Difference between revisions of "Supported hardware"
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== Logic analyzers == | == Logic analyzers == | ||
{| border="0" | {| border="0" class="alternategrey sigroktable" | ||
|- | |- | ||
!Device | !Device | ||
!Status | !Status | ||
!Comments | !Comments | ||
|- | |- | ||
| [[File:Saleae Logic.jpg|100px|left]] | | [[File:Saleae Logic.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[Saleae Logic]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[Saleae Logic]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:Eeelec xla esla100.jpg|100px|left]] | | [[File:Eeelec xla esla100.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[EE Electronics ESLA100]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[EE Electronics ESLA100]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:ASIX SIGMA.jpg|100px|left]] | | [[File:ASIX SIGMA.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[ASIX SIGMA|ASIX SIGMA/SIGMA2]] is a USB-based, 16-channel logic analyzer with up to 200MHz sampling rate, and with 256Mbit on-board memory. | | style="vertical-align: top" | The [[ASIX SIGMA|ASIX SIGMA/SIGMA2]] is a USB-based, 16-channel logic analyzer with up to 200MHz sampling rate, and with 256Mbit on-board memory. | ||
|- | |- | ||
| [[File:Openbench logic sniffer front.jpg|100px|left]] | | [[File:Openbench logic sniffer front.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[Openbench Logic Sniffer]] (OLS) is a USB-based (and FPGA-based), 32-channel logic analyzer with up to 100MHz sampling rate and advanced trigger functionality. It is a fully open source device — the circuit design, VHDL code for the FPGA, firmware for the PIC microcontroller and Java-based client software are all freely available. It uses the [http://dangerousprototypes.com/docs/The_Logic_Sniffer%27s_extended_SUMP_protocol extended SUMP protocol]. | | style="vertical-align: top" | The [[Openbench Logic Sniffer]] (OLS) is a USB-based (and FPGA-based), 32-channel logic analyzer with up to 100MHz sampling rate and advanced trigger functionality. It is a fully open source device — the circuit design, VHDL code for the FPGA, firmware for the PIC microcontroller and Java-based client software are all freely available. It uses the [http://dangerousprototypes.com/docs/The_Logic_Sniffer%27s_extended_SUMP_protocol extended SUMP protocol]. | ||
|- | |- | ||
| [[File:logic-shrimp-front.png|100px|left]] | | [[File:logic-shrimp-front.png|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[Logic Shrimp]] is a USB-based, 4-channel logic analyzer with up to 20MHz sampling rate. It uses the [http://dangerousprototypes.com/docs/The_Logic_Sniffer%27s_extended_SUMP_protocol extended SUMP protocol]. | | style="vertical-align: top" | The [[Logic Shrimp]] is a USB-based, 4-channel logic analyzer with up to 20MHz sampling rate. It uses the [http://dangerousprototypes.com/docs/The_Logic_Sniffer%27s_extended_SUMP_protocol extended SUMP protocol]. | ||
|- | |- | ||
| [[File:Zeroplus Logic Cube.jpg|100px|left]] | | [[File:Zeroplus Logic Cube.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[ZEROPLUS Logic Cube LAP-C]] (16032) is a USB-based, 16-channel logic analyzer with up to 100MHz sampling rate. | | style="vertical-align: top" | The [[ZEROPLUS Logic Cube LAP-C]] (16032) is a USB-based, 16-channel logic analyzer with up to 100MHz sampling rate. | ||
|- | |- | ||
| [[File:Chronovu la8 device.jpg|100px|left]] | | [[File:Chronovu la8 device.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [http://www.chronovu.com/ ChronoVu LA8] is a USB-based, 8-channel logic analyzer with up to 100MHz sampling rate. | | style="vertical-align: top" | The [http://www.chronovu.com/ ChronoVu LA8] is a USB-based, 8-channel logic analyzer with up to 100MHz sampling rate. | ||
|- | |- | ||
