Difference between revisions of "Supported hardware"

From sigrok
Jump to navigation Jump to search
Line 6: Line 6:


== Logic analyzers ==
== Logic analyzers ==
'''Supported:'''


<gallery widths="100px" heights="100px">
<gallery widths="100px" heights="100px">
File:ARMFLY MINI LOGIC.png|<small>[[ARMFLY Mini-Logic]] (8ch, 24MHz)</small>
File:ARMFLY MINI LOGIC.png|[[File:Nuvola OK.png|16px]] <small>[[ARMFLY Mini-Logic]] (8ch, 24MHz)</small>
File:Sigma2_2.png|<small>[[ASIX SIGMA]] (16ch, 200MHz)</small>
File:Sigma2_2.png|[[File:Nuvola OK.png|16px]] <small>[[ASIX SIGMA]] (16ch, 200MHz)</small>
File:Braintechnology_usb_interface_v26.png|<small>[[Braintechnology USB Interface V2.x]] (8/16ch, 24/12MHz)</small>
File:Braintechnology_usb_interface_v26.png|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB Interface V2.x]] (8/16ch, 24/12MHz)</small>
File:Braintechnology_usb_lps.png|<small>[[Braintechnology USB-LPS]] (8/16ch, 24/12MHz)</small>
File:Braintechnology_usb_lps.png|[[File:Nuvola OK.png|16px]] <small>[[Braintechnology USB-LPS]] (8/16ch, 24/12MHz)</small>
File:Chronovu la8 front.png|link=ChronoVu LA8|<small>[[ChronoVu LA8]] (8ch, 100MHz)</small>
File:Chronovu la8 front.png|link=ChronoVu LA8|[[File:Nuvola OK.png|16px]] <small>[[ChronoVu LA8]] (8ch, 100MHz)</small>
File:Cwav_usbee_sx.png|<small>[[CWAV USBee SX]] (8ch, 100MHz)</small>
File:Cwav_usbee_sx.png|[[File:Nuvola OK.png|16px]] <small>[[CWAV USBee SX]] (8ch, 100MHz)</small>
File:Buspirate_v3.png|<small>[[Dangerous Prototypes Buspirate]] (5ch, 1MHz)</small>
File:Buspirate_v3.png|[[File:Nuvola OK.png|16px]] <small>[[Dangerous Prototypes Buspirate]] (5ch, 1MHz)</small>
File:Eeelec xla esla100.png|<small>[[EE Electronics ESLA100]] (8ch, 24MHz)</small>
File:Eeelec xla esla100.png|[[File:Nuvola OK.png|16px]] <small>[[EE Electronics ESLA100]] (8ch, 24MHz)</small>
File:Ikalogic_scanalogic2.png|<small>[[IKALOGIC Scanalogic-2]] (4ch, 20MHz)</small>
File:Ikalogic_scanalogic2.png|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC Scanalogic-2]] (4ch, 20MHz)</small>
File:Ikalogic scanaplus mugshot.png|<small>[[IKALOGIC ScanaPLUS]] (9ch, 100MHz)</small>
File:Ikalogic scanaplus mugshot.png|[[File:Nuvola OK.png|16px]] <small>[[IKALOGIC ScanaPLUS]] (9ch, 100MHz)</small>
File:Kingst kqs3506 la16100.png|<small>[[KingST KQS3506-LA16100]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small>
File:Kingst kqs3506 la16100.png|[[File:Nuvola OK.png|16px]] <small>[[KingST KQS3506-LA16100]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small>
