UeCapability¶
SCPI Commands
SENSe:WCDMa:SIGNaling<Instance>:UECapability:HSUPa
SENSe:WCDMa:SIGNaling<Instance>:UECapability:HSDPa
SENSe:WCDMa:SIGNaling<Instance>:UECapability:GENeral
SENSe:WCDMa:SIGNaling<Instance>:UECapability:MRAT
SENSe:WCDMa:SIGNaling<Instance>:UECapability:MMODe
SENSe:WCDMa:SIGNaling<Instance>:UECapability:PUPLink
SENSe:WCDMa:SIGNaling<Instance>:UECapability:PDOWnlink
SENSe:WCDMa:SIGNaling<Instance>:UECapability:RLC
SENSe:WCDMa:SIGNaling<Instance>:UECapability:PDCP
SENSe:WCDMa:SIGNaling<Instance>:UECapability:IMSVoice
- class UeCapability[source]
UeCapability commands group definition. 29 total commands, 4 Sub-groups, 10 group commands
- class GeneralStruct[source]
Structure for reading output parameters. Fields:
Release: int: Access stratum release indicator, e.g. Rel. 99, Rel. 5 Range: 5 to 99
Batt_Consum_Opt: enums.YesNoStatus: NO | YES Indicates whether the UE benefits from NW-based battery consumption optimization
Mimo_Only_Single_Stream: enums.YesNoStatus: NO | YES Indicates whether the UE supports MIMO only single stream
Emeas_Report: enums.YesNoStatus: NO | YES Indicates whether the UE supports E-UTRAN measurement reporting
Adj_Frq_Mea_No_Cm: enums.YesNoStatus: NO | YES Indicates whether the UE supports adjacent frequency measurements without compressed mode
In_Bfrq_Meas_No_Cm: enums.YesNoStatus: NO | YES Indicates whether the UE supports inter-band frequency measurements without compressed mode
Sib_11_Bis: enums.YesNoStatus: NO | YES Indicates whether the UE supports system information block 11bis
Csg: enums.YesNoStatus: NO | YES Indicates whether the UE supports closed subscriber group (CSG)
Csg_Proximity: enums.YesNoStatus: NO | YES Indicates whether the UE supports CSG proximity indication
Cell_Tx_Div_Dc: enums.YesNoStatus: NO | YES Indicates whether the UE supports cell-specific TX diversity in dual cell operation
Ncell_Si_Acq: enums.YesNoStatus: NO | YES Indicates whether the UE supports a neighbor cell system information acquisition
Cs_Vo_Hspa: enums.YesNoStatus: NO | YES Indicates whether the UE supports CS voice over HSPA
Dc_Mimo_Diff_Bands: enums.YesNoStatus: NO | YES Indicates whether the UE supports dual cell with MIMO operation in different bands
Utran_Anr: enums.YesNoStatus: NO | YES Indicates whether the UE supports ANR
Um_Rlc_Re_Est_Re_Cnf: enums.YesNoStatus: NO | YES Indicates whether the UE supports UM RLC reestablishment via reconfiguration
Rf_Mfbi: enums.YesNoStatus: NO | YES Indicates whether the UE supports multiple frequency band indicators
Reserved: enums.YesNoStatus: NO | YES Reserved for future
Ext_Meas: enums.YesNoStatus: NO | YES Indicates whether the UE supports extended measurements
Fr_99_Prach: enums.YesNoStatus: NO | YES Indicates whether the UE supports fallback to R99 PRACH in CELL_FACH state and IDLE mode
Conc_Deployment: enums.YesNoStatus: NO | YES Indicates whether the UE supports concurrent deployment of 2 ms and 10 ms TTI in a cell in CELL_FACH state and IDLE mode
Tti_Align_Harq: enums.YesNoStatus: NO | YES Indicates whether the UE supports TTI alignment and per HARQ process activation and deactivation in CELL_FACH state and IDLE mode
Mimodsr_4_X_4: enums.YesNoStatus: NO | YES Indicates whether the UE supports MIMO mode with four transmit antennas only with restriction to dual stream operation
Ncmc_Mimo: enums.YesNoStatus: NO | YES Indicates whether the UE supports non-contiguous multi-cell operation on two, three or four cells with single gap in one band with MIMO
Dsac_Ppac_Cell_Dch: enums.YesNoStatus: NO | YES Indicates whether the UE supports DSAC and PPAC update in CELL_DCH
