--------
Some devices supported by libsigrok need a firmware to be uploaded every time
-the device is connected to the PC (usually via USB), before it can be used.
+the device is connected to the PC (usually via USB), before it can be used.
-The default location where libsigrok expects the firmware files is:
+The default locations where libsigrok expects the firmware files are:
+ $SIGROK_FIRMWARE_DIR (environment variable)
+ $HOME/.local/share/sigrok-firmware
$prefix/share/sigrok-firmware
+ /usr/local/share/sigrok-firmware
+ /usr/share/sigrok-firmware
($prefix is usually /usr/local or /usr, depending on your ./configure options)
The following drivers/devices require a firmware upload upon connection:
+ - asix-omega-rtm-cli: There is no native sigrok support for ASIX OMEGA
+ devices. But the vendor's RTM CLI application can be used in streaming
+ mode, which transparently handles the device detection and firmware
+ download. The firmware ships with the vendor application. See below
+ for details how to make the vendor application available to the sigrok
+ driver.
+
- asix-sigma: The ASIX SIGMA and SIGMA2 require various firmware files,
depending on the settings used. These files are available from our
'sigrok-firmware' repository/project under a license which allows us
to redistribute them.
+ - dreamsourcelab-dslogic: The DreamSourceLab DSLogic/DSCope device series
+ requires various firmware files and FPGA bitstream files.
+ These can be extracted/downloaded from the vendor's GitHub repo using a
+ tool from our 'sigrok-util' repository/project.
+
- fx2lafw: Logic analyzers based on the Cypress FX2(LP) chip need the
firmware files from the 'sigrok-firmware-fx2lafw' repository/project.
- The firmware is written from scratch and licensed under the GPLv2+.
+ The firmware is written from scratch and licensed under the GNU GPLv2+.
+
+ - hantek-6xxx: Certain oscilloscopes based on the Cypress FX2(LP) chip, such
+ as the Hantek 6022BE/6022BL, SainSmart DDS120, and Rocktech BM102, need the
+ firmware files from the 'sigrok-firmware-fx2lafw' repository/project.
+ The firmware is written from scratch and licensed under the GNU GPLv2+.
- hantek-dso: The Hantek DSO-2090 (and other supported models of the same
series of Hantek PC oscilloscopes) need firmware files.
These can be extracted from the vendor's Windows drivers using a tool
from our 'sigrok-util' repository/project.
+ - kingst-la2016: The Kingst LA series of logic analyzers needs MCU firmware
+ and FPGA netlists. The 'sigrok-util' repository contains a script to
+ extract these files from the vendor software.
+
+ - lecroy-logicstudio: The LeCroy LogicStudio requires FPGA bitstream files.
+ These can be extracted from the vendor's Windows software using a tool
+ from our 'sigrok-util' repository/project.
+ Additionally, it requires a Cypress FX2 firmware. This can be extracted
+ from the vendor's Windows software using another tool. Details:
+
+ http://sigrok.org/wiki/LeCroy_LogicStudio#Firmware
+
- saleae-logic16: The Saleae Logic16 needs a firmware file for the
Cypress FX2 chip in the device, as well as two FPGA bitstream files.
These can be extracted from the vendor's Linux application using a tool
from our 'sigrok-util' repository/project.
+ - saleae-logic-pro: The Saleae Logic Pro 16 needs a firmware file for the
+ Cypress FX3 chip in the device, as well as an FPGA bitstream file.
+ These can be extracted from the vendor's Linux application using a tool
+ from our 'sigrok-util' repository/project.
+
+ - sysclk-lwla:
+
+ - The Sysclk LWLA1034 requires various bitstream files.
+ These files are available from our 'sigrok-firmware' repository/project
+ under a license which allows us to redistribute them.
+
+ - The Sysclk LWLA1016 requires various bitstream files.
+ These can be extracted from the vendor's Windows drivers using a tool
+ from our 'sigrok-util' repository/project.