| [[File:Robomotic buglogic3.jpg|100px|left]] | | [[File:Robomotic buglogic3.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[Robomotic BugLogic 3]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[Robomotic BugLogic 3]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:Robomotic minilogic.jpg|100px|left]] | | [[File:Robomotic minilogic.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[Robomotic MiniLogic]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[Robomotic MiniLogic]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:Lcsoft-miniboard-front.png|100px|left]] | | [[File:Lcsoft-miniboard-front.png|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[Lcsoft Mini Board]] is a Cypress FX2 eval board, which can be used as USB-based, 16-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[Lcsoft Mini Board]] is a Cypress FX2 eval board, which can be used as USB-based, 16-channel logic analyzer with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:Braintechnology usb lps.jpg|100px|left]] | | [[File:Braintechnology usb lps.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[Braintechnology USB-LPS]] is a USB-based, 16-channel logic analyzer (and signal generator) with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[Braintechnology USB-LPS]] is a USB-based, 16-channel logic analyzer (and signal generator) with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:Cwav usbee sx.jpg|100px|left]] | | [[File:Cwav usbee sx.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[CWAV USBee SX]] is a USB-based, 8-channel logic analyzer (and signal generator) with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[CWAV USBee SX]] is a USB-based, 8-channel logic analyzer (and signal generator) with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:ARMFLY MINI LOGIC PCB.JPG|100px|left]] | | [[File:ARMFLY MINI LOGIC PCB.JPG|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[ARMFLY Mini-Logic]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[ARMFLY Mini-Logic]] is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:Braintechnology usb interface v2x pcb front.jpg|100px|left]] | | [[File:Braintechnology usb interface v2x pcb front.jpg|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| style="vertical-align: top" | The [[Braintechnology USB Interface V2.x]] is a Cypress FX2 eval board, which can be used as USB-based, 16-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[Braintechnology USB Interface V2.x]] is a Cypress FX2 eval board, which can be used as USB-based, 16-channel logic analyzer with up to 24MHz sampling rate. | ||
|- | |- | ||
| [[File:Buspirate v3 front.jpg|100px|left]] | | [[File:Buspirate v3 front.jpg|100px|left]] | ||
| bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | | bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | ||
| style="vertical-align: top" | The [[Buspirate|Buspirate v3]] is a USB-based, 5-channel logic analyzer with up to 1MHz sampling rate. It uses the [http://dangerousprototypes.com/docs/The_Logic_Sniffer%27s_extended_SUMP_protocol extended SUMP protocol].<br /><br />The Buspirate supports a logic analyzer mode and can thus be used for sample captures, however only at low speeds. | | style="vertical-align: top" | The [[Buspirate|Buspirate v3]] is a USB-based, 5-channel logic analyzer with up to 1MHz sampling rate. It uses the [http://dangerousprototypes.com/docs/The_Logic_Sniffer%27s_extended_SUMP_protocol extended SUMP protocol].<br /><br />The Buspirate supports a logic analyzer mode and can thus be used for sample captures, however only at low speeds. | ||
|- | |- | ||
| [[File:Ant18e_closed.jpg|100px|left]] | | [[File:Ant18e_closed.jpg|100px|left]] | ||
| bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | | bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | ||
| style="vertical-align: top" | The [[RockyLogic Ant18e]] is a USB-based, 18-channel logic analyzer with up to 1GHz sampling rate. | | style="vertical-align: top" | The [[RockyLogic Ant18e]] is a USB-based, 18-channel logic analyzer with up to 1GHz sampling rate. | ||
|- | |- | ||
| [[File:Rockylogic ant8 device.jpg|100px|left]] | | [[File:Rockylogic ant8 device.jpg|100px|left]] | ||
| bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | | bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | ||
| style="vertical-align: top" | The [[RockyLogic Ant8]] is a USB-based, 8-channel logic analyzer with up to 500MHz sampling rate. | | style="vertical-align: top" | The [[RockyLogic Ant8]] is a USB-based, 8-channel logic analyzer with up to 500MHz sampling rate. | ||
|- | |- | ||
