Lab::Instrument::Yokogawa7651 - Yokogawa 7651 DC source
version 3.751
use Lab::Instrument::Yokogawa7651; my $gate14=new Lab::Instrument::Yokogawa7651( connection_type => 'LinuxGPIB', gpib_address => 22, gate_protecet => 1, level => 0.5, ); $gate14->set_voltage(0.745); print $gate14->get_voltage();
The Lab::Instrument::Yokogawa7651 class implements an interface to the discontinued voltage and current source 7651 by Yokogawa. This class derives from Lab::Instrument::Source and provides all functionality described there.
HASH is a list of tuples given in the format
key => value,
please supply at least the configuration for the connection: connection_type => "LinxGPIB" gpib_address =>
you might also want to have gate protect from the start (the default values are given):
gate_protect => 1, gp_equal_level => 1e-5, gp_max_units_per_second => 0.05, gp_max_units_per_step => 0.005, gp_max_step_per_second => 10, gp_max_units_per_second => 0.05, gp_max_units_per_step => 0.005, max_sweep_time=>3600, min_sweep_time=>0.1,
If you want to use the sweep function without using gate protect, you should specify
stepsize=>0.01
Additinally there is support to set parameters for the device "on init":
function => Voltage, # specify "Voltage" or "Current" mode, string is case insensitive range => undef, level => undef, output => undef,
If those values are not specified, the current device configuration is left unaltered.
$src->set_voltage($voltage)
Sets the output voltage to $voltage. Returns the newly set voltage.
Returns the currently set $voltage. The value is read from the driver cache by default. Provide the option
device_cache => 1
to read directly from the device.
$src->set_current($current)
Sets the output current to $current. Returns the newly set current.
Returns the currently set $current. The value is read from the driver cache by default. Provide the option
$src->set_level($lvl)
Sets the level $lvl in the current operation mode.
$lvl = $src->get_level()
Returns the currently set level. Use
to enforce a reading directly from the device.
$src->sweep_to_level($lvl,$time)
Sweep to the level $lvl in $time seconds.
$src->set_range($range)
Set the output range for the device. $range should be either in decimal or scientific notation. Returns the newly set range.
Returns the information provided by the instrument's 'OS' command, in the form of an array with one entry per line. For display, use join(',',$yoko->get_info()); or similar.
$src->set_output( $onoff )
Sets the output switch to "1" (on) or "0" (off). Returns the new output state;
Returns the status of the output switch (0 or 1).
Returns a hash with the following keys:
CAL_switch memory_card calibration_mode output unstable error execution setting
The value for each key is either 0 or 1, indicating the status of the instrument.
The stability (24h) is the value at 23 +- 1°C. The stability (90days), accuracy (90days) and accuracy (1year) are values at 23 +- 5°C. The temperature coefficient is the value at 5 to 18°C and 28 to 40°C.
Range Maximum Resolution Stability 24h Stability 90d Output +-(% of setting +-(% of setting + µV) + µV) ------------------------------------------------------------- 10mV +-12.0000mV 100nV 0.002 + 3 0.014 + 4 100mV +-120.000mV 1µV 0.003 + 3 0.014 + 5 1V +-1.20000V 10µV 0.001 + 10 0.008 + 50 10V +-12.0000V 100µV 0.001 + 20 0.008 + 100 30V +-32.000V 1mV 0.001 + 50 0.008 + 200 Range Accuracy 90d Accuracy 1yr Temperature +-(% of setting +-(% of setting Coefficient +µV) +µV) +-(% of setting +µV)/°C ----------------------------------------------------- 10mV 0.018 + 4 0.025 + 5 0.0018 + 0.7 100mV 0.018 + 10 0.025 + 10 0.0018 + 0.7 1V 0.01 + 100 0.016 + 120 0.0009 + 7 10V 0.01 + 200 0.016 + 240 0.0008 + 10 30V 0.01 + 500 0.016 + 600 0.0008 + 30 Range Maximum Output Output Noise Output Resistance DC to 10Hz DC to 10kHz (typical data) ---------------------------------------------------------- 10mV - approx. 2Ohm 3µVp-p 30µVp-p 100mV - approx. 2Ohm 5µVp-p 30µVp-p 1V +-120mA less than 2mOhm 15µVp-p 60µVp-p 10V +-120mA less than 2mOhm 50µVp-p 100µVp-p 30V +-120mA less than 2mOhm 150µVp-p 200µVp-p
Common mode rejection: 120dB or more (DC, 50/60Hz). (However, it is 100dB or more in the 30V range.)
Range Maximum Resolution Stability (24 h) Stability (90 days) Output +-(% of setting +-(% of setting + µA) + µA) ----------------------------------------------------------------------- 1mA +-1.20000mA 10nA 0.0015 + 0.03 0.016 + 0.1 10mA +-12.0000mA 100nA 0.0015 + 0.3 0.016 + 0.5 100mA +-120.000mA 1µA 0.004 + 3 0.016 + 5 Range Accuracy (90 days) Accuracy (1 year) Temperature +-(% of setting +-(% of setting Coefficient + µA) + µA) +-(% of setting + µA)/°C ----- ------------------------------------------------------ 1mA 0.02 + 0.1 0.03 + 0.1 0.0015 + 0.01 10mA 0.02 + 0.5 0.03 + 0.5 0.0015 + 0.1 100mA 0.02 + 5 0.03 + 5 0.002 + 1 Range Maximum Output Output Noise Output Resistance DC to 10Hz DC to 10kHz (typical data) ----------------------------------------------------------------- 1mA +-30 V more than 100MOhm 0.02µAp-p 0.1µAp-p 10mA +-30 V more than 100MOhm 0.2µAp-p 0.3µAp-p 100mA +-30 V more than 10MOhm 2µAp-p 3µAp-p
Common mode rejection: 100nA/V or more (DC, 50/60Hz).
probably many
Lab::Instrument
The Yokogawa7651 class is a Lab::Instrument (Lab::Instrument).
Lab::Instrument::Source
The Yokogawa7651 class is a Source (Lab::Instrument::Source)
This software is copyright (c) 2021 by the Lab::Measurement team; in detail:
Copyright 2005-2006 Daniel Schroeer 2009 Andreas K. Huettel, Daniela Taubert 2010 Andreas K. Huettel, Daniel Schroeer 2011 Andreas K. Huettel, Florian Olbrich 2012 Alois Dirnaichner, Andreas K. Huettel, Florian Olbrich, Stefan Geissler 2013 Alois Dirnaichner, Andreas K. Huettel, Christian Butschkow, Stefan Geissler 2014 Alexei Iankilevitch, Alois Dirnaichner, Christian Butschkow 2015 Andreas K. Huettel, Christian Butschkow 2016 Simon Reinhardt 2017 Andreas K. Huettel 2020 Andreas K. Huettel
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.
To install Lab::Measurement, copy and paste the appropriate command in to your terminal.
cpanm
cpanm Lab::Measurement
CPAN shell
perl -MCPAN -e shell install Lab::Measurement
For more information on module installation, please visit the detailed CPAN module installation guide.