from ......Internal.Core import Core
from ......Internal.CommandsGroup import CommandsGroup
from ......Internal import Conversions
# noinspection PyPep8Naming,PyAttributeOutsideInit,SpellCheckingInspection
[docs]class CfrequencyCls:
"""Cfrequency commands group definition. 1 total commands, 0 Subgroups, 1 group commands"""
def __init__(self, core: Core, parent):
self._core = core
self._cmd_group = CommandsGroup("cfrequency", core, parent)
[docs] def set(self, frequency: float) -> None:
"""SCPI: DIAGnostic:SERVice:INPut:PULSed:CFRequency \n
Snippet: driver.diagnostic.service.inputPy.pulsed.cfrequency.set(frequency = 1.0) \n
This command defines the frequency of the calibration signal. Before you can use the command, you have to feed in a
calibration signal with method RsFsw.Diagnostic.Service.InputPy.Select.set. \n
:param frequency: Possible frequencies of the calibration signal are fix. If you define a frequency that is not available, the FSW uses the next available frequency. Example: a frequency of 20 MHz is rounded up to the next available frequency (25 MHz) . Unit: Hz
"""
param = Conversions.decimal_value_to_str(frequency)
self._core.io.write(f'DIAGnostic:SERVice:INPut:PULSed:CFRequency {param}')
[docs] def get(self) -> float:
"""SCPI: DIAGnostic:SERVice:INPut:PULSed:CFRequency \n
Snippet: value: float = driver.diagnostic.service.inputPy.pulsed.cfrequency.get() \n
This command defines the frequency of the calibration signal. Before you can use the command, you have to feed in a
calibration signal with method RsFsw.Diagnostic.Service.InputPy.Select.set. \n
:return: frequency: Possible frequencies of the calibration signal are fix. If you define a frequency that is not available, the FSW uses the next available frequency. Example: a frequency of 20 MHz is rounded up to the next available frequency (25 MHz) . Unit: Hz"""
response = self._core.io.query_str(f'DIAGnostic:SERVice:INPut:PULSed:CFRequency?')
return Conversions.str_to_float(response)