| [[File:Ikalogic scanalogic2 device with probes.jpg|100px|left]] | | [[File:Ikalogic scanalogic2 device with probes.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[Ikalogic SCANALOGIC-2 PRO]] is a USB-based, 4-channel logic analyzer with up to 20MHz sampling rate. | | style="vertical-align: top" | The [[Ikalogic SCANALOGIC-2 PRO]] is a USB-based, 4-channel logic analyzer with up to 20MHz sampling rate. | ||
|- | |- | ||
| [[File:Microchip pickit2 device front.jpg|100px|left]] | | [[File:Microchip pickit2 device front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[Microchip PICkit2]] is a USB-based, 3-channel logic analyzer with up to 1MHz sampling rate.<br /><br />The PICkit2 is actually a programmer/debugger for PIC microcontrollers, but it can also be used as logic analyzer. | | style="vertical-align: top" | The [[Microchip PICkit2]] is a USB-based, 3-channel logic analyzer with up to 1MHz sampling rate.<br /><br />The PICkit2 is actually a programmer/debugger for PIC microcontrollers, but it can also be used as logic analyzer. | ||
|- | |- | ||
| [[File:Minila mockup.jpg|100px|left]] | | [[File:Minila mockup.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[MiniLA Mockup]] is a USB-based, 32-channel logic analyzer with up to 100MHz sampling rate. | | style="vertical-align: top" | The [[MiniLA Mockup]] is a USB-based, 32-channel logic analyzer with up to 100MHz sampling rate. | ||
|- | |- | ||
| [[File:Acute_pkla1216_front.jpg|100px|left]] | | [[File:Acute_pkla1216_front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[Acute PKLA-1216]] is a USB-based, 16-channel logic analyzer with up to 200MHz sampling rate. | | style="vertical-align: top" | The [[Acute PKLA-1216]] is a USB-based, 16-channel logic analyzer with up to 200MHz sampling rate. | ||
|- | |- | ||
| [[File:Saleae_Logic16_bottom.jpg|100px|left]] | | [[File:Saleae_Logic16_bottom.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[Saleae Logic16]] is a USB-based, 16-channel logic analyzer with 100/50/25/12.5MHz sampling rate (at 2/4/8/16 enabled channels). | | style="vertical-align: top" | The [[Saleae Logic16]] is a USB-based, 16-channel logic analyzer with 100/50/25/12.5MHz sampling rate (at 2/4/8/16 enabled channels). | ||
|- | |- | ||
| [[File:Intronix Logicport.jpg|100px|left]] | | [[File:Intronix Logicport.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| Line 132: | Line 132: | ||
Devices which can be used as both logic analyzer and oscilloscopes. | Devices which can be used as both logic analyzer and oscilloscopes. | ||
{| border="0" | {| border="0" class="alternategrey sigroktable" | ||
|- | |- | ||
!Device | !Device | ||
!Status | !Status | ||
!Comments | !Comments | ||
|- | |- | ||
| [[File:AX-Pro.JPG|100px|left]] | | [[File:AX-Pro.JPG|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| Line 145: | Line 145: | ||
'''Note:''' Only the logic analyzer functionality is supported so far, analog support is work in progress. | '''Note:''' Only the logic analyzer functionality is supported so far, analog support is work in progress. | ||
|- | |- | ||
| [[File:Esla201a.JPG|100px|left]] | | [[File:Esla201a.JPG|100px|left]] | ||
| bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | | bgcolor="lime" align="center" | [[File:Nuvola OK.png|16px]]<br />supported | ||
| Line 152: | Line 152: | ||
'''Note:''' Only the logic analyzer functionality is supported so far, analog support is work in progress. | '''Note:''' Only the logic analyzer functionality is supported so far, analog support is work in progress. | ||
|- | |- | ||
| [[File:Link Instruments MSO-19 front.jpg|100px|left]] | | [[File:Link Instruments MSO-19 front.jpg|100px|left]] | ||
| bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | | bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | ||
| style="vertical-align: top" | The [[Link Instruments MSO-19]] is a USB-based, 1-channel 2GSa/s oscilloscope, 8-channel 200MSa/s logic analyzer, 100MSa/s pattern generator and a [https://en.wikipedia.org/wiki/Time-domain_reflectometer TDR]. | | style="vertical-align: top" | The [[Link Instruments MSO-19]] is a USB-based, 1-channel 2GSa/s oscilloscope, 8-channel 200MSa/s logic analyzer, 100MSa/s pattern generator and a [https://en.wikipedia.org/wiki/Time-domain_reflectometer TDR]. | ||
|- | |- | ||
