Difference between revisions of "ASIX SIGMA / SIGMA2"

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(triggers available again, rephrase rates/triggers/compression paragraphs, discuss constraints)
 
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[[File:ASIX SIGMA.jpg|thumb|right|ASIX SIGMA.]]
{{Infobox logic analyzer
[[File:Sigma.jpg|thumb|right|ASIX SIGMA internals.]]
| image            = [[File:ASIX SIGMA 2.png|180px]]
| name            = ASIX SIGMA / SIGMA2
| status          = supported
| source_code_dir  = asix-sigma
| channels        = 16
| samplerate      = 200MHz @ 4ch, 100MHz @ 8ch, 50MHz @ 16ch
| samplerate_state = 50MHz
| triggers        = value, edge, duration, sequence, counter, logical ops
| voltages        = -0.3V — 5.5V
| threshold        = Fixed: VIH=2.0V, VIL=0.8V (suitable for TTL, LVTTL, 2.7-5.5V CMOS)
| memory          = 32MByte (SDRAM)
| compression      = "real-time hardware data compression"
| website          = [http://tools.asix.net/dbg_sigma.htm asix.net]
}}


The [http://tools.asix.net/dbg_sigma.htm ASIX SIGMA] is a 16 channel logic analyzer with sample rate support up to 200 MHz and with 256 Mbit on-board memory.
The '''ASIX SIGMA/SIGMA2''' is a USB-based, 16-channel logic analyzer with up to 200MHz sampling rate.


It is supported by sigrok, and the necessary firmware files are generously provided by the vendor for distribution. As a result, the SIGMA works out of the box with sigrok. Trigger support has been implemented in 100 MHz and 200 MHz modes for rising/falling edges. Trigger features at lower sample rates are far more advanced and will be supported later.
See [[ASIX SIGMA/Info]] for more details (such as '''lsusb -vvv''' output) about the device.


{| border="0" style="font-size: smaller"
<em style="color:green">
|- bgcolor="#6699ff"
Many thanks to the vendor ([http://www.asix.net/ ASIX]) for providing information on the protocol used to communicate with the device and for releasing the device's firmware / FPGA bitstreams under a [http://sigrok.org/gitweb/?p=sigrok-firmware.git;a=blob;f=asix-sigma/LICENSE.Sigma license which allows us to distribute the files].
!Samplerate
</em>
!Number of probes
!Trigger support
|- bgcolor="#eeeeee"
| 200 kHz
| 16
| Edge of two probes, state, boolean expression*
|- bgcolor="#dddddd"
| 250 kHz
| 16
| Edge of two probes, state, boolean expression*
|- bgcolor="#eeeeee"
| 500 kHz
| 16
| Edge of two probes, state, boolean expression*
|- bgcolor="#dddddd"
| 1 MHz
| 16
| Edge of two probes, state, boolean expression*
|- bgcolor="#eeeeee"
| 5 MHz
| 16
| Edge of two probes, state, boolean expression*
|- bgcolor="#dddddd"
| 10 MHz
| 16
| Edge of two probes, state, boolean expression*
|- bgcolor="#eeeeee"
| 25 MHz
| 16
| Edge of two probes, state, boolean expression*
|- bgcolor="#dddddd"
| 50 MHz
| 16
| Edge of two probes, state, boolean expression*
|- bgcolor="#eeeeee"
| 100 MHz
| 8
| Edge of one probe
|- bgcolor="#dddddd"
| 200 MHz
| 4
| Edge of one probe
|}


* Not implemented in sigrok yet.
Notice that the device's firmware supports quite complex hardware triggers, but the software driver is limited to data pattern (values) and edge (slope) triggers. Sample rates above 50MHz further limit the number of available channels, and trigger options.


See [[ASIX SIGMA/Info]] for more detailed information on the device.
== Hardware ==
 
* Xilinx Spartan XC3S50 (FPGA)
* FTDI FT245RL (USB UART/FIFO, includes EEPROM)
* 2x TI SN74LVC245AN (input buffer)
* MT 48LC16M16A2 (32MiB DRAM)
* voltage regulation (3V3, 2V5, 1V2)
* 2x TI '04 logic (hex inverters, for level shifting)
 
== Photos ==
 
=== ASIX SIGMA ===
 
<gallery>
File:ASIX SIGMA.jpg
File:Sigma.jpg
</gallery>
 
=== ASIX SIGMA 2 ===
 
<gallery>
File:ASIX SIGMA 2 back.jpg
File:ASIX SIGMA 2 USB.jpg
File:ASIX SIGMA 2 header.jpg
File:ASIX SIGMA 2 PCB top.jpg
File:ASIX SIGMA 2 PCB bottom.jpg
</gallery>
 
== Documentation ==
 
The ASIX SIGMA/SIGMA2 firmware files are generously provided by the vendor for distribution. As a result, the device works out of the box with sigrok.
 