+
+ - sysclk-sla5032: The Sysclk SLA5032 needs an FPGA bitstream file.
+ This file can be copied (and renamed) from the Windows vendor software
+ installation directory. Details:
+
+ https://sigrok.org/wiki/Sysclk_SLA5032#Firmware
+
The following drivers/devices do not need any firmware upload:
- agilent-dmm
- - alsa
- - brymen-dmm
+ - appa-55ii
+ - arachnid-labs-re-load-pro
+ - atten-pps3xxx
+ - baylibre-acme
+ - beaglelogic
- cem-dt-885x
- - center-3xx
- - chronovu-la8
+ - center-3xx (including all subdrivers)
+ - chronovu-la
- colead-slm
+ - conrad-digi-35-cpu
- demo
+ - fluke-45
- fluke-dmm
+ - ftdi-la
+ - gmc-mh-1x-2x (including all subdrivers)
+ - gwinstek-gds-800
+ - gwinstek-gpd
+ - hameg-hmo
+ - hantek-4032l
+ - hp-3457a
+ - hp-3478a
+ - hung-chang-dso-2100
- ikalogic-scanalogic2
- ikalogic-scanaplus
+ - ipdbg-la
- kecheng-kc-330b
+ - kern-scale
+ - korad-kaxxxxp
- lascar-el-usb
+ - lecroy-xstream
- link-mso19
- - mic-985xx
+ - manson-hcs-3xxx
+ - maynuo-m97
+ - mic-985xx (including all subdrivers)
+ - microchip-pickit2
+ - mooshimeter-dmm
+ - motech-lps-30x
- norma-dmm
- openbench-logic-sniffer
+ - pce-322a
+ - pipistrello-ols
+ - rdtech-dps
+ - rigol-dg
- rigol-ds
- - serial-dmm
+ - rohde-schwarz-sme-0x
+ - scpi-dmm
+ - scpi-pps
+ - serial-dmm (including all subdrivers)
+ - serial-lcr (including all subdrivers)
+ - siglent-sds
- teleinfo
+ - testo
- tondaj-sl-814
- - uni-t-dmm
+ - uni-t-dmm (including all subdrivers)
- uni-t-ut32x
- - victor-dmm
+ - yokogawa-dlm
- zeroplus-logic-cube
+ - zketech-ebd-usb
Specifying serial ports
-----------------------
Many devices supported by libsigrok use serial port based cables (real RS232
-or USB-to-serial ones) to connect to a PC.
+or USB-to-serial ones, CDC class) to connect to a PC. These serial cables are
+supported by the libserialport library. Some vendors prefer to use HID chips
+instead of CDC chips in their serial cables. These cables can get supported
+by means of the hidapi library. Note that each chip type requires specific
+support in the libsigrok library. Bluetooth connected devices may be supported
+as well when they communicate by means of RFCOMM channels, or one of the
+implemented BLE notification/indication approaches, and one of the Bluetooth
+supporting platforms is used.
For all these devices, you need to specify the serial port they are connected
to (e.g. using the 'conn' option in sigrok-cli). It is not possible to scan
Example:
$ sigrok-cli --driver <somedriver>:conn=/dev/ttyUSB0 ...
+ $ sigrok-cli --driver <somedriver>:conn=hid/cp2110 ...
+ $ sigrok-cli --driver <somedriver>:conn=bt/rfcomm/01-23-45-67-89-ab ...
