NAME
Lab::Moose::Instrument::OI_Mercury::Magnet - Oxford Instruments Mercury magnet power supply
VERSION
version 3.692
SYNOPSIS
use Lab::Moose;
my $magnet = instrument(
type => 'OI_Mercury::Magnet',
connection_type => 'Socket',
connection_options => {host => '192.168.3.15'},
magnet => 'X', # 'X', 'Y' or 'Z'. default is 'Z'
);
say "He level (%): ", $magnet->get_he_level();
say "N2 level (%): ", $magnet->get_n2_level();
say "temperature: ", $magnet->get_temperature();
$magnet->oim_set_heater(value => 'ON');
say "Current field (T): ", $magnet->get_field();
# Sweep to 0.1 T with rate of 1 T/min
$magnet->sweep_to_field(target => 0.1, rate => 1);
METHODS
The default names for the used board names are as follows. You can get the values for your instrument with the get_catalogue
method and use the methods with the channel
argument.
Temperature measurement: MB1.T1.
Level meter: DB5.L1
Magnet: Z (use DEV:GRPZ:PSU)
The default can be changed to X or Y with the
magnet
attribute in the constructor as shown in SYNOPSIS.
get_catalogue
$mcat = $m->get_catalogue();
print "$mcat\n";
Returns the hardware configuration of the Mercury system. A typical response would be
DEV:GRPX:PSU:DEV:MB1.T1:TEMP:DEV:GRPY:PSU:DEV:GRPZ:PSU:DEV:PSU.M1:PSU:DEV:PSU.M2:PSU:DEV:GRPN:PSU:DEV:DB5.L1:LVL
Here, each group starting with "DEV:" describes one hardware component. In this case, we obtain for example:
DEV:GRPX:PSU |
DEV:GRPY:PSU |- a 3-axis magnet power supply unit
DEV:GRPZ:PSU |
DEV:MB1.T1:TEMP -- a temperature sensor
DEV:DB5.L1:LVL -- a cryoliquid level sensor
In each of these blocks, the second component after "DEV:" is the UID of the device; it can be used in other commands such as get_level to address it.
get_temperature
$t = $m->get_temperature();
$t = $m->get_temperature(channel => 'MB1.T1'); # default channel is 'MB1.T1'
Read out the designated temperature channel. Result is in Kelvin.
get_he_level
$level = $m->get_he_level(channel => 'DB5.L1');
Read out the designated liquid helium level meter. Result is in percent as calibrated.
get_he_level_resistance
$res = $m->get_he_level_resistance(channel => 'DB5.L1');
Read out the designated liquid helium level meter. Result is the raw sensor resistance.
get_n2_level
$level = $m->get_n2_level(channel => 'DB5.L1');
Read out the designated liquid nitrogen level meter. Result is in percent as calibrated.
get_n2_level_frequency
$frq = $m->get_n2_level_frequency(channel => 'DB5.L1');
Read out the designated liquid nitrogen level meter. Result is the raw internal frequency value.
oim_get_current
$curr = $m->oim_get_current();
Reads out the momentary current of the PSU in Ampere.
TODO: what happens if we're in persistent mode?
oim_get_field
$field = $m->oim_get_field();
Read PSU field in Tesla.
Returns 0 when in persistent mode.
oim_get_persistent_field
$field = $m->oim_get_persistent_field();
Read PSU field for persistent mode in Tesla.
oim_get_heater
$t = $m->oim_get_heater();
Returns the persistent mode switch heater status as ON or OFF.
oim_set_heater
$m->oim_set_heater(value => 'ON');
$m->oim_set_heater(value => 'OFF');
Switches the persistent mode switch heater. Nothing happens if the power supply thinks the magnet current and the lead current are different.
heater_on/heater_off
$m->heater_on();
$m->heater_off();
Enable/disable switch heater. Wait for 60s after changing the state of the heater.
oim_force_heater
Switches the persistent mode switch heater. Parameter is "ON" or "OFF".
Dangerous. Works also if magnet and lead current are differing.
oim_get_current_sweeprate
$rate = $m->oim_get_current_sweeprate();
Gets the current target sweep rate (i.e., the sweep rate with which we want to go to the target; may be bigger than the actual rate if it is hardware limited), in Ampere per minute.
oim_set_current_sweeprate
$m->oim_set_current_sweeprate(value => 0.01);
Sets the desired target sweep rate, parameter is in Amperes per minute.
oim_get_field_sweeprate
$rate = $m->oim_get_field_sweeprate();
Get sweep rate (Tesla/min).
oim_set_field_sweeprate
$rate_setpoint = $m->oim_set_field_sweeprate(value => 0.001); # 1mT / min
Set sweep rate (Tesla/min).
oim_get_activity
Retrieves the current power supply activity. See oim_set_activity for values.
oim_set_activity
$m->oim_set_activity(value => 'HOLD');
Sets the current activity of the power supply. Values are:
HOLD - hold current
RTOS - ramp to set point
RTOZ - ramp to zero
CLMP - clamp output if current is zero
oim_set_current_setpoint
$setpoint = $m->oim_set_current_setpoint(value => 0.001);
Sets the current set point in Ampere.
oim_get_current_setpoint
$sp = $m->oim_get_current_setpoint();
Get the current set point in Ampere.
oim_set_field_setpoint
$m->oim_set_field_setpoint(value => 0.01); # 10 mT
Set the field setpoint in Tesla.
oim_get_field_setpoint
$sp = $m->oim_get_field_setpoint();
Get the field setpoint in Tesla.
oim_get_fieldconstant
Returns the current to field factor (A/T)
COPYRIGHT AND LICENSE
This software is copyright (c) 2020 by the Lab::Measurement team; in detail:
Copyright 2017 Simon Reinhardt
2018 Andreas K. Huettel, Simon Reinhardt
2019 Simon Reinhardt
This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.