device front.png|link=Escort 179|[[File:Nuvola Red.png|16px]] <small>[[Escort 179]] (10000 counts, RS232)</small><br />
File:Gossen metrahit 30m.png|link=Gossen-Metrawatt METRAHIT 30M|[[File:Nuvola Red.png|16px]] <small>[[Gossen-Metrawatt METRAHIT 30M]] (1200000 counts, RS232/USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Gossen Metrawatt Metrahit X-Tra|[[File:Nuvola Red.png|16px]] <small>[[Gossen Metrawatt Metrahit X-Tra]] (12000 counts, USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=HYELEC MS8236|[[File:Nuvola Red.png|16px]] <small>[[HYELEC MS8236]] (6000 counts, USB)</small><br />
File:800px-Mastech m9803r device front.png|link=MASTECH M9803R|[[File:Nuvola Red.png|16px]] <small>[[MASTECH M9803R]] (4000 counts, RS232)</small><br />
File:Metrix mx53.png|link=Metrix MX53|[[File:Nuvola Red.png|16px]] <small>[[Metrix MX53]] (50000 counts, RS232)</small><br />
File:Metrix mx56c.png|link=Metrix MX56C|[[File:Nuvola Red.png|16px]] <small>[[Metrix MX56C]] (50000 counts, RS232)</small><br />
File:Peaktech 4380 mugshot.png|link=PeakTech 4380|[[File:Nuvola Red.png|16px]] <small>[[PeakTech 4380]] (4000 counts, RS232)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Protek 6500|[[File:Nuvola Red.png|16px]] <small>[[Protek 6500]] (50000 counts, RS232)</small><br />
File:Rigol DM3068 front.png|link=Rigol DM3068|[[File:Nuvola Red.png|16px]] <small>[[Rigol DM3068]] (2200000 counts, LAN/USB/GPIB/RS232)</small><br />
File:Voltcraft m3890dt usb.png|link=Voltcraft M-3890DT|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-3890DT]] (4000 counts, USB)</small><br />
File:Voltcraft m4660a device front.png|link=Voltcraft M-4660A|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-4660A]] (20000 counts, RS232)</small><br />
</gallery><br />
<br />
== LCR meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Voltcraft4080_2.png|link=Voltcraft 4080|[[File:Nuvola Orange.png|16px]] <small>[[Voltcraft 4080]] (serial)</small><br />
</gallery><br />
<br />
== Sound level meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:CEM DT-8852.png|link=CEM DT-8852|[[File:Nuvola OK.png|16px]] <small>[[CEM DT-8852]] (USB)</small><br />
File:Colead SL-5868P.png|link=Colead SL-5868P|[[File:Nuvola OK.png|16px]] <small>[[Colead SL-5868P]] (RS232)</small><br />
File:Kecheng KC-330B.png|link=Kecheng KC-330B|[[File:Nuvola OK.png|16px]] <small>[[Kecheng KC-330B]] (RS232)</small><br />
File:PCE-322A.png|link=PCE PCE-322A|[[File:Nuvola OK.png|16px]] <small>[[PCE PCE-322A]] (USB)</small><br />
File:Tondaj sl-814.png|link=Tondaj SL-814|[[File:Nuvola OK.png|16px]] <small>[[Tondaj SL-814]] (USB)</small><br />
File:Voltcraft_DL-161S.png|link=Voltcraft DL-161S|[[File:Nuvola Orange.png|16px]] <small>[[Voltcraft DL-161S]] (USB)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (also: light-/thermo-/hygrometer; RS232)</small><br />
File:Voltcraft_dl_160s.png|link=Voltcraft DL-160S|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-160S]] (USB)</small><br />
</gallery><br />
<br />
== Thermometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:rs55ii.png|link=APPA 55II|[[File:Nuvola OK.png|16px]] <small>[[APPA 55II]] (2xtemp, RS232)</small><br />
File:EL-USB-2.png|link=Lascar Electronics EL-USB-2|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-2]] (1xtemp, 1xhum, USB)</small><br />
File:Mic 98581.png|link=MIC 98581|[[File:Nuvola OK.png|16px]] <small>[[MIC 98581]] (1xtemp, USB)</small><br />
File:Mic 98583.png|link=MIC 98583|[[File:Nuvola OK.png|16px]] <small>[[MIC 98583]] (1xtemp, 1xhum, USB)</small><br />
File:Uni-t ut325 front.png|link=UNI-T UT325|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT325]] (2xtemp, USB)</small><br />
File:Voltcraft k204.png|link=Voltcraft K204|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft K204]] (4xtemp, RS232)</small><br />
File:Elitech rc3.png|link=Elitech RC-3|[[File:Nuvola Red.png|16px]] <small>[[Elitech RC-3]] (1xtemp, RS232)</small><br />
File:Escort 19.png|link=Escort 19|[[File:Nuvola Red.png|16px]] <small>[[Escort 19]] (1x temp, RS232)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (1xtemp, RS232)</small><br />
File:Rding temper front.png|link=RDing TEMPer|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer]] (1xtemp, USB)</small><br />
File:Rding temper gold device front.png|link=RDing TEMPer Gold|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer Gold]] (1xtemp, USB)</small><br />
File:Rding temper1 device front.png|link=RDing TEMPer1|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer1]] (1xtemp, USB)</small><br />
File:Pcsensor_temper1k2.png|link=RDing TEMPer1K2|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer1K2]] (1xtemp, USB)</small><br />
File:Voltcraft dl-120th.png|link=Voltcraft DL-120TH|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-120TH]] (1xtemp, USB)</small><br />
File:Voltcraft dl-140th.png|link=Voltcraft DL-140TH|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-140TH]] (1xtemp, USB)</small><br />
</gallery><br />
<br />
== Hygrometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:EL-USB-2.png|link=Lascar Electronics EL-USB-2|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-2]] (temp/humidity, USB)</small><br />
File:Mic 98583.png|link=MIC 98583|[[File:Nuvola OK.png|16px]] <small>[[MIC 98583]] (temp/humidity, USB)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (also: light-/soundlevelmeter; RS232)</small><br />
File:Silabs si7005usb dgl eb top.jpg|link=SiLabs Si7005USB-Dongle|[[File:Nuvola Red.png|16px]] <small>[[SiLabs Si7005USB-Dongle]] (USB)</small><br />
</gallery><br />
<br />
== Anemometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Mastech ms6252b.png|link=MASTECH MS6252B|[[File:Nuvola Red.png|16px]] <small>[[MASTECH MS6252B]] (USB)</small><br />
</gallery><br />
<br />
== Light meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Lutron YK-2005LX.png|link=Lutron YK-2005LX|[[File:Nuvola Red.png|16px]] <small>[[Lutron YK-2005LX]] (RS232)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (RS232)</small><br />
</gallery><br />
<br />
== Energy meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Actaris_a14c5_teleinfo.png|link=EDF Teleinfo|[[File:Nuvola OK.png|16px]] <small>[[EDF Teleinfo]] (RS232)</small><br />
File:Acme.png|link=BayLibre ACME|[[File:Nuvola OK.png|16px]] <small>[[BayLibre ACME]] (I2C)</small><br />
</gallery><br />
<br />
== DAQs ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Ni usb 6008.png|link=NI USB-6008|[[File:Nuvola Red.png|16px]] <small>[[NI USB-6008]] (8/2 analog inputs/outputs, 12 digital I/Os)</small><br />
</gallery><br />
<br />
== Dataloggers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:EL-USB-CO.png|link=Lascar Electronics EL-USB-CO|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-CO]] (carbon monoxide (CO) logger, USB)</small><br />
File:Testo_435-4.png|link=Testo 435-4|[[File:Nuvola OK.png|16px]] <small>[[Testo 435-4]] (USB)</small><br />
File:Gsg_indoor_air_monitor.png|link=GSG Indoor Air Monitor|[[File:Nuvola Red.png|16px]] <small>[[GSG Indoor Air Monitor]] (air quality monitor, USB)</small><br />
File:Maul_studio_i.png|link=MAUL studio i|[[File:Nuvola Red.png|16px]] <small>[[MAUL studio i]] (weighing scale, RS232)</small><br />
File:Voltcraft co-20.png|link=Voltcraft CO-20|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft CO-20]] (air quality monitor, USB)</small><br />
</gallery><br />
<br />
== Tachometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Uni-t ut372 mugshot.png|link=UNI-T UT372|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT372]] (USB)</small><br />
</gallery><br />
<br />
== Scales ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Kern ew-6200-2nm mugshot.png|link=KERN scale series|[[File:Nuvola OK.png|16px]] <small>[[KERN scale series]] (RS232)</small><br />
</gallery><br />
<br />
== Digital loads ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Maynuo m9812 mugshot.png|link=Maynuo M9812|[[File:Nuvola OK.png|16px]] <small>[[Maynuo M9812]]<br />
File:Atten ATZ9711.png|link=ATTEN ATZ9711|[[File:Nuvola Red.png|16px]] <small>[[ATTEN ATZ9711]]<br />
</gallery><br />
<br />
== Function generators ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Hantek DDS-3X25 top.png|link=Hantek DDS-3X25|[[File:Nuvola Red.png|16px]] <small>[[Hantek DDS-3X25]] (25MHz, PC-based, USB)</small><br />
File:Hp_3325a_front.png|link=HO 3325A|[[File:Nuvola Red.png|16px]] <small>[[HP 3325A]] (20MHz, GPIB)</small><br />
File:Siglent sdg1010 device front 8116.png|link=Siglent SDG1010|[[File:Nuvola Red.png|16px]] <small>[[Siglent SDG1010]] (10MHz, USB)</small><br />
<br />
File:BG7TBL small.png|link=BG7TBL|[[File:Nuvola Red.png|16px]] <small>[[BG7TBL]] (138MHz-4.4GHz, PC-based, USB)</small><br />
<br />
File:MHINSTEK UDB1305S persp.jpg|link=MHINSTEK UDB1xxxS|[[File:Nuvola Red.png|16px]] <small>[[MHINSTEK UDB1xxxS]] (2/5/8MHz, Serial)</small><br />
</gallery><br />
<br />
== RF receivers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Per vices noctar.png|link=Per Vices Noctar|[[File:Nuvola Red.png|16px]] <small>[[Per Vices Noctar]] (100kHz-4GHz, IQ modulator/demodulator, PCIe)</small><br />
</gallery><br />
<br />
== Spectrum analyzers ==<br />
<br />
TODO.<br />
<br />
== Power supplies ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Atten PPS3203T-3S.png|link=Atten PPS3203T-3S|[[File:Nuvola OK.png|16px]] <small>[[Atten PPS3203T-3S]] (3ch, 2x 0-32V, 1x 0-6V at 0-3A, USB&RS232)</small><br />
File:Chroma_61604_front.png|link=Chroma 61604|[[File:Nuvola OK.png|16px]] <small>[[Chroma 61604]] (1ch, 0-300V, 0-16A, 2kVA)</small><br />
File:Conrad_digi_35_cpu_logo.png|link=Conrad DIGI 35 CPU|[[File:Nuvola OK.png|16px]] <small>[[Conrad DIGI 35 CPU]] (1ch, 0-35V/0-2.55A, RS232)</small><br />
File:HP-6632B_mugshot.png|link=HP 6632B|[[File:Nuvola OK.png|16px]] <small>[[HP 6632B]] (1ch, 0-20V/0-5A, GPIB&RS232)</small><br />
File:Velleman ps3005d mugshot.png|link=Korad KAxxxxP series|[[File:Nuvola OK.png|16px]] <small>[[Korad KAxxxxP series]] (1ch, 0-30V/0-5A, USB&RS232)</small><br />
File:Manson hcs3202.png|link=Manson HCS-3202|[[File:Nuvola OK.png|16px]] <small>[[Manson HCS-3202]] (1ch, 1-36V/0-10A, USB)</small><br />
File:Motech_LPS-301_logo.png|link=Motech LPS-301|[[File:Nuvola OK.png|16px]] <small>[[Motech LPS-301]] (1ch, 1-32V/0-2A, RS232)</small><br />
File:Philips PM2813.png|link=Philips PM2800 series|[[File:Nuvola OK.png|16px]] <small>Fluke/Philips PM2800 series</small><br />
File:Rigol DP832.png|link=Rigol DP800 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DP800 series]]</small><br />
File:Voltcraft pps-11815 logo.png|link=Voltcraft PPS-11815|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft PPS-11815]] (1ch, 0-60V/0-5A, USB)</small><br />
<br />
File:Sigrok logo no text transparent 512.png|link=Voltcraft 18220|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft 18220]] (1ch, 0-40V/0-5A, RS232)</small><br />
</gallery><br />
<br />
== GPIB interfaces ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Beiming_s82357.png|link=Beiming S82357|[[File:Nuvola Red.png|16px]] <small>[[Beiming S82357]] (hardware-based, USB)</small><br />
File:ICS 488-USB.png|link=ICS 488-USB|[[File:Nuvola Red.png|16px]] <small>[[ICS 488-USB]] (hardware-based, USB)</small><br />
File:GPIB-USB 82357B clone.png|link=GPIB-USB 82357B clone|[[File:Nuvola Red.png|16px]] <small>[[GPIB-USB 82357B clone]] (hardware-based, USB)</small><br />
File:NI GPIB-ENET.png|link=National Instruments GPIB-ENET|[[File:Nuvola Red.png|16px]] <small>[[National Instruments GPIB-ENET]] (hardware-based, Ethernet)</small><br />
File:NI GPIB-USB-HS.png|link=National Instruments GPIB-USB-HS|[[File:Nuvola Red.png|16px]] <small>[[National Instruments GPIB-USB-HS]] (hardware-based, USB)</small><br />
File:Prologix-usb.png|link=Prologix GPIB-USB|[[File:Nuvola Red.png|16px]] <small>[[Prologix GPIB-USB]] (firmware-based, USB)</small><br />
File:GalvantGPIBUSBrev4.JPG|link=Galvant GPIBUSB|[[File:Nuvola Red.png|16px]] <small>[[Galvant GPIBUSB]] (firmware-based, USB, OSHW)</small><br />
</gallery><br />
<br />
== Potential other candidates ==<br />
<br />
If you own any other logic analyzers, oscilloscopes, multimeters, dataloggers, ... and want to add support for them in sigrok (or donate/lend devices to developers), please let us know. We're always happy to add more hardware support! Join the [https://lists.sourceforge.net/lists/listinfo/sigrok-devel mailing list] or ask on [irc://chat.freenode.net/sigrok IRC #sigrok] if you want to help out.<br />
<br />
__FORCETOC__</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3325A&diff=11755HP 3325A2016-06-11T17:39:21Z<p>Mrnuke: </p>
<hr />
<div>{{Infobox signal generator<br />
| image = [[File:Hp_3325a_front.png|180px]]<br />
| name = Hewlett-Packard 3325A<br />
| status = planned<br />
| source_code_dir = <br />
| freqsine = 20MHz<br />
| freqsquare = 10MHz<br />
| freqother = 10KHz (triangle, sawtooth)<br />
| waveforms = sine, square, triangle, sawtooth<br />
| modulation = AM, FM<br />
| connectivity = GPIB<br />
| website = [http://www.keysight.com/en/pd-3325A%3Aepsg%3Apro-pn-3325A/synthesizer-function-generator?cc=US&lc=eng keysight.com]<br />
}}<br />
The Hewlett-Packard 3325A is a 20MHz function generator with GPIB connectivity.<br />
<br />
<br />
=== GPIB settings ===<br />
<br />
<gallery><br />
File:Hp_3325a_gpib_addr_ctl.jpg|<small>GPIB address selection switches</small><br />
File:Hp_3325a_gpib_addr_17_example.jpg|<small>Example setting for GPIB address 17</small><br />
File:Hp_3325a_gpib_lon_setting.jpg|<small>Location of LON switch, with correct setting indicated by red dot</small><br />
</gallery></div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3325a_front.png&diff=11754File:Hp 3325a front.png2016-06-11T17:38:20Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3325A&diff=11753HP 3325A2016-06-09T20:15:20Z<p>Mrnuke: /* GPIB settings */</p>
<hr />
<div>{{Infobox signal generator<br />
| image = [[File:TODO.jpg|180px]]<br />
| name = Hewlett-Packard 3325A<br />
| status = planned<br />
| source_code_dir = <br />
| freqsine = 20MHz<br />
| freqsquare = 10MHz<br />
| freqother = 10KHz (triangle, sawtooth)<br />
| waveforms = sine, square, triangle, sawtooth<br />
| modulation = AM, FM<br />
| connectivity = GPIB<br />
| website = [http://www.keysight.com/en/pd-3325A%3Aepsg%3Apro-pn-3325A/synthesizer-function-generator?cc=US&lc=eng keysight.com]<br />
}}<br />
The Hewlett-Packard 3325A is a 20MHz function generator with GPIB connectivity.<br />
<br />
<br />
=== GPIB settings ===<br />
<br />
<gallery><br />
File:Hp_3325a_gpib_addr_ctl.jpg|<small>GPIB address selection switches</small><br />
File:Hp_3325a_gpib_addr_17_example.jpg|<small>Example setting for GPIB address 17</small><br />
File:Hp_3325a_gpib_lon_setting.jpg|<small>Location of LON switch, with correct setting indicated by red dot</small><br />
</gallery></div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3325a_gpib_lon_setting.jpg&diff=11752File:Hp 3325a gpib lon setting.jpg2016-06-09T20:14:07Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3325A&diff=11751HP 3325A2016-06-09T19:57:40Z<p>Mrnuke: </p>
<hr />
<div>{{Infobox signal generator<br />
| image = [[File:TODO.jpg|180px]]<br />
| name = Hewlett-Packard 3325A<br />
| status = planned<br />
| source_code_dir = <br />
| freqsine = 20MHz<br />
| freqsquare = 10MHz<br />
| freqother = 10KHz (triangle, sawtooth)<br />
| waveforms = sine, square, triangle, sawtooth<br />
| modulation = AM, FM<br />
| connectivity = GPIB<br />
| website = [http://www.keysight.com/en/pd-3325A%3Aepsg%3Apro-pn-3325A/synthesizer-function-generator?cc=US&lc=eng keysight.com]<br />
}}<br />
The Hewlett-Packard 3325A is a 20MHz function generator with GPIB connectivity.<br />
<br />
<br />
=== GPIB settings ===<br />
<br />
<gallery><br />
File:Hp_3325a_gpib_addr_ctl.jpg|<small>GPIB address selection switches</small><br />
File:Hp_3325a_gpib_addr_17_example.jpg|<small>Example setting for GPIB address 17</small><br />
</gallery></div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3325a_gpib_addr_17_example.jpg&diff=11750File:Hp 3325a gpib addr 17 example.jpg2016-06-09T19:56:58Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3325a_gpib_addr_ctl.jpg&diff=11749File:Hp 3325a gpib addr ctl.jpg2016-06-09T19:56:00Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3325A&diff=11748HP 3325A2016-06-09T17:46:39Z<p>Mrnuke: Created page with "{{Infobox signal generator | image = 180px | name = Hewlett-Packard 3325A | status = planned | source_code_dir = | freqsine = 20MHz | freqsquare = 10MHz | f..."</p>
<hr />
<div>{{Infobox signal generator<br />
| image = [[File:TODO.jpg|180px]]<br />
| name = Hewlett-Packard 3325A<br />
| status = planned<br />
| source_code_dir = <br />
| freqsine = 20MHz<br />
| freqsquare = 10MHz<br />
| freqother = 10KHz (triangle, sawtooth)<br />
| waveforms = sine, square, triangle, sawtooth<br />
| modulation = AM, FM<br />
| connectivity = GPIB<br />
| website = [http://www.keysight.com/en/pd-3325A%3Aepsg%3Apro-pn-3325A/synthesizer-function-generator?cc=US&lc=eng keysight.com]<br />
}}<br />
The Hewlett-Packard 3325A is a 20MHz function generator with GPIB connectivity.</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11734HP 3457A2016-05-27T18:53:02Z<p>Mrnuke: /* Hardware Revision 6 */</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== Plug-in cards ==<br />
<br />
The HP 3457A supports one plug-in card in the rear, which replaces the rear terminals. Two cards are supported by the device.<br />
<br />
=== Rear terminals ===<br />
<br />
The rear terminals provide the same five-terminal measurement capability as the front panel terminals. The rear terminal block can be replaced by one of the following relay multiplexer cards.<br />
<br />
=== 44491A Armature Relay Multiplexer ===<br />
<br />
This card supports 10 input channels. The last two channels are dedicated to current measurements while the other wight can be configured for either two-terminal measurements, or four-wire resistance measurements.<br />
* 8 - voltage, 2-wire resistance channels<br />
* 4 - four-wire resistance channels<br />
* 2 - current channels<br />
<br />
=== 44492A Reed Relay Multiplexer ===<br />
<br />
This card supports 10 channels, multiplexable to the voltage inputs. It supports voltage, two-wire resistance and frequency measurements.<br />
<br />
== sigrok quirks ==<br />
<br />
=== Driver design goals and quirks ===<br />
<br />
The driver is designed for accuracy and precision rather than throughput. As a result, it does not use the DMM's FIFO memory, but instead focuses on getting maximum precision from each measurement. When the integration time is set to 10 or 100 powerline cycles, the driver will automatically read the HIRES register, and add the result to the reading to get 7.5 digit measurements. This is handled transparently.<br />
<br />
Only one measurement unit is supported, irrespective of the number of channels provided by expansion cards. This means that all channels will measure the same quantity. Changing measurement type between channels is not supported. Another side-effect is that if a given channel does not support the current measurement quantity, the DMM will produce a measurement with open terminals.<br />
<br />
Only the front or rear terminals, or expansion card may be selected at any given time. This is because certain firmware revisions do not like switching back and forth too fast between terminals.<br />
<br />
Switching between channels is achieved using the scan-advance feature, using the SLIST and SADV commands. This method seems to work best on all tested hardware and firmware revisions of the 3457A. Manual channel switching generates a "Trig too fast" error that is only correctable with an upgrade of the primary processor board.<br />
<br />
=== Connecting and configuring the DMM ===<br />
<br />
The HP3457A can only be accessed via GPIB. On linux, it will most likely be accessed with libgpib. The '''conn''' parameter will then be of the form "libgpib/<device_name>", where device_name is the '''name''' entry be specified in a gpib.conf device section.<br />
<br />
The device supports a configurable ADC integration time based on the number of powerline cycles. This can be specified by using the '''nplc''' key. Since there is no way to query the measurement quantity, it should be specified before starting an acquisition, else the unit will not be reported. This is done via the '''measured_quantity''' key.<br />
<br />
For example, to read two voltage samples from libgpib device hp3457a, with 10 powerline cycles integration time:<br />
<br />
sigrok-cli --driver=hp-3457a:conn=libgpib/hp3457a \<br />
--samples 2 \<br />
--config "measured_quantity=voltage:nplc=10"<br />
<br />
== Photos ==<br />
<br />
==== Hardware Revision 6 ====<br />
<br />
<gallery><br />
File:Hp_3457a_rev6_top_cover_removed.jpg|<small>Device with the top cover removed. The analog section is hidden under two metal shields</small><br />
File:Hp_3457a_rev6_analog_section_overview.jpg|<small>Overview of the analog section</small><br />
File:Hp_3457a_rev6_analog_section_riser_board.jpg|<small>Analog section, riser board</small><br />
File:Hp_3457a_rev6_voltage_reference_board.jpg|<small>Voltage reference board</small><br />
File:Hp_3457a_rev6_analog_section_relays.jpg|<small>Analog section, relays</small><br />
File:Hp_3457a_rev6_relay_flyback_diodes.jpg|<small>Flyback diodes for the relays are nicely lined up</small><br />
File:Hp_3457a_rev6_mains_input_and_transformer.jpg|<small>Mains input and transformer</small><br />