+
+Formal syntax for serial communication:
+
+ - COM ports (RS232, USB CDC):
+ conn=<com-port>
+ - USB HID cables:
+ conn=hid[/<chip>]
+ conn=hid[/<chip>]/usb=<bus>.<dev>[.<if>]
+ conn=hid[/<chip>]/raw=<path>
+ conn=hid[/<chip>]/sn=<serno>
+ conn=hid[/<chip>]/iokit=<path>
+ chip can be: bu86x, ch9325, cp2110, victor
+ path may contain slashes
+ path and serno are "greedy" (span to the end of the spec)
+ - Bluetooth Classic and Bluetooth Low Energy (BLE):
+ conn=bt/<conn>/<addr>[/param=value]
+ conn can be: rfcomm, ble122, nrf51, cc254x
+ addr can be "dense" or separated, bt/cc254x/0123456789ab or
+ bt/rfcomm/11-22-33-44-55-66 or bt/ble122/88:6b:12:34:56:78
+ (note that colons may not be available when the conn= spec is taken
+ from a string that separates fields by colon, e.g. in the "--driver
+ <name>:conn=<spec>" example, that is why the dense form and the use
+ of dashes for separation are supported)
+ additional parameter keywords can be: channel, handle_rx, handle_tx,
+ handle_cccd, value_cccd, mtu
+
+Some of the drivers implement a default for the connection. Some of the
+drivers can auto-detect USB connected devices.
+
+Beyond strict serial communication over COM ports (discussed above), the
+conn= property can also address specific USB devices, as well as specify TCP
+or VXI communication parameters. See these examples:
+
+ $ sigrok-cli --driver <somedriver>:conn=<vid>.<pid> ...
+ $ sigrok-cli --driver <somedriver>:conn=tcp-raw/<ipaddr>/<port> ...
+ $ sigrok-cli --driver <somedriver>:conn=vxi/<ipaddr> ...
+ $ sigrok-cli --driver <somedriver>:conn=usbtmc/<bus>.<addr> ...
+
+Individual device drivers _may_ implement additional semantics for the
+conn= specification, which would not apply to other drivers, yet can be
+rather useful for a given type of device.
+
+ $ sigrok-cli --driver <somedriver>:conn=sn=<serno>
+
+
+Specifying serial port parameters
+---------------------------------
-The following drivers/devices require a serial port specification:
-
- - agilent-dmm
- - brymen-dmm
- - cem-dt-885x
- - center-3xx
- - colead-slm
- - fluke-dmm
- - link-mso19
- - mic-985xx
- - norma-dmm
- - openbench-logic-sniffer
- - serial-dmm
- - teleinfo
- - tondaj-sl-814
+Every serial device's driver has default serial port parameters like baud
+rate, number of data bits, stop bits and handshake status. If a device requires
+different parameters, pass them as option "serialcomm" with the driver name.
+See libsigrok docs for the function serial_set_paramstr() for complete specs.
-The following drivers/devices do not require a serial port specification:
+Example:
- - alsa
- - asix-sigma
- - chronovu-la8
- - demo
- - fx2lafw
- - hantek-dso
- - ikalogic-scanalogic2
- - ikalogic-scanaplus
- - kecheng-kc-330b
- - lascar-el-usb
- - rigol-ds
- - saleae-logic16
- - uni-t-dmm
- - uni-t-ut32x
- - victor-dmm
- - zeroplus-logic-cube
+ $ sigrok-cli --driver <somedriver>:conn=<someconn>:serialcomm=9600/7n1/dtr=1
Permissions of serial port based devices
(see below for details).
-Permissions for USB devices (udev rules file)
----------------------------------------------
+Permissions for USB devices (udev rules files)
+----------------------------------------------
When using USB-based devices supported by libsigrok, the user running the
libsigrok frontend (e.g. sigrok-cli) has to have (read/write) permissions
for the respective USB device.
-On Linux, this is accomplished using either 'chmod' (not recommended) or
-using the udev rules file shipped with libsigrok (recommended).
+On Linux, this is accomplished using udev rules. libsigrok ships a rules
+file containing all supported devices which can be detected reliably
+(generic USB-to-serial converters are omitted, as these are used for a wide
+range of devices, e.g. GPS receivers, which are not handled by libsigrok).
-The file is available in contrib/z60_libsigrok.rules. It contains entries
-for all libsigrok-supported (USB-based) devices and changes their group
-to 'plugdev' and the permissions to '664'.