| [[File:QA100 Full.JPG|100px|left]] | | [[File:QA100 Full.JPG|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[QuantAsylum QA100]] is a USB-based, mixed-mode oscilloscope with 12 digital inputs, 2 analog, 1 trigger and 1 audio waveform generator. | | style="vertical-align: top" | The [[QuantAsylum QA100]] is a USB-based, mixed-mode oscilloscope with 12 digital inputs, 2 analog, 1 trigger and 1 audio waveform generator. | ||
|- | |- | ||
| [[File:Polabs poscope basic2 device top.jpg|100px|left]] | | [[File:Polabs poscope basic2 device top.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[PoLabs PoScope Basic2]] is a USB-based, 16-channel logic analyzer (plus oscilloscope, signal/pattern generator, and more) with up to 8MHz sampling rate. | | style="vertical-align: top" | The [[PoLabs PoScope Basic2]] is a USB-based, 16-channel logic analyzer (plus oscilloscope, signal/pattern generator, and more) with up to 8MHz sampling rate. | ||
|- | |- | ||
| [[File:Rigol_VS5202D_Full.jpg|100px|left]] | | [[File:Rigol_VS5202D_Full.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[Rigol VS5202D]] is a USB-based, 2-channel analog oscilloscope (400MSa/S, 200MHz bandwidth) and 16-channel logic analyzer (200MHz sampling rate). | | style="vertical-align: top" | The [[Rigol VS5202D]] is a USB-based, 2-channel analog oscilloscope (400MSa/S, 200MHz bandwidth) and 16-channel logic analyzer (200MHz sampling rate). | ||
|- | |- | ||
| [[File:Agilent_MSO7104A.jpg|100px|left]] | | [[File:Agilent_MSO7104A.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| Line 181: | Line 181: | ||
== Oscilloscopes == | == Oscilloscopes == | ||
{| border="0" | {| border="0" class="alternategrey sigroktable" | ||
|- | |- | ||
!Device | !Device | ||
!Status | !Status | ||
!Comments | !Comments | ||
|- | |- | ||
| [[File:Dso2090-case-top-small.jpg|100px|left]] | | [[File:Dso2090-case-top-small.jpg|100px|left]] | ||
| bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | | bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | ||
| style="vertical-align: top" | The [[Hantek DSO-2090]] is a USB-based, 2-channel oscilloscope with an analog bandwidth of 40MHz and 100MS/s sampling rate. | | style="vertical-align: top" | The [[Hantek DSO-2090]] is a USB-based, 2-channel oscilloscope with an analog bandwidth of 40MHz and 100MS/s sampling rate. | ||
|- | |- | ||
| [[File:Hantek dso-5200a device front.jpg|100px|left]] | | [[File:Hantek dso-5200a device front.jpg|100px|left]] | ||
| bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | | bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | ||
| style="vertical-align: top" | The [[Hantek DSO-5200A]] is a USB-based, 2-channel oscilloscope with an analog bandwidth of 200MHz and 250MS/s sampling rate. | | style="vertical-align: top" | The [[Hantek DSO-5200A]] is a USB-based, 2-channel oscilloscope with an analog bandwidth of 200MHz and 250MS/s sampling rate. | ||
|- | |- | ||
| [[File:Velleman pcsu1000 pcb front.jpg|100px|left]] | | [[File:Velleman pcsu1000 pcb front.jpg|100px|left]] | ||
| bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | | bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | ||
| style="vertical-align: top" | The [[Velleman PCSU1000]] is a USB-based, 2-channel oscilloscope with an analog bandwidth of 50MHz and 1GS/s sampling rate. | | style="vertical-align: top" | The [[Velleman PCSU1000]] is a USB-based, 2-channel oscilloscope with an analog bandwidth of 50MHz and 1GS/s sampling rate. | ||
|- | |- | ||
| [[File:Picoscope 2203 front.jpg|100px|left]] | | [[File:Picoscope 2203 front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| Line 211: | Line 211: | ||
== Multimeters == | == Multimeters == | ||
{| border="0" | {| border="0" class="alternategrey sigroktable" | ||
|- | |- | ||
!Device | !Device | ||
!Status | !Status | ||
!Comments | !Comments | ||
|- | |- | ||
| [[File:Mastech va18b device front.jpg|100px|left]] | | [[File:Mastech va18b device front.jpg|100px|left]] | ||
| bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | | bgcolor="yellow" align="center" | [[File:Nuvola Orange.png|16px]]<br />in progress | ||