File:Hp_3457a_rev6_lithium_nvram_battery.jpg|<small>Digital section, lithium NVRAM baterry</small><br />
</gallery><br />
<br />
More TODO.<br />
<br />
Also see [https://www.flickr.com/photos/eevblog/sets/72157632803534496/ EEVBlog's teardown pictures].<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3457a_rev6_analog_section_overview.jpg&diff=11733File:Hp 3457a rev6 analog section overview.jpg2016-05-27T18:52:21Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11732HP 3457A2016-05-27T18:48:55Z<p>Mrnuke: /* Photos */</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== Plug-in cards ==<br />
<br />
The HP 3457A supports one plug-in card in the rear, which replaces the rear terminals. Two cards are supported by the device.<br />
<br />
=== Rear terminals ===<br />
<br />
The rear terminals provide the same five-terminal measurement capability as the front panel terminals. The rear terminal block can be replaced by one of the following relay multiplexer cards.<br />
<br />
=== 44491A Armature Relay Multiplexer ===<br />
<br />
This card supports 10 input channels. The last two channels are dedicated to current measurements while the other wight can be configured for either two-terminal measurements, or four-wire resistance measurements.<br />
* 8 - voltage, 2-wire resistance channels<br />
* 4 - four-wire resistance channels<br />
* 2 - current channels<br />
<br />
=== 44492A Reed Relay Multiplexer ===<br />
<br />
This card supports 10 channels, multiplexable to the voltage inputs. It supports voltage, two-wire resistance and frequency measurements.<br />
<br />
== sigrok quirks ==<br />
<br />
=== Driver design goals and quirks ===<br />
<br />
The driver is designed for accuracy and precision rather than throughput. As a result, it does not use the DMM's FIFO memory, but instead focuses on getting maximum precision from each measurement. When the integration time is set to 10 or 100 powerline cycles, the driver will automatically read the HIRES register, and add the result to the reading to get 7.5 digit measurements. This is handled transparently.<br />
<br />
Only one measurement unit is supported, irrespective of the number of channels provided by expansion cards. This means that all channels will measure the same quantity. Changing measurement type between channels is not supported. Another side-effect is that if a given channel does not support the current measurement quantity, the DMM will produce a measurement with open terminals.<br />
<br />
Only the front or rear terminals, or expansion card may be selected at any given time. This is because certain firmware revisions do not like switching back and forth too fast between terminals.<br />
<br />
Switching between channels is achieved using the scan-advance feature, using the SLIST and SADV commands. This method seems to work best on all tested hardware and firmware revisions of the 3457A. Manual channel switching generates a "Trig too fast" error that is only correctable with an upgrade of the primary processor board.<br />
<br />
=== Connecting and configuring the DMM ===<br />
<br />
The HP3457A can only be accessed via GPIB. On linux, it will most likely be accessed with libgpib. The '''conn''' parameter will then be of the form "libgpib/<device_name>", where device_name is the '''name''' entry be specified in a gpib.conf device section.<br />
<br />
The device supports a configurable ADC integration time based on the number of powerline cycles. This can be specified by using the '''nplc''' key. Since there is no way to query the measurement quantity, it should be specified before starting an acquisition, else the unit will not be reported. This is done via the '''measured_quantity''' key.<br />
<br />
For example, to read two voltage samples from libgpib device hp3457a, with 10 powerline cycles integration time:<br />
<br />
sigrok-cli --driver=hp-3457a:conn=libgpib/hp3457a \<br />
--samples 2 \<br />
--config "measured_quantity=voltage:nplc=10"<br />
<br />
== Photos ==<br />
<br />
==== Hardware Revision 6 ====<br />
<br />
<gallery><br />
File:Hp_3457a_rev6_top_cover_removed.jpg|<small>Device with the top cover removed. The analog section is hidden under two metal shields</small><br />
File:Hp_3457a_rev6_analog_section_riser_board.jpg|<small>Analog section, riser board</small><br />
File:Hp_3457a_rev6_voltage_reference_board.jpg|<small>Voltage reference board</small><br />
File:Hp_3457a_rev6_analog_section_relays.jpg|<small>Analog section, relays</small><br />
File:Hp_3457a_rev6_relay_flyback_diodes.jpg|<small>Flyback diodes for the relays are nicely lined up</small><br />
File:Hp_3457a_rev6_mains_input_and_transformer.jpg|<small>Mains input and transformer</small><br />
File:Hp_3457a_rev6_lithium_nvram_battery.jpg|<small>Digital section, lithium NVRAM baterry</small><br />
</gallery><br />
<br />
More TODO.<br />
<br />
Also see [https://www.flickr.com/photos/eevblog/sets/72157632803534496/ EEVBlog's teardown pictures].<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11731HP 3457A2016-05-27T18:47:28Z<p>Mrnuke: /* Photos */</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== Plug-in cards ==<br />
<br />
The HP 3457A supports one plug-in card in the rear, which replaces the rear terminals. Two cards are supported by the device.<br />
<br />
=== Rear terminals ===<br />
<br />
The rear terminals provide the same five-terminal measurement capability as the front panel terminals. The rear terminal block can be replaced by one of the following relay multiplexer cards.<br />
<br />
=== 44491A Armature Relay Multiplexer ===<br />
<br />
This card supports 10 input channels. The last two channels are dedicated to current measurements while the other wight can be configured for either two-terminal measurements, or four-wire resistance measurements.<br />
* 8 - voltage, 2-wire resistance channels<br />
* 4 - four-wire resistance channels<br />
* 2 - current channels<br />
<br />
=== 44492A Reed Relay Multiplexer ===<br />
<br />
This card supports 10 channels, multiplexable to the voltage inputs. It supports voltage, two-wire resistance and frequency measurements.<br />
<br />
== sigrok quirks ==<br />
<br />
=== Driver design goals and quirks ===<br />
<br />
The driver is designed for accuracy and precision rather than throughput. As a result, it does not use the DMM's FIFO memory, but instead focuses on getting maximum precision from each measurement. When the integration time is set to 10 or 100 powerline cycles, the driver will automatically read the HIRES register, and add the result to the reading to get 7.5 digit measurements. This is handled transparently.<br />
<br />
Only one measurement unit is supported, irrespective of the number of channels provided by expansion cards. This means that all channels will measure the same quantity. Changing measurement type between channels is not supported. Another side-effect is that if a given channel does not support the current measurement quantity, the DMM will produce a measurement with open terminals.<br />
<br />
Only the front or rear terminals, or expansion card may be selected at any given time. This is because certain firmware revisions do not like switching back and forth too fast between terminals.<br />
<br />
Switching between channels is achieved using the scan-advance feature, using the SLIST and SADV commands. This method seems to work best on all tested hardware and firmware revisions of the 3457A. Manual channel switching generates a "Trig too fast" error that is only correctable with an upgrade of the primary processor board.<br />
<br />
=== Connecting and configuring the DMM ===<br />
<br />
The HP3457A can only be accessed via GPIB. On linux, it will most likely be accessed with libgpib. The '''conn''' parameter will then be of the form "libgpib/<device_name>", where device_name is the '''name''' entry be specified in a gpib.conf device section.<br />
<br />
The device supports a configurable ADC integration time based on the number of powerline cycles. This can be specified by using the '''nplc''' key. Since there is no way to query the measurement quantity, it should be specified before starting an acquisition, else the unit will not be reported. This is done via the '''measured_quantity''' key.<br />
<br />
For example, to read two voltage samples from libgpib device hp3457a, with 10 powerline cycles integration time:<br />
<br />
sigrok-cli --driver=hp-3457a:conn=libgpib/hp3457a \<br />
--samples 2 \<br />
--config "measured_quantity=voltage:nplc=10"<br />
<br />
== Photos ==<br />
<br />
<gallery><br />
File:Hp_3457a_rev6_top_cover_removed.jpg|<small>Device with the top cover removed. The analog section is hidden under two metal shields</small><br />
File:Hp_3457a_rev6_analog_section_riser_board.jpg|<small>Analog section, riser board</small><br />
File:Hp_3457a_rev6_voltage_reference_board.jpg|<small>Voltage reference board</small><br />
File:Hp_3457a_rev6_analog_section_relays.jpg|<small>Analog section, relays</small><br />
File:Hp_3457a_rev6_relay_flyback_diodes.jpg|<small>Flyback diodes for the relays are nicely lined up</small><br />
File:Hp_3457a_rev6_mains_input_and_transformer.jpg|<small>Mains input and transformer</small><br />
File:Hp_3457a_rev6_lithium_nvram_battery.jpg|<small>Digital section, lithium NVRAM baterry</small><br />
</gallery><br />
<br />
More TODO.<br />
<br />
Also see [https://www.flickr.com/photos/eevblog/sets/72157632803534496/ EEVBlog's teardown pictures].<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3457a_rev6_top_cover_removed.jpg&diff=11730File:Hp 3457a rev6 top cover removed.jpg2016-05-27T18:46:44Z<p>Mrnuke: </p>
<hr />
<div></div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3457a_rev6_voltage_reference_board.jpg&diff=11729File:Hp 3457a rev6 voltage reference board.jpg2016-05-27T18:46:08Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3457a_rev6_relay_flyback_diodes.jpg&diff=11728File:Hp 3457a rev6 relay flyback diodes.jpg2016-05-27T18:44:44Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3457a_rev6_mains_input_and_transformer.jpg&diff=11727File:Hp 3457a rev6 mains input and transformer.jpg2016-05-27T18:43:53Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3457a_rev6_lithium_nvram_battery.jpg&diff=11726File:Hp 3457a rev6 lithium nvram battery.jpg2016-05-27T18:42:54Z<p>Mrnuke: </p>
<hr />
<div></div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3457a_rev6_analog_section_riser_board.jpg&diff=11725File:Hp 3457a rev6 analog section riser board.jpg2016-05-27T18:41:52Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=File:Hp_3457a_rev6_analog_section_relays.jpg&diff=11724File:Hp 3457a rev6 analog section relays.jpg2016-05-27T18:40:06Z<p>Mrnuke: </p>
<hr />
<div>== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11674HP 3457A2016-04-27T22:54:58Z<p>Mrnuke: /* Driver design goals and quirks */</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== Plug-in cards ==<br />
<br />
The HP 3457A supports one plug-in card in the rear, which replaces the rear terminals. Two cards are supported by the device.<br />
<br />
=== Rear terminals ===<br />
<br />
The rear terminals provide the same five-terminal measurement capability as the front panel terminals. The rear terminal block can be replaced by one of the following relay multiplexer cards.<br />
<br />
=== 44491A Armature Relay Multiplexer ===<br />
<br />
This card supports 10 input channels. The last two channels are dedicated to current measurements while the other wight can be configured for either two-terminal measurements, or four-wire resistance measurements.<br />
* 8 - voltage, 2-wire resistance channels<br />
* 4 - four-wire resistance channels<br />
* 2 - current channels<br />
<br />
=== 44492A Reed Relay Multiplexer ===<br />
<br />
This card supports 10 channels, multiplexable to the voltage inputs. It supports voltage, two-wire resistance and frequency measurements.<br />
<br />
== sigrok quirks ==<br />
<br />
=== Driver design goals and quirks ===<br />
<br />
The driver is designed for accuracy and precision rather than throughput. As a result, it does not use the DMM's FIFO memory, but instead focuses on getting maximum precision from each measurement. When the integration time is set to 10 or 100 powerline cycles, the driver will automatically read the HIRES register, and add the result to the reading to get 7.5 digit measurements. This is handled transparently.<br />
<br />
Only one measurement unit is supported, irrespective of the number of channels provided by expansion cards. This means that all channels will measure the same quantity. Changing measurement type between channels is not supported. Another side-effect is that if a given channel does not support the current measurement quantity, the DMM will produce a measurement with open terminals.<br />
<br />
Only the front or rear terminals, or expansion card may be selected at any given time. This is because certain firmware revisions do not like switching back and forth too fast between terminals.<br />
<br />
Switching between channels is achieved using the scan-advance feature, using the SLIST and SADV commands. This method seems to work best on all tested hardware and firmware revisions of the 3457A. Manual channel switching generates a "Trig too fast" error that is only correctable with an upgrade of the primary processor board.<br />
<br />
=== Connecting and configuring the DMM ===<br />
<br />
The HP3457A can only be accessed via GPIB. On linux, it will most likely be accessed with libgpib. The '''conn''' parameter will then be of the form "libgpib/<device_name>", where device_name is the '''name''' entry be specified in a gpib.conf device section.<br />
<br />
The device supports a configurable ADC integration time based on the number of powerline cycles. This can be specified by using the '''nplc''' key. Since there is no way to query the measurement quantity, it should be specified before starting an acquisition, else the unit will not be reported. This is done via the '''measured_quantity''' key.<br />
<br />
For example, to read two voltage samples from libgpib device hp3457a, with 10 powerline cycles integration time:<br />
<br />
sigrok-cli --driver=hp-3457a:conn=libgpib/hp3457a \<br />
--samples 2 \<br />
--config "measured_quantity=voltage:nplc=10"<br />
<br />
== Photos ==<br />
<br />
TODO (need to get a decent camera).<br />
<br />
Also see [https://www.flickr.com/photos/eevblog/sets/72157632803534496/ EEVBlog's teardown pictures].<br />
<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11672HP 3457A2016-04-26T23:59:07Z<p>Mrnuke: /* sigrok quirks */</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== Plug-in cards ==<br />
<br />
The HP 3457A supports one plug-in card in the rear, which replaces the rear terminals. Two cards are supported by the device.<br />
<br />
=== Rear terminals ===<br />
<br />
The rear terminals provide the same five-terminal measurement capability as the front panel terminals. The rear terminal block can be replaced by one of the following relay multiplexer cards.<br />
<br />
=== 44491A Armature Relay Multiplexer ===<br />
<br />
This card supports 10 input channels. The last two channels are dedicated to current measurements while the other wight can be configured for either two-terminal measurements, or four-wire resistance measurements.<br />
* 8 - voltage, 2-wire resistance channels<br />
* 4 - four-wire resistance channels<br />
* 2 - current channels<br />
<br />
=== 44492A Reed Relay Multiplexer ===<br />
<br />
This card supports 10 channels, multiplexable to the voltage inputs. It supports voltage, two-wire resistance and frequency measurements.<br />
<br />
== sigrok quirks ==<br />
<br />
=== Driver design goals and quirks ===<br />
<br />
The driver is designed for accuracy and precision rather than throughput. As a result, it does not use the DMM's FIFO memory, but instead focuses on getting maximum precision from each measurement. When the integration time is set to 10 or 100 powerline cycles, the driver will automatically read the HIRES register, and add the result to the reading to get 7.5 digit measurements. This is handled transparently.<br />
<br />
Only one measurement unit is supported, irrespective of the number of channels provided by expansion cards. This means that all channels will measure the same quantity. Changing measurement type between channels is not supported. Another side-effect is that if a given channel does not support the current measurement quantity, the DMM will produce a measurement with open terminals.<br />
<br />
Only the front or rear terminals, or expansion card may be selected at any given time. This is because certain firmware revisions do not like switching back and forth too fast between terminals.<br />
<br />
<br />
=== Connecting and configuring the DMM ===<br />
<br />
The HP3457A can only be accessed via GPIB. On linux, it will most likely be accessed with libgpib. The '''conn''' parameter will then be of the form "libgpib/<device_name>", where device_name is the '''name''' entry be specified in a gpib.conf device section.<br />
<br />
The device supports a configurable ADC integration time based on the number of powerline cycles. This can be specified by using the '''nplc''' key. Since there is no way to query the measurement quantity, it should be specified before starting an acquisition, else the unit will not be reported. This is done via the '''measured_quantity''' key.<br />
<br />
For example, to read two voltage samples from libgpib device hp3457a, with 10 powerline cycles integration time:<br />
<br />
sigrok-cli --driver=hp-3457a:conn=libgpib/hp3457a \<br />
--samples 2 \<br />
--config "measured_quantity=voltage:nplc=10"<br />
<br />
== Photos ==<br />
<br />
TODO (need to get a decent camera).<br />
<br />
Also see [https://www.flickr.com/photos/eevblog/sets/72157632803534496/ EEVBlog's teardown pictures].<br />
<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11530HP 3457A2016-03-30T17:35:40Z<p>Mrnuke: Add information about the rear terminal option cards</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== Plug-in cards ==<br />
<br />
The HP 3457A supports one plug-in card in the rear, which replaces the rear terminals. Two cards are supported by the device.<br />
<br />
=== Rear terminals ===<br />
<br />
The rear terminals provide the same five-terminal measurement capability as the front panel terminals. The rear terminal block can be replaced by one of the following relay multiplexer cards.<br />
<br />
=== 44491A Armature Relay Multiplexer ===<br />
<br />
This card supports 10 input channels. The last two channels are dedicated to current measurements while the other wight can be configured for either two-terminal measurements, or four-wire resistance measurements.<br />
* 8 - voltage, 2-wire resistance channels<br />
* 4 - four-wire resistance channels<br />
* 2 - current channels<br />
<br />
=== 44492A Reed Relay Multiplexer ===<br />
<br />
This card supports 10 channels, multiplexable to the voltage inputs. It supports voltage, two-wire resistance and frequency measurements.<br />
<br />
== sigrok quirks ==<br />
<br />
The HP3457A can only be accessed via GPIB. On linux, it will most likely be accessed with libgpib. The '''conn''' parameter will then be of the form "libgpib/<device_name>", where device_name is the '''name''' entry be specified in a gpib.conf device section.<br />
<br />
The device supports a configurable ADC integration time based on the number of powerline cycles. This can be specified by using the '''nplc''' key. Since there is no way to query the measurement quantity, it should be specified before starting an acquisition, else the unit will not be reported. This is done via the '''measured_quantity''' key.<br />
<br />
For example, to read two voltage samples from libgpib device hp3457a, with 10 powerline cycles integration time:<br />
<br />
sigrok-cli --driver=hp-3457a:conn=libgpib/hp3457a \<br />
--samples 2 \<br />
--config "measured_quantity=voltage:nplc=10"<br />
<br />
== Photos ==<br />
<br />
TODO (need to get a decent camera).<br />
<br />
Also see [https://www.flickr.com/photos/eevblog/sets/72157632803534496/ EEVBlog's teardown pictures].<br />
<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11529HP 3457A2016-03-30T17:19:26Z<p>Mrnuke: Add link to EEVBlog's teardown pictures</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== sigrok quirks ==<br />
<br />
The HP3457A can only be accessed via GPIB. On linux, it will most likely be accessed with libgpib. The '''conn''' parameter will then be of the form "libgpib/<device_name>", where device_name is the '''name''' entry be specified in a gpib.conf device section.<br />
<br />
The device supports a configurable ADC integration time based on the number of powerline cycles. This can be specified by using the '''nplc''' key. Since there is no way to query the measurement quantity, it should be specified before starting an acquisition, else the unit will not be reported. This is done via the '''measured_quantity''' key.<br />
<br />
For example, to read two voltage samples from libgpib device hp3457a, with 10 powerline cycles integration time:<br />
<br />
sigrok-cli --driver=hp-3457a:conn=libgpib/hp3457a \<br />
--samples 2 \<br />
--config "measured_quantity=voltage:nplc=10"<br />
<br />
== Photos ==<br />
<br />
TODO (need to get a decent camera).<br />
<br />
Also see [https://www.flickr.com/photos/eevblog/sets/72157632803534496/ EEVBlog's teardown pictures].<br />