File:Lcsoft-miniboard-front.png|<small>[[Lcsoft Mini Board]] (8/16ch, 24/12MHz)</small>
File:Lcsoft-miniboard-front.png|[[File:Nuvola OK.png|16px]] <small>[[Lcsoft Mini Board]] (8/16ch, 24/12MHz)</small>
File:logic-shrimp-front.png|<small>[[Logic Shrimp]] (4ch, 20MHz)</small>
File:logic-shrimp-front.png|[[File:Nuvola OK.png|16px]] <small>[[Logic Shrimp]] (4ch, 20MHz)</small>
File:Mcu123 saleae logic clone.png|<small>[[MCU123 Saleae Logic clone]] (8ch, 24MHz)</small>
File:Mcu123 saleae logic clone.png|[[File:Nuvola OK.png|16px]] <small>[[MCU123 Saleae Logic clone]] (8ch, 24MHz)</small>
File:Usbee_ax_clone_front.png|<small>[[MCU123 USBee AX Pro clone]] (8ch, 24MHz)</small>
File:Usbee_ax_clone_front.png|[[File:Nuvola OK.png|16px]] <small>[[MCU123 USBee AX Pro clone]] (8ch, 24MHz)</small>
File:Openbench logic sniffer front.png|<small>[[Openbench Logic Sniffer]] (32ch, 100MHz)</small>
File:Openbench logic sniffer front.png|[[File:Nuvola OK.png|16px]] <small>[[Openbench Logic Sniffer]] (32ch, 100MHz)</small>
File:Robomotic buglogic3.png|<small>[[Robomotic BugLogic 3]] (8ch, 24MHz)</small>
File:Robomotic buglogic3.png|[[File:Nuvola OK.png|16px]] <small>[[Robomotic BugLogic 3]] (8ch, 24MHz)</small>
File:Robomotic_minilogic.png|<small>[[Robomotic MiniLogic]] (8ch, 24MHz)</small>
File:Robomotic_minilogic.png|[[File:Nuvola OK.png|16px]] <small>[[Robomotic MiniLogic]] (8ch, 24MHz)</small>
File:Saleae Logic.png|<small>[[Saleae Logic]] (8ch, 24MHz)</small>
File:Saleae Logic.png|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic]] (8ch, 24MHz)</small>
File:Saleae_Logic16_bottom.png|<small>[[Saleae Logic16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small>
File:Saleae_Logic16_bottom.png|[[File:Nuvola OK.png|16px]] <small>[[Saleae Logic16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small>
File:Wayengineer saleae16.png|<small>[[WayEngineer Saleae16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small>
File:Wayengineer saleae16.png|[[File:Nuvola OK.png|16px]] <small>[[WayEngineer Saleae16]] (16ch, 100/50/32/16MHz @ 3/6/9/16ch)</small>
File:Zeroplus Logic Cube.png|<small>[[ZEROPLUS Logic Cube LAP-C(16032)]] (16ch, 100MHz)</small>
File:Zeroplus Logic Cube.png|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(16032)]] (16ch, 100MHz)</small>
File:Zeroplus_lap-16128u.png|<small>[[ZEROPLUS LAP-16128U]] (16ch, 200MHz)</small>
File:Zeroplus_lap-16128u.png|[[File:Nuvola OK.png|16px]] <small>[[ZEROPLUS LAP-16128U]] (16ch, 200MHz)</small>
</gallery>