+The file is available in contrib/60-libsigrok.rules. This file just contains
+the list of devices and flags these devices with ID_SIGROK="1". Access is
+granted by the 61-libsigrok-plugdev.rules or 61-libsigrok-uaccess.rules files,
+allowing access to members of the plugdev group or to currently logged in
+users, respectively.
When using a libsigrok package from your favorite Linux distribution, the
-packager will have already taken care of properly installing the udev file
-in the correct (distro-specific) place, and you don't have to do anything.
-The packager might also have adapted 'plugdev' and '664' as needed.
+files should already be installed in /usr/lib/udev/rules.d/, i.e.
+60-libsigrok.rules and one of the access granting rules files. Use of
+61-libsigrok-uaccess.rules is encouraged on systemd distributions.
+
+The access policy can be locally overridden by placing appropriate rules in
+/etc/udev/rules.d/, disabling or ammending the default policy. See the
+udev documentation, e.g. man 7 udev, for details.
If you're building from source, you need to copy the file to the place
-where your distro expects such files. This is beyond the scope of this README,
-but generally the location could be e.g. /etc/udev/rules.d, or maybe
-/lib/udev/rules.d, or something else. Afterwards you might have to restart
-udev, e.g. via '/etc/init.d/udev restart' or similar, and you'll have to
-re-attach your device via USB.
+where udev will read these rules. Local rules should go to /etc/udev/rules.d.
+Keep the file naming, otherwise interaction between the libsigrok rules and
+rules shipped by the system will be broken.
+
+Please consult the udev docs for details.
+
-Please consult the udev docs of your distro for details.
+Assigning drivers to devices (Windows, Zadig)
+---------------------------------------------
+
+On Windows systems it may be necessary to assign drivers to devices
+before libusb based applications can access them. It may be necessary
+to re-run this driver assignment after firmware upload in case the
+device changes its USB identification as a consequence of loading the
+firmware image.
+
+The https://sigrok.org/wiki/Windows wiki page discusses this subject,
+and other platform specific aspects.
+
+
+Non-default drivers for commodity chips
+---------------------------------------
+
+Some vendors include common USB chips in their products yet assign device
+specific VID:PID pairs. Which results in the necessity for extra steps
+before the serial port can be used:
+
+- GW Instek VCP, found in GDM-8000 and probably other meters: Install the
+ vendors Windows driver to get access to a COM port. Or force the driver
+ assignment on Linux:
+ # modprobe cp210x
+ # echo 2184 0030 > /sys/bus/usb-serial/drivers/cp210x/new_id
Cypress FX2 based devices
UNI-T multimeters (and rebranded devices, e.g. some Voltcraft models) can
ship with different PC connectivity cables:
+ - UT-D02 (RS232 cable)
- UT-D04 (USB/HID cable with Hoitek HE2325U chip, USB VID/PID 04fa:2490)
- UT-D04 (USB/HID cable with WCH CH9325 chip, USB VID/PID 1a86:e008)
- - UT-D02 (RS232 cable)
+ - UT-D07 (Bluetooth adapter, ISSC BL79 BLETR chip)
+ - UT-D09 (USB/HID cable with SiL CP2110 chip, USB VID/PID 10c4:ea80)
The above cables are all physically compatible (same IR connector shape)
with all/most currently known UNI-T multimeters. For example, you can
$ sigrok-cli --driver uni-t-ut61e-ser:conn=/dev/ttyUSB0 ...
$ sigrok-cli --driver voltcraft-vc820-ser:conn=/dev/ttyS0 ...
-
-When using any of the UT-D04 USB/HID cables you have to use the respective
-driver _without_ the '-ser' drivername suffix (internally all of these models
-are handled by the 'uni-t-dmm' driver).
-
-You also need to specify the USB vendor/device IDs of the cable.
