CafrfOut

SCPI Command :

ROUTe:LTE:SIGNaling<instance>:SCENario:CAFRfout:FLEXible
class CafrfOutCls[source]

CafrfOut commands group definition. 1 total commands, 0 Subgroups, 1 group commands

class FlexibleStruct[source]

Structure for setting input parameters. Contains optional set arguments. Fields:

  • Pcc_Bb_Board: enums.BasebandBoard: Signaling unit for the PCC

  • Pcc_Rx_Connector: enums.RxConnector: RF connector for the PCC input path

  • Pcc_Rx_Converter: enums.RxConverter: RX module for the PCC input path

  • Pcc_Tx_1_Connector: enums.TxConnector: RF connector for the first PCC output path

  • Pcc_Tx_1_Converter: enums.TxConverter: TX module for the first PCC output path

  • Pcc_Tx_2_Connector: enums.TxConnector: RF connector for the second PCC output path

  • Pcc_Tx_2_Converter: enums.TxConverter: TX module for the second PCC output path

  • Scc_Bb_Board: enums.BasebandBoard: Signaling unit for the SCC

  • Scc_Tx_1_Connector: enums.TxConnector: RF connector for the first SCC output path

  • Scc_Tx_1_Converter: enums.TxConverter: TX module for the first SCC output path

  • Scc_Tx_2_Connector: enums.TxConnector: RF connector for the second SCC output path

  • Scc_Tx_2_Converter: enums.TxConverter: TX module for the second SCC output path

  • Scc_Rx_Connector: enums.RxConnector: Optional setting parameter. RF connector for the SCC input path, for UL CA only

  • Scc_Rx_Converter: enums.RxConverter: Optional setting parameter. RX module for the SCC input path, for UL CA only

get_flexible() FlexibleStruct[source]
# SCPI: ROUTe:LTE:SIGNaling<instance>:SCENario:CAFRfout:FLEXible
value: FlexibleStruct = driver.route.scenario.cafrfOut.get_flexible()

Activates the scenario ‘2CC - nx2 nx2’ and selects the signal paths. For possible parameter values, see ‘Values for signal path selection’.

return:

structure: for return value, see the help for FlexibleStruct structure arguments.

set_flexible(value: FlexibleStruct) None[source]
# SCPI: ROUTe:LTE:SIGNaling<instance>:SCENario:CAFRfout:FLEXible
structure = driver.route.scenario.cafrfOut.FlexibleStruct()
structure.Pcc_Bb_Board: enums.BasebandBoard = enums.BasebandBoard.BBR1
structure.Pcc_Rx_Connector: enums.RxConnector = enums.RxConnector.I11I
structure.Pcc_Rx_Converter: enums.RxConverter = enums.RxConverter.IRX1
structure.Pcc_Tx_1_Connector: enums.TxConnector = enums.TxConnector.I12O
structure.Pcc_Tx_1_Converter: enums.TxConverter = enums.TxConverter.ITX1
structure.Pcc_Tx_2_Connector: enums.TxConnector = enums.TxConnector.I12O
structure.Pcc_Tx_2_Converter: enums.TxConverter = enums.TxConverter.ITX1
structure.Scc_Bb_Board: enums.BasebandBoard = enums.BasebandBoard.BBR1
structure.Scc_Tx_1_Connector: enums.TxConnector = enums.TxConnector.I12O
structure.Scc_Tx_1_Converter: enums.TxConverter = enums.TxConverter.ITX1
structure.Scc_Tx_2_Connector: enums.TxConnector = enums.TxConnector.I12O
structure.Scc_Tx_2_Converter: enums.TxConverter = enums.TxConverter.ITX1
structure.Scc_Rx_Connector: enums.RxConnector = enums.RxConnector.I11I
structure.Scc_Rx_Converter: enums.RxConverter = enums.RxConverter.IRX1
driver.route.scenario.cafrfOut.set_flexible(value = structure)

Activates the scenario ‘2CC - nx2 nx2’ and selects the signal paths. For possible parameter values, see ‘Values for signal path selection’.

param value:

see the help for FlexibleStruct structure arguments.