<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11528HP 3457A2016-03-30T17:16:32Z<p>Mrnuke: Add description of device-specific quirks, line NPLC and MQ</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== sigrok quirks ==<br />
<br />
The HP3457A can only be accessed via GPIB. On linux, it will most likely be accessed with libgpib. The '''conn''' parameter will then be of the form "libgpib/<device_name>", where device_name is the '''name''' entry be specified in a gpib.conf device section.<br />
<br />
The device supports a configurable ADC integration time based on the number of powerline cycles. This can be specified by using the '''nplc''' key. Since there is no way to query the measurement quantity, it should be specified before starting an acquisition, else the unit will not be reported. This is done via the '''measured_quantity''' key.<br />
<br />
For example, to read two voltage samples from libgpib device hp3457a, with 10 powerline cycles integration time:<br />
<br />
sigrok-cli --driver=hp-3457a:conn=libgpib/hp3457a \<br />
--samples 2 \<br />
--config "measured_quantity=voltage:nplc=10"<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11527HP 3457A2016-03-30T16:57:25Z<p>Mrnuke: </p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.<br />
<br />
== Hardware ==<br />
<br />
* '''Precision Subsurface Zener Voltage reference''': [http://cds.linear.com/docs/en/datasheet/199399fc.pdf Linear Technology LM399]<br />
* '''Analog board microprocessor''': Intel 8051<br />
* '''Digital board microprocessor''': Motorola 6800<br />
<br />
== Resources ==<br />
<br />
* [https://www.eevblog.com/2013/02/20/eevblog-426-hp-3457a-multimeter-teardown/ EEVBlog teardown of the 3457A]<br />
<br />
[[Category:Device]]<br />
[[Category:Multimeter]]<br />
[[Category:Supported]]</div>Mrnukehttps://sigrok.org/w/index.php?title=Supported_hardware&diff=11526Supported hardware2016-03-30T16:47:32Z<p>Mrnuke: /* Multimeters */</p>
<hr />
<div>sigrok is intended as a flexible, cross-platform, and '''hardware-independent''' software suite, i.e., it supports various devices from many different vendors.<br />
<br />
Here is a list of currently supported devices (various stages of completeness) and devices we plan to support in the near future.<br />
<br />
The lists are sorted by category ([[File:Nuvola OK.png|16px]] <span style="background-color: lime">supported</span>: [[:Category:Supported|{{PAGESINCATEGORY:Supported|pages}}]], [[File:Nuvola Orange.png|16px]] <span style="background-color: orange">in progress</span>: [[:Category:In progress|{{PAGESINCATEGORY:In progress|pages}}]], [[File:Nuvola Red.png|16px]] <span style="background-color: red">planned</span>: [[:Category:Planned|{{PAGESINCATEGORY:Planned|pages}}]]), and alphabetically within those categories.<br />
<br />
== Logic analyzers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:ARMFLY MINI LOGIC.png|link=ARMFLY Mini-Logic|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY Mini-Logic]] (8ch, 24MHz)</small><br />
File:ASIX SIGMA 2.png|link=ASIX SIGMA|[[File:Nuvola OK.png|16px]] <small>[[ASIX SIGMA]] (16ch, 200MHz)</small><br />
File:BeagleLogic.jpg|link=BeagleLogic|[[File:Nuvola OK.png|16px]] <small>[[BeagleLogic]] (12(max 14)ch, 100MHz)</small><br />
File:Braintechnology_usb_interface_v26.png|link=Braintechnology USB Interface V2.x|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB Interface V2.x]] (8/16ch, 24/12MHz)</small><br />
File:Braintechnology_usb_lps.png|link=Braintechnology USB-LPS|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB-LPS]] (8/16ch, 24/12MHz)</small><br />
File:Chronovu la8 front.png|link=ChronoVu LA8|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA8]] (8ch, 100MHz)</small><br />
File:Chronovu la16.png|link=ChronoVu LA16|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA16]] (16ch, 200MHz)</small><br />
File:Cwav_usbee_sx.png|link=CWAV USBee SX|[[File:Nuvola OK.png|16px]] <small>[[CWAV USBee SX]] (8ch, 24MHz)</small><br />
File:Buspirate_v3.png|link=Dangerous Prototypes Buspirate|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes Buspirate]] (5ch, 1MHz)</small><br />
File:Dangerous prototypes irtoy mugshot.png|link=Dangerous Prototypes USB IR Toy|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes USB IR Toy]] (1ch, 10kHz)</small><br />
File:Eeelec xla esla100.png|link=EE Electronics ESLA100|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA100]] (8ch, 24MHz)</small><br />
File:Hantek 6022be mugshot.png|link=Hantek 6022BL|[[File:Nuvola OK.png|16px]] <small>[[Hantek 6022BL]] (8ch, 24MHz)</small><br />
File:Hobby components hctest0006 mugshot.png|link=Hobby Components HCTEST0006|[[File:Nuvola OK.png|16px]] <small>[[Hobby Components HCTEST0006]] (8ch, 24MHz)</small><br />
File:Ikalogic_scanalogic2.png|link=IKALOGIC Scanalogic-2|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC Scanalogic-2]] (4ch, 20MHz)</small><br />
File:Ikalogic scanaplus mugshot.png|link=IKALOGIC ScanaPLUS|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC ScanaPLUS]] (9ch, 100MHz)</small><br />
File:Kingst kqs3506 la16100.png|link=KingST KQS3506-LA16100|[[File:Nuvola OK.png|16px]] <small>[[KingST KQS3506-LA16100]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Lcsoft-miniboard-front.png|link=Lcsoft Mini Board|[[File:Nuvola OK.png|16px]] <small>[[Lcsoft Mini Board]] (8/16ch, 24/12MHz)</small><br />
File:Lecroy logicstudio16 mugshot.png|link=LeCroy LogicStudio|[[File:Nuvola OK.png|16px]] <small>[[LeCroy LogicStudio]] (8/16ch, 1GHz/500MHz)</small><br />
File:logic-shrimp-front.png|link=Logic Shrimp|[[File:Nuvola OK.png|16px]] <small>[[Logic Shrimp]] (4ch, 20MHz)</small><br />
File:Mcu123 saleae logic clone.png|link=MCU123 Saleae Logic clone|[[File:Nuvola OK.png|16px]] <small>[[MCU123 Saleae Logic clone]] (8ch, 24MHz)</small><br />
File:Usbee_ax_clone_front.png|link=MCU123 USBee AX Pro clone|[[File:Nuvola OK.png|16px]] <small>[[MCU123 USBee AX Pro clone]] (8ch, 24MHz)</small><br />
File:Mcupro_Logic16_overview.png|link=mcupro Logic16 clone|[[File:Nuvola OK.png|16px]] <small>[[mcupro Logic16 clone]] (16ch, 100MHz)</small><br />
File:Openbench logic sniffer front.png|link=Openbench Logic Sniffer|[[File:Nuvola OK.png|16px]] <small>[[Openbench Logic Sniffer]] (32ch, 100MHz)</small><br />
File:Prist akip 9101 mugshot.png|link=Prist AKIP-9101|[[File:Nuvola OK.png|16px]] <small>[[Prist AKIP-9101]] (16ch, 200MHz)</small><br />
File:Robomotic buglogic3.png|link=Robomotic BugLogic 3|[[File:Nuvola OK.png|16px]] <small>[[Robomotic BugLogic 3]] (8ch, 24MHz)</small><br />
File:Robomotic_minilogic.png|link=Robomotic MiniLogic|[[File:Nuvola OK.png|16px]] <small>[[Robomotic MiniLogic]] (8ch, 24MHz)</small><br />
File:Saleae Logic.png|link=Saleae Logic|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic]] (8ch, 24MHz)</small><br />
File:Saleae_Logic16_bottom.png|link=Saleae Logic16|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Saanlima Pipistrello-OLS.png|link=Saanlima Pipistrello OLS|[[File:Nuvola OK.png|16px]] <small>[[Saanlima Pipistrello OLS]] (32ch, 100MHz)</small><br />
File:Sysclk lwla1016.png|link=Sysclk LWLA1016|[[File:Nuvola OK.png|16px]] <small>[[Sysclk LWLA1016]] (16ch, 100MHz)</small><br />
File:Sysclk lwla1034 mugshot.png|link=Sysclk LWLA1034|[[File:Nuvola OK.png|16px]] <small>[[Sysclk LWLA1034]] (34ch, 125MHz)</small><br />
File:Wayengineer saleae16.png|link=WayEngineer Saleae16|[[File:Nuvola OK.png|16px]] <small>[[WayEngineer Saleae16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Zeroplus Logic Cube.png|link=ZEROPLUS Logic Cube LAP-C(16032)|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(16032)]] (16ch, 100MHz)</small><br />
File:Zeroplus Logic Cube.png|link=ZEROPLUS Logic Cube LAP-C(322000)|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(322000)]] (32ch, 200MHz)</small><br />
File:Zeroplus_lap-16128u.png|link=ZEROPLUS LAP-16128U|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS LAP-16128U]] (16ch, 200MHz)</small><br />
<br />
File:ASIX Omega.png|link=ASIX OMEGA|[[File:Nuvola Orange.png|16px]] <small>[[ASIX OMEGA]] (16ch, 400MHz)</small><br />
File:DSLogic.png|link=DreamSourceLab DSLogic|[[File:Nuvola Orange.png|16px]] <small>[[DreamSourceLab DSLogic]] (16ch, 400MHz)</small><br />
File:Hsa-logic.png|link=HSA Logic|[[File:Nuvola Orange.png|16px]] <small>[[HSA Logic]] (8ch, 6.25MHz)</small><br />
File:RockyLogic Ant18e.png|link=RockyLogic Ant18e|[[File:Nuvola Orange.png|16px]] <small>[[RockyLogic Ant18e]] (8ch, 1GHz)</small><br />
File:Sysclk sla5032 mugshot.png|link=Sysclk SLA5032|[[File:Nuvola Orange.png|16px]] <small>[[Sysclk SLA5032]] (32ch, 500MHz)</small><br />
<br />
File:Acute_pkla1216.png|link=Acute PKLA-1216|[[File:Nuvola Red.png|16px]] <small>[[Acute PKLA-1216]] (16ch, 200MHz)</small><br />
File:Hantek 4032l mugshot.png|link=Hantek 4032L|[[File:Nuvola Red.png|16px]] <small>[[Hantek 4032L]] (32ch, 400MHz)</small><br />
File:Ideofy_la_08.png|link=Ideofy LA-08|[[File:Nuvola Red.png|16px]] <small>[[Ideofy LA-08]] (8ch, 96/60/30MHz @ 2/4/8ch)</small><br />
File:Intronix Logicport.png|link=Intronix Logicport LA1034|[[File:Nuvola Red.png|16px]] <small>[[Intronix Logicport LA1034]] (34ch, 500MHz)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Link Instruments LA-5580|[[File:Nuvola Red.png|16px]] <small>[[Link Instruments LA-5580]] (80ch, 500MHz)</small><br />
File:Microchip_pickit2.png|link=Microchip PICkit2|[[File:Nuvola Red.png|16px]] <small>[[Microchip PICkit2]] (3ch, 1MHz)</small><br />
File:Minila parport.png|link=MiniLA|[[File:Nuvola Red.png|16px]] <small>[[MiniLA]] (32ch, 100MHz)</small><br />
File:Minila_mockup.png|link=MiniLA Mockup|[[File:Nuvola Red.png|16px]] <small>[[MiniLA Mockup]] (32ch, 100MHz)</small><br />
File:Noname_la16_mugshot.png|link=Noname LA16|[[File:Nuvola Red.png|16px]] <small>[[Noname LA16]] (16ch, 100MHz)</small><br />
File:Noname xl logic16 100m mugshot.png|link=Noname XL-LOGIC16-100M|[[File:Nuvola Red.png|16px]] <small>[[Noname XL-LOGIC16-100M]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Rockylogic_ant8.png|link=RockyLogic Ant8|[[File:Nuvola Red.png|16px]] <small>[[RockyLogic Ant8]] (8ch, 500MHz)</small><br />
File:Sysclk lwla2034 mugshot.png|link=Sysclk LWLA2034|[[File:Nuvola Red.png|16px]] <small>[[Sysclk LWLA2034]] (34ch, 200MHz)</small><br />
File:Techtools_digiview_dv1-100.png|link=TechTools DigiView DV1-100|[[File:Nuvola Red.png|16px]] <small>[[TechTools DigiView DV1-100]] (18ch, 100MHz)</small><br />
File:Xmos xtag2.png|link=XMOS XTAG-2|[[File:Nuvola Red.png|16px]] <small>[[XMOS XTAG-2]] (?ch, 50MHz)</small><br />
File:Zlg_la1032.png|link=ZLG LA1032|[[File:Nuvola Red.png|16px]] <small>[[ZLG LA1032]] (32ch, 100MHz)</small><br />
</gallery><br />
<br />
== Mixed-signal devices ==<br />
<br />
<gallery widths=105px heights=105px><br />
File:Armfly_ax_pro.png|link=ARMFLY AX-Pro|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY AX-Pro]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:Sysclk ax pro mugshot.png|link=Sysclk AX-Pro|[[File:Nuvola OK.png|16px]] <small>[[Sysclk AX-Pro]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 3MHz BW)</small><br />
File:Esla201a.png|link=EE Electronics ESLA201A|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA201A]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:Rigol DS1052E.png|link=Rigol DS1000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000 series|Rigol DS1000D series]] (16ch, 2ch analog, 50-150MHz BW)</small><br />
File:Rigol_VS5202D.png|link=Rigol VS5000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol VS5000 series|Rigol VS5000D series]] (16ch, 2ch analog, 20-200MHz BW</small><br />
File:Yokogawa DLM2000 front.png|link=Yokogawa DLM2000 series|[[File:Nuvola OK.png|16px]] <small>[[Yokogawa DLM2000 series]] (8ch, 2/4ch analog, 2.5GSa/s, 200/350/500MHz BW)</small><br />
File:Xzl studio ax mugshot.png|link=XZL_Studio AX|[[File:Nuvola OK.png|16px]] <small>[[XZL_Studio AX]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:BitScope BS10.png|link=BitScope BS10|[[File:Nuvola Orange.png|16px]] <small>[[BitScope BS10]] (8ch, 40MHz; 2ch analog, 20MSa/s, ? BW)</small><br />
File:Link Instruments MSO-19 front.png|link=Link Instruments MSO-19|[[File:Nuvola Orange.png|16px]] <small>[[Link Instruments MSO-19]] (8ch, 200MHz; 1ch analog, 200MSa/s, 60MHz BW)</small><br />
<br />
File:Agilent_MSO7104A.png|link=Agilent MSO7104A|[[File:Nuvola Red.png|16px]] <small>[[Agilent MSO7104A]] (16ch, ?; 4ch analog, 2GSa/s, 1GHz BW)</small><br />
File:Digilent_analog_discovery.png|link=Digilent Analog Discovery|[[File:Nuvola Red.png|16px]] <small>[[Digilent Analog Discovery]] (16ch, 100MHz; 2ch analog, 100MSa/s, 5MHz BW)</small><br />
File:Hantek_1008C.png|link=Hantek 1008C|[[File:Nuvola Red.png|16px]] <small>[[Hantek 1008C]] (8ch)</small><br />
File:Lab nation smartscope mugshot.png|link=LabNation SmartScope|[[File:Nuvola Red.png|16px]] <small>[[LabNation SmartScope]] (8ch, 100MHz; 2ch analog, 100MSa/s, 45MHz BW)</small><br />
File:Meilhaus_mephisto_scope1.png|link=Meilhaus MEphisto Scope1|[[File:Nuvola Red.png|16px]] <small>[[Meilhaus MEphisto Scope1]] (16ch, 100kHz; 2ch analog, 1MSa/s, 500kHz BW)</small><br />
File:Polabs_poscope_basic2.png|link=PoLabs PoScope Basic2|[[File:Nuvola Red.png|16px]] <small>[[PoLabs PoScope Basic2]] (16ch, 8MHz; 2ch analog, 200kSa/s, ? BW)</small><br />
File:QuantAsylum QA100.png|link=QuantAsylum QA100|[[File:Nuvola Red.png|16px]] <small>[[QuantAsylum QA100]] (12ch; 2ch analog)</small><br />
File:Saleae_Logic8_case_bottom.jpg|link=Saleae Logic8|[[File:Nuvola Red.png|16px]] <small>[[Saleae Logic8]] (3/6/7/8ch, 100/50/40/25MHz; 8ch analog, 10MSa/s, 1MHz BW)</small><br />
File:Saleae Logic Pro 16 bottom.jpg|link=Saleae Logic Pro 16|[[File:Nuvola Red.png|16px]] <small>[[Saleae Logic Pro 16]] (4/16ch, 500/100MHz; 16ch analog, 50MSa/s, 5MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=XZL_Studio DX|[[File:Nuvola Red.png|16px]] <small>[[XZL_Studio DX]] (16ch, 24MHz; 2ch analog)</small><br />
File:Picoscope 3205D MSO fp.jpg|link=Pico Technology PicoScope 3205D MSO|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 3205D MSO]] (16ch, 100MHz; 2ch analog, 1/0.5GS/s, 100MHz BW)</small><br />
</gallery><br />
<br />
<small><br />
<sup>1</sup> Only the logic analyzer functionality is supported so far, analog support is work in progress.<br /><br />
</small><br />
<br />
== Oscilloscopes ==<br />
<br />
<gallery widths=100px heights=100px><br />
File:Agilent DSO1014A.png|link=Agilent DSO1000 series|[[File:Nuvola OK.png|16px]] <small>[[Agilent DSO1000 series]] (2-4ch, 2GS/s, 60-200MHz BW)</small><br />
File:Fluke_Scopemeter_199B.png|link=Fluke ScopeMeter 199B|[[File:Nuvola OK.png|16px]] <small>[[Fluke ScopeMeter 199B]] (2ch, 2.5GS/s, 200MHz BW)</small><br />
File:Voltcraft dso-6060c mugshot.png|link=GW Instek GDS-800 series|[[File:Nuvola OK.png|16px]] <small>[[GW Instek GDS-800 series]] (2ch, 25GS/s, 60-250MHz BW)</small><br />
File:Hameg HMO2024.png|link=Hameg HMO compact series|[[File:Nuvola OK.png|16px]] <small>[[Hameg HMO compact series]] (2-4ch, 2GS/s, 70-200MHz BW)</small><br />
File:Hantek 6022be mugshot.png|link=Hantek 6022BE|[[File:Nuvola OK.png|16px]] <small>[[Hantek 6022BE]] (2ch, 48MS/s, 20MHz BW)</small><br />
File:Hantek DSO-2090.png|link=Hantek DSO-2090|[[File:Nuvola OK.png|16px]] <small>[[Hantek DSO-2090]] (2ch, 100MS/s, 40MHz)</small><br />
File:Hung chang dso 2100 mugshot.png|link=Hung-Chang_DSO-2100|[[File:Nuvola OK.png|16px]] <small>[[Hung-Chang DSO-2100]] (2ch, 100MS/s, 30MHz BW)</small><br />
File:Rigol DS1052E.png|link=Rigol DS1000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000 series|Rigol DS1000E series]] (2ch, 1GS/s, 50-150MHz BW)</small><br />
File:Rigol DS1074Z front.png|link=Rigol DS1000Z series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000Z series|Rigol DS1000Z series]] (4ch, 1GS/s, 50-100MHz BW)</small><br />
File:Rigol-ds2072 mugshot.png|link=Rigol DS2000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS2000 series]] (2ch, 2GS/s, 70-200MHz BW)</small><br />
File:Rigol_VS5202D.png|link=Rigol VS5000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol VS5000 series]] (2ch, 20-200MHz BW)</small><br />
<br />
File:Hantek dso2250 mugshot.png|link=Hantek DSO-2250|[[File:Nuvola Orange.png|16px]] <small>[[Hantek DSO-2250]] (2ch, 250MS/s, 100MHz BW)</small><br />
File:Hantek dso-5200a device front.png|link=Hantek DSO-5200A|[[File:Nuvola Orange.png|16px]] <small>[[Hantek DSO-5200A]] (2ch, 250MS/s, 200MHz BW)</small><br />
File:OsciPrime.png|link=Nexus-Computing OsciPrime|[[File:Nuvola Orange.png|16px]] <small>[[Nexus-Computing OsciPrime]] (2ch, ?MS/s, 3.3MHz-8MHz BW)</small><br />
File:Velleman PCSU1000.png|link=Velleman PCSU1000|[[File:Nuvola Orange.png|16px]] <small>[[Velleman PCSU1000]] (2ch, 1GS/s, 50MHz BW)</small><br />
<br />
File:Fluke scopemeter123.png|link=Fluke ScopeMeter 123|[[File:Nuvola Red.png|16px]] <small>[[Fluke ScopeMeter 123]] (2ch, 25MS/s, 20MHz BW)</small><br />
File:Focussz_fosc21_mugshot.png|link=Focussz Fosc21|[[File:Nuvola Red.png|16px]] <small>[[Focussz Fosc21]] (2ch, 8kS/s, 3kHz BW)</small><br />
File:Hantek front.jpg|link=Hantek 6052BE|[[File:Nuvola Red.png|16px]] <small>[[Hantek 6052BE]] (2ch, 150MS/s, 50MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Hantek DSO-1200|[[File:Nuvola Red.png|16px]] <small>[[Hantek DSO-1200]] (2ch, 500MS/s, 200MHz BW)</small><br />
File:Usbduxfast.png|link=Incite Technology USB-DUXfast|[[File:Nuvola Red.png|16px]] <small>[[Incite Technology USB-DUXfast]] (16ch, 3MHz, ? BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Owon SDS series|[[File:Nuvola Red.png|16px]] <small>[[Owon SDS series]] (2ch, 0.5-3.2GS/s, 60-300MHz BW)</small><br />
File:Picoscope 2203.png|link=Pico Technology PicoScope 2203|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2203]] (40/20MS/s, 5MHz BW)</small><br />
File:PicoScope_2205.png|link=Pico Technology PicoScope 2205|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2205]] (200/100MS/s, 25MHz BW)</small><br />
File:Picoscope 3206.png|link=Pico Technology PicoScope 3206|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 3206]] (200/100MS/s, 200MHz BW)</small><br />
File:Picoscope 5203.png|link=Pico Technology PicoScope 5203|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 5203]] (1/0.5GS/s, 250MHz BW)</small><br />
File:Tektronix tds2024b mugshot.png|link=Tektronix TDS2000B series|[[File:Nuvola Red.png|16px]] <small>[[Tektronix TDS2000B series]] (2-4ch, 1-2GS/s, 60-200MHz BW)</small><br />
File:UNI-T UTD2042C.png|link=UNI-T UTD2042C|[[File:Nuvola Red.png|16px]] <small>[[UNI-T UTD2042C]] (2ch, 500MS/s, 40MHz BW)</small><br />
File:VellemanWFS210.png|link=Velleman WFS210|[[File:Nuvola Red.png|16px]] <small>[[Velleman WFS210]] (2ch, 10MS/s, ?? MHz BW)</small><br />
File:Voltcraft dso-220 usb.png|link=Voltcraft DSO-220|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DSO-220]] (2ch, 60MS/s, 20MHz BW)</small><br />
File:Voltcraft DSO-3062C.png|link=Voltcraft DSO-3062C|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DSO-3062C]] (2ch, 1GS/s, 60MHz BW)</small><br />
File:Dds120 mugshot.png|link=SainSmart DDS120|[[File:Nuvola Red.png|16px]] <small>[[SainSmart DDS120]] (2ch, 48MS/s, 20MHz BW)</small><br />
</gallery><br />
<br />
== Multimeters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Agilent U1232A.png|link=Agilent U12xxx series|[[File:Nuvola OK.png|16px]] <small>[[Agilent U12xxx series]] (USB/Bluetooth)</small><br />
File:Bbc gm m2110 mugshot.png|link=BBC Goertz Metrawatt M2110|[[File:Nuvola OK.png|16px]] <small>[[BBC Goertz Metrawatt M2110]] (30000 counts, RS232)</small><br />
File:Brymen BM257.png|link=Brymen BM257|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM257]] (6000 counts, RS232/USB)</small><br />
File:Brymen bm257s mugshot.png|link=Brymen BM257s|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM257s]] (6000 counts, RS232/USB)</small><br />
File:Bm_857_mugshot_500000.png|link=Brymen BM857|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM857]] (50000 counts, RS232)</small><br />
File:Bm869_mugshot.png|link=Brymen BM869|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM869]] (50000 counts, USB)</small><br />
File:Digitek_dt4000zc_device_front.png|link=Digitek DT4000ZC|[[File:Nuvola OK.png|16px]] <small>[[Digitek DT4000ZC]] (4000 counts, RS232)</small><br />
File:Fluke 187.png|link=Fluke 187/189|[[File:Nuvola OK.png|16px]] <small>[[Fluke 187/189]] (50000 counts, RS232)</small><br />
File:Fluke 287.png|link=Fluke 287/289|[[File:Nuvola OK.png|16px]] <small>[[Fluke 287/289]] (50000 counts, RS232)</small><br />
File:Gmc metrahit 14a logo.png|link=Gossen Metrawatt Metrahit 14A|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 14A]] (3100 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 16I small.png|link=Gossen Metrawatt Metrahit 16I|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 16I]] (3100 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 18S small.png|link=Gossen Metrawatt Metrahit 18S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 18S]] (31000 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 25S Logo.png|link=Gossen Metrawatt Metrahit 25S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 25S]] (31000 counts, RS232/USB)</small><br />
File:Gmc kmm2002 logo.png|link=Gossen Metrawatt T-Com KMM2002|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt T-Com KMM2002]] (3100 counts, RS232)</small><br />
File:Gmc metrahit 29s logo.png|link=Gossen Metrawatt Metrahit 29S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 29S]] (310000 counts, RS232/USB)</small><br />
File:HP_3457a_sigrok_teaser.png|link=HP 3457A|[[File:Nuvola OK.png|16px]] <small>[[HP 3457A]] (7.5 digits, GPIB)</small><br />
