Difference between revisions of "ChronoVu LA8"

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The default samplerate is 100MHz (which results in a sampling time of 0.084s). In order to get 8MB of samples (max.) at 100MHz in binary format use:
The default samplerate is 100MHz (which results in a sampling time of 0.084s). In order to get 8MB of samples (max.) at 100MHz in binary format use:


  $ '''sigrok-cli -d chronovu-la8 --samples 8m -f binary -o samples.dat'''
  $ '''sigrok-cli --driver chronovu-la8 --output-format binary --output-file samples.dat \'''
  '''--samples 8m'''


To select another sampling rate use this syntax:
To select another sampling rate use this syntax:


  $ '''sigrok-cli -d chronovu-la8:samplerate=1mhz --samples 8m -f binary -o samples.dat'''
  $ '''sigrok-cli --driver chronovu-la8 --config samplerate=1mhz \'''
  '''--output-format binary binary --output-file samples.dat --samples 8m'''


In order to save the data in the file format which the ChronoVu LA8 software can read (usually using the '''.kdt''' file extension):
In order to save the data in the file format which the ChronoVu LA8 software can read (usually using the '''.kdt''' file extension):


  $ '''sigrok-cli -d chronovu-la8:samplerate=1mhz --samples 8m -f chronovu-la8 -o samples.kdt'''
  $ '''sigrok-cli --driver chronovu-la8 --config samplerate=1mhz \'''
  '''--output-format binary chronovu-la8 --output-file samples.kdt --samples 8m'''


== Protocol ==
== Protocol ==

Revision as of 18:33, 30 April 2013

ChronoVu LA8
Chronovu la8 front.png
Status supported
Source code chronovu-la8
Channels 8
Samplerate 100MHz
Samplerate (state)
Triggers high, low, dont-care
Min/max voltage -0.5 — 5V
Memory 8Mbyte (SDRAM)
Compression none
Website chronovu.com

The ChronoVu LA8 is a USB-based 8-channel logic analyzer with up to 100MHz sampling rate. It features a Xilinx CPLD for sampling, 8MB of built-in SDRAM to store the samples, and can trigger on low or high states of any combination of probes. After the 8MB sample buffer is full, the data is transferred to the host using an FTDI FT245RL chip.

See ChronoVu LA8/Info for more details (such as lsusb -vvv output) about the device.

Many thanks to the vendor (ChronoVu) for freely providing information on the protocol used to communicate with the device. This helped us implement the sigrok hardware driver more quickly. We're happy to see more open-source friendly vendors support sigrok!

Hardware

Photos

See also this flickr set for more photos of the device.

Usage

The default samplerate is 100MHz (which results in a sampling time of 0.084s). In order to get 8MB of samples (max.) at 100MHz in binary format use:

$ sigrok-cli --driver chronovu-la8 --output-format binary --output-file samples.dat \
  --samples 8m

To select another sampling rate use this syntax:

$ sigrok-cli --driver chronovu-la8 --config samplerate=1mhz \
  --output-format binary binary --output-file samples.dat --samples 8m

In order to save the data in the file format which the ChronoVu LA8 software can read (usually using the .kdt file extension):

$ sigrok-cli --driver chronovu-la8 --config samplerate=1mhz \
  --output-format binary chronovu-la8 --output-file samples.kdt --samples 8m

Protocol

The ChronoVu LA8 is a USB-based device and presents itself as an FTDI device with vendor ID / device ID of 0403:6001 (see also the full lsusb). Talking to the device is thus done using libftdi's ftdi_read() and ftdi_write() functions.

Starting an acquisition

The data acquisition is started by sending 4 specific bytes to the device via ftdi_write(). This configures the sampling and trigger setup and initiates the acquisition.

Byte Value Comment
0 divcount This byte must contain the divcount value which determines the samplerate/sampletime/sampleperiod (see below).
1 0xff This byte must always be 0xff.
2 Trigger pattern This byte contains the trigger pattern (MSB = channel 7, LSB = channel 0). A 1 bit matches a high signal, 0 matches a low signal on a probe. Only low/high triggers (but not e.g. rising/falling) are supported.
3 Trigger mask This byte contains the trigger mask (MSB = channel 7, LSB = channel 0). A 1 bit means "must match trigger pattern", 0 means "don't care".

After these bytes have been sent you need to wait a certain minimal amount of time, then grab the 8MB buffer data from the LA8 using ftdi_read().

Demangling data

However, the data received from the device is not directly usable as it is "mangled" a bit due to internal hardware reasons. So it's required to de-mangle the data first, in order to get it into the final format, i.e., one byte per sample, MSB is the value of channel 7, LSB is the value of channel 0.

Stopping an acquisition

TODO

Triggers

TODO

Sampling

The device has an 8MB buffer (SDRAM) which is always filled completely with samples. Using the divcount divider value (valid range: 0x00 - 0xfe) samplerates between 100MHz and 392.15kHz can be selected. Depending on the samplerate different total sampling times (from 0.084s up to 21.391s) can be achieved.

The formula for the sample period (not to be confused with the samplerate) is:

sample period = (divcount + 1) * 10ns

The following table shows a small part of the valid divcount values and resulting sample periods, samplerates, and sampling times.

Divider Sample period Samplerate Sampling time
0x00 10ns 100MHz 0.084s
0x01 20ns 50MHz 0.168s
... ... ... ...
0xfd 2540ns 393.7kHz 21.307s
0xfe 2550ns 392.156kHz 21.391s

TODO

  • Test trigger support, might work already.
  • Finish input and output file format support for the ChronoVu LA8 software for interoperability.
    • Trigger support and some smaller fixes are pending.
    • For sampling of less than 8MB of data, padding is needed.
    • For less than 8 probes, padding is needed too.
  • Implement --time support, currently only --samples works correctly.
  • Check if the 8MB 'final_buf' buffer can be replaced by a static 4 KB buffer (if data is sent in 4KB chunks).