'''Work in progress:'''
File:Chronovu la16.png|[[File:Nuvola Orange.png|16px]] <small>[[ChronoVu LA16]] (16ch, 200MHz)</small>
File:Rockylogic_ant8.png|[[File:Nuvola Orange.png|16px]] <small>[[RockyLogic Ant8]] (8ch, 500MHz)</small>
File:RockyLogic Ant18e.png|[[File:Nuvola Orange.png|16px]] <small>[[RockyLogic Ant18e]] (8ch, 1GHz)</small>


<gallery widths="100px" heights="100px">
File:Acute_pkla1216.png|[[File:Nuvola Red.png|16px]] <small>[[Acute PKLA-1216]] (16ch, 200MHz)</small>
File:Chronovu la16.png|<small>[[ChronoVu LA16]] (16ch, 200MHz)</small>
File:Hantek4032L_BoxSideView.png|[[File:Nuvola Red.png|16px]] <small>[[Hantek 4032L]] (32ch, 400MHz)</small>
File:Rockylogic_ant8.png|<small>[[RockyLogic Ant8]] (8ch, 500MHz)</small>
File:Ideofy_la_08.png|[[File:Nuvola Red.png|16px]] <small>[[Ideofy LA-08]] (8ch, 96/60/30MHz @ 2/4/8ch)</small>
File:RockyLogic Ant18e.png|<small>[[RockyLogic Ant18e]] (8ch, 1GHz)</small>
File:Intronix Logicport.png|[[File:Nuvola Red.png|16px]] <small>[[Intronix Logicport LA1034]] (34ch, 500MHz)</small>
</gallery>
File:Sigrok_logo_no_text_transparent_512.png|[[File:Nuvola Red.png|16px]] <small>[[Link Instruments LA-5580]] (80ch, 500MHz)</small>
 
File:Microchip_pickit2.png|[[File:Nuvola Red.png|16px]] <small>[[Microchip PICkit2]] (3ch, 1MHz)</small>
'''Planned:'''
File:Minila parport.png|[[File:Nuvola Red.png|16px]] <small>[[MiniLA]] (32ch, 100MHz)</small>
 
File:Minila_mockup.png|[[File:Nuvola Red.png|16px]] <small>[[MiniLA Mockup]] (32ch, 100MHz)</small>
<gallery widths="100px" heights="100px">
File:Sysclk lwla1016.png|[[File:Nuvola Red.png|16px]] <small>[[Sysclk LWLA1016]] (16ch, 100MHz)</small>
File:Acute_pkla1216.png|<small>[[Acute PKLA-1216]] (16ch, 200MHz)</small>
File:Sysclk lwla1034.jpg|[[File:Nuvola Red.png|16px]] <small>[[Sysclk LWLA1034]] (34ch, 125MHz)</small>
File:Hantek4032L_BoxSideView.png|<small>[[Hantek 4032L]] (32ch, 400MHz)</small>
File:Techtools_digiview_dv1-100.png|[[File:Nuvola Red.png|16px]] <small>[[TechTools DigiView DV1-100]] (18ch, 100MHz)</small>
File:Ideofy_la_08.png|<small>[[Ideofy LA-08]] (8ch, 96/60/30MHz @ 2/4/8ch)</small>
File:Xmos xtag2.png|[[File:Nuvola Red.png|16px]] <small>[[XMOS XTAG-2]] (?ch, 50MHz)</small>
File:Intronix Logicport.png|<small>[[Intronix Logicport LA1034]] (34ch, 500MHz)</small>
File:Sigrok_logo_no_text_transparent_512.png|[[File:Nuvola Red.png|16px]] <small>[[ZEROPLUS Logic Cube LAP-C(322000)]] (32ch, 200MHz)</small>
File:Sigrok_logo_no_text_transparent_512.png|<small>[[Link Instruments LA-5580]] (80ch, 500MHz)</small>
File:Zlg_la1032.png|[[File:Nuvola Red.png|16px]] <small>[[ZLG LA1032]] (32ch, 100MHz)</small>
File:Microchip_pickit2.png|<small>[[Microchip PICkit2]] (3ch, 1MHz)</small>
File:Minila parport.png|<small>[[MiniLA]] (32ch, 100MHz)</small>
File:Minila_mockup.png|<small>[[MiniLA Mockup]] (32ch, 100MHz)</small>
File:Sysclk lwla1016.png|<small>[[Sysclk LWLA1016]] (16ch, 100MHz)</small>
File:Sysclk lwla1034.jpg|<small>[[Sysclk LWLA1034]] (34ch, 125MHz)</small>
File:Techtools_digiview_dv1-100.png|<small>[[TechTools DigiView DV1-100]] (18ch, 100MHz)</small>
File:Xmos xtag2.png|<small>[[XMOS XTAG-2]] (?ch, 50MHz)</small>
File:Sigrok_logo_no_text_transparent_512.png|<small>[[ZEROPLUS Logic Cube LAP-C(322000)]] (32ch, 200MHz)</small>
File:Zlg_la1032.png|<small>[[ZLG LA1032]] (32ch, 100MHz)</small>
</gallery>
</gallery>



Revision as of 03:11, 1 January 2014

sigrok is intended as a flexible, cross-platform, and hardware-independent software suite, i.e., it supports various devices from many different vendors.