-Autodetection is not possible here, since various other products use the
-USB VID/PID of those cables too, and there is no way to distinguish them.
-
-Since the UT-D04 cables are USB based (but don't use a USB-to-serial chip)
-there is no need to specify a serial port via 'conn', of course.
-However, the user running the frontend does also need to have permissions
-to access the respective USB device (see above).
+ $ sigrok-cli --driver uni-t-ut61e-ser:conn=hid/cp2110
+
+Using any of the UT-D04 et al USB/HID cables can be done in two different
+ways: Use transparent serial over HID support in libsigrok, by giving the
+-ser driver a conn=hid/... serial port spec. This re-uses the 'serial-dmm'
+driver, results in better coverage of these code paths, and reduces
+maintenance overhead. Or by running non-ser drivers and passing USB
+specific connection details. When the driver _without_ the '-ser' suffix
+is used, the models are handled by the 'uni-t-dmm' driver. These duplicate
+drivers only exist for historical reasons, the redundancy may result in
+differences of behaviour between the two implementations. When in doubt,
+check if the '-ser' driver works for you.
+
+In the USB specific driver case you need to specify the cable's vendor
+and product IDs. Autodetection is not possible here, since various other
+products use the USB VID/PID of those cables too, and there is no way to
+distinguish them. The sigrok software errs on the safe side, and won't
+communicate to serial ports unless explicitly instructed by the user.
+
+The user running the frontend does also need to have permissions to
+access the respective USB device (see above).
Examples (sigrok-cli):
done
+UNI-T UT-D04 cable issue on Windows
+-----------------------------------
+
+There have been reports that CH9325 based cables are not detected on
+Windows out of the box when they are assigned to libwdi drivers. Though
+they may be usable in that case when the USB address is manually specified.
+This can happen when some "USB to serial" driver is assigned which does not
+provide a genuine COM port that enumerates naturally. Manually assigning a
+"USB input device" driver can improve HIDAPI compatibility and make the
+cable show up in sigrok's serial port enumeration.
+
+
Enabling multimeter / data logger measurement output
----------------------------------------------------
usually mentioned in the vendor manual of the respective device, but here's
a short list for convenience:
+ - BBC Goertz Metrawatt M2110: Briefly press the "Start/Reset" button on the
+ interface panel on top.
+ - Brymen BM257s: Press HOLD during power-on.
- Digitek DT4000ZC: Briefly press the "RS232" button.
+ - EEVBlog 121GW: Hold "1ms PEAK" until the "BT" indicator is shown.
+ - ES51919 based LCR meters (DER EE DE-5000, PeakTech 2170, UNI-T UT612):
+ Press the button with the "RS232" or "USB" or "PC link" label (usually
+ the "up" cursor button).
+ - Gossen Metrawatt Metrahit 1x/2x devices, driver gmc-mh-1x-2x-rs232:
+ - Power on the device with the "DATA" button pressed.
+ - Metrahit 2x devices must be configured for the respective interface type.
+ - Gossen Metrawatt Metrahit 2x devices, driver gmc-mh-2x-bd232:
+ - 'BD232' interface:
+ The multimeter must be configured for the respective interface type.
+ - 'SI232-II' interface ("PC Mode"):
+ The multimeter must be configured for interface type 'BD232' (all),
+ 'SI232 online' (28-29S) or 'SI232 store' (22-26x). The interface must
+ be configured to the same baud rate as the host (default 9600).
+ Multimeter and interface must be configured to the same address.
+ - GW Instek GDM-397: Press the "REL/RS232C (USB)" button for roughly 1 second.
+ - GW Instek VCP: See the discussion on manual driver assignment to common
+ USB to UART chips with non-default USB identification.
+ - MASTECH MS6514: Press the "Setup/PC-Link" button for roughly 3 seconds.
+ - Meterman 38XR: Press the "RS232" button.
+ - Metrix MX56C: Press the PRINT button to have the meter send acquisition
+ data via IR. Hold the PRINT button to adjust the meter's transmission
+ interval.