Acc_Grps_Acc_Ctrl: enums.YesNoStatus: NO | YES Indicates whether the UE supports access groups -based access control
En_Tti_Switching: enums.YesNoStatus: NO | YES Indicates whether the UE supports enhanced TTI switching
Impl_Grant: enums.YesNoStatus: NO | YES Indicates whether the UE supports implicit grant handling
- class HsdpaStruct[source]
Structure for reading output parameters. Fields:
Hs_Pdsch: enums.YesNoStatus: NO | YES Indicates whether the UE supports the HS-PDSCH
Dl_Cap_Hsd_Sch: int: Supported DPCH data rate in case an HS-DSCH is configured simultaneously Range: 32 kbit/s to 384 kbit/s, Unit: kbit/s
Phys_Layer_Cat_R_5: int: HS-DSCH physical layer category of the UE for release 5 call setup Range: 1 to 24
Phys_Layer_Cat_R_7: int: HS-DSCH physical layer category of the UE for release 7 call setup Range: 1 to 24
Phys_Layer_Cat_R_8: int: HS-DSCH physical layer category of the UE for release 8 call setup Range: 1 to 24
Phys_Layer_Cat_R_9: int: HS-DSCH physical layer category of the UE for release 9 call setup
Hsdsch_Drx_Op: enums.YesNoStatus: NO | YES Indicates whether the UE supports the HS-DSCH DRX operation
Hs_Scch_Less: enums.YesNoStatus: NO | YES Indicates whether the UE supports the HS-SCCH less operation
Cell_Fach: enums.YesNoStatus: NO | YES Indicates whether the UE supports HS-PDSCH in CELL_FACH state
Cell_Pc_Hurapch: enums.YesNoStatus: NO | YES Indicates whether the UE supports the HS-PDSCH in CELL_PCH and URA_PCH states
Phys_Layer_Cat_R_10: int: HS-DSCH physical layer category of the UE for release 10 call setup Range: 29 to 32
Ma_Cehs: enums.YesNoStatus: NO | YES Indicates whether the UE supports the MAC-ehs
Phys_Layer_Cat_R_11: int: HS-DSCH physical layer category of the UE for release 11 call setup
Hsdpcch_Poff_Ext: enums.YesNoStatus: NO | YES Indicates whether the UE supports the values 9 and 10 of deltaACK, deltaNACK and deltaCQI power offset
Drx_Op_2nd_C: enums.YesNoStatus: NO | YES Indicates whether the UE supports HS-DSCH DRX operation with second DRX cycle in CELL_FACH state
Nb_Trg_Hsdpcch: enums.YesNoStatus: NO | YES Indicates whether the UE supports NodeB triggered HS-DPCCH transmission in CELL_FACH state
Hsdpcch_Ov_Hd_Rd: enums.YesNoStatus: NO | YES Indicates whether the UE supports HS-DPCCH overhead reduction
- class HsupaStruct[source]
Structure for reading output parameters. Fields:
Hsupa: enums.YesNoStatus: NO | YES Indicates whether the UE supports HSUPA
Phys_Layer_Cat_R_6: int: E-DCH physical layer category of the UE for release 6 call setup Range: 1 to 6
Phys_Layer_Cat_R_9: int: E-DCH physical layer category of the UE for release 9 call setup Range: 8 to 9
Phys_Layer_Cat_R_7: int: E-DCH physical layer category of the UE for release 7 call setup Range: 7 to 7
Phys_Layer_Cat_R_11: int: E-DCH physical layer category of the UE for release 11 call setup
Ergch_Bic_Trl: enums.YesNoStatus: NO | YES Indicates whether the UE supports common E-RGCH-based interference control in CELL_FACH state
- class ImsVoiceStruct[source]
Structure for reading output parameters. Fields:
Vo_Utra_Ps_Hs: enums.YesNoStatus: NO | YES Indicates if a UE supports IMS voice over UTRA PS HSPA connections
Srvcc_Utra_Utra: enums.YesNoStatus: NO | YES Indicates if a UE supports the single radio voice call continuity (SRVCC) from UTRA PS HS to UTRA CS
Srvcc_Utra_Geran: enums.YesNoStatus: NO | YES Indicates if a UE supports SRVCC from UTRA PS HS to GERAN CS
Rs_Rvcc_Ucs_Eu_Fdd: enums.YesNoStatus: NO | YES Indicates whether the UE supports reverse single radio voice call continuity (rSRVCC) handover from UTRA CS to EUTRA FDD