| style="vertical-align: top" | The [[Mastech VA18B]] a.k.a. '''V&A VA18B''' (V&A is a [http://www.mastech.com.cn/html/en/about-us.htm brand of Mastech]) is a 6000 counts, CAT II (1000V) handheld digital multimeter with USB connectivity. | | style="vertical-align: top" | The [[Mastech VA18B]] a.k.a. '''V&A VA18B''' (V&A is a [http://www.mastech.com.cn/html/en/about-us.htm brand of Mastech]) is a 6000 counts, CAT II (1000V) handheld digital multimeter with USB connectivity. | ||
|- | |- | ||
| [[File:Uni t ut61d device.jpg|100px|left]] | | [[File:Uni t ut61d device.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[UNI-T UT61D]] is a 6000 counts, CAT II (600V) / CAT III (300V) handheld digital multimeter with RS232 or USB connectivity. | | style="vertical-align: top" | The [[UNI-T UT61D]] is a 6000 counts, CAT II (600V) / CAT III (300V) handheld digital multimeter with RS232 or USB connectivity. | ||
|- | |- | ||
| [[File:Victor 70C.jpg|100px|left]] | | [[File:Victor 70C.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[Victor 70C]] is a 4000 counts, CAT II handheld digital multimeter with USB connectivity. | | style="vertical-align: top" | The [[Victor 70C]] is a 4000 counts, CAT II handheld digital multimeter with USB connectivity. | ||
|- | |- | ||
| [[File:Voltcraft vc820 device.jpg|100px|left]] | | [[File:Voltcraft vc820 device.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[Voltcraft VC-820]] is a 4000 counts, CAT III (1000V) / CAT IV (600V) handheld digital multimeter with RS232 or USB connectivity. | | style="vertical-align: top" | The [[Voltcraft VC-820]] is a 4000 counts, CAT III (1000V) / CAT IV (600V) handheld digital multimeter with RS232 or USB connectivity. | ||
|- | |- | ||
| [[File:Voltcraft vc840 device front.jpg|100px|left]] | | [[File:Voltcraft vc840 device front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| Line 246: | Line 246: | ||
== Dataloggers == | == Dataloggers == | ||
{| border="0" | {| border="0" class="alternategrey sigroktable" | ||
|- | |- | ||
!Device | !Device | ||
!Status | !Status | ||
!Comments | !Comments | ||
|- | |- | ||
| [[File:Rding temper front.jpg|100px|left]] | | [[File:Rding temper front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| style="vertical-align: top" | The [[RDing TEMPer]] is a USB-based temperature logger. | | style="vertical-align: top" | The [[RDing TEMPer]] is a USB-based temperature logger. | ||
|- | |- | ||
| [[File:Rding temper gold device front.jpg|100px|left]] | | [[File:Rding temper gold device front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| Line 275: | Line 275: | ||
| [[File:GPIB-USB 82357B clone front.jpg|100px|left]] | | [[File:GPIB-USB 82357B clone front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| The [[GPIB-USB 82357B clone]] is a USB-based, hardware-implemented [[GPIB]] interface (a clone of the [http://www.home.agilent.com/agilent/product.jspx?ckey=851808&nid=-34193.426029.00&id=851808&cmpid=zzfind82357b Agilent 82357B USB/GPIB interface]). | | style="vertical-align: top" | The [[GPIB-USB 82357B clone]] is a USB-based, hardware-implemented [[GPIB]] interface (a clone of the [http://www.home.agilent.com/agilent/product.jspx?ckey=851808&nid=-34193.426029.00&id=851808&cmpid=zzfind82357b Agilent 82357B USB/GPIB interface]). | ||
|- | |- | ||
| [[File:Prologix-usb.jpg|100px|left]] | | [[File:Prologix-usb.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| The [[Prologix GPIB-USB]] a USB-based, firmware-implemented [[GPIB]] interface. | | style="vertical-align: top" | The [[Prologix GPIB-USB]] a USB-based, firmware-implemented [[GPIB]] interface. | ||
|- | |- | ||
| [[File:NI GPIB-ENET front.jpg|100px|left]] | | [[File:NI GPIB-ENET front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| The [[National Instruments GPIB-ENET]] is an Ethernet-based, hardware-implemented [[GPIB]] interface. | | style="vertical-align: top" | The [[National Instruments GPIB-ENET]] is an Ethernet-based, hardware-implemented [[GPIB]] interface. | ||
|- | |- | ||
| [[File:ICS 488-USB front.jpg|100px|left]] | | [[File:ICS 488-USB front.jpg|100px|left]] | ||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | | bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | ||
| The [[ICS 488-USB]] is a USB-based GPIB interface. | | style="vertical-align: top" | The [[ICS 488-USB]] is a USB-based GPIB interface. | ||
|} | |} | ||
Revision as of 13:16, 1 July 2012
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.
