[docs]classStartCls:"""Start commands group definition. 1 total commands, 0 Subgroups, 1 group commands"""def__init__(self,core:Core,parent):self._core=coreself._cmd_group=CommandsGroup("start",core,parent)
[docs]defset(self,start_time:float,window=repcap.Window.Default)->None:"""SCPI: CALCulate<n>:AR:TIME:STARt \n Snippet: driver.applications.k60Transient.calculate.ar.time.start.set(start_time = 1.0, window = repcap.Window.Default) \n Defines the starting point of the time span for the analysis region. The starting point is defined as a time offset from the capture start time. \n :param start_time: Unit: S :param window: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Calculate') """param=Conversions.decimal_value_to_str(start_time)window_cmd_val=self._cmd_group.get_repcap_cmd_value(window,repcap.Window)self._core.io.write(f'CALCulate{window_cmd_val}:AR:TIME:STARt {param}')
[docs]defget(self,window=repcap.Window.Default)->float:"""SCPI: CALCulate<n>:AR:TIME:STARt \n Snippet: value: float = driver.applications.k60Transient.calculate.ar.time.start.get(window = repcap.Window.Default) \n Defines the starting point of the time span for the analysis region. The starting point is defined as a time offset from the capture start time. \n :param window: optional repeated capability selector. Default value: Nr1 (settable in the interface 'Calculate') :return: start_time: Unit: S"""window_cmd_val=self._cmd_group.get_repcap_cmd_value(window,repcap.Window)response=self._core.io.query_str(f'CALCulate{window_cmd_val}:AR:TIME:STARt?')returnConversions.str_to_float(response)