Sample rates can be:
* 200MHz or 100MHz (fixed) with special firmware, limited number of available channels
* 50MHz divided by an integer in the 1..256 range, which results in a rough range of 200kHz to 50MHz
* external clock on one of the 16 input pins, rate up to some 20MHz (gets sampled at 50MHz)
 
Trigger support is limited to basic use:
* An edge on one of the 4 (200MHz) or 8 (100MHz) input pins. Common limitation of the device firmware.
* One edge on one of the 16 (50MHz) input pins, in addition to:
* A data pattern (levels, including "don't care", up to 50MHz) across the 16 input pins.
 
In theory up to two edge conditions on two pins could be used, but their transition had to occur in the same 20ns check interval to consider this a match, which limits the practical use of this feature.
 
Pulse width, event counts, and logic combination of several combinations are not supported in trigger conditions (the hardware does, the software doesn't). External trigger (TO trigger output, TI trigger input) currently isn't supported by the software either.
 
The device has local memory which can hold up to 14 MiSa (14 million samples) for input signals that keep changing all the time. When input signals don't change for a number of sample points, then hardware supported RLE compression takes effect, and can reduce memory consumption by a factor of up to 8192. Which results in a best case sample memory capacity that spans 128 GiSa (128 billion samples). Rates above 50MHz increase the number of samples taken, but at the same time reduce the number of available channels.


== Example usage ==
== Example usage ==
An example that captures from 4 probes, for 100ms at 10 MHz, with trigger condition pin 1 high, pin 2 rising, ping 3 low and pin 4 high is given below:


  sigrok-cli --triggers 1=1,2=r,3=0,4=1 --samples 5000000 --time 100 -o samplerate=10m -f bits -p 1-4
An example that captures from 4 probes, for 100ms at 10MHz, with trigger condition 1:high, 2:rising, 3:low, 4:high.
 
  $ '''sigrok-cli --driver asix-sigma --config samplerate=10m --wait-trigger \'''
  '''--triggers 1=1,2=r,3=0,4=1 --output-format bits --probes 1-4 --time 100ms'''


== Firmware ==
== Firmware ==


The firmware files (FPGA bitstreams) for the ASIX SIGMA have been provided by the vendor under a [http://sigrok.git.sourceforge.net/git/gitweb.cgi?p=sigrok/sigrok-firmwares;a=blob;f=asix-sigma/LICENSE.Sigma license which allows redistribution], and are available from the [http://sigrok.git.sourceforge.net/git/gitweb.cgi?p=sigrok/sigrok-firmwares;a=summary sigrok-firmwares] repository:
The firmware files (FPGA bitstreams) for the ASIX SIGMA/SIGMA2 have been provided by the vendor under a [http://sigrok.org/gitweb/?p=sigrok-firmware.git;a=blob;f=asix-sigma/LICENSE.Sigma license which allows redistribution], and are available from the [http://sigrok.org/gitweb/?p=sigrok-firmware.git sigrok-firmware] repository. See [[Firmware]] for installation instructions.
 
== Differences between SIGMA and SIGMA2 ==


$ '''git clone git://sigrok.git.sourceforge.net/gitroot/sigrok/sigrok-firmwares'''
The hardware of SIGMA and SIGMA2 is almost identical, up to few exceptions:


In order to use the ASIX SIGMA in sigrok, you need to copy the firmware files to the correct sigrok directory, '''/usr/local/share/sigrok/firmware''' per default:
* Seven one-color LEDs were replaced with two two-color LEDs.
* A button was added. It can be used to start, stop, trigger.
* The SIGMA has input TTLs in DIL sockets, SIGMA2 is has input TTLs in SMD package.


$ '''cp sigrok-firmwares/asix-sigma/*.fw /usr/local/share/sigrok/firmware'''
The new hardware revision requires the new firmware files to support the button and the different LED wiring. The new firmware is usable for both SIGMA '''and''' SIGMA2. However, the new hardware revision cannot work with the old firmware files.