Logic analyzers
| Device | Status | Comments |
|---|---|---|
 |
 supported |
The Saleae Logic is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. |
 |
supported |
The EE Electronics ESLA100 is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. |
 |
supported |
The ASIX SIGMA/SIGMA2 is a USB-based, 16-channel logic analyzer with up to 200MHz sampling rate, and with 256Mbit on-board memory. |
 |
supported |
The Openbench Logic Sniffer (OLS) is a USB-based (and FPGA-based), 32-channel logic analyzer with up to 100MHz sampling rate and advanced trigger functionality. It is a fully open source device — the circuit design, VHDL code for the FPGA, firmware for the PIC microcontroller and Java-based client software are all freely available. It uses the extended SUMP protocol. |
 |
supported |
The Logic Shrimp is a USB-based, 4-channel logic analyzer with up to 20MHz sampling rate. It uses the extended SUMP protocol. |
 |
supported |
The ZEROPLUS Logic Cube LAP-C (16032) is a USB-based, 16-channel logic analyzer with up to 100MHz sampling rate. |
 |
supported |
The ChronoVu LA8 is a USB-based, 8-channel logic analyzer with up to 100MHz sampling rate. |
 |
supported |
The Robomotic BugLogic 3 is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. |
 |
supported |
The Robomotic MiniLogic is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. |
 |
supported |
The Lcsoft Mini Board is a Cypress FX2 eval board, which can be used as USB-based, 16-channel logic analyzer with up to 24MHz sampling rate. |
 |
supported |
The Braintechnology USB-LPS is a USB-based, 16-channel logic analyzer (and signal generator) with up to 24MHz sampling rate. |
 |
supported |
The CWAV USBee SX is a USB-based, 8-channel logic analyzer (and signal generator) with up to 24MHz sampling rate. |
 |
supported |
The ARMFLY Mini-Logic is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. |
 |
supported |
The Braintechnology USB Interface V2.x is a Cypress FX2 eval board, which can be used as USB-based, 16-channel logic analyzer with up to 24MHz sampling rate. |
 in progress |
The Buspirate v3 is a USB-based, 5-channel logic analyzer with up to 1MHz sampling rate. It uses the extended SUMP protocol. The Buspirate supports a logic analyzer mode and can thus be used for sample captures, however only at low speeds. | |
 |
in progress |
The RockyLogic Ant18e is a USB-based, 18-channel logic analyzer with up to 1GHz sampling rate. |
 |
in progress |
The RockyLogic Ant8 is a USB-based, 8-channel logic analyzer with up to 500MHz sampling rate. |
 |
 planned |
The Ikalogic SCANALOGIC-2 PRO is a USB-based, 4-channel logic analyzer with up to 20MHz sampling rate. |
 |
planned |
The Microchip PICkit2 is a USB-based, 3-channel logic analyzer with up to 1MHz sampling rate. The PICkit2 is actually a programmer/debugger for PIC microcontrollers, but it can also be used as logic analyzer. |
 |
planned |
The MiniLA Mockup is a USB-based, 32-channel logic analyzer with up to 100MHz sampling rate. |
 |
planned |
The Acute PKLA-1216 is a USB-based, 16-channel logic analyzer with up to 200MHz sampling rate. |
 |
planned |
The Saleae Logic16 is a USB-based, 16-channel logic analyzer with 100/50/25/12.5MHz sampling rate (at 2/4/8/16 enabled channels). |
 |
planned |
The Intronix Logicport LA1034 is a USB-based (and FPGA-based), 34-channel logic analyzer with up to 500MHz sampling rate. |
Mixed-signal devices
Devices which can be used as both logic analyzer and oscilloscopes.
| Device | Status | Comments |
|---|---|---|
 |
supported |
The ARMFLY AX-Pro is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate, and with 2 additional analog channels.