File:HT410 logo.png|link=HT Instruments HT410|[[File:Nuvola OK.png|16px]] <small>[[HT Instruments HT410]] (3100 counts, RS232)</small><br />
File:100px_Idm103n.png|link=ISO-TECH IDM103N|[[File:Nuvola OK.png|16px]] <small>[[ISO-TECH IDM103N]] (4000 counts, RS232)</small><br />
File:Mastech mas345 device front.png|link=MASTECH MAS345|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MAS345]] (4000 counts, RS232)</small><br />
File:Mastech ms8250b mugshot.png|link=MASTECH MS8250B|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MS8250B]] (4000 counts, USB)</small><br />
File:Metex m4650cr mugshot.png|link=Metex M-4650CR|[[File:Nuvola OK.png|16px]] <small>[[Metex M-4650CR]] (20000 counts, RS232)</small><br />
File:Metex_me-31.png|link=Metex ME-31|[[File:Nuvola OK.png|16px]] <small>[[Metex ME-31]] (4000 counts, RS232)</small><br />
File:Norma dm950.png|link=Norma DM950|[[File:Nuvola OK.png|16px]] <small>[[Norma DM950]] (21000 counts, RS232)</small><br />
File:Pce-pce-dm32.png|link=PCE PCE-DM32|[[File:Nuvola OK.png|16px]] <small>[[PCE PCE-DM32]] (4000 counts, RS232)</small><br />
File:Metex_me-31.png|link=PeakTech 3410|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 3410]] (4000 counts, RS232)</small><br />
File:Peaktech 4370 device front.png|link=PeakTech 4370|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 4370]] (2000 counts, RS232)</small><br />
File:Rs_22_168_mugshot.png|link=RadioShack 22-168|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-168]] (2000 counts, RS232)</small><br />
File:Rs_22-805_front.png|link=RadioShack 22-805|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-805]] (4000 counts, RS232)</small><br />
File:radioshack_22_812_front.png|link=RadioShack 22-812|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-812]] (4000 counts, RS232)</small><br />
File:siemens_b1026_logo.png|link=Siemens B1026|[[File:Nuvola OK.png|16px]] <small>[[Siemens B1026]] (21000 counts, RS232)</small><br />
File:Siemens B1105 small.png|link=Siemens B1105|[[File:Nuvola OK.png|16px]] <small>[[Siemens B1105]] (310000 counts, RS232/USB)</small><br />
File:Tecpel dmm8061.png|link=Tecpel DMM-8061|[[File:Nuvola OK.png|16px]] <small>[[Tecpel DMM-8061]] (4000 counts, RS232/USB)</small><br />
File:Tp4000zc_front.png|link=TekPower TP4000ZC|[[File:Nuvola OK.png|16px]] <small>[[TekPower TP4000ZC]] (4000 counts, RS232)</small><br />
File:Tenma 72-7745.png|link=Tenma 72-7745|[[File:Nuvola OK.png|16px]] <small>[[Tenma 72-7745]] (4000 counts, RS232/USB)</small><br />
File:Ut60e_-_front_-_alpha.png|link=UNI-T UT60E|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT60E]] (4000 counts, RS232/USB)</small><br />
File:Uni-t ut61b mugshot.png|link=UNI-T UT61B|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61B]] (4000 counts, RS232/USB)</small><br />
File:Uni-t ut61c mugshot.png|link=UNI-T UT61C|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61C]] (6000 counts, RS232/USB)</small><br />
File:Uni t ut61d device.png|link=UNI-T UT61D|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61D]] (6000 counts, RS232/USB)</small><br />
File:Old ver front.png|link=UNI-T UT61E|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61E]] (22000 counts, RS232/USB)</small><br />
File:Ut71c mugshot.png|link=UNI-T UT71C|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT71C]] (40000 counts, RS232/USB)</small><br />
File:Va_va18b.png|link=V&A VA18B|[[File:Nuvola OK.png|16px]] <small>[[V&A VA18B]] (6000 counts, USB)</small><br />
File:Va va40b mugshot.png|link=V&A VA40B|link=V&A VA40B|[[File:Nuvola OK.png|16px]] <small>[[V&A VA40B]] (6000 counts, USB)</small><br />
File:DVM4100.png|link=Velleman DVM4100|link=Velleman DVM4100|[[File:Nuvola OK.png|16px]] <small>[[Velleman DVM4100]] (6000 counts, USB)</small><br />
File:Victor 70C.png|link=Victor 70C|[[File:Nuvola OK.png|16px]] <small>[[Victor 70C]] (4000 counts, USB)</small><br />
File:Victor 86c device front.png|link=Victor 86C|[[File:Nuvola OK.png|16px]] <small>[[Victor 86C]] (4000 counts, USB)</small><br />
File:Voltcraft m-3650cr.png|link=Voltcraft M-3650CR|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-3650CR]] (2000 counts, RS232)</small><br />
File:Voltcraft_M-3650D_transparent.png|link=Voltcraft M-3650D|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-3650D]] (2000 counts, RS232)</small><br />
File:Voltcraft m4650cr.png|link=Voltcraft M-4650CR|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-4650CR]] (20000 counts, RS232)</small><br />
File:Voltcraft ME-42 logo.png|link=Voltcraft ME-42|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft ME-42]] (4000 counts, RS232)</small><br />
File:Voltcraft vc820 device.png|link=Voltcraft VC-820|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-820]] (4000 counts, RS232/USB)</small><br />
File:Voltcraft vc830.png|link=Voltcraft VC-830|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-830]] (6000 counts, RS232/USB)</small><br />
File:Voltcraft vc840 device front.png|link=Voltcraft VC-840|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-840]] (4000 counts, RS232/USB)</small><br />
File:Voltcraft vc870 mugshot.png|link=Voltcraft VC-870|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-870]] (40000 counts, RS232/USB)</small><br />
File:Voltcraft vc920.png|link=Voltcraft VC-920|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-920]] (40000/4000 counts, RS232/USB)</small><br />
File:Voltcraft vc940.png|link=Voltcraft VC-940|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-940]] (40000/4000 counts, RS232/USB)</small><br />
<br />
File:Tenma 72-1016.png|link=Tenma 72-1016|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-1016]] (6000 counts, RS232/USB)</small><br />
File:Tenma 72-7730.png|link=Tenma 72-7730|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7730]] (20000 counts, RS232/USB)</small><br />
File:Tenma 72-7732.png|link=Tenma 72-7732|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7732]] (40000 counts, RS232/USB)</small><br />
File:Tenma 72-7750.png|link=Tenma 72-7750|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7750]] (6000 counts, RS232/USB)</small><br />
File:Tenma 72-9380A.png|link=Tenma 72-9380A|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-9380A]] (40000 counts, RS232/USB)</small><br />
<br />
File:Appa 107.png|link=APPA 107|[[File:Nuvola Red.png|16px]] <small>[[APPA 107]] (4000 / 20000 counts, RS232)</small><br />
File:Digitek dt8000.png|link=Digitek DT8000|[[File:Nuvola Red.png|16px]] <small>[[Digitek DT8000]] (8000 counts, RS232)</small><br />
File:Digitek dt80000.png|link=Digitek DT80000|[[File:Nuvola Red.png|16px]] <small>[[Digitek DT80000]] (80000 counts, RS232)</small><br />
File:Escort 179 device front.png|link=Escort 179|[[File:Nuvola Red.png|16px]] <small>[[Escort 179]] (10000 counts, RS232)</small><br />
File:Gossen metrahit 30m.png|link=Gossen-Metrawatt METRAHIT 30M|[[File:Nuvola Red.png|16px]] <small>[[Gossen-Metrawatt METRAHIT 30M]] (1200000 counts, RS232/USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Gossen Metrawatt Metrahit X-Tra|[[File:Nuvola Red.png|16px]] <small>[[Gossen Metrawatt Metrahit X-Tra]] (12000 counts, USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=HYELEC MS8236|[[File:Nuvola Red.png|16px]] <small>[[HYELEC MS8236]] (6000 counts, USB)</small><br />
File:800px-Mastech m9803r device front.png|link=MASTECH M9803R|[[File:Nuvola Red.png|16px]] <small>[[MASTECH M9803R]] (4000 counts, RS232)</small><br />
File:Metrix mx53.png|link=Metrix MX53|[[File:Nuvola Red.png|16px]] <small>[[Metrix MX53]] (50000 counts, RS232)</small><br />
File:Metrix mx56c.png|link=Metrix MX56C|[[File:Nuvola Red.png|16px]] <small>[[Metrix MX56C]] (50000 counts, RS232)</small><br />
File:Peaktech 4380 mugshot.png|link=PeakTech 4380|[[File:Nuvola Red.png|16px]] <small>[[PeakTech 4380]] (4000 counts, RS232)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Protek 6500|[[File:Nuvola Red.png|16px]] <small>[[Protek 6500]] (50000 counts, RS232)</small><br />
File:Rigol DM3068 front.png|link=Rigol DM3068|[[File:Nuvola Red.png|16px]] <small>[[Rigol DM3068]] (2200000 counts, LAN/USB/GPIB/RS232)</small><br />
File:Voltcraft m3890dt usb.png|link=Voltcraft M-3890DT|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-3890DT]] (4000 counts, USB)</small><br />
File:Voltcraft m4660a device front.png|link=Voltcraft M-4660A|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-4660A]] (20000 counts, RS232)</small><br />
</gallery><br />
<br />
== LCR meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Voltcraft4080_2.png|link=Voltcraft 4080|[[File:Nuvola Orange.png|16px]] <small>[[Voltcraft 4080]] (serial)</small><br />
</gallery><br />
<br />
== Sound level meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:CEM DT-8852.png|link=CEM DT-8852|[[File:Nuvola OK.png|16px]] <small>[[CEM DT-8852]] (USB)</small><br />
File:Colead SL-5868P.png|link=Colead SL-5868P|[[File:Nuvola OK.png|16px]] <small>[[Colead SL-5868P]] (RS232)</small><br />
File:Kecheng KC-330B.png|link=Kecheng KC-330B|[[File:Nuvola OK.png|16px]] <small>[[Kecheng KC-330B]] (RS232)</small><br />
File:Tondaj sl-814.png|link=Tondaj SL-814|[[File:Nuvola OK.png|16px]] <small>[[Tondaj SL-814]] (USB)</small><br />
File:Voltcraft_DL-161S.png|link=Voltcraft DL-161S|[[File:Nuvola Orange.png|16px]] <small>[[Voltcraft DL-161S]] (USB)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (also: light-/thermo-/hygrometer; RS232)</small><br />
File:Voltcraft_dl_160s.png|link=Voltcraft DL-160S|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-160S]] (USB)</small><br />
</gallery><br />
<br />
== Thermometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:rs55ii.png|link=APPA 55II|[[File:Nuvola OK.png|16px]] <small>[[APPA 55II]] (2xtemp, RS232)</small><br />
File:EL-USB-2.png|link=Lascar Electronics EL-USB-2|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-2]] (1xtemp, 1xhum, USB)</small><br />
File:Mic 98581.png|link=MIC 98581|[[File:Nuvola OK.png|16px]] <small>[[MIC 98581]] (1xtemp, USB)</small><br />
File:Mic 98583.png|link=MIC 98583|[[File:Nuvola OK.png|16px]] <small>[[MIC 98583]] (1xtemp, 1xhum, USB)</small><br />
File:Uni-t ut325 front.png|link=UNI-T UT325|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT325]] (2xtemp, USB)</small><br />
File:Voltcraft k204.png|link=Voltcraft K204|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft K204]] (4xtemp, RS232)</small><br />
File:Elitech rc3.png|link=Elitech RC-3|[[File:Nuvola Red.png|16px]] <small>[[Elitech RC-3]] (1xtemp, RS232)</small><br />
File:Escort 19.png|link=Escort 19|[[File:Nuvola Red.png|16px]] <small>[[Escort 19]] (1x temp, RS232)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (1xtemp, RS232)</small><br />
File:Rding temper front.png|link=RDing TEMPer|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer]] (1xtemp, USB)</small><br />
File:Rding temper gold device front.png|link=RDing TEMPer Gold|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer Gold]] (1xtemp, USB)</small><br />
File:Rding temper1 device front.png|link=RDing TEMPer1|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer1]] (1xtemp, USB)</small><br />
File:Pcsensor_temper1k2.png|link=RDing TEMPer1K2|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer1K2]] (1xtemp, USB)</small><br />
File:Voltcraft dl-120th.png|link=Voltcraft DL-120TH|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-120TH]] (1xtemp, USB)</small><br />
File:Voltcraft dl-140th.png|link=Voltcraft DL-140TH|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-140TH]] (1xtemp, USB)</small><br />
</gallery><br />
<br />
== Hygrometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:EL-USB-2.png|link=Lascar Electronics EL-USB-2|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-2]] (temp/humidity, USB)</small><br />
File:Mic 98583.png|link=MIC 98583|[[File:Nuvola OK.png|16px]] <small>[[MIC 98583]] (temp/humidity, USB)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (also: light-/soundlevelmeter; RS232)</small><br />
File:Silabs si7005usb dgl eb top.jpg|link=SiLabs Si7005USB-Dongle|[[File:Nuvola Red.png|16px]] <small>[[SiLabs Si7005USB-Dongle]] (USB)</small><br />
</gallery><br />
<br />
== Anemometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Mastech ms6252b.png|link=MASTECH MS6252B|[[File:Nuvola Red.png|16px]] <small>[[MASTECH MS6252B]] (USB)</small><br />
</gallery><br />
<br />
== Light meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Lutron YK-2005LX.png|link=Lutron YK-2005LX|[[File:Nuvola Red.png|16px]] <small>[[Lutron YK-2005LX]] (RS232)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (RS232)</small><br />
</gallery><br />
<br />
== Energy meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Actaris_a14c5_teleinfo.png|link=EDF Teleinfo|[[File:Nuvola OK.png|16px]] <small>[[EDF Teleinfo]] (RS232)</small><br />
File:Acme.png|link=BayLibre ACME|[[File:Nuvola OK.png|16px]] <small>[[BayLibre ACME]] (I2C)</small><br />
</gallery><br />
<br />
== DAQs ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Ni usb 6008.png|link=NI USB-6008|[[File:Nuvola Red.png|16px]] <small>[[NI USB-6008]] (8/2 analog inputs/outputs, 12 digital I/Os)</small><br />
</gallery><br />
<br />
== Dataloggers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:EL-USB-CO.png|link=Lascar Electronics EL-USB-CO|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-CO]] (carbon monoxide (CO) logger, USB)</small><br />
File:Testo_435-4.png|link=Testo 435-4|[[File:Nuvola OK.png|16px]] <small>[[Testo 435-4]] (USB)</small><br />
File:Gsg_indoor_air_monitor.png|link=GSG Indoor Air Monitor|[[File:Nuvola Red.png|16px]] <small>[[GSG Indoor Air Monitor]] (air quality monitor, USB)</small><br />
File:Maul_studio_i.png|link=MAUL studio i|[[File:Nuvola Red.png|16px]] <small>[[MAUL studio i]] (weighing scale, RS232)</small><br />
File:Voltcraft co-20.png|link=Voltcraft CO-20|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft CO-20]] (air quality monitor, USB)</small><br />
</gallery><br />
<br />
== Tachometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Uni-t ut372 mugshot.png|link=UNI-T UT372|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT372]] (USB)</small><br />
</gallery><br />
<br />
== Scales ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Kern ew-6200-2nm mugshot.png|link=KERN scale series|[[File:Nuvola OK.png|16px]] <small>[[KERN scale series]] (RS232)</small><br />
</gallery><br />
<br />
== Digital loads ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Maynuo m9812 mugshot.png|link=Maynuo M9812|[[File:Nuvola OK.png|16px]] <small>[[Maynuo M9812]]<br />
File:Atten ATZ9711.png|link=ATTEN ATZ9711|[[File:Nuvola Red.png|16px]] <small>[[ATTEN ATZ9711]]<br />
</gallery><br />
<br />
== Function generators ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Hantek DDS-3X25 top.png|link=Hantek DDS-3X25|[[File:Nuvola Red.png|16px]] <small>[[Hantek DDS-3X25]] (25MHz, PC-based, USB)</small><br />
File:Siglent sdg1010 device front 8116.png|link=Siglent SDG1010|[[File:Nuvola Red.png|16px]] <small>[[Siglent SDG1010]] (10MHz, USB)</small><br />
<br />
File:BG7TBL small.png|link=BG7TBL|[[File:Nuvola Red.png|16px]] <small>[[BG7TBL]] (138MHz-4.4GHz, PC-based, USB)</small><br />
<br />
File:MHINSTEK UDB1305S persp.jpg|link=MHINSTEK UDB1xxxS|[[File:Nuvola Red.png|16px]] <small>[[MHINSTEK UDB1xxxS]] (2/5/8MHz, Serial)</small><br />
</gallery><br />
<br />
== RF receivers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Per vices noctar.png|link=Per Vices Noctar|[[File:Nuvola Red.png|16px]] <small>[[Per Vices Noctar]] (100kHz-4GHz, IQ modulator/demodulator, PCIe)</small><br />
</gallery><br />
<br />
== Spectrum analyzers ==<br />
<br />
TODO.<br />
<br />
== Power supplies ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Atten PPS3203T-3S.png|link=Atten PPS3203T-3S|[[File:Nuvola OK.png|16px]] <small>[[Atten PPS3203T-3S]] (3ch, 2x 0-32V, 1x 0-6V at 0-3A, USB&RS232)</small><br />
File:Chroma_61604_front.png|link=Chroma 61604|[[File:Nuvola OK.png|16px]] <small>[[Chroma 61604]] (1ch, 0-300V, 0-16A, 2kVA)</small><br />
File:Conrad_digi_35_cpu_logo.png|link=Conrad DIGI 35 CPU|[[File:Nuvola OK.png|16px]] <small>[[Conrad DIGI 35 CPU]] (1ch, 0-35V/0-2.55A, RS232)</small><br />
File:HP-6632B_mugshot.png|link=HP 6632B|[[File:Nuvola OK.png|16px]] <small>[[HP 6632B]] (1ch, 0-20V/0-5A, GPIB&RS232)</small><br />
File:Velleman ps3005d mugshot.png|link=Korad KAxxxxP series|[[File:Nuvola OK.png|16px]] <small>[[Korad KAxxxxP series]] (1ch, 0-30V/0-5A, USB&RS232)</small><br />
File:Manson hcs3202.png|link=Manson HCS-3202|[[File:Nuvola OK.png|16px]] <small>[[Manson HCS-3202]] (1ch, 1-36V/0-10A, USB)</small><br />
File:Motech_LPS-301_logo.png|link=Motech LPS-301|[[File:Nuvola OK.png|16px]] <small>[[Motech LPS-301]] (1ch, 1-32V/0-2A, RS232)</small><br />
File:Philips PM2813.png|link=Philips PM2800 series|[[File:Nuvola OK.png|16px]] <small>Fluke/Philips PM2800 series</small><br />
File:Rigol DP832.png|link=Rigol DP800 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DP800 series]]</small><br />
File:Voltcraft pps-11815 logo.png|link=Voltcraft PPS-11815|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft PPS-11815]] (1ch, 0-60V/0-5A, USB)</small><br />
<br />
File:Sigrok logo no text transparent 512.png|link=Voltcraft 18220|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft 18220]] (1ch, 0-40V/0-5A, RS232)</small><br />
</gallery><br />
<br />
== GPIB interfaces ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Beiming_s82357.png|link=Beiming S82357|[[File:Nuvola Red.png|16px]] <small>[[Beiming S82357]] (hardware-based, USB)</small><br />
File:ICS 488-USB.png|link=ICS 488-USB|[[File:Nuvola Red.png|16px]] <small>[[ICS 488-USB]] (hardware-based, USB)</small><br />
File:GPIB-USB 82357B clone.png|link=GPIB-USB 82357B clone|[[File:Nuvola Red.png|16px]] <small>[[GPIB-USB 82357B clone]] (hardware-based, USB)</small><br />
File:NI GPIB-ENET.png|link=National Instruments GPIB-ENET|[[File:Nuvola Red.png|16px]] <small>[[National Instruments GPIB-ENET]] (hardware-based, Ethernet)</small><br />
File:NI GPIB-USB-HS.png|link=National Instruments GPIB-USB-HS|[[File:Nuvola Red.png|16px]] <small>[[National Instruments GPIB-USB-HS]] (hardware-based, USB)</small><br />
File:Prologix-usb.png|link=Prologix GPIB-USB|[[File:Nuvola Red.png|16px]] <small>[[Prologix GPIB-USB]] (firmware-based, USB)</small><br />
File:GalvantGPIBUSBrev4.JPG|link=Galvant GPIBUSB|[[File:Nuvola Red.png|16px]] <small>[[Galvant GPIBUSB]] (firmware-based, USB, OSHW)</small><br />
</gallery><br />
<br />
== Potential other candidates ==<br />
<br />
If you own any other logic analyzers, oscilloscopes, multimeters, dataloggers, ... and want to add support for them in sigrok (or donate/lend devices to developers), please let us know. We're always happy to add more hardware support! Join the [https://lists.sourceforge.net/lists/listinfo/sigrok-devel mailing list] or ask on [irc://chat.freenode.net/sigrok IRC #sigrok] if you want to help out.<br />
<br />
__FORCETOC__</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11525HP 3457A2016-03-30T16:45:57Z<p>Mrnuke: It's official. sigrok now supports the 3457A</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = supported<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.</div>Mrnukehttps://sigrok.org/w/index.php?title=Supported_hardware&diff=11421Supported hardware2016-03-05T21:40:56Z<p>Mrnuke: /* Multimeters */</p>
<hr />
<div>sigrok is intended as a flexible, cross-platform, and '''hardware-independent''' software suite, i.e., it supports various devices from many different vendors.<br />
<br />
Here is a list of currently supported devices (various stages of completeness) and devices we plan to support in the near future.<br />
<br />
The lists are sorted by category ([[File:Nuvola OK.png|16px]] <span style="background-color: lime">supported</span>: [[:Category:Supported|{{PAGESINCATEGORY:Supported|pages}}]], [[File:Nuvola Orange.png|16px]] <span style="background-color: orange">in progress</span>: [[:Category:In progress|{{PAGESINCATEGORY:In progress|pages}}]], [[File:Nuvola Red.png|16px]] <span style="background-color: red">planned</span>: [[:Category:Planned|{{PAGESINCATEGORY:Planned|pages}}]]), and alphabetically within those categories.<br />
<br />
== Logic analyzers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:ARMFLY MINI LOGIC.png|link=ARMFLY Mini-Logic|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY Mini-Logic]] (8ch, 24MHz)</small><br />
File:ASIX SIGMA 2.png|link=ASIX SIGMA|[[File:Nuvola OK.png|16px]] <small>[[ASIX SIGMA]] (16ch, 200MHz)</small><br />
File:BeagleLogic.jpg|link=BeagleLogic|[[File:Nuvola OK.png|16px]] <small>[[BeagleLogic]] (12(max 14)ch, 100MHz)</small><br />
File:Braintechnology_usb_interface_v26.png|link=Braintechnology USB Interface V2.x|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB Interface V2.x]] (8/16ch, 24/12MHz)</small><br />
File:Braintechnology_usb_lps.png|link=Braintechnology USB-LPS|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB-LPS]] (8/16ch, 24/12MHz)</small><br />
File:Chronovu la8 front.png|link=ChronoVu LA8|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA8]] (8ch, 100MHz)</small><br />
File:Chronovu la16.png|link=ChronoVu LA16|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA16]] (16ch, 200MHz)</small><br />
File:Cwav_usbee_sx.png|link=CWAV USBee SX|[[File:Nuvola OK.png|16px]] <small>[[CWAV USBee SX]] (8ch, 24MHz)</small><br />
File:Buspirate_v3.png|link=Dangerous Prototypes Buspirate|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes Buspirate]] (5ch, 1MHz)</small><br />