Here is a list of currently supported devices (various stages of completeness) and devices we plan to support in the near future.

The lists are sorted by category (supported, in progress, planned), and alphabetically within those categories.

Logic analyzers

Mixed-signal devices

1 Only the logic analyzer functionality is supported so far, analog support is work in progress.

Oscilloscopes

Device Status Comments
Fluke Scopemeter 199B.png
Nuvola OK.png
supported
The Fluke ScopeMeter 199B is a handheld combined multimeter and oscilloscope. Only the multimeter functionality is supported; the device's slow communication speed does not allow for properly supporting it as an oscilloscope in sigrok.
Hameg hmo1524.png
Nuvola OK.png
supported
The Hameg HMO1524 is a USB-/RS232-based, 4-channel oscilloscope with an analog bandwidth of 150MHz and 2GS/s sampling rate.
Hameg HMO2024.png
Nuvola OK.png
supported
The Hameg HMO2024 is a USB-/RS232-based, 4-channel oscilloscope with an analog bandwidth of 200MHz and 2GS/s sampling rate.
Hantek DSO-2090.png
Nuvola OK.png
supported
The Hantek DSO-2090 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 40MHz and 100MS/s sampling rate.
Rigol DS1052E.png
Nuvola OK.png
supported
The Rigol DS1052E is a 50MHz, 1GSa/s, 2-channel digital storage oscilloscope. It can be upgraded to 100MHz analog bandwidth with a software modification.
Rigol ds1102e.png
Nuvola OK.png
supported
The Rigol DS1102E is a 100MHz, 1GSa/s, 2-channel digital storage oscilloscope.
Agilent DSO1014A.png
Nuvola Orange.png
in progress
The Agilent DSO1014A is a 100MHz, 2GSa/s, 4-channel digital storage oscilloscope.
Focussz fosc21 mugshot.png
Nuvola Orange.png
in progress
The Focussz Fosc21 is a USB-serial based, 2-channel oscilloscope with an analog bandwidth of 3kHz and a sampling rate of 8kHz (1 channel) / 4kHz (2 channels).
Hantek dso-5200a device front.png
Nuvola Orange.png
in progress
The Hantek DSO-5200A is a USB-based, 2-channel oscilloscope with an analog bandwidth of 200MHz and 250MS/s sampling rate.
OsciPrime.png
Nuvola Orange.png
in progress
The Nexus-Computing OsciPrime is a USB-based, 2-channel oscilloscope with an analog bandwidth of 3.3MHz-8MHz. It is 100% open source hardware and software.
Velleman PCSU1000.png
Nuvola Orange.png
in progress
The Velleman PCSU1000 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 50MHz and 1GS/s sampling rate.
Dso2250-top.png
Nuvola Orange.png
in progress
The Hantek DSO-2250 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 100MHz and 250MS/s sampling rate.
Sigrok logo no text transparent 512.png
Nuvola Red.png
planned
The Hantek DSO-1200 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 200MHz and 500MS/s sampling rate (and a multimeter).
Fluke scopemeter123.png
Nuvola Red.png
planned
The Fluke ScopeMeter 123 is a handheld, 2-channel oscilloscope with an analog bandwidth of 20MHz and 25MS/s sampling rate.
Picoscope 2203.png
Nuvola Red.png
planned
The Pico Technology PicoScope 2203 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 5MHz and 40/20MS/s sampling rate (1-/2-channel one-shot mode).
PicoScope 2205.png
Nuvola Red.png
planned
The Pico Technology PicoScope 2205 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 25MHz and 200/100MS/s sampling rate (1-/2-channel one-shot mode).
Picoscope 3206.png
Nuvola Red.png
planned
The Pico Technology PicoScope 3206 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 200MHz and 200/100MS/s sampling rate (1-/2-channel one-shot mode).
Picoscope 5203.png
Nuvola Red.png
planned
The Pico Technology PicoScope 5203 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 250MHz and 1/0,5GS/s sampling rate (1-/2-channel one-shot mode).
Usbduxfast.png
Nuvola Red.png
planned
The Incite Technology USB-DUXfast is an USB-based analog data acquisition device. It supports up to 16 channels at 3MHz.
UNI-T UTD2042C.png
Nuvola Red.png
planned
The UNI-T UTD2042C is a USB-/RS232-based, 2-channel oscilloscope with an analog bandwidth of 40MHz and 500MS/s sampling rate.
Voltcraft dso-220 usb.png
Nuvola Red.png
planned
The Voltcraft DSO-220 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 20MHz and 60MS/s sampling rate.
Voltcraft DSO-3062C.png
Nuvola Red.png
planned
The Voltcraft DSO-3062C is a 60MHz, 1GSa/s, 2-channel digital storage oscilloscope. It can be upgraded to 200MHz analog bandwidth with a software modification.
Rigol DS2072.png
Nuvola Red.png
planned
The Rigol DS2072 is a 70MHz, 2GSa/s, 2-channel digital storage oscilloscope.