Note: Only the logic analyzer functionality is supported so far, analog support is work in progress. |
 |
supported |
The EE Electronics ESLA201A is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate, and with 2 additional analog channels.
Note: Only the logic analyzer functionality is supported so far, analog support is work in progress. |
 |
in progress |
The Link Instruments MSO-19 is a USB-based, 1-channel 2GSa/s oscilloscope, 8-channel 200MSa/s logic analyzer, 100MSa/s pattern generator and a TDR. |
planned |
The QuantAsylum QA100 is a USB-based, mixed-mode oscilloscope with 12 digital inputs, 2 analog, 1 trigger and 1 audio waveform generator. | |
 |
planned |
The PoLabs PoScope Basic2 is a USB-based, 16-channel logic analyzer (plus oscilloscope, signal/pattern generator, and more) with up to 8MHz sampling rate. |
planned |
The Rigol VS5202D is a USB-based, 2-channel analog oscilloscope (400MSa/S, 200MHz bandwidth) and 16-channel logic analyzer (200MHz sampling rate). | |
 |
planned |
The Agilent MSO7104A is a standalone, 4-channel mixed-signal digital storage oscilloscope (1GHz bandwidth, 4GSa/s samplerate, 16-channel logic analyzer). |
Oscilloscopes
| Device | Status | Comments |
|---|---|---|
 |
in progress |
The Hantek DSO-2090 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 40MHz and 100MS/s sampling rate. |
 |
in progress |
The Hantek DSO-5200A is a USB-based, 2-channel oscilloscope with an analog bandwidth of 200MHz and 250MS/s sampling rate. |
 |
in progress |
The Velleman PCSU1000 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 50MHz and 1GS/s sampling rate. |
 |
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). |
Multimeters
| Device | Status | Comments |
|---|---|---|
 |
in progress |
The Mastech VA18B a.k.a. V&A VA18B (V&A is a brand of Mastech) is a 6000 counts, CAT II (1000V) handheld digital multimeter with USB connectivity. |
 |
planned |
The UNI-T UT61D is a 6000 counts, CAT II (600V) / CAT III (300V) handheld digital multimeter with RS232 or USB connectivity. |
 |
planned |
The Victor 70C is a 4000 counts, CAT II handheld digital multimeter with USB connectivity. |
 |
planned |
The Voltcraft VC-820 is a 4000 counts, CAT III (1000V) / CAT IV (600V) handheld digital multimeter with RS232 or USB connectivity. |
 |
planned |
The Voltcraft VC-840 is a 4000 counts, CAT IV (600V) handheld digital multimeter with RS232 or USB connectivity. |
Dataloggers
| Device | Status | Comments |
|---|---|---|
 |
planned |
The RDing TEMPer is a USB-based temperature logger. |
 |
planned |
The RDing TEMPer Gold is a USB-based temperature logger. |
GPIB interfaces
| Device | Status | Comments |
|---|---|---|
 |
planned |
The GPIB-USB 82357B clone is a USB-based, hardware-implemented GPIB interface (a clone of the Agilent 82357B USB/GPIB interface). |
 |
planned |
The Prologix GPIB-USB a USB-based, firmware-implemented GPIB interface. |
 |
planned |
The National Instruments GPIB-ENET is an Ethernet-based, hardware-implemented GPIB interface. |
 |
planned |
The ICS 488-USB is a USB-based GPIB interface. |
Potential other candidates
If you own any other logic analyzers (or oscilloscopes, multimeters, oscilloscopes, etc.) 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! Contact Bert Vermeulen and Uwe Hermann if you want to help out.