Difference between revisions of "Supported hardware"
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Here is a list of currently supported devices (various stages of completeness) and devices we plan to support in the near future. | Here is a list of currently supported devices (various stages of completeness) and devices we plan to support in the near future. | ||
== Logic analyzers | == Logic analyzers == | ||
{| border="0" style="vertical-align: top" | {| border="0" style="vertical-align: top" | ||
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| style="vertical-align: top" | The [[EE Electronics XLA ESLA100|EE Electronics / Eeelec XLA]] (a.k.a. ESLA100) is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[EE Electronics XLA ESLA100|EE Electronics / Eeelec XLA]] (a.k.a. ESLA100) is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. | ||
|- bgcolor="# | |- bgcolor="#eeeeee" | ||
| [[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 36: | Line 36: | ||
| 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]. | ||
|- bgcolor="# | |- bgcolor="#dddddd" | ||
| [[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]. | ||
|- bgcolor="# | |- bgcolor="#eeeeee" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#dddddd" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#eeeeee" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#eeeeee" | ||
| [[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 | ||
| Line 66: | Line 66: | ||
| style="vertical-align: top" | The [[Lcsoft Mini Board]] is a USB-based, 16-channel logic analyzer with up to 24MHz sampling rate. | | style="vertical-align: top" | The [[Lcsoft Mini Board]] is a USB-based, 16-channel logic analyzer with up to 24MHz sampling rate. | ||
|- bgcolor="# | |- bgcolor="#eeeeee" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#dddddd" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#eeeeee" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#dddddd" | ||
| [[File:Ant18e front.jpg|100px|left]] | | [[File:Ant18e 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 | ||
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|- bgcolor="#eeeeee" | |- bgcolor="#eeeeee" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#dddddd" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#eeeeee" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#dddddd" | ||
| [[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. | ||
|- bgcolor="# | |- bgcolor="#eeeeee" | ||
| [[File:Saleae_logic16_front.jpg|100px|left]] | | [[File:Saleae_logic16_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 [[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). | ||
|- bgcolor="#dddddd" | |||
| [[File:Intronix Logicport.jpg|100px|left]] | |||
| bgcolor="orange" align="center" | [[File:Nuvola Red.png|16px]]<br />planned | |||
| style="vertical-align: top" | 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 both, as logic analyzer and as oscilloscopes. | |||
{| border="0" style="vertical-align: top" | |||
|- bgcolor="#6699ff" | |||
!Device | |||
!Status | |||
!Comments | |||
|- bgcolor="#eeeeee" | |||
| [[File:MSO-19.JPG|100px|left]] | |||
| 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]. | |||
|- bgcolor="#dddddd" | |||
| [[File:QA100 Full.JPG|100px|left]] | |||
| 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. | |||
|- bgcolor="#eeeeee" | |- bgcolor="#eeeeee" | ||
| Line 135: | Line 152: | ||
| 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). | ||
|} | |} | ||
Revision as of 20:56, 7 May 2012
sigrok is intended as a flexible, cross-platform, and hardware-independent software, 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 / Eeelec XLA (a.k.a. ESLA100) is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate. |
 |
supported |
The EE Electronics / Eeelec ESLA201A is a USB-based, 8-channel logic analyzer with up to 24MHz sampling rate, and with 2 additional analog channels. |
 |
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 USB-based, 16-channel logic analyzer 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 Braintechnology USB-LPS is a USB-based, 16-channel logic analyzer (and signal generator) 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 both, as logic analyzer and as oscilloscopes.
| Device | Status | Comments |
|---|---|---|
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). |
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. |
 |
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). |
 |
planned |
The Velleman PCSU1000 is a USB-based, 2-channel oscilloscope with an analog bandwidth of 50MHz and 1GS/s sampling rate. |
Multimeters
None, yet.
Other devices
None, yet.
Potential other candidates
If you own any other logic analyzers (or 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! The Logic Analyzer Comparison table lists quite a few other devices we know about which may be interesting targets.