File:Dangerous prototypes irtoy mugshot.png|link=Dangerous Prototypes USB IR Toy|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes USB IR Toy]] (1ch, 10kHz)</small><br />
File:Eeelec xla esla100.png|link=EE Electronics ESLA100|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA100]] (8ch, 24MHz)</small><br />
File:Hobby components hctest0006 mugshot.png|link=Hobby Components HCTEST0006|[[File:Nuvola OK.png|16px]] <small>[[Hobby Components HCTEST0006]] (8ch, 24MHz)</small><br />
File:Ikalogic_scanalogic2.png|link=IKALOGIC Scanalogic-2|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC Scanalogic-2]] (4ch, 20MHz)</small><br />
File:Ikalogic scanaplus mugshot.png|link=IKALOGIC ScanaPLUS|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC ScanaPLUS]] (9ch, 100MHz)</small><br />
File:Kingst kqs3506 la16100.png|link=KingST KQS3506-LA16100|[[File:Nuvola OK.png|16px]] <small>[[KingST KQS3506-LA16100]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Lcsoft-miniboard-front.png|link=Lcsoft Mini Board|[[File:Nuvola OK.png|16px]] <small>[[Lcsoft Mini Board]] (8/16ch, 24/12MHz)</small><br />
File:Lecroy logicstudio16 mugshot.png|link=LeCroy LogicStudio|[[File:Nuvola OK.png|16px]] <small>[[LeCroy LogicStudio]] (8/16ch, 1GHz/500MHz)</small><br />
File:logic-shrimp-front.png|link=Logic Shrimp|[[File:Nuvola OK.png|16px]] <small>[[Logic Shrimp]] (4ch, 20MHz)</small><br />
File:Mcu123 saleae logic clone.png|link=MCU123 Saleae Logic clone|[[File:Nuvola OK.png|16px]] <small>[[MCU123 Saleae Logic clone]] (8ch, 24MHz)</small><br />
File:Usbee_ax_clone_front.png|link=MCU123 USBee AX Pro clone|[[File:Nuvola OK.png|16px]] <small>[[MCU123 USBee AX Pro clone]] (8ch, 24MHz)</small><br />
File:Mcupro_Logic16_overview.png|link=mcupro Logic16 clone|[[File:Nuvola OK.png|16px]] <small>[[mcupro Logic16 clone]] (16ch, 100MHz)</small><br />
File:Openbench logic sniffer front.png|link=Openbench Logic Sniffer|[[File:Nuvola OK.png|16px]] <small>[[Openbench Logic Sniffer]] (32ch, 100MHz)</small><br />
File:Prist akip 9101 mugshot.png|link=Prist AKIP-9101|[[File:Nuvola OK.png|16px]] <small>[[Prist AKIP-9101]] (16ch, 200MHz)</small><br />
File:Robomotic buglogic3.png|link=Robomotic BugLogic 3|[[File:Nuvola OK.png|16px]] <small>[[Robomotic BugLogic 3]] (8ch, 24MHz)</small><br />
File:Robomotic_minilogic.png|link=Robomotic MiniLogic|[[File:Nuvola OK.png|16px]] <small>[[Robomotic MiniLogic]] (8ch, 24MHz)</small><br />
File:Saleae Logic.png|link=Saleae Logic|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic]] (8ch, 24MHz)</small><br />
File:Saleae_Logic16_bottom.png|link=Saleae Logic16|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Saanlima Pipistrello-OLS.png|link=Saanlima Pipistrello OLS|[[File:Nuvola OK.png|16px]] <small>[[Saanlima Pipistrello OLS]] (32ch, 100MHz)</small><br />
File:Sysclk lwla1016.png|link=Sysclk LWLA1016|[[File:Nuvola OK.png|16px]] <small>[[Sysclk LWLA1016]] (16ch, 100MHz)</small><br />
File:Sysclk lwla1034 mugshot.png|link=Sysclk LWLA1034|[[File:Nuvola OK.png|16px]] <small>[[Sysclk LWLA1034]] (34ch, 125MHz)</small><br />
File:Wayengineer saleae16.png|link=WayEngineer Saleae16|[[File:Nuvola OK.png|16px]] <small>[[WayEngineer Saleae16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Zeroplus Logic Cube.png|link=ZEROPLUS Logic Cube LAP-C(16032)|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(16032)]] (16ch, 100MHz)</small><br />
File:Zeroplus Logic Cube.png|link=ZEROPLUS Logic Cube LAP-C(322000)|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(322000)]] (32ch, 200MHz)</small><br />
File:Zeroplus_lap-16128u.png|link=ZEROPLUS LAP-16128U|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS LAP-16128U]] (16ch, 200MHz)</small><br />
<br />
File:ASIX Omega.png|link=ASIX OMEGA|[[File:Nuvola Orange.png|16px]] <small>[[ASIX OMEGA]] (16ch, 400MHz)</small><br />
File:DSLogic.png|link=DreamSourceLab DSLogic|[[File:Nuvola Orange.png|16px]] <small>[[DreamSourceLab DSLogic]] (16ch, 400MHz)</small><br />
File:Hsa-logic.png|link=HSA Logic|[[File:Nuvola Orange.png|16px]] <small>[[HSA Logic]] (8ch, 6.25MHz)</small><br />
File:RockyLogic Ant18e.png|link=RockyLogic Ant18e|[[File:Nuvola Orange.png|16px]] <small>[[RockyLogic Ant18e]] (8ch, 1GHz)</small><br />
File:Sysclk sla5032 mugshot.png|link=Sysclk SLA5032|[[File:Nuvola Orange.png|16px]] <small>[[Sysclk SLA5032]] (32ch, 500MHz)</small><br />
<br />
File:Acute_pkla1216.png|link=Acute PKLA-1216|[[File:Nuvola Red.png|16px]] <small>[[Acute PKLA-1216]] (16ch, 200MHz)</small><br />
File:Hantek 4032l mugshot.png|link=Hantek 4032L|[[File:Nuvola Red.png|16px]] <small>[[Hantek 4032L]] (32ch, 400MHz)</small><br />
File:Ideofy_la_08.png|link=Ideofy LA-08|[[File:Nuvola Red.png|16px]] <small>[[Ideofy LA-08]] (8ch, 96/60/30MHz @ 2/4/8ch)</small><br />
File:Intronix Logicport.png|link=Intronix Logicport LA1034|[[File:Nuvola Red.png|16px]] <small>[[Intronix Logicport LA1034]] (34ch, 500MHz)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Link Instruments LA-5580|[[File:Nuvola Red.png|16px]] <small>[[Link Instruments LA-5580]] (80ch, 500MHz)</small><br />
File:Microchip_pickit2.png|link=Microchip PICkit2|[[File:Nuvola Red.png|16px]] <small>[[Microchip PICkit2]] (3ch, 1MHz)</small><br />
File:Minila parport.png|link=MiniLA|[[File:Nuvola Red.png|16px]] <small>[[MiniLA]] (32ch, 100MHz)</small><br />
File:Minila_mockup.png|link=MiniLA Mockup|[[File:Nuvola Red.png|16px]] <small>[[MiniLA Mockup]] (32ch, 100MHz)</small><br />
File:Noname_la16_mugshot.png|link=Noname LA16|[[File:Nuvola Red.png|16px]] <small>[[Noname LA16]] (16ch, 100MHz)</small><br />
File:Noname xl logic16 100m mugshot.png|link=Noname XL-LOGIC16-100M|[[File:Nuvola Red.png|16px]] <small>[[Noname XL-LOGIC16-100M]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small><br />
File:Rockylogic_ant8.png|link=RockyLogic Ant8|[[File:Nuvola Red.png|16px]] <small>[[RockyLogic Ant8]] (8ch, 500MHz)</small><br />
File:Sysclk lwla2034 mugshot.png|link=Sysclk LWLA2034|[[File:Nuvola Red.png|16px]] <small>[[Sysclk LWLA2034]] (34ch, 200MHz)</small><br />
File:Techtools_digiview_dv1-100.png|link=TechTools DigiView DV1-100|[[File:Nuvola Red.png|16px]] <small>[[TechTools DigiView DV1-100]] (18ch, 100MHz)</small><br />
File:Xmos xtag2.png|link=XMOS XTAG-2|[[File:Nuvola Red.png|16px]] <small>[[XMOS XTAG-2]] (?ch, 50MHz)</small><br />
File:Zlg_la1032.png|link=ZLG LA1032|[[File:Nuvola Red.png|16px]] <small>[[ZLG LA1032]] (32ch, 100MHz)</small><br />
</gallery><br />
<br />
== Mixed-signal devices ==<br />
<br />
<gallery widths=105px heights=105px><br />
File:Armfly_ax_pro.png|link=ARMFLY AX-Pro|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY AX-Pro]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:Sysclk ax pro mugshot.png|link=Sysclk AX-Pro|[[File:Nuvola OK.png|16px]] <small>[[Sysclk AX-Pro]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 3MHz BW)</small><br />
File:Esla201a.png|link=EE Electronics ESLA201A|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA201A]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:Rigol DS1052E.png|link=Rigol DS1000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000 series|Rigol DS1000D series]] (16ch, 2ch analog, 50-150MHz BW)</small><br />
File:Rigol_VS5202D.png|link=Rigol VS5000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol VS5000 series|Rigol VS5000D series]] (16ch, 2ch analog, 20-200MHz BW</small><br />
File:Yokogawa DLM2000 front.png|link=Yokogawa DLM2000 series|[[File:Nuvola OK.png|16px]] <small>[[Yokogawa DLM2000 series]] (8ch, 2/4ch analog, 2.5GSa/s, 200/350/500MHz BW)</small><br />
File:Xzl studio ax mugshot.png|link=XZL_Studio AX|[[File:Nuvola OK.png|16px]] <small>[[XZL_Studio AX]]<sup>1</sup> (8ch, 24MHz; 2ch analog, 24MSa/s, 40MHz BW)</small><br />
File:BitScope BS10.png|link=BitScope BS10|[[File:Nuvola Orange.png|16px]] <small>[[BitScope BS10]] (8ch, 40MHz; 2ch analog, 20MSa/s, ? BW)</small><br />
File:Link Instruments MSO-19 front.png|link=Link Instruments MSO-19|[[File:Nuvola Orange.png|16px]] <small>[[Link Instruments MSO-19]] (8ch, 200MHz; 1ch analog, 200MSa/s, 60MHz BW)</small><br />
<br />
File:Agilent_MSO7104A.png|link=Agilent MSO7104A|[[File:Nuvola Red.png|16px]] <small>[[Agilent MSO7104A]] (16ch, ?; 4ch analog, 2GSa/s, 1GHz BW)</small><br />
File:Digilent_analog_discovery.png|link=Digilent Analog Discovery|[[File:Nuvola Red.png|16px]] <small>[[Digilent Analog Discovery]] (16ch, 100MHz; 2ch analog, 100MSa/s, 5MHz BW)</small><br />
File:Hantek_1008C.png|link=Hantek 1008C|[[File:Nuvola Red.png|16px]] <small>[[Hantek 1008C]] (8ch)</small><br />
File:Lab nation smartscope mugshot.png|link=LabNation SmartScope|[[File:Nuvola Red.png|16px]] <small>[[LabNation SmartScope]] (8ch, 100MHz; 2ch analog, 100MSa/s, 45MHz BW)</small><br />
File:Meilhaus_mephisto_scope1.png|link=Meilhaus MEphisto Scope1|[[File:Nuvola Red.png|16px]] <small>[[Meilhaus MEphisto Scope1]] (16ch, 100kHz; 2ch analog, 1MSa/s, 500kHz BW)</small><br />
File:Polabs_poscope_basic2.png|link=PoLabs PoScope Basic2|[[File:Nuvola Red.png|16px]] <small>[[PoLabs PoScope Basic2]] (16ch, 8MHz; 2ch analog, 200kSa/s, ? BW)</small><br />
File:QuantAsylum QA100.png|link=QuantAsylum QA100|[[File:Nuvola Red.png|16px]] <small>[[QuantAsylum QA100]] (12ch; 2ch analog)</small><br />
File:Saleae_Logic8_case_bottom.jpg|link=Saleae Logic8|[[File:Nuvola Red.png|16px]] <small>[[Saleae Logic8]] (3/6/7/8ch, 100/50/40/25MHz; 8ch analog, 10MSa/s, 1MHz BW)</small><br />
File:Saleae Logic Pro 16 bottom.jpg|link=Saleae Logic Pro 16|[[File:Nuvola Red.png|16px]] <small>[[Saleae Logic Pro 16]] (4/16ch, 500/100MHz; 16ch analog, 50MSa/s, 5MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=XZL_Studio DX|[[File:Nuvola Red.png|16px]] <small>[[XZL_Studio DX]] (16ch, 24MHz; 2ch analog)</small><br />
File:Picoscope 3205D MSO fp.jpg|link=Pico Technology PicoScope 3205D MSO|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 3205D MSO]] (16ch, 100MHz; 2ch analog, 1/0.5GS/s, 100MHz BW)</small><br />
</gallery><br />
<br />
<small><br />
<sup>1</sup> Only the logic analyzer functionality is supported so far, analog support is work in progress.<br /><br />
</small><br />
<br />
== Oscilloscopes ==<br />
<br />
<gallery widths=100px heights=100px><br />
File:Agilent DSO1014A.png|link=Agilent DSO1000 series|[[File:Nuvola OK.png|16px]] <small>[[Agilent DSO1000 series]] (2-4ch, 2GS/s, 60-200MHz BW)</small><br />
File:Fluke_Scopemeter_199B.png|link=Fluke ScopeMeter 199B|[[File:Nuvola OK.png|16px]] <small>[[Fluke ScopeMeter 199B]] (2ch, 2.5GS/s, 200MHz BW)</small><br />
File:Voltcraft dso-6060c mugshot.png|link=GW Instek GDS-800 series|[[File:Nuvola OK.png|16px]] <small>[[GW Instek GDS-800 series]] (2ch, 25GS/s, 60-250MHz BW)</small><br />
File:Hameg HMO2024.png|link=Hameg HMO compact series|[[File:Nuvola OK.png|16px]] <small>[[Hameg HMO compact series]] (2-4ch, 2GS/s, 70-200MHz BW)</small><br />
File:Hantek DSO-2090.png|link=Hantek DSO-2090|[[File:Nuvola OK.png|16px]] <small>[[Hantek DSO-2090]] (2ch, 100MS/s, 40MHz)</small><br />
File:Hung chang dso 2100 mugshot.png|link=Hung-Chang_DSO-2100|[[File:Nuvola OK.png|16px]] <small>[[Hung-Chang DSO-2100]] (2ch, 100MS/s, 30MHz BW)</small><br />
File:Rigol DS1052E.png|link=Rigol DS1000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000 series|Rigol DS1000E series]] (2ch, 1GS/s, 50-150MHz BW)</small><br />
File:Rigol DS1074Z front.png|link=Rigol DS1000Z series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS1000Z series|Rigol DS1000Z series]] (4ch, 1GS/s, 50-100MHz BW)</small><br />
File:Rigol-ds2072 mugshot.png|link=Rigol DS2000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DS2000 series]] (2ch, 2GS/s, 70-200MHz BW)</small><br />
File:Rigol_VS5202D.png|link=Rigol VS5000 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol VS5000 series]] (2ch, 20-200MHz BW)</small><br />
<br />
File:Hantek dso2250 mugshot.png|link=Hantek DSO-2250|[[File:Nuvola Orange.png|16px]] <small>[[Hantek DSO-2250]] (2ch, 250MS/s, 100MHz BW)</small><br />
File:Hantek dso-5200a device front.png|link=Hantek DSO-5200A|[[File:Nuvola Orange.png|16px]] <small>[[Hantek DSO-5200A]] (2ch, 250MS/s, 200MHz BW)</small><br />
File:OsciPrime.png|link=Nexus-Computing OsciPrime|[[File:Nuvola Orange.png|16px]] <small>[[Nexus-Computing OsciPrime]] (2ch, ?MS/s, 3.3MHz-8MHz BW)</small><br />
File:Velleman PCSU1000.png|link=Velleman PCSU1000|[[File:Nuvola Orange.png|16px]] <small>[[Velleman PCSU1000]] (2ch, 1GS/s, 50MHz BW)</small><br />
<br />
File:Fluke scopemeter123.png|link=Fluke ScopeMeter 123|[[File:Nuvola Red.png|16px]] <small>[[Fluke ScopeMeter 123]] (2ch, 25MS/s, 20MHz BW)</small><br />
File:Focussz_fosc21_mugshot.png|link=Focussz Fosc21|[[File:Nuvola Red.png|16px]] <small>[[Focussz Fosc21]] (2ch, 8kS/s, 3kHz BW)</small><br />
File:Hantek 6022be.jpg|link=Hantek 6022BE|[[File:Nuvola Red.png|16px]] <small>[[Hantek 6022BE]] (2ch, 48MS/s, 20MHz BW)</small><br />
File:Hantek front.jpg|link=Hantek 6052BE|[[File:Nuvola Red.png|16px]] <small>[[Hantek 6052BE]] (2ch, 150MS/s, 50MHz BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Hantek DSO-1200|[[File:Nuvola Red.png|16px]] <small>[[Hantek DSO-1200]] (2ch, 500MS/s, 200MHz BW)</small><br />
File:Usbduxfast.png|link=Incite Technology USB-DUXfast|[[File:Nuvola Red.png|16px]] <small>[[Incite Technology USB-DUXfast]] (16ch, 3MHz, ? BW)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Owon SDS series|[[File:Nuvola Red.png|16px]] <small>[[Owon SDS series]] (2ch, 0.5-3.2GS/s, 60-300MHz BW)</small><br />
File:Picoscope 2203.png|link=Pico Technology PicoScope 2203|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2203]] (40/20MS/s, 5MHz BW)</small><br />
File:PicoScope_2205.png|link=Pico Technology PicoScope 2205|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 2205]] (200/100MS/s, 25MHz BW)</small><br />
File:Picoscope 3206.png|link=Pico Technology PicoScope 3206|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 3206]] (200/100MS/s, 200MHz BW)</small><br />
File:Picoscope 5203.png|link=Pico Technology PicoScope 5203|[[File:Nuvola Red.png|16px]] <small>[[Pico Technology PicoScope 5203]] (1/0.5GS/s, 250MHz BW)</small><br />
File:Tektronix tds2024b mugshot.png|link=Tektronix TDS2000B series|[[File:Nuvola Red.png|16px]] <small>[[Tektronix TDS2000B series]] (2-4ch, 1-2GS/s, 60-200MHz BW)</small><br />
File:UNI-T UTD2042C.png|link=UNI-T UTD2042C|[[File:Nuvola Red.png|16px]] <small>[[UNI-T UTD2042C]] (2ch, 500MS/s, 40MHz BW)</small><br />
File:VellemanWFS210.png|link=Velleman WFS210|[[File:Nuvola Red.png|16px]] <small>[[Velleman WFS210]] (2ch, 10MS/s, ?? MHz BW)</small><br />
File:Voltcraft dso-220 usb.png|link=Voltcraft DSO-220|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DSO-220]] (2ch, 60MS/s, 20MHz BW)</small><br />
File:Voltcraft DSO-3062C.png|link=Voltcraft DSO-3062C|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DSO-3062C]] (2ch, 1GS/s, 60MHz BW)</small><br />
</gallery><br />
<br />
== Multimeters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Agilent U1232A.png|link=Agilent U12xxx series|[[File:Nuvola OK.png|16px]] <small>[[Agilent U12xxx series]] (USB/Bluetooth)</small><br />
File:Bbc gm m2110 mugshot.png|link=BBC Goertz Metrawatt M2110|[[File:Nuvola OK.png|16px]] <small>[[BBC Goertz Metrawatt M2110]] (30000 counts, RS232)</small><br />
File:Brymen BM257.png|link=Brymen BM257|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM257]] (6000 counts, RS232/USB)</small><br />
File:Brymen bm257s mugshot.png|link=Brymen BM257s|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM257s]] (6000 counts, RS232/USB)</small><br />
File:Bm_857_mugshot_500000.png|link=Brymen BM857|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM857]] (50000 counts, RS232)</small><br />
File:Bm869_mugshot.png|link=Brymen BM869|[[File:Nuvola OK.png|16px]] <small>[[Brymen BM869]] (50000 counts, USB)</small><br />
File:Digitek_dt4000zc_device_front.png|link=Digitek DT4000ZC|[[File:Nuvola OK.png|16px]] <small>[[Digitek DT4000ZC]] (4000 counts, RS232)</small><br />
File:Fluke 187.png|link=Fluke 187/189|[[File:Nuvola OK.png|16px]] <small>[[Fluke 187/189]] (50000 counts, RS232)</small><br />
File:Fluke 287.png|link=Fluke 287/289|[[File:Nuvola OK.png|16px]] <small>[[Fluke 287/289]] (50000 counts, RS232)</small><br />
File:Gmc metrahit 14a logo.png|link=Gossen Metrawatt Metrahit 14A|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 14A]] (3100 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 16I small.png|link=Gossen Metrawatt Metrahit 16I|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 16I]] (3100 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 18S small.png|link=Gossen Metrawatt Metrahit 18S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 18S]] (31000 counts, RS232)</small><br />
File:Gossen Metrawatt Metrahit 25S Logo.png|link=Gossen Metrawatt Metrahit 25S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 25S]] (31000 counts, RS232/USB)</small><br />
File:Gmc kmm2002 logo.png|link=Gossen Metrawatt T-Com KMM2002|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt T-Com KMM2002]] (3100 counts, RS232)</small><br />
File:Gmc metrahit 29s logo.png|link=Gossen Metrawatt Metrahit 29S|[[File:Nuvola OK.png|16px]] <small>[[Gossen Metrawatt Metrahit 29S]] (310000 counts, RS232/USB)</small><br />
File:HT410 logo.png|link=HT Instruments HT410|[[File:Nuvola OK.png|16px]] <small>[[HT Instruments HT410]] (3100 counts, RS232)</small><br />
File:100px_Idm103n.png|link=ISO-TECH IDM103N|[[File:Nuvola OK.png|16px]] <small>[[ISO-TECH IDM103N]] (4000 counts, RS232)</small><br />
File:Mastech mas345 device front.png|link=MASTECH MAS345|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MAS345]] (4000 counts, RS232)</small><br />
File:Mastech ms8250b mugshot.png|link=MASTECH MS8250B|[[File:Nuvola OK.png|16px]] <small>[[MASTECH MS8250B]] (4000 counts, USB)</small><br />
File:Metex m4650cr mugshot.png|link=Metex M-4650CR|[[File:Nuvola OK.png|16px]] <small>[[Metex M-4650CR]] (20000 counts, RS232)</small><br />
File:Metex_me-31.png|link=Metex ME-31|[[File:Nuvola OK.png|16px]] <small>[[Metex ME-31]] (4000 counts, RS232)</small><br />
File:Norma dm950.png|link=Norma DM950|[[File:Nuvola OK.png|16px]] <small>[[Norma DM950]] (21000 counts, RS232)</small><br />
File:Pce-pce-dm32.png|link=PCE PCE-DM32|[[File:Nuvola OK.png|16px]] <small>[[PCE PCE-DM32]] (4000 counts, RS232)</small><br />
File:Metex_me-31.png|link=PeakTech 3410|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 3410]] (4000 counts, RS232)</small><br />
File:Peaktech 4370 device front.png|link=PeakTech 4370|[[File:Nuvola OK.png|16px]] <small>[[PeakTech 4370]] (2000 counts, RS232)</small><br />
File:Rs_22_168_mugshot.png|link=RadioShack 22-168|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-168]] (2000 counts, RS232)</small><br />
File:Rs_22-805_front.png|link=RadioShack 22-805|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-805]] (4000 counts, RS232)</small><br />
File:radioshack_22_812_front.png|link=RadioShack 22-812|[[File:Nuvola OK.png|16px]] <small>[[RadioShack 22-812]] (4000 counts, RS232)</small><br />
File:siemens_b1026_logo.png|link=Siemens B1026|[[File:Nuvola OK.png|16px]] <small>[[Siemens B1026]] (21000 counts, RS232)</small><br />
File:Siemens B1105 small.png|link=Siemens B1105|[[File:Nuvola OK.png|16px]] <small>[[Siemens B1105]] (310000 counts, RS232/USB)</small><br />
File:Tecpel dmm8061.png|link=Tecpel DMM-8061|[[File:Nuvola OK.png|16px]] <small>[[Tecpel DMM-8061]] (4000 counts, RS232/USB)</small><br />
File:Tp4000zc_front.png|link=TekPower TP4000ZC|[[File:Nuvola OK.png|16px]] <small>[[TekPower TP4000ZC]] (4000 counts, RS232)</small><br />
File:Tenma 72-7745.png|link=Tenma 72-7745|[[File:Nuvola OK.png|16px]] <small>[[Tenma 72-7745]] (4000 counts, RS232/USB)</small><br />
File:Ut60e_-_front_-_alpha.png|link=UNI-T UT60E|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT60E]] (4000 counts, RS232/USB)</small><br />
File:Uni-t ut61b mugshot.png|link=UNI-T UT61B|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61B]] (4000 counts, RS232/USB)</small><br />
File:Uni-t ut61c mugshot.png|link=UNI-T UT61C|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61C]] (6000 counts, RS232/USB)</small><br />
File:Uni t ut61d device.png|link=UNI-T UT61D|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61D]] (6000 counts, RS232/USB)</small><br />
File:Old ver front.png|link=UNI-T UT61E|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT61E]] (22000 counts, RS232/USB)</small><br />
File:Ut71c mugshot.png|link=UNI-T UT71C|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT71C]] (40000 counts, RS232/USB)</small><br />
File:Va_va18b.png|link=V&A VA18B|[[File:Nuvola OK.png|16px]] <small>[[V&A VA18B]] (6000 counts, USB)</small><br />
File:Va va40b mugshot.png|link=V&A VA40B|link=V&A VA40B|[[File:Nuvola OK.png|16px]] <small>[[V&A VA40B]] (6000 counts, USB)</small><br />
File:DVM4100.png|link=Velleman DVM4100|link=Velleman DVM4100|[[File:Nuvola OK.png|16px]] <small>[[Velleman DVM4100]] (6000 counts, USB)</small><br />
File:Victor 70C.png|link=Victor 70C|[[File:Nuvola OK.png|16px]] <small>[[Victor 70C]] (4000 counts, USB)</small><br />
File:Victor 86c device front.png|link=Victor 86C|[[File:Nuvola OK.png|16px]] <small>[[Victor 86C]] (4000 counts, USB)</small><br />
File:Voltcraft m-3650cr.png|link=Voltcraft M-3650CR|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-3650CR]] (2000 counts, RS232)</small><br />
File:Voltcraft_M-3650D_transparent.png|link=Voltcraft M-3650D|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-3650D]] (2000 counts, RS232)</small><br />
File:Voltcraft m4650cr.png|link=Voltcraft M-4650CR|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft M-4650CR]] (20000 counts, RS232)</small><br />