Multimeters

LCR meters

TODO.

Sound level meters

Thermometers

Device Status Comments
EL-USB-2.png
Nuvola OK.png
supported
The Lascar Electronics EL-USB-2 is a USB-based temperature and humidity logger.
Mic 98581.png
Nuvola OK.png
supported
The MIC 98581 is a USB-based temperature logger.
Mic 98583.png
Nuvola OK.png
supported
The MIC 98583 is a USB-based temperature and humidity logger.
Uni-t ut325 front.png
Nuvola OK.png
supported
The UNI-T UT325 is a dual thermocouple logging thermometer.
Voltcraft k204.png
Nuvola OK.png
supported
The Voltcraft K204 is a 4-channel temperature logger with RS232 connectivity.
Rs55ii.png
Nuvola Red.png
planned
The APPA 55II is a 2-channel temperature logger with optical RS-232.
Elitech rc3.png
Nuvola Red.png
planned
The Elitech RC-3 is a USB-based temperature logger.
Pce pce-222 front.png
Nuvola Red.png
planned
The PCE PCE-222 is a multi-function measurement device (light meter, thermometer, hygrometer, and sound level meter) with RS232 connectivity.
Rding temper front.png
Nuvola Red.png
planned
The RDing TEMPer is a USB-based temperature logger.
Rding temper gold device front.png
Nuvola Red.png
planned
The RDing TEMPer Gold is a USB-based temperature logger.
Rding temper1 device front.png
Nuvola Red.png
planned
The RDing TEMPer1 is a USB-based temperature logger.
Pcsensor temper1k2.png
Nuvola Red.png
planned
The RDing TEMPer1K2 is a USB-based temperature logger.
Voltcraft dl-120th.png
Nuvola Red.png
planned
The Voltcraft DL-120TH is a USB-based temperature logger.
Voltcraft dl-140th.png
Nuvola Red.png
planned
The Voltcraft DL-140TH is a USB-based temperature logger.

Hygrometers

Anemometers

Light meters

Energy meters

DAQs

Dataloggers

Function generators

RF receivers

Spectrum analyzers

TODO.

Power supplies

GPIB interfaces

Potential other candidates

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 mailing list or ask on IRC #sigrok if you want to help out.