== Resources ==
== Resources ==
Line 77: Line 99:
* [http://labs.ping.uio.no/2009/09/sampi-a-logic-analyzer/ PING Labs: Sampi – A Logic Analyzer]
* [http://labs.ping.uio.no/2009/09/sampi-a-logic-analyzer/ PING Labs: Sampi – A Logic Analyzer]
* [http://www.flickr.com/photos/chlunde/3383669140/ flickr: ASIX SIGMA in chlunde's photostream] (photos and more information about the device)
* [http://www.flickr.com/photos/chlunde/3383669140/ flickr: ASIX SIGMA in chlunde's photostream] (photos and more information about the device)
[[Category:Device]]
[[Category:Logic analyzer]]
[[Category:Supported]]

Latest revision as of 18:11, 1 June 2020

ASIX SIGMA / SIGMA2
ASIX SIGMA 2.png
Status supported
Source code asix-sigma
Channels 16
Samplerate 200MHz @ 4ch, 100MHz @ 8ch, 50MHz @ 16ch
Samplerate (state) 50MHz
Triggers value, edge, duration, sequence, counter, logical ops
Min/max voltage -0.3V — 5.5V
Threshold voltage Fixed: VIH=2.0V, VIL=0.8V (suitable for TTL, LVTTL, 2.7-5.5V CMOS)
Memory 32MByte (SDRAM)
Compression "real-time hardware data compression"
Website asix.net

The ASIX SIGMA/SIGMA2 is a USB-based, 16-channel logic analyzer with up to 200MHz sampling rate.

See ASIX SIGMA/Info for more details (such as lsusb -vvv output) about the device.

Many thanks to the vendor (ASIX) for providing information on the protocol used to communicate with the device and for releasing the device's firmware / FPGA bitstreams under a license which allows us to distribute the files.

Notice that the device's firmware supports quite complex hardware triggers, but the software driver is limited to data pattern (values) and edge (slope) triggers. Sample rates above 50MHz further limit the number of available channels, and trigger options.

Hardware

  • Xilinx Spartan XC3S50 (FPGA)
  • FTDI FT245RL (USB UART/FIFO, includes EEPROM)
  • 2x TI SN74LVC245AN (input buffer)
  • MT 48LC16M16A2 (32MiB DRAM)
  • voltage regulation (3V3, 2V5, 1V2)
  • 2x TI '04 logic (hex inverters, for level shifting)

Photos

ASIX SIGMA

ASIX SIGMA 2

Documentation

The ASIX SIGMA/SIGMA2 firmware files are generously provided by the vendor for distribution. As a result, the device works out of the box with sigrok.

Sample rates can be:

  • 200MHz or 100MHz (fixed) with special firmware, limited number of available channels
  • 50MHz divided by an integer in the 1..256 range, which results in a rough range of 200kHz to 50MHz
  • external clock on one of the 16 input pins, rate up to some 20MHz (gets sampled at 50MHz)

Trigger support is limited to basic use:

  • An edge on one of the 4 (200MHz) or 8 (100MHz) input pins. Common limitation of the device firmware.
  • One edge on one of the 16 (50MHz) input pins, in addition to:
  • A data pattern (levels, including "don't care", up to 50MHz) across the 16 input pins.

In theory up to two edge conditions on two pins could be used, but their transition had to occur in the same 20ns check interval to consider this a match, which limits the practical use of this feature.

Pulse width, event counts, and logic combination of several combinations are not supported in trigger conditions (the hardware does, the software doesn't). External trigger (TO trigger output, TI trigger input) currently isn't supported by the software either.

The device has local memory which can hold up to 14 MiSa (14 million samples) for input signals that keep changing all the time. When input signals don't change for a number of sample points, then hardware supported RLE compression takes effect, and can reduce memory consumption by a factor of up to 8192. Which results in a best case sample memory capacity that spans 128 GiSa (128 billion samples). Rates above 50MHz increase the number of samples taken, but at the same time reduce the number of available channels.

Example usage

An example that captures from 4 probes, for 100ms at 10MHz, with trigger condition 1:high, 2:rising, 3:low, 4:high.

$ sigrok-cli --driver asix-sigma --config samplerate=10m --wait-trigger \
  --triggers 1=1,2=r,3=0,4=1 --output-format bits --probes 1-4 --time 100ms

Firmware

The firmware files (FPGA bitstreams) for the ASIX SIGMA/SIGMA2 have been provided by the vendor under a license which allows redistribution, and are available from the sigrok-firmware repository. See Firmware for installation instructions.

Differences between SIGMA and SIGMA2

The hardware of SIGMA and SIGMA2 is almost identical, up to few exceptions:

  • Seven one-color LEDs were replaced with two two-color LEDs.
  • A button was added. It can be used to start, stop, trigger.
  • The SIGMA has input TTLs in DIL sockets, SIGMA2 is has input TTLs in SMD package.

The new hardware revision requires the new firmware files to support the button and the different LED wiring. The new firmware is usable for both SIGMA and SIGMA2. However, the new hardware revision cannot work with the old firmware files.

Resources