File:Voltcraft ME-42 logo.png|link=Voltcraft ME-42|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft ME-42]] (4000 counts, RS232)</small><br />
File:Voltcraft vc820 device.png|link=Voltcraft VC-820|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-820]] (4000 counts, RS232/USB)</small><br />
File:Voltcraft vc830.png|link=Voltcraft VC-830|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-830]] (6000 counts, RS232/USB)</small><br />
File:Voltcraft vc840 device front.png|link=Voltcraft VC-840|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-840]] (4000 counts, RS232/USB)</small><br />
File:Voltcraft vc870 mugshot.png|link=Voltcraft VC-870|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-870]] (40000 counts, RS232/USB)</small><br />
File:Voltcraft vc920.png|link=Voltcraft VC-920|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-920]] (40000/4000 counts, RS232/USB)</small><br />
File:Voltcraft vc940.png|link=Voltcraft VC-940|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft VC-940]] (40000/4000 counts, RS232/USB)</small><br />
<br />
File:HP_3457a_sigrok_teaser.png|link=HP 3457A|[[File:Nuvola Orange.png|16px]] <small>[[HP 3457A]] (7.5 digits, GPIB)</small><br />
File:Tenma 72-1016.png|link=Tenma 72-1016|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-1016]] (6000 counts, RS232/USB)</small><br />
File:Tenma 72-7730.png|link=Tenma 72-7730|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7730]] (20000 counts, RS232/USB)</small><br />
File:Tenma 72-7732.png|link=Tenma 72-7732|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7732]] (40000 counts, RS232/USB)</small><br />
File:Tenma 72-7750.png|link=Tenma 72-7750|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-7750]] (6000 counts, RS232/USB)</small><br />
File:Tenma 72-9380A.png|link=Tenma 72-9380A|[[File:Nuvola Orange.png|16px]] <small>[[Tenma 72-9380A]] (40000 counts, RS232/USB)</small><br />
<br />
File:Appa 107.png|link=APPA 107|[[File:Nuvola Red.png|16px]] <small>[[APPA 107]] (4000 / 20000 counts, RS232)</small><br />
File:Digitek dt8000.png|link=Digitek DT8000|[[File:Nuvola Red.png|16px]] <small>[[Digitek DT8000]] (8000 counts, RS232)</small><br />
File:Digitek dt80000.png|link=Digitek DT80000|[[File:Nuvola Red.png|16px]] <small>[[Digitek DT80000]] (80000 counts, RS232)</small><br />
File:Escort 179 device front.png|link=Escort 179|[[File:Nuvola Red.png|16px]] <small>[[Escort 179]] (10000 counts, RS232)</small><br />
File:Gossen metrahit 30m.png|link=Gossen-Metrawatt METRAHIT 30M|[[File:Nuvola Red.png|16px]] <small>[[Gossen-Metrawatt METRAHIT 30M]] (1200000 counts, RS232/USB)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=HYELEC MS8236|[[File:Nuvola Red.png|16px]] <small>[[HYELEC MS8236]] (6000 counts, USB)</small><br />
File:800px-Mastech m9803r device front.png|link=MASTECH M9803R|[[File:Nuvola Red.png|16px]] <small>[[MASTECH M9803R]] (4000 counts, RS232)</small><br />
File:Metrix mx53.png|link=Metrix MX53|[[File:Nuvola Red.png|16px]] <small>[[Metrix MX53]] (50000 counts, RS232)</small><br />
File:Metrix mx56c.png|link=Metrix MX56C|[[File:Nuvola Red.png|16px]] <small>[[Metrix MX56C]] (50000 counts, RS232)</small><br />
File:Peaktech 4380 mugshot.png|link=PeakTech 4380|[[File:Nuvola Red.png|16px]] <small>[[PeakTech 4380]] (4000 counts, RS232)</small><br />
File:Sigrok_logo_no_text_transparent_512.png|link=Protek 6500|[[File:Nuvola Red.png|16px]] <small>[[Protek 6500]] (50000 counts, RS232)</small><br />
File:Rigol DM3068 front.png|link=Rigol DM3068|[[File:Nuvola Red.png|16px]] <small>[[Rigol DM3068]] (2200000 counts, LAN/USB/GPIB/RS232)</small><br />
File:Voltcraft m3890dt usb.png|link=Voltcraft M-3890DT|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-3890DT]] (4000 counts, USB)</small><br />
File:Voltcraft m4660a device front.png|link=Voltcraft M-4660A|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft M-4660A]] (20000 counts, RS232)</small><br />
</gallery><br />
<br />
== LCR meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Voltcraft4080_2.png|link=Voltcraft 4080|[[File:Nuvola Orange.png|16px]] <small>[[Voltcraft 4080]] (serial)</small><br />
</gallery><br />
<br />
== Sound level meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:CEM DT-8852.png|link=CEM DT-8852|[[File:Nuvola OK.png|16px]] <small>[[CEM DT-8852]] (USB)</small><br />
File:Colead SL-5868P.png|link=Colead SL-5868P|[[File:Nuvola OK.png|16px]] <small>[[Colead SL-5868P]] (RS232)</small><br />
File:Kecheng KC-330B.png|link=Kecheng KC-330B|[[File:Nuvola OK.png|16px]] <small>[[Kecheng KC-330B]] (RS232)</small><br />
File:Tondaj sl-814.png|link=Tondaj SL-814|[[File:Nuvola OK.png|16px]] <small>[[Tondaj SL-814]] (USB)</small><br />
File:Voltcraft_DL-161S.png|link=Voltcraft DL-161S|[[File:Nuvola Orange.png|16px]] <small>[[Voltcraft DL-161S]] (USB)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (also: light-/thermo-/hygrometer; RS232)</small><br />
File:Voltcraft_dl_160s.png|link=Voltcraft DL-160S|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-160S]] (USB)</small><br />
</gallery><br />
<br />
== Thermometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:rs55ii.png|link=APPA 55II|[[File:Nuvola OK.png|16px]] <small>[[APPA 55II]] (2xtemp, RS232)</small><br />
File:EL-USB-2.png|link=Lascar Electronics EL-USB-2|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-2]] (1xtemp, 1xhum, USB)</small><br />
File:Mic 98581.png|link=MIC 98581|[[File:Nuvola OK.png|16px]] <small>[[MIC 98581]] (1xtemp, USB)</small><br />
File:Mic 98583.png|link=MIC 98583|[[File:Nuvola OK.png|16px]] <small>[[MIC 98583]] (1xtemp, 1xhum, USB)</small><br />
File:Uni-t ut325 front.png|link=UNI-T UT325|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT325]] (2xtemp, USB)</small><br />
File:Voltcraft k204.png|link=Voltcraft K204|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft K204]] (4xtemp, RS232)</small><br />
File:Elitech rc3.png|link=Elitech RC-3|[[File:Nuvola Red.png|16px]] <small>[[Elitech RC-3]] (1xtemp, RS232)</small><br />
File:Escort 19.png|link=Escort 19|[[File:Nuvola Red.png|16px]] <small>[[Escort 19]] (1x temp, RS232)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (1xtemp, RS232)</small><br />
File:Rding temper front.png|link=RDing TEMPer|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer]] (1xtemp, USB)</small><br />
File:Rding temper gold device front.png|link=RDing TEMPer Gold|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer Gold]] (1xtemp, USB)</small><br />
File:Rding temper1 device front.png|link=RDing TEMPer1|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer1]] (1xtemp, USB)</small><br />
File:Pcsensor_temper1k2.png|link=RDing TEMPer1K2|[[File:Nuvola Red.png|16px]] <small>[[RDing TEMPer1K2]] (1xtemp, USB)</small><br />
File:Voltcraft dl-120th.png|link=Voltcraft DL-120TH|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-120TH]] (1xtemp, USB)</small><br />
File:Voltcraft dl-140th.png|link=Voltcraft DL-140TH|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft DL-140TH]] (1xtemp, USB)</small><br />
</gallery><br />
<br />
== Hygrometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:EL-USB-2.png|link=Lascar Electronics EL-USB-2|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-2]] (temp/humidity, USB)</small><br />
File:Mic 98583.png|link=MIC 98583|[[File:Nuvola OK.png|16px]] <small>[[MIC 98583]] (temp/humidity, USB)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (also: light-/soundlevelmeter; RS232)</small><br />
File:Silabs si7005usb dgl eb top.jpg|link=SiLabs Si7005USB-Dongle|[[File:Nuvola Red.png|16px]] <small>[[SiLabs Si7005USB-Dongle]] (USB)</small><br />
</gallery><br />
<br />
== Anemometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Mastech ms6252b.png|link=MASTECH MS6252B|[[File:Nuvola Red.png|16px]] <small>[[MASTECH MS6252B]] (USB)</small><br />
</gallery><br />
<br />
== Light meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Lutron YK-2005LX.png|link=Lutron YK-2005LX|[[File:Nuvola Red.png|16px]] <small>[[Lutron YK-2005LX]] (RS232)</small><br />
File:Pce_pce-222_front.png|link=PCE PCE-222|[[File:Nuvola Red.png|16px]] <small>[[PCE PCE-222]] (RS232)</small><br />
</gallery><br />
<br />
== Energy meters ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Actaris_a14c5_teleinfo.png|link=EDF Teleinfo|[[File:Nuvola OK.png|16px]] <small>[[EDF Teleinfo]] (RS232)</small><br />
File:Acme.png|link=BayLibre ACME|[[File:Nuvola OK.png|16px]] <small>[[BayLibre ACME]] (I2C)</small><br />
</gallery><br />
<br />
== DAQs ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Ni usb 6008.png|link=NI USB-6008|[[File:Nuvola Red.png|16px]] <small>[[NI USB-6008]] (8/2 analog inputs/outputs, 12 digital I/Os)</small><br />
</gallery><br />
<br />
== Dataloggers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:EL-USB-CO.png|link=Lascar Electronics EL-USB-CO|[[File:Nuvola OK.png|16px]] <small>[[Lascar Electronics EL-USB-CO]] (carbon monoxide (CO) logger, USB)</small><br />
File:Testo_435-4.png|link=Testo 435-4|[[File:Nuvola OK.png|16px]] <small>[[Testo 435-4]] (USB)</small><br />
File:Gsg_indoor_air_monitor.png|link=GSG Indoor Air Monitor|[[File:Nuvola Red.png|16px]] <small>[[GSG Indoor Air Monitor]] (air quality monitor, USB)</small><br />
File:Maul_studio_i.png|link=MAUL studio i|[[File:Nuvola Red.png|16px]] <small>[[MAUL studio i]] (weighing scale, RS232)</small><br />
File:Voltcraft co-20.png|link=Voltcraft CO-20|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft CO-20]] (air quality monitor, USB)</small><br />
</gallery><br />
<br />
== Tachometers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Uni-t ut372 mugshot.png|link=UNI-T UT372|[[File:Nuvola OK.png|16px]] <small>[[UNI-T UT372]] (USB)</small><br />
</gallery><br />
<br />
== Scales ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Kern ew-6200-2nm mugshot.png|link=KERN scale series|[[File:Nuvola OK.png|16px]] <small>[[KERN scale series]] (RS232)</small><br />
</gallery><br />
<br />
== Digital loads ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Maynuo m9812 mugshot.png|link=Maynuo M9812|[[File:Nuvola OK.png|16px]] <small>[[Maynuo M9812]]<br />
File:Atten ATZ9711.png|link=ATTEN ATZ9711|[[File:Nuvola Red.png|16px]] <small>[[ATTEN ATZ9711]]<br />
</gallery><br />
<br />
== Function generators ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Hantek DDS-3X25 top.png|link=Hantek DDS-3X25|[[File:Nuvola Red.png|16px]] <small>[[Hantek DDS-3X25]] (25MHz, PC-based, USB)</small><br />
File:Siglent sdg1010 device front 8116.png|link=Siglent SDG1010|[[File:Nuvola Red.png|16px]] <small>[[Siglent SDG1010]] (10MHz, USB)</small><br />
<br />
File:BG7TBL small.png|link=BG7TBL|[[File:Nuvola Red.png|16px]] <small>[[BG7TBL]] (138MHz-4.4GHz, PC-based, USB)</small><br />
<br />
File:MHINSTEK UDB1305S persp.jpg|link=MHINSTEK UDB1xxxS|[[File:Nuvola Red.png|16px]] <small>[[MHINSTEK UDB1xxxS]] (2/5/8MHz, Serial)</small><br />
</gallery><br />
<br />
== RF receivers ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Per vices noctar.png|link=Per Vices Noctar|[[File:Nuvola Red.png|16px]] <small>[[Per Vices Noctar]] (100kHz-4GHz, IQ modulator/demodulator, PCIe)</small><br />
</gallery><br />
<br />
== Spectrum analyzers ==<br />
<br />
TODO.<br />
<br />
== Power supplies ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Atten PPS3203T-3S.png|link=Atten PPS3203T-3S|[[File:Nuvola OK.png|16px]] <small>[[Atten PPS3203T-3S]] (3ch, 2x 0-32V, 1x 0-6V at 0-3A, USB&RS232)</small><br />
File:Chroma_61604_front.png|link=Chroma 61604|[[File:Nuvola OK.png|16px]] <small>[[Chroma 61604]] (1ch, 0-300V, 0-16A, 2kVA)</small><br />
File:Conrad_digi_35_cpu_logo.png|link=Conrad DIGI 35 CPU|[[File:Nuvola OK.png|16px]] <small>[[Conrad DIGI 35 CPU]] (1ch, 0-35V/0-2.55A, RS232)</small><br />
File:HP-6632B_mugshot.png|link=HP 6632B|[[File:Nuvola OK.png|16px]] <small>[[HP 6632B]] (1ch, 0-20V/0-5A, GPIB&RS232)</small><br />
File:Velleman ps3005d mugshot.png|link=Korad KAxxxxP series|[[File:Nuvola OK.png|16px]] <small>[[Korad KAxxxxP series]] (1ch, 0-30V/0-5A, USB&RS232)</small><br />
File:Manson hcs3202.png|link=Manson HCS-3202|[[File:Nuvola OK.png|16px]] <small>[[Manson HCS-3202]] (1ch, 1-36V/0-10A, USB)</small><br />
File:Motech_LPS-301_logo.png|link=Motech LPS-301|[[File:Nuvola OK.png|16px]] <small>[[Motech LPS-301]] (1ch, 1-32V/0-2A, RS232)</small><br />
File:Philips PM2813.png|link=Philips PM2800 series|[[File:Nuvola OK.png|16px]] <small>Fluke/Philips PM2800 series</small><br />
File:Rigol DP832.png|link=Rigol DP800 series|[[File:Nuvola OK.png|16px]] <small>[[Rigol DP800 series]]</small><br />
File:Voltcraft pps-11815 logo.png|link=Voltcraft PPS-11815|[[File:Nuvola OK.png|16px]] <small>[[Voltcraft PPS-11815]] (1ch, 0-60V/0-5A, USB)</small><br />
<br />
File:Sigrok logo no text transparent 512.png|link=Voltcraft 18220|[[File:Nuvola Red.png|16px]] <small>[[Voltcraft 18220]] (1ch, 0-40V/0-5A, RS232)</small><br />
</gallery><br />
<br />
== GPIB interfaces ==<br />
<br />
<gallery widths="100px" heights="100px"><br />
File:Beiming_s82357.png|link=Beiming S82357|[[File:Nuvola Red.png|16px]] <small>[[Beiming S82357]] (hardware-based, USB)</small><br />
File:ICS 488-USB.png|link=ICS 488-USB|[[File:Nuvola Red.png|16px]] <small>[[ICS 488-USB]] (hardware-based, USB)</small><br />
File:GPIB-USB 82357B clone.png|link=GPIB-USB 82357B clone|[[File:Nuvola Red.png|16px]] <small>[[GPIB-USB 82357B clone]] (hardware-based, USB)</small><br />
File:NI GPIB-ENET.png|link=National Instruments GPIB-ENET|[[File:Nuvola Red.png|16px]] <small>[[National Instruments GPIB-ENET]] (hardware-based, Ethernet)</small><br />
File:NI GPIB-USB-HS.png|link=National Instruments GPIB-USB-HS|[[File:Nuvola Red.png|16px]] <small>[[National Instruments GPIB-USB-HS]] (hardware-based, USB)</small><br />
File:Prologix-usb.png|link=Prologix GPIB-USB|[[File:Nuvola Red.png|16px]] <small>[[Prologix GPIB-USB]] (firmware-based, USB)</small><br />
File:GalvantGPIBUSBrev4.JPG|link=Galvant GPIBUSB|[[File:Nuvola Red.png|16px]] <small>[[Galvant GPIBUSB]] (firmware-based, USB, OSHW)</small><br />
</gallery><br />
<br />
== Potential other candidates ==<br />
<br />
If you own any other logic analyzers, oscilloscopes, multimeters, dataloggers, ... and want to add support for them in sigrok (or donate/lend devices to developers), please let us know. We're always happy to add more hardware support! Join the [https://lists.sourceforge.net/lists/listinfo/sigrok-devel mailing list] or ask on [irc://chat.freenode.net/sigrok IRC #sigrok] if you want to help out.<br />
<br />
__FORCETOC__</div>Mrnukehttps://sigrok.org/w/index.php?title=HP_3457A&diff=11420HP 3457A2016-03-05T21:38:40Z<p>Mrnuke: Create initial page for the HP 3457A</p>
<hr />
<div>{{Infobox multimeter<br />
| image = [[File:HP_3457a_sigrok_teaser.png|180px]]<br />
| name = Hewlett-Packard 3457A<br />
| status = in progress<br />
| source_code_dir = hp-3457a<br />
| counts = 30300000<br />
| categories = 450V p-p max<br />
| connectivity = GPIB<br />
| measurements = voltage, current, resistance, frequency, period<br />
| features = autorange, readings memory, four-wire resistance<br />
| website = [http://www.keysight.com/en/pd-3457A%3Aepsg%3Apro-pn-3457A/digital-multimeter keysight.com]<br />
}}<br />
<br />
The '''Hewlett-Packard 3457A''' is a 7.5 digits (30300000 counts) bench digital multimeter with GPIB connectivity.</div>Mrnukehttps://sigrok.org/w/index.php?title=File:HP_3457a_sigrok_teaser.png&diff=11419File:HP 3457a sigrok teaser.png2016-03-05T21:36:30Z<p>Mrnuke: HP 3457A displaying the sigrok logo and its maximum resolution of 7.5 digits.</p>
<hr />
<div>== Summary ==<br />
HP 3457A displaying the sigrok logo and its maximum resolution of 7.5 digits.<br />
== Licensing ==<br />
{{CC-BY-SA-3.0}}</div>Mrnukehttps://sigrok.org/w/index.php?title=Chroma_62000P_series&diff=10818Chroma 62000P series2015-05-16T23:48:21Z<p>Mrnuke: /* Current limit vs max setable current */</p>
<hr />
<div>{{Infobox power supply<br />
| image = [[File:Sigrok logo no text transparent 512.png|180px]]<br />
| name = Chroma 62000P series<br />
| status = in progress<br />
| source_code_dir = scpi-pps<br />
| channels = 1<br />
| channel1 = 0-100V / 0-100A<br />
| connectivity = USBTMC, RS232, LXI or GPIB optional<br />
| features = <br />
| website = [http://www.chromaate.com/product/62000P_series_Programmable_DC_Power_Supply.htm chromaate.com]<br />
}}<br />
<br />
=== Protocol ===<br />
<br />
==== LIST Program example ====<br />
<br />
PROG:SEL 1<br />
PROG:MODE LIST<br />
PROG:ADD 1<br />
PROG:SEQ:SEL 1<br />
PROG:SEQ 0,40,10,25,INF,0,0.100 # Type AUTO, 40V, 10V/s, 25A, INF A/s, TTL output, 100ms<br />
PROG:SAVE # Optional<br />
PROG:RUN ON<br />
<br />
==== Current limit vs max settable current ====<br />
<br />
* ":SOUR:CURR" Set maximum output current (CC mode threshold)<br />
* ":SOUR:CURR:LIM:HIGH" Limit the maximum current setting that device will accept</div>Mrnukehttps://sigrok.org/w/index.php?title=Chroma_62000P_series&diff=10817Chroma 62000P series2015-05-16T23:48:04Z<p>Mrnuke: /* LIST Program example */</p>
<hr />
<div>{{Infobox power supply<br />
| image = [[File:Sigrok logo no text transparent 512.png|180px]]<br />
| name = Chroma 62000P series<br />
| status = in progress<br />
| source_code_dir = scpi-pps<br />
| channels = 1<br />
| channel1 = 0-100V / 0-100A<br />
| connectivity = USBTMC, RS232, LXI or GPIB optional<br />
| features = <br />
| website = [http://www.chromaate.com/product/62000P_series_Programmable_DC_Power_Supply.htm chromaate.com]<br />
}}<br />
<br />
=== Protocol ===<br />
<br />
==== LIST Program example ====<br />
<br />
PROG:SEL 1<br />
PROG:MODE LIST<br />
PROG:ADD 1<br />
PROG:SEQ:SEL 1<br />
PROG:SEQ 0,40,10,25,INF,0,0.100 # Type AUTO, 40V, 10V/s, 25A, INF A/s, TTL output, 100ms<br />
PROG:SAVE # Optional<br />
PROG:RUN ON<br />
<br />
==== Current limit vs max setable current ====<br />
<br />
* ":SOUR:CURR" Set maximum output current (CC mode threshold)<br />
* ":SOUR:CURR:LIM:HIGH" Limit the maximum current setting that device will accept</div>Mrnukehttps://sigrok.org/w/index.php?title=Chroma_62000P_series&diff=10810Chroma 62000P series2015-05-09T10:02:04Z<p>Mrnuke: </p>
<hr />
<div>{{Infobox power supply<br />
| image = [[File:Sigrok logo no text transparent 512.png|180px]]<br />
| name = Chroma 62000P series<br />
| status = in progress<br />
| source_code_dir = scpi-pps<br />
| channels = 1<br />
| channel1 = 0-100V / 0-100A<br />
| connectivity = USBTMC, RS232, LXI or GPIB optional<br />
| features = <br />
| website = [http://www.chromaate.com/product/62000P_series_Programmable_DC_Power_Supply.htm chromaate.com]<br />
}}<br />
<br />
=== Protocol ===<br />
<br />
==== LIST Program example ====<br />
<br />
PROG:SEL 1<br />
PROG:MODE LIST<br />
PROG:ADD 1<br />
PROG:SEQ:SEL 1<br />
PROG:SEQ 0,40,10,25,INF,0,0.100 # Type AUTO, 40V, 10V/s, 25A, INF A/s, TTL output, 100ms<br />
PROG:SAVE # Optional<br />
PROG:RUN ON</div>Mrnukehttps://sigrok.org/w/index.php?title=Chroma_62000P_series&diff=10809Chroma 62000P series2015-05-09T04:44:51Z<p>Mrnuke: Created page with " === Protocol === ==== LIST Program example ==== PROG:SEL 1 PROG:MODE LIST PROG:ADD 1 PROG:SEQ:SEL 1 PROG:SEQ 0,40,10,25,INF,0,0.100 # Type AUTO, 40V, 10V/s, 25A, IN..."</p>
<hr />
<div><br />
=== Protocol ===<br />
<br />
==== LIST Program example ====<br />
<br />
PROG:SEL 1<br />
PROG:MODE LIST<br />
PROG:ADD 1<br />
PROG:SEQ:SEL 1<br />
PROG:SEQ 0,40,10,25,INF,0,0.100 # Type AUTO, 40V, 10V/s, 25A, INF A/s, TTL output, 100ms<br />
PROG:SAVE # Optional<br />
PROG:RUN ON</div>Mrnukehttps://sigrok.org/w/index.php?title=User:Mrnuke/float_serialization_talk&diff=10790User:Mrnuke/float serialization talk2015-05-04T17:16:28Z<p>Mrnuke: /* Second attempt: memcpy to an integer */</p>
<hr />
<div>== How to properly serialize a float ==<br />
<br />
=== Introduction ===<br />
<br />
Serializing floating point data, i.e. writing it to a stream in a deterministic and reproducible form, is a non-trivial undertaking. When dealing with unsigned integers of known bit-width, the format is universally understood to the binary representation of the integer value. Although the byte order varies between architectures, and the bits may be numbered MSb first or LSb first, this is inconsequential as long as C code dealing with unsigned integers does not make assumptions about such ordering.<br />
<br />
As long as the C code is structured to make a clear distinction between data streams and host integers, writing portable serialization/deserialization routines is fairly straightforward using Standard C operators with a deterministic behavior. For the purpose of this talk, a data stream is defined to be a sequence of bytes which contain data in a well-established format. For example, a big-endian 32-bit integer in the stream will be represented as a byte containing bits [31:24], followed by a byte containing bits [23:16], and so on. A host integer is defined to be an integer of known bit-width, that is represented in the arch-specific format for that integer. As a result, no assumptions should be made about the format of the host integer, not even the assumption that the byte-order is little or big endian.<br />
<br />
=== Portable serialization of integer ===<br />
<br />
It is fairly straightforward to serialize an integer into a data stream, using bit-shift operations, which are completely deterministic in the C standard.<br />
<br />
inline static void h_to_le32(uint32_t val32, void *dest)<br />
{<br />
uint8_t *b = dest;<br />
b[0] = (val32 >> 0) & 0xff;<br />
