Difference between revisions of "Rigol DG1000z Series"

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<gallery>
<gallery>
File:Dg1000z_series.png|<small>Front Panel</small>
File:Dg1000z_series.png|<small>Front Panel</small>
File:Dg1022z-01.jpeg|<small>Main PCB</small>
File:Dg1022z-02.jpeg|<small>Main PCB: front</small>
File:Dg1022z-03.jpeg|<small>Main PCB: front connectors</small>
File:Dg1022z-04.jpeg|<small>Main PCB: CPU</small>
File:Dg1022z-05.jpeg|<small>Main PCB: rear connectors</small>
File:Dg1022z-fan.jpeg|<small>Case Fan</small>
</gallery>
</gallery>


== Protocol ==
== Protocol ==

Latest revision as of 09:00, 30 December 2021

Rigol DG1000z Series
Dg1000z series.png
Status supported
Source code rigol-dg
Frequency (sine) 25-60MHz
Frequency (square) 25MHz
Frequency (other) 15-25MHz (pulse), 500-1000KHz (ramp)
Frequency (user) 10-20MHz
Waveforms sine, square, ramp, pulse, harmonic, noise, arbitrary waveform
Waveform memory 2-8Mpts (16Mpts option)
Modulation AM, FM, PM, DSB-AM, FSK, ASK, PWM
Connectivity USBTMC, LAN
Website rigolna.com

Rigol DG1000Z Series Arbitrary Waveform Generators are 2 channel, 25-60MHz signal generators with up to 16Mpts waveform memory.


Devices

Hardware on all these models is identical, only difference is in software/firmware.

Model Channels Max Frequency (Sine) Max Frequency (Square) Arbitrary Waveform Length Frequency Counter
DG1022Z 2 25 MHz 25 MHz 2 Mpts * Y
DG1032Z 2 30 MHz 25 MHz 8 Mpts * Y
DG1062Z 2 60 MHz 25 MHz 8 Mpts * Y
  • ) 16 Mpts waveform memory is (software) option.

Hardware

Digital:

TODO

Analog:

TODO

Photos

Protocol

TODO

Example use

Depending on your type of connection you have to can either use the USBTMC connection parameter or the TCP/IP connection parameter. Examples:


 -d rigol-dg

(usually no parameters are needed when connecting via USB)

When connecting over TCP/IP need to specify ip address and port:

 -d rigol-dg:conn=tcp-raw/192.168.42.42/5555

Check the capabilities of the meter's driver, and current state of settings:

 $ sigrok-cli -d rigol-dg --show

Check the capabilities specific to a channel (1 or 2):

 $ sigrok-cli -d rigol-dg -g 1 --show


Enable or disable channel output (first channel):

 $ sigrok-cli -d rigol-dg -g 1 --set --config enabled=true
 $ sigrok-cli -d rigol-dg -g 1 --set --config enabled=false

Get or set the waveform function (second channel):

 $ sigrok-cli -d rigol-dg -g 2 --get pattern
 $ sigrok-cli -d rigol-dg -g 2 --set --config pattern=square

Get or set the output signal frequency:

 $ sigrok-cli -d rigol-dg -g 1 --get output_frequency
 $ sigrok-cli -d rigol-dg -g 1 --set --config output_frequency=20000

Get or set the output signal amplitude:

 $ sigrok-cli -d rigol-dg -g 1 --get amplitude
 $ sigrok-cli -d rigol-dg -g 1 --set --config amplitude=3.3

Get or set the output signal offset:

 $ sigrok-cli -d rigol-dg -g 1 --get offset
 $ sigrok-cli -d rigol-dg -g 1 --set --config offset=1.0

Get or set the output signal phase:

 $ sigrok-cli -d rigol-dg -g 1 --get phase
 $ sigrok-cli -d rigol-dg -g 1 --set --config phase=90.0

Get or set the output signal duty cycle:

 $ sigrok-cli -d rigol-dg -g 1 --get output_duty_cycle
 $ sigrok-cli -d rigol-dg -g 1 --set --config output_duty_cycle=25.0


Acquire measurement data (frequency counter output):

 $ sigrok-cli -d rigol-dg --continuous
 $ sigrok-cli -d rigol-dg --time 10s
 $ sigrok-cli -d rigol-dg --samples 10

Resources