+ - Norma DM950: If the interface doesn't work (e.g. USB-RS232 converter), power
+ on the device with "FUNC" pressed (to power the interface from the DMM).
- PCE PCE-DM32: Briefly press the "RS232" button.
- RadioShack 22-812: Press and hold "SELECT" and "RANGE" together.
- TekPower TP4000ZC: Briefly press the "RS232" button.
- - UNI-T UT61C: Press the "REL/RS232/USB" button for roughly 1 second.
- - UNI-T UT61D: Press the "REL/RS232/USB" button for roughly 1 second.
+ - Tenma 72-7750: Briefly press the "RS232C" button.
+ - UNI-T UT60G: Briefly press the "RS232C" button.
+ - UNI-T UT61B/C/D: Press the "REL/RS232/USB" button for roughly 1 second.
+ - UNI-T UT71x: Press the "SEND/-/MAXMIN" button for roughly 1 second.
+ Briefly pressing the "EXIT" button leaves this mode again.
+ - UNI-T UT181A: In the "SETUP" menu set "Communication" to "ON".
- UNI-T UT325: Briefly press the "SEND" button (as per manual). However, it
appears that in practice you don't have to press the button (at least on
some versions of the device), simply connect the device via USB.
- - V&A VA18B: Keep the "Hz/DUTY" key pressed while powering on the device.
- - Victor 70C: Press the "REL/RS232" button for roughly 1 second.
- - Victor 86C: Press the "REL/RS232" button for roughly 1 second.
+ - V&A VA18B/VA40B: Keep the "Hz/DUTY" key pressed while powering on the DMM.
+ - Victor 70C/86C: Press the "REL/RS232" button for roughly 1 second.
- Voltcraft VC-830: Press the "REL/PC" button for roughly 2 seconds.
-
-
-ALSA driver
------------
-
-The 'alsa' driver can be used to sample analog data using a PC's soundcard.
-I.e. the sound card can act as a simple oscilloscope (with some limitations)
-using commercial or DIY "sound card scope probe" cables.
-
-Since ALSA is a Linux-specific sound system, this driver will inherently
-only compile and work on Linux.
-
-We might write additional drivers to make a similar functionality available
-on other OSes at some point.
-
-
-Link Instruments MSO-19
------------------------
-
-The driver for the Link Instruments MSO-19 mixed-signal oscilloscope (MSO)
-is currently using libudev (which is a library for the Linux-specific udev
-system). Thus, this driver can currently only compile and work on Linux.
-
-We plan to fix this though, so that it'll work on all other OSes, too.
-
-
-ChronoVu LA8 USB VID/PIDs
--------------------------
-
-The ChronoVu LA8 logic analyzer is available in two revisions. Previously,
-the LA8 shipped with a USB VID/PID of 0403:6001, which is the standard ID
+ - Voltcraft VC-870: Press the "REL/PC" button for roughly 1 second.
+
+
+ASIX OMEGA in RTM CLI mode
+--------------------------
+
+The asix-sigma driver can detect the Omega devices' presence, but does
+not support their protocol and emits a diagnostics message. The firmware
+image is not available for distribution, and information on the protocol
+is not available. That's why native support is in some distant future.
+Yet basic operation of Omega devices is available by using the vendor's
+command line application for real time mode (RTM CLI).
+
+The vendor application targets Windows (on x86), but also executes on
+Linux when 32bit libraries for FTDI communication are provided. The
+user manual discusses the installation. The sigrok asix-omega-rtm-cli
+driver uses the vendor provided omegartmcli.exe binary to configure the
+device for streaming, and to acquire sample data.
+
+Either make an "omegartmcli" executable available in PATH. This can be
+the vendor's executable or some wrapper around it or a symlink to it.
+Or specify the executable's location in the OMEGARTMCLI environment
+variable. The sigrok driver accepts an optional serial number (six or
+eight hex digits) to select one out of several connected devices.