b[1] = (val32 >> 8) & 0xff;<br />
b[2] = (val32 >> 16) & 0xff;<br />
b[3] = (val32 >> 24) & 0xff;<br />
};<br />
<br />
This snipped will place bits [7:0] at the first byte, bits [15:8] at the second byte, and so on, corresponding to the representation in a little-endian stream. At no point was any assumption made about the host byte order, meaning that this snippet will produce identical results on a big-endian, small-endian, and mixed-endian machine. It also does non byte-address the integers, nor does it break pointer aliasing rules.<br />
<br />
The only assumption this code makes is that bytes are 8-bit long, which is a universally reasonable assumption.<br />
<br />
=== Difficulties in serializing floating point numbers ===<br />
<br />
The above snippet will not work reliably if we replace 'uint32_t' with 'float'. While it may work on certain compilers, bit shift operations on floating point numbers are undefined behavior. Even if we manage to get a bit-for-bit representation of the float as a uint32_t, we still need to make one fatal assumption: That the host representation of the float is identical to the representation of the float in the data stream. i.e. How many mantissa bits, how many exponent bits, and whether the sign bit is placed in front of the exponent or attached to the mantissa, etc.<br />
<br />
The concerns about the floating point representation can be alleviated if the stream is specified to be in the IEE754 format, and we know the host uses the same format. Unfortunately, this already makes assumptions about the host representation, which we are able to avoid in the unsigned integer case. As we will see below, this is further complicated by other rules in the C standard.<br />
<br />
=== Wrong ways of serializing floats ===<br />
<br />
==== First approach: alias as an integer ====<br />
<br />
The obvious solution to the problem is to leverage the existing h_to_le32 macro, by telling the compiler to treat the float as a 32-bit integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t *my_hack;<br />
<br />
my_hack = &value;<br />
h_to_le32(*my_hack, buf);<br />
}<br />
<br />
This method will work on may compilers, because, from the compiler's point of view, it makes most sense to do what we want it to do; however, this approach breaks the pointer aliasing rules in the C standard, and thus the behavior of the above snippet is undefined.<br />
<br />
This approach also makes two other grave mistakes. First, it assumes that the host stores floating point numbers in IEEE-754 format, which may or may not be the case. Secondly, it assumes that the host byte order of the float is the same as that of an integer. This does not have to be the case.<br />
<br />
Also, the compiler may have promoted the float 'value' to a double, in which case we are guaranteed to obtain incorrect results. Even if this function weren't inlined, the compiler could make such promotions, for example, with link-time optimizations.<br />
<br />
==== Second attempt: memcpy to an integer ====<br />
<br />
It is easy, and legal in C, to get aroud the aliasing problem by copying the memory contents of value to an integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t my_hack;<br />
<br />
memcpy(&my_hack, &value, sizeof(value));<br />
h_to_le32(my_hack, buf);<br />
}<br />
<br />
This approach solves the pointer aliasing problem; however, it suffers from all the shortcomings of the previous approach, and as such, is not portable. Also note that the "promotion to double" concern of the previous approach is no longer an issue: due to the use of aliasing through memcpy, the compiler is no longer permitted to make such optimizations.<br />
<br />
===== Second attempt, version B =====<br />
<br />
It might be possible to utilize a union to alias the float as an integer:<br />
<br />
static void float_to_le(void *dest, float value)<br />
{<br />
union {<br />
float float_alias;<br />
uint32_t int_alias;<br />
} my_hack;<br />
<br />
my_hack.float_alias = value;<br />
h_to_le32(my_hack.int_alias, dest);<br />
}<br />
<br />
However, I have not checked whether the behavior of this approach is well-defined according to the C standard, or what gotcha's, if any, apply to this.<br />
<br />
==== Third attempt: no memcpy ====<br />
<br />
If we wanted to avoid the call to memcpy(), we could use a char* to alias the float, an aliasing which is permitted in the C standard:<br />
<br />
/*<br />
* Stores the float in little-endian BINARY32 IEEE-754 2008 format.<br />
*/<br />
static void float_to_le(uint8_t *buf, float value)<br />
{<br />
char *old;<br />
<br />
old = (char *)&value;<br />
#ifdef WORDS_BIGENDIAN<br />
buf[0] = old[3];<br />
buf[1] = old[2];<br />
buf[2] = old[1];<br />
buf[3] = old[0];<br />
#else<br />
buf[0] = old[0];<br />
buf[1] = old[1];<br />
buf[2] = old[2];<br />
buf[3] = old[3];<br />
#endif<br />
}<br />
<br />
Unfortunately, with this approach, we now need to explicitly know the host byte order. This snippet may work on a little-endian machine. It may work on big-endian machines, but it will not work on anything else, and will fail if the macro WORDS_BIGENDIAN is wrongly defined. It also assumes that floats are byte-addressable, which does not have to be the case (then, the application will crash).<br />
<br />
It suffers from the same assumptions as before. Since WORDS_BIGENDIAN is decided at configuration time based on the byte-order of 16-bit integers, it doesn't guarantee the byte order will be correct for floats. Also the assumption that the host uses the IEEE-754 format is still deeply ingrained in this approach. In fact, this approach is less portable than the previous one, wehere we memcpy()d the float to an integer.<br />
<br />
==== Fourth attempt: GFloatIEEE754 or unions ====<br />
<br />
The GFloatIEEE754 is a type provided by glib, which attempts to solve this issue. It is defined as the union between a float, and a bitfield reproducing the IEEE-754 representation. This approach, unfortunately is a terrible idea. First, it uses bitfields to map to hardware bits, which is not guaranteed to work, due to the possibility of the compiler applying padding. The declaration of the union also depends on the host byte order (and bit order !!!). This approach introduces too many unknowns to be considered portable, and thus, an example snippet is not given here.<br />
<br />
=== Portable approaches ===<br />
<br />
Right now, the second approach is the most portable, at the expense of an extra memcpy for every float, but it is not completely safe. If we contend with the assumptions that the host uses the IEEE-754 format, and that the host integer byte order is the same as the host float byte order, it is perfectly valid.<br />
<br />
If we could obtain the sign bit, the exponent as an integer, and the significant as an bit-for-bit integer representation of the mantissa, we would then be able to shift all the bits to their correct positions in the data stream, and the serialization would work in a way truly independent of the host, without the need to make any assumption. Unfortunately, the C standard does not provide a way to do this without needing to use floating point math to extract these parameters.<br />
<br />
Unfortunately, a truly portable approach involves heavy floating-point computations, as exemplified in this [http://stackoverflow.com/questions/4733147/portability-of-binary-serialization-of-double-float-type-in-c stackoverflow answer]. The question of whether the assumptions made by the second approach are sufficiently reasonable for libsigrok must be asked before exploring the truly portable approaches.</div>Mrnukehttps://sigrok.org/w/index.php?title=User:Mrnuke/float_serialization_talk&diff=10789User:Mrnuke/float serialization talk2015-05-04T02:29:15Z<p>Mrnuke: /* Second attempt: memcpy to an integer */</p>
<hr />
<div>== How to properly serialize a float ==<br />
<br />
=== Introduction ===<br />
<br />
Serializing floating point data, i.e. writing it to a stream in a deterministic and reproducible form, is a non-trivial undertaking. When dealing with unsigned integers of known bit-width, the format is universally understood to the binary representation of the integer value. Although the byte order varies between architectures, and the bits may be numbered MSb first or LSb first, this is inconsequential as long as C code dealing with unsigned integers does not make assumptions about such ordering.<br />
<br />
As long as the C code is structured to make a clear distinction between data streams and host integers, writing portable serialization/deserialization routines is fairly straightforward using Standard C operators with a deterministic behavior. For the purpose of this talk, a data stream is defined to be a sequence of bytes which contain data in a well-established format. For example, a big-endian 32-bit integer in the stream will be represented as a byte containing bits [31:24], followed by a byte containing bits [23:16], and so on. A host integer is defined to be an integer of known bit-width, that is represented in the arch-specific format for that integer. As a result, no assumptions should be made about the format of the host integer, not even the assumption that the byte-order is little or big endian.<br />
<br />
=== Portable serialization of integer ===<br />
<br />
It is fairly straightforward to serialize an integer into a data stream, using bit-shift operations, which are completely deterministic in the C standard.<br />
<br />
inline static void h_to_le32(uint32_t val32, void *dest)<br />
{<br />
uint8_t *b = dest;<br />
b[0] = (val32 >> 0) & 0xff;<br />
b[1] = (val32 >> 8) & 0xff;<br />
b[2] = (val32 >> 16) & 0xff;<br />
b[3] = (val32 >> 24) & 0xff;<br />
};<br />
<br />
This snipped will place bits [7:0] at the first byte, bits [15:8] at the second byte, and so on, corresponding to the representation in a little-endian stream. At no point was any assumption made about the host byte order, meaning that this snippet will produce identical results on a big-endian, small-endian, and mixed-endian machine. It also does non byte-address the integers, nor does it break pointer aliasing rules.<br />
<br />
The only assumption this code makes is that bytes are 8-bit long, which is a universally reasonable assumption.<br />
<br />
=== Difficulties in serializing floating point numbers ===<br />
<br />
The above snippet will not work reliably if we replace 'uint32_t' with 'float'. While it may work on certain compilers, bit shift operations on floating point numbers are undefined behavior. Even if we manage to get a bit-for-bit representation of the float as a uint32_t, we still need to make one fatal assumption: That the host representation of the float is identical to the representation of the float in the data stream. i.e. How many mantissa bits, how many exponent bits, and whether the sign bit is placed in front of the exponent or attached to the mantissa, etc.<br />
<br />
The concerns about the floating point representation can be alleviated if the stream is specified to be in the IEE754 format, and we know the host uses the same format. Unfortunately, this already makes assumptions about the host representation, which we are able to avoid in the unsigned integer case. As we will see below, this is further complicated by other rules in the C standard.<br />
<br />
=== Wrong ways of serializing floats ===<br />
<br />
==== First approach: alias as an integer ====<br />
<br />
The obvious solution to the problem is to leverage the existing h_to_le32 macro, by telling the compiler to treat the float as a 32-bit integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t *my_hack;<br />
<br />
my_hack = &value;<br />
h_to_le32(*my_hack, buf);<br />
}<br />
<br />
This method will work on may compilers, because, from the compiler's point of view, it makes most sense to do what we want it to do; however, this approach breaks the pointer aliasing rules in the C standard, and thus the behavior of the above snippet is undefined.<br />
<br />
This approach also makes two other grave mistakes. First, it assumes that the host stores floating point numbers in IEEE-754 format, which may or may not be the case. Secondly, it assumes that the host byte order of the float is the same as that of an integer. This does not have to be the case.<br />
<br />
Also, the compiler may have promoted the float 'value' to a double, in which case we are guaranteed to obtain incorrect results. Even if this function weren't inlined, the compiler could make such promotions, for example, with link-time optimizations.<br />
<br />
==== Second attempt: memcpy to an integer ====<br />
<br />
It is easy, and legal in C, to get aroud the aliasing problem by copying the memory contents of value to an integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t my_hack;<br />
<br />
memcpy(&my_hack, &value, sizeof(value));<br />
h_to_le32(my_hack, buf);<br />
}<br />
<br />
This approach solves the pointer aliasing problem; however, it suffers from all the shortcomings of the previous approach, and as such, is not portable. Also note that the "promotion to double" concern of the previous approach is no longer an issue: due to the use of aliasing through memcpy, the compiler is no longer permitted to make such optimizations.<br />
<br />
==== Third attempt: no memcpy ====<br />
<br />
If we wanted to avoid the call to memcpy(), we could use a char* to alias the float, an aliasing which is permitted in the C standard:<br />
<br />
/*<br />
* Stores the float in little-endian BINARY32 IEEE-754 2008 format.<br />
*/<br />
static void float_to_le(uint8_t *buf, float value)<br />
{<br />
char *old;<br />
<br />
old = (char *)&value;<br />
#ifdef WORDS_BIGENDIAN<br />
buf[0] = old[3];<br />
buf[1] = old[2];<br />
buf[2] = old[1];<br />
buf[3] = old[0];<br />
#else<br />
buf[0] = old[0];<br />
buf[1] = old[1];<br />
buf[2] = old[2];<br />
buf[3] = old[3];<br />
#endif<br />
}<br />
<br />
Unfortunately, with this approach, we now need to explicitly know the host byte order. This snippet may work on a little-endian machine. It may work on big-endian machines, but it will not work on anything else, and will fail if the macro WORDS_BIGENDIAN is wrongly defined. It also assumes that floats are byte-addressable, which does not have to be the case (then, the application will crash).<br />
<br />
It suffers from the same assumptions as before. Since WORDS_BIGENDIAN is decided at configuration time based on the byte-order of 16-bit integers, it doesn't guarantee the byte order will be correct for floats. Also the assumption that the host uses the IEEE-754 format is still deeply ingrained in this approach. In fact, this approach is less portable than the previous one, wehere we memcpy()d the float to an integer.<br />
<br />
==== Fourth attempt: GFloatIEEE754 or unions ====<br />
<br />
The GFloatIEEE754 is a type provided by glib, which attempts to solve this issue. It is defined as the union between a float, and a bitfield reproducing the IEEE-754 representation. This approach, unfortunately is a terrible idea. First, it uses bitfields to map to hardware bits, which is not guaranteed to work, due to the possibility of the compiler applying padding. The declaration of the union also depends on the host byte order (and bit order !!!). This approach introduces too many unknowns to be considered portable, and thus, an example snippet is not given here.<br />
<br />
=== Portable approaches ===<br />
<br />
Right now, the second approach is the most portable, at the expense of an extra memcpy for every float, but it is not completely safe. If we contend with the assumptions that the host uses the IEEE-754 format, and that the host integer byte order is the same as the host float byte order, it is perfectly valid.<br />
<br />
If we could obtain the sign bit, the exponent as an integer, and the significant as an bit-for-bit integer representation of the mantissa, we would then be able to shift all the bits to their correct positions in the data stream, and the serialization would work in a way truly independent of the host, without the need to make any assumption. Unfortunately, the C standard does not provide a way to do this without needing to use floating point math to extract these parameters.<br />
<br />
Unfortunately, a truly portable approach involves heavy floating-point computations, as exemplified in this [http://stackoverflow.com/questions/4733147/portability-of-binary-serialization-of-double-float-type-in-c stackoverflow answer]. The question of whether the assumptions made by the second approach are sufficiently reasonable for libsigrok must be asked before exploring the truly portable approaches.</div>Mrnukehttps://sigrok.org/w/index.php?title=User:Mrnuke/float_serialization_talk&diff=10788User:Mrnuke/float serialization talk2015-05-04T02:28:51Z<p>Mrnuke: /* Second attempt: memcpy to an integer */</p>
<hr />
<div>== How to properly serialize a float ==<br />
<br />
=== Introduction ===<br />
<br />
Serializing floating point data, i.e. writing it to a stream in a deterministic and reproducible form, is a non-trivial undertaking. When dealing with unsigned integers of known bit-width, the format is universally understood to the binary representation of the integer value. Although the byte order varies between architectures, and the bits may be numbered MSb first or LSb first, this is inconsequential as long as C code dealing with unsigned integers does not make assumptions about such ordering.<br />
<br />
As long as the C code is structured to make a clear distinction between data streams and host integers, writing portable serialization/deserialization routines is fairly straightforward using Standard C operators with a deterministic behavior. For the purpose of this talk, a data stream is defined to be a sequence of bytes which contain data in a well-established format. For example, a big-endian 32-bit integer in the stream will be represented as a byte containing bits [31:24], followed by a byte containing bits [23:16], and so on. A host integer is defined to be an integer of known bit-width, that is represented in the arch-specific format for that integer. As a result, no assumptions should be made about the format of the host integer, not even the assumption that the byte-order is little or big endian.<br />
<br />
=== Portable serialization of integer ===<br />
<br />
It is fairly straightforward to serialize an integer into a data stream, using bit-shift operations, which are completely deterministic in the C standard.<br />
<br />
inline static void h_to_le32(uint32_t val32, void *dest)<br />
{<br />
uint8_t *b = dest;<br />
b[0] = (val32 >> 0) & 0xff;<br />
b[1] = (val32 >> 8) & 0xff;<br />
b[2] = (val32 >> 16) & 0xff;<br />
b[3] = (val32 >> 24) & 0xff;<br />
};<br />
<br />
This snipped will place bits [7:0] at the first byte, bits [15:8] at the second byte, and so on, corresponding to the representation in a little-endian stream. At no point was any assumption made about the host byte order, meaning that this snippet will produce identical results on a big-endian, small-endian, and mixed-endian machine. It also does non byte-address the integers, nor does it break pointer aliasing rules.<br />
<br />
The only assumption this code makes is that bytes are 8-bit long, which is a universally reasonable assumption.<br />
<br />
=== Difficulties in serializing floating point numbers ===<br />
<br />
The above snippet will not work reliably if we replace 'uint32_t' with 'float'. While it may work on certain compilers, bit shift operations on floating point numbers are undefined behavior. Even if we manage to get a bit-for-bit representation of the float as a uint32_t, we still need to make one fatal assumption: That the host representation of the float is identical to the representation of the float in the data stream. i.e. How many mantissa bits, how many exponent bits, and whether the sign bit is placed in front of the exponent or attached to the mantissa, etc.<br />
<br />
The concerns about the floating point representation can be alleviated if the stream is specified to be in the IEE754 format, and we know the host uses the same format. Unfortunately, this already makes assumptions about the host representation, which we are able to avoid in the unsigned integer case. As we will see below, this is further complicated by other rules in the C standard.<br />
<br />
=== Wrong ways of serializing floats ===<br />
<br />
==== First approach: alias as an integer ====<br />
<br />
The obvious solution to the problem is to leverage the existing h_to_le32 macro, by telling the compiler to treat the float as a 32-bit integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t *my_hack;<br />
<br />
my_hack = &value;<br />
h_to_le32(*my_hack, buf);<br />
}<br />
<br />
This method will work on may compilers, because, from the compiler's point of view, it makes most sense to do what we want it to do; however, this approach breaks the pointer aliasing rules in the C standard, and thus the behavior of the above snippet is undefined.<br />
<br />
This approach also makes two other grave mistakes. First, it assumes that the host stores floating point numbers in IEEE-754 format, which may or may not be the case. Secondly, it assumes that the host byte order of the float is the same as that of an integer. This does not have to be the case.<br />
<br />
Also, the compiler may have promoted the float 'value' to a double, in which case we are guaranteed to obtain incorrect results. Even if this function weren't inlined, the compiler could make such promotions, for example, with link-time optimizations.<br />