+
+ (optional)
+ $ export "OMEGARTMCLI=$HOME/.wine/drive_c/progx86/ASIX/SIGMA/omegartmcli.exe"
+
+ (optional)
+ $ OMEGASN=":conn=sn=a6030123"
+
+ (example use)
+ $ sigrok-cli -d asix-omega-rtm-cli${OMEGASN} --show
+ $ sigrok-cli -d asix-omega-rtm-cli${OMEGASN} -o capture.sr --time 10s
+ $ sigrok-cli -d asix-omega-rtm-cli${OMEGASN} -o capture.sr --samples 100m
+ $ pulseview -d asix-omega-rtm-cli${OMEGASN}
+
+The RTM mode of operation samples 16 channels at a fixed rate of 200MHz.
+Hardware triggers are not available in this mode. Glib should handle
+platform specific details of external process execution, but the driver
+was only tested on Linux so far. Acquisition start in sigrok applications
+may take some time before sample data becomes available (roughly one
+second here on a slow machine). This is an implementation detail of the
+RTM CLI approach including execution under wine.
+
+The reliability of that setup in the presence of fast changing input
+signals is yet to get determined. It's assumed that slow input signals
+are operational. It's essential that the _average_ rate of changes in
+the input signal in combination with the hardware compression are such
+that the FTDI FIFO can communicate all involved data via USB2.0 to the
+application. Intermediate bursts of rapid changes shall not be an issue
+given the Omega devices' deep memory which RTM uses for buffering.
+
+Native support for the Asix Omega devices depends on the availability of
+a protocol description and use of the protocol depends on the firmware's
+availability at the user's site. Which then would allow to capture to
+DRAM at high rates without the communication bottleneck, before the data
+gets communicated to the PC after the acquisition has completed. Compare
+the native sigrok support for Asix Sigma.
+
+
+ChronoVu LA8/LA16 USB VID/PIDs
+------------------------------
+
+The ChronoVu LA8/LA16 logic analyzer is available in two revisions. Previously,
+the device shipped with a USB VID/PID of 0403:6001, which is the standard ID
for FTDI FT232 USB chips.
-Since this made it hard to distinguish the LA8 from any other device
+Since this made it hard to distinguish the LA8/LA16 from any other device
with this FTDI chip connected to the PC, the vendor later shipped the
-LA8 with a USB VID/PID of 0403:8867.
+device with a USB VID/PID of 0403:8867.
-The 'chronovu-la8' driver in libsigrok supports both VID/PID pairs and
-automatically finds devices with either VID/PID pair. However, currently
-the driver will assume any device with VID/PID 0403:6001 is a ChronoVu LA8.
+The 'chronovu-la' driver in libsigrok supports both VID/PID pairs and
+automatically finds devices with either VID/PID pair.
OLS
---
-The Dangerous Prototypes Openbench Logic Sniffer (OLS) logic analyzer is
-supported by the 'ols' driver in libsigrok. This driver assumes a somewhat
-recent firmware has been flashed onto the OLS (it doesn't need a firmware
-upload every time it's attached via USB, since the firmware is stored in the
-device permanently).
+The Dangerous Prototypes Openbench Logic Sniffer (OLS) logic analyzer
+driver in libsigrok assumes a somewhat recent firmware has been flashed onto
+the OLS (it doesn't need a firmware upload every time it's attached via USB,
+since the firmware is stored in the device permanently).
The most recent firmware version that is tested is 3.07.
$ sigrok-cli --driver ols:conn=/dev/ttyACM0 ...
-Rigol DS oscilloscopes
-----------------------
+JTAGulator
+----------
+
+The Grand Idea Studio JTAGulator also implements the SUMP protocol and
+thus is covered by the OLS driver. See the vendor's wiki on details how
+to enable the Logic Analyzer mode of operation.