<br />
==== Second attempt: memcpy to an integer ====<br />
<br />
It is easy, and legal in C, to get aroud the aliasing problem by copying the memory contents of value to an integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t my_hack;<br />
<br />
memcpy(&my_hack, &value, sizeof(value));<br />
h_to_le32(my_hack, buf);<br />
}<br />
<br />
This approach solves the pointer aliasing problem; however, it suffers from all the shortcomings of the previous approach, and as such, is not portable. Also note that the "promotion to double" concern of the previous approach is no longer an issue: due to the use of memcpy, the compiler is no longer permitted to make such optimizations.<br />
<br />
==== Third attempt: no memcpy ====<br />
<br />
If we wanted to avoid the call to memcpy(), we could use a char* to alias the float, an aliasing which is permitted in the C standard:<br />
<br />
/*<br />
* Stores the float in little-endian BINARY32 IEEE-754 2008 format.<br />
*/<br />
static void float_to_le(uint8_t *buf, float value)<br />
{<br />
char *old;<br />
<br />
old = (char *)&value;<br />
#ifdef WORDS_BIGENDIAN<br />
buf[0] = old[3];<br />
buf[1] = old[2];<br />
buf[2] = old[1];<br />
buf[3] = old[0];<br />
#else<br />
buf[0] = old[0];<br />
buf[1] = old[1];<br />
buf[2] = old[2];<br />
buf[3] = old[3];<br />
#endif<br />
}<br />
<br />
Unfortunately, with this approach, we now need to explicitly know the host byte order. This snippet may work on a little-endian machine. It may work on big-endian machines, but it will not work on anything else, and will fail if the macro WORDS_BIGENDIAN is wrongly defined. It also assumes that floats are byte-addressable, which does not have to be the case (then, the application will crash).<br />
<br />
It suffers from the same assumptions as before. Since WORDS_BIGENDIAN is decided at configuration time based on the byte-order of 16-bit integers, it doesn't guarantee the byte order will be correct for floats. Also the assumption that the host uses the IEEE-754 format is still deeply ingrained in this approach. In fact, this approach is less portable than the previous one, wehere we memcpy()d the float to an integer.<br />
<br />
==== Fourth attempt: GFloatIEEE754 or unions ====<br />
<br />
The GFloatIEEE754 is a type provided by glib, which attempts to solve this issue. It is defined as the union between a float, and a bitfield reproducing the IEEE-754 representation. This approach, unfortunately is a terrible idea. First, it uses bitfields to map to hardware bits, which is not guaranteed to work, due to the possibility of the compiler applying padding. The declaration of the union also depends on the host byte order (and bit order !!!). This approach introduces too many unknowns to be considered portable, and thus, an example snippet is not given here.<br />
<br />
=== Portable approaches ===<br />
<br />
Right now, the second approach is the most portable, at the expense of an extra memcpy for every float, but it is not completely safe. If we contend with the assumptions that the host uses the IEEE-754 format, and that the host integer byte order is the same as the host float byte order, it is perfectly valid.<br />
<br />
If we could obtain the sign bit, the exponent as an integer, and the significant as an bit-for-bit integer representation of the mantissa, we would then be able to shift all the bits to their correct positions in the data stream, and the serialization would work in a way truly independent of the host, without the need to make any assumption. Unfortunately, the C standard does not provide a way to do this without needing to use floating point math to extract these parameters.<br />
<br />
Unfortunately, a truly portable approach involves heavy floating-point computations, as exemplified in this [http://stackoverflow.com/questions/4733147/portability-of-binary-serialization-of-double-float-type-in-c stackoverflow answer]. The question of whether the assumptions made by the second approach are sufficiently reasonable for libsigrok must be asked before exploring the truly portable approaches.</div>Mrnukehttps://sigrok.org/w/index.php?title=User:Mrnuke/float_serialization_talk&diff=10787User:Mrnuke/float serialization talk2015-05-04T02:24:43Z<p>Mrnuke: /* Fourth attempt: GFloatIEEE754 or unions */</p>
<hr />
<div>== How to properly serialize a float ==<br />
<br />
=== Introduction ===<br />
<br />
Serializing floating point data, i.e. writing it to a stream in a deterministic and reproducible form, is a non-trivial undertaking. When dealing with unsigned integers of known bit-width, the format is universally understood to the binary representation of the integer value. Although the byte order varies between architectures, and the bits may be numbered MSb first or LSb first, this is inconsequential as long as C code dealing with unsigned integers does not make assumptions about such ordering.<br />
<br />
As long as the C code is structured to make a clear distinction between data streams and host integers, writing portable serialization/deserialization routines is fairly straightforward using Standard C operators with a deterministic behavior. For the purpose of this talk, a data stream is defined to be a sequence of bytes which contain data in a well-established format. For example, a big-endian 32-bit integer in the stream will be represented as a byte containing bits [31:24], followed by a byte containing bits [23:16], and so on. A host integer is defined to be an integer of known bit-width, that is represented in the arch-specific format for that integer. As a result, no assumptions should be made about the format of the host integer, not even the assumption that the byte-order is little or big endian.<br />
<br />
=== Portable serialization of integer ===<br />
<br />
It is fairly straightforward to serialize an integer into a data stream, using bit-shift operations, which are completely deterministic in the C standard.<br />
<br />
inline static void h_to_le32(uint32_t val32, void *dest)<br />
{<br />
uint8_t *b = dest;<br />
b[0] = (val32 >> 0) & 0xff;<br />
b[1] = (val32 >> 8) & 0xff;<br />
b[2] = (val32 >> 16) & 0xff;<br />
b[3] = (val32 >> 24) & 0xff;<br />
};<br />
<br />
This snipped will place bits [7:0] at the first byte, bits [15:8] at the second byte, and so on, corresponding to the representation in a little-endian stream. At no point was any assumption made about the host byte order, meaning that this snippet will produce identical results on a big-endian, small-endian, and mixed-endian machine. It also does non byte-address the integers, nor does it break pointer aliasing rules.<br />
<br />
The only assumption this code makes is that bytes are 8-bit long, which is a universally reasonable assumption.<br />
<br />
=== Difficulties in serializing floating point numbers ===<br />
<br />
The above snippet will not work reliably if we replace 'uint32_t' with 'float'. While it may work on certain compilers, bit shift operations on floating point numbers are undefined behavior. Even if we manage to get a bit-for-bit representation of the float as a uint32_t, we still need to make one fatal assumption: That the host representation of the float is identical to the representation of the float in the data stream. i.e. How many mantissa bits, how many exponent bits, and whether the sign bit is placed in front of the exponent or attached to the mantissa, etc.<br />
<br />
The concerns about the floating point representation can be alleviated if the stream is specified to be in the IEE754 format, and we know the host uses the same format. Unfortunately, this already makes assumptions about the host representation, which we are able to avoid in the unsigned integer case. As we will see below, this is further complicated by other rules in the C standard.<br />
<br />
=== Wrong ways of serializing floats ===<br />
<br />
==== First approach: alias as an integer ====<br />
<br />
The obvious solution to the problem is to leverage the existing h_to_le32 macro, by telling the compiler to treat the float as a 32-bit integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t *my_hack;<br />
<br />
my_hack = &value;<br />
h_to_le32(*my_hack, buf);<br />
}<br />
<br />
This method will work on may compilers, because, from the compiler's point of view, it makes most sense to do what we want it to do; however, this approach breaks the pointer aliasing rules in the C standard, and thus the behavior of the above snippet is undefined.<br />
<br />
This approach also makes two other grave mistakes. First, it assumes that the host stores floating point numbers in IEEE-754 format, which may or may not be the case. Secondly, it assumes that the host byte order of the float is the same as that of an integer. This does not have to be the case.<br />
<br />
Also, the compiler may have promoted the float 'value' to a double, in which case we are guaranteed to obtain incorrect results. Even if this function weren't inlined, the compiler could make such promotions, for example, with link-time optimizations.<br />
<br />
==== Second attempt: memcpy to an integer ====<br />
<br />
It is easy, and legal in C, to get aroud the aliasing problem by copying the memory contents of value to an integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t my_hack;<br />
<br />
memcpy(&my_hack, &value, sizeof(value));<br />
h_to_le32(my_hack, buf);<br />
}<br />
<br />
This approach solves the pointer aliasing problem; however, it suffers from all the shortcomings of the previous approach, and as such, is not portable.<br />
<br />
==== Third attempt: no memcpy ====<br />
<br />
If we wanted to avoid the call to memcpy(), we could use a char* to alias the float, an aliasing which is permitted in the C standard:<br />
<br />
/*<br />
* Stores the float in little-endian BINARY32 IEEE-754 2008 format.<br />
*/<br />
static void float_to_le(uint8_t *buf, float value)<br />
{<br />
char *old;<br />
<br />
old = (char *)&value;<br />
#ifdef WORDS_BIGENDIAN<br />
buf[0] = old[3];<br />
buf[1] = old[2];<br />
buf[2] = old[1];<br />
buf[3] = old[0];<br />
#else<br />
buf[0] = old[0];<br />
buf[1] = old[1];<br />
buf[2] = old[2];<br />
buf[3] = old[3];<br />
#endif<br />
}<br />
<br />
Unfortunately, with this approach, we now need to explicitly know the host byte order. This snippet may work on a little-endian machine. It may work on big-endian machines, but it will not work on anything else, and will fail if the macro WORDS_BIGENDIAN is wrongly defined. It also assumes that floats are byte-addressable, which does not have to be the case (then, the application will crash).<br />
<br />
It suffers from the same assumptions as before. Since WORDS_BIGENDIAN is decided at configuration time based on the byte-order of 16-bit integers, it doesn't guarantee the byte order will be correct for floats. Also the assumption that the host uses the IEEE-754 format is still deeply ingrained in this approach. In fact, this approach is less portable than the previous one, wehere we memcpy()d the float to an integer.<br />
<br />
==== Fourth attempt: GFloatIEEE754 or unions ====<br />
<br />
The GFloatIEEE754 is a type provided by glib, which attempts to solve this issue. It is defined as the union between a float, and a bitfield reproducing the IEEE-754 representation. This approach, unfortunately is a terrible idea. First, it uses bitfields to map to hardware bits, which is not guaranteed to work, due to the possibility of the compiler applying padding. The declaration of the union also depends on the host byte order (and bit order !!!). This approach introduces too many unknowns to be considered portable, and thus, an example snippet is not given here.<br />
<br />
=== Portable approaches ===<br />
<br />
Right now, the second approach is the most portable, at the expense of an extra memcpy for every float, but it is not completely safe. If we contend with the assumptions that the host uses the IEEE-754 format, and that the host integer byte order is the same as the host float byte order, it is perfectly valid.<br />
<br />
If we could obtain the sign bit, the exponent as an integer, and the significant as an bit-for-bit integer representation of the mantissa, we would then be able to shift all the bits to their correct positions in the data stream, and the serialization would work in a way truly independent of the host, without the need to make any assumption. Unfortunately, the C standard does not provide a way to do this without needing to use floating point math to extract these parameters.<br />
<br />
Unfortunately, a truly portable approach involves heavy floating-point computations, as exemplified in this [http://stackoverflow.com/questions/4733147/portability-of-binary-serialization-of-double-float-type-in-c stackoverflow answer]. The question of whether the assumptions made by the second approach are sufficiently reasonable for libsigrok must be asked before exploring the truly portable approaches.</div>Mrnukehttps://sigrok.org/w/index.php?title=User:Mrnuke/float_serialization_talk&diff=10786User:Mrnuke/float serialization talk2015-05-04T01:59:56Z<p>Mrnuke: /* Fourth attempt: GFloatIEEE754 or unions */</p>
<hr />
<div>== How to properly serialize a float ==<br />
<br />
=== Introduction ===<br />
<br />
Serializing floating point data, i.e. writing it to a stream in a deterministic and reproducible form, is a non-trivial undertaking. When dealing with unsigned integers of known bit-width, the format is universally understood to the binary representation of the integer value. Although the byte order varies between architectures, and the bits may be numbered MSb first or LSb first, this is inconsequential as long as C code dealing with unsigned integers does not make assumptions about such ordering.<br />
<br />
As long as the C code is structured to make a clear distinction between data streams and host integers, writing portable serialization/deserialization routines is fairly straightforward using Standard C operators with a deterministic behavior. For the purpose of this talk, a data stream is defined to be a sequence of bytes which contain data in a well-established format. For example, a big-endian 32-bit integer in the stream will be represented as a byte containing bits [31:24], followed by a byte containing bits [23:16], and so on. A host integer is defined to be an integer of known bit-width, that is represented in the arch-specific format for that integer. As a result, no assumptions should be made about the format of the host integer, not even the assumption that the byte-order is little or big endian.<br />
<br />
=== Portable serialization of integer ===<br />
<br />
It is fairly straightforward to serialize an integer into a data stream, using bit-shift operations, which are completely deterministic in the C standard.<br />
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inline static void h_to_le32(uint32_t val32, void *dest)<br />
{<br />
uint8_t *b = dest;<br />
b[0] = (val32 >> 0) & 0xff;<br />
b[1] = (val32 >> 8) & 0xff;<br />
b[2] = (val32 >> 16) & 0xff;<br />
b[3] = (val32 >> 24) & 0xff;<br />
};<br />
<br />
This snipped will place bits [7:0] at the first byte, bits [15:8] at the second byte, and so on, corresponding to the representation in a little-endian stream. At no point was any assumption made about the host byte order, meaning that this snippet will produce identical results on a big-endian, small-endian, and mixed-endian machine. It also does non byte-address the integers, nor does it break pointer aliasing rules.<br />
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The only assumption this code makes is that bytes are 8-bit long, which is a universally reasonable assumption.<br />
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=== Difficulties in serializing floating point numbers ===<br />
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The above snippet will not work reliably if we replace 'uint32_t' with 'float'. While it may work on certain compilers, bit shift operations on floating point numbers are undefined behavior. Even if we manage to get a bit-for-bit representation of the float as a uint32_t, we still need to make one fatal assumption: That the host representation of the float is identical to the representation of the float in the data stream. i.e. How many mantissa bits, how many exponent bits, and whether the sign bit is placed in front of the exponent or attached to the mantissa, etc.<br />
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The concerns about the floating point representation can be alleviated if the stream is specified to be in the IEE754 format, and we know the host uses the same format. Unfortunately, this already makes assumptions about the host representation, which we are able to avoid in the unsigned integer case. As we will see below, this is further complicated by other rules in the C standard.<br />
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=== Wrong ways of serializing floats ===<br />
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==== First approach: alias as an integer ====<br />
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The obvious solution to the problem is to leverage the existing h_to_le32 macro, by telling the compiler to treat the float as a 32-bit integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t *my_hack;<br />
<br />
my_hack = &value;<br />
h_to_le32(*my_hack, buf);<br />
}<br />
<br />
This method will work on may compilers, because, from the compiler's point of view, it makes most sense to do what we want it to do; however, this approach breaks the pointer aliasing rules in the C standard, and thus the behavior of the above snippet is undefined.<br />
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This approach also makes two other grave mistakes. First, it assumes that the host stores floating point numbers in IEEE-754 format, which may or may not be the case. Secondly, it assumes that the host byte order of the float is the same as that of an integer. This does not have to be the case.<br />
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Also, the compiler may have promoted the float 'value' to a double, in which case we are guaranteed to obtain incorrect results. Even if this function weren't inlined, the compiler could make such promotions, for example, with link-time optimizations.<br />
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==== Second attempt: memcpy to an integer ====<br />
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It is easy, and legal in C, to get aroud the aliasing problem by copying the memory contents of value to an integer:<br />
<br />
inline static void float_to_le(uint8_t *buf, float value)<br />
{<br />
uint32_t my_hack;<br />
<br />
memcpy(&my_hack, &value, sizeof(value));<br />
h_to_le32(my_hack, buf);<br />
}<br />
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This approach solves the pointer aliasing problem; however, it suffers from all the shortcomings of the previous approach, and as such, is not portable.<br />
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==== Third attempt: no memcpy ====<br />
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If we wanted to avoid the call to memcpy(), we could use a char* to alias the float, an aliasing which is permitted in the C standard:<br />
<br />
/*<br />
* Stores the float in little-endian BINARY32 IEEE-754 2008 format.<br />
*/<br />
static void float_to_le(uint8_t *buf, float value)<br />
{<br />
char *old;<br />
<br />
old = (char *)&value;<br />
#ifdef WORDS_BIGENDIAN<br />
buf[0] = old[3];<br />
buf[1] = old[2];<br />
buf[2] = old[1];<br />
buf[3] = old[0];<br />
#else<br />
buf[0] = old[0];<br />
buf[1] = old[1];<br />
buf[2] = old[2];<br />
buf[3] = old[3];<br />
#endif<br />
}<br />
<br />
Unfortunately, with this approach, we now need to explicitly know the host byte order. This snippet may work on a little-endian machine. It may work on big-endian machines, but it will not work on anything else, and will fail if the macro WORDS_BIGENDIAN is wrongly defined. It also assumes that floats are byte-addressable, which does not have to be the case (then, the application will crash).<br />
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It suffers from the same assumptions as before. Since WORDS_BIGENDIAN is decided at configuration time based on the byte-order of 16-bit integers, it doesn't guarantee the byte order will be correct for floats. Also the assumption that the host uses the IEEE-754 format is still deeply ingrained in this approach. In fact, this approach is less portable than the previous one, wehere we memcpy()d the float to an integer.<br />
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==== Fourth attempt: GFloatIEEE754 or unions ====<br />
<br />
The GFloatIEEE754 is a type provided by glib, which attempts to solve this issue. It is defined as the union between a float, and a bitfield reproducing the IEEE-754 representation. This approach, unfortunately is a terrible idea. First, it uses bitfields to map to hardware bits, which is not guaranteed to work, due to the possibility of the compiler applying padding. The declaration of the union also depends on the host byte order (and bit order !!!). This approach introduces too many unknowns to be considered portable, and thus, an example snippet is not given here.</div>Mrnuke