+
+ https://github.com/grandideastudio/jtagulator/wiki/Logic-Analyzer
+
+
+Mooshimeter
+-----------
+
+The Mooshim Engineering Mooshimeter is controlled via Bluetooth Low Energy
+(sometimes called Bluetooth 4.0), as such it requires a supported Bluetooth
+interface available. The 'conn' option is required and must contain the
+Bluetooth MAC address of the meter.
-The 'rigol-ds' driver (for the Rigol DS series DSOs) currently uses the Linux
-usbtmc kernel driver. This means it can currently only be built and used on
-Linux (i.e., it's non-portable).
+Example:
-The use of a kernel module also means it is dependent on the kernel version
-used, as well as on whether this specific module is available in the kernel.
-Additionally, the usbtmc kernel module has been known to have various bugs
-in some versions. These are some (but not all) drawbacks of using a kernel
-module as opposed to a libusb-based driver that works in user-space.
+ $ sigrok-cli --driver mooshimeter-dmm:conn=12-34-56-78-9A-BC ...
+
+Since the Mooshimeter has no physical interface on the meter itself, the
+channel configuration is set with the 'channel_config' option. The format
+of this option is 'CH1,CH2' where each channel configuration has the form
+'MODE:RANGE:ANALYSIS', with later parts being optional. In addition for
+CLI compatibility, the ',' in the channels can also be a '/' and the ':' in
+the individual configuration can be a ';'.
+
+Available channel 1 modes:
+
+ - Current, A: Current in amps
+ - Temperature, T, K: Internal meter temperature in Kelvin
+ - Resistance, Ohm, W: Resistance in ohms
+ - Diode, D: Diode voltage
+ - Aux, LV: Auxiliary (W input) low voltage sensor (1.2V max)
+
+Available channel 2 modes:
+
+ - Voltage, V: Voltage
+ - Temperature, T, K: Internal meter temperature in Kelvin
+ - Resistance, Ohm, W: Resistance in ohms
+ - Diode, D: Diode voltage
+ - Aux, LV: Auxiliary (W input) low voltage sensor (1.2V max)
+
+Only one channel can use the shared inputs at a time (e.g. if CH1 is measuring
+resistance, CH2 cannot measure low voltage). Temperature is excepted from
+this, so the meter can measure internal temperature and low voltage at the
+same time.
+
+Additionally, the meter can calculate the real power of both channels. This
+generally only makes sense when CH1 is set to current and CH2 is set to a
+voltage and so it is disabled by default. It must be enabled by enabling the
+'P' channel (the third channel).
+
+The range of the channel specification sets the maximum input for that channel
+and is rounded up to the next value the meter itself supports. For example,
+specifying 50 for the voltage will result in the actual maximum of 60.
+Specifying 61 would result in 600. If omitted, sigrok will perform
+auto-ranging of the channel by selecting the next greater value than the
+latest maximum.
+
+The analysis option sets how the meter reports its internal sampling buffer
+to sigrok:
+
+ - Mean, DC: The default is a simple arithmetic mean of the sample buffer
+ - RMS, AC: The root mean square of the sample buffer
+ - Buf, Buffer, Samples: Report the entire sample buffer to sigrok. This
+ results in packets that contain all the samples in the buffer instead
+ of a single output value.
+
+The size of the sample buffer is set with the 'avg_samples' option, while
+the sampling rate is set with the 'samplerate' option. So the update rate
+is avg_samples/samplerate. Both are rounded up to the next supported value
+by the meter.
+
+Example:
-We plan to change the driver to use the 'librevisa' user-space shared
-library (which uses libusb) soon, which will fix all these issues and make
-the driver portable at the same time.
+ $ sigrok-cli -c channel_config="Aux;0.1/T" --driver mooshimeter-dmm...
+ $ sigrok-cli -c channel_config="A;;AC/V;;AC" --driver mooshimeter-dmm...
projects / libsigrok.git / blobdiff