Rs_Rvcc_Ucs_Eu_Tdd: enums.YesNoStatus: NO | YES Indicates whether the UE supports rSRVCC handover from UTRA CS to EUTRA TDD
- class MratStruct[source]
Structure for reading output parameters. Fields:
Support_Gsm: enums.YesNoStatus: NO | YES Indicates whether the UE supports GSM
Multi_Carrier: enums.YesNoStatus: NO | YES Indicates whether the UE supports multi-carrier mode
Utran_Geran: enums.YesNoStatus: NO | YES Indicates whether the UE supports UTRAN to GERAN NACC
Handover_Gan: enums.YesNoStatus: NO | YES Indicates whether the UE supports CS handover to GAN
Ps_Inter_Rat: enums.YesNoStatus: NO | YES Indicates whether the UE supports Inter-RAT PS handover
Cipher_Alg_Uea_0: enums.YesNoStatus: NO | YES Indicates whether the UE supports ciphering algorithm UEA0
Cipher_Alg_Uea_1: enums.YesNoStatus: NO | YES Indicates whether the UE supports ciphering algorithm UEA1
Integrity_Uia_1: enums.YesNoStatus: NO | YES Indicates whether the UE supports integrity algorithm UIA1
Cipher_Alg_Uea_2: enums.YesNoStatus: NO | YES Indicates whether the UE supports ciphering algorithm UEA2
Integrity_Uia_2: enums.YesNoStatus: NO | YES Indicates whether the UE supports integrity algorithm UIA2
Trgt_Cell_Pre_Cfg: enums.YesNoStatus: NO | YES Indicates whether the UE supports target cell preconfiguration
Ps_Handover_Gan: enums.YesNoStatus: NO | YES Indicates whether the UE supports PS handover to GAN
Eutra_Fdd: enums.YesNoStatus: NO | YES Indicates whether the UE supports E-UTRA FDD
Eutra_Inter_Rat: enums.YesNoStatus: NO | YES Indicates whether the UE supports inter-RAT E-UTRA handover
U_2_Eu_Tra_Rrci_Dle: enums.YesNoStatus: NO | YES Indicates whether the UE supports cell reselection from UTRA CELL_PCH or URA_PCH to E-UTRA RRC_IDLE
Prio_Res_Utran: enums.YesNoStatus: NO | YES Indicates whether the UE supports priority reselection in UTRAN
Eutra_Fdd_Cfch: enums.YesNoStatus: NO | YES Indicates whether the UE supports E-UTRA measurements and reporting for CELL_FACH for E-UTRA FDD
Eutra_Tdd_Cdch: enums.YesNoStatus: NO | YES Indicates whether the UE supports E-UTRA measurements and reporting for CELL_FACH for E-UTRA TDD
Eutra_Mfbi: enums.YesNoStatus: NO | YES Indicates whether the UE supports E-UTRA multiple frequency band indicator measurements
Wlan_Ran_Rules: enums.YesNoStatus: NO | YES Indicates whether the UE supports RAN-assisted WLAN interworking RAN rules
Wlan_And_Sf: enums.YesNoStatus: NO | YES Indicates whether the UE supports RAN-assisted WLAN interworking ANDSF policies
- class PdcpStruct[source]
Structure for reading output parameters. Fields:
Srns: enums.YesNoStatus: NO | YES Support of lossless SRNS relocation
Rfc_2507: enums.YesNoStatus: NO | YES Support of IP header compression according to RFC 2507
Rfc_3095: enums.YesNoStatus: NO | YES Support of robust header compression according to RFC 3095
Rfc_3095_Ctx_Reloc: enums.YesNoStatus: NO | YES Support of context relocation applied to the RFC 3095 header compression protocol
Header_Comp: int: Maximum header compression context size supported by the UE. This parameter is only applicable if the UE supports header compression according to RFC 2507 Range: 1024 to 131072
Max_Rohc: int: Maximum number of header compression context sessions supported by the UE. This parameter is only applicable if the UE supports header compression according to RFC3095. Range: 2 to 16384
Reverse_Decomp: int: Number of packets that can be reverse decompressed by the decompressor in the UE Range: 0 to 65535
Pdu_Size_Change: enums.YesNoStatus: NO | YES Support of lossless DL RLC PDU size change
Rfc_3095_Rspace: int: 16384 | 32768 | 65536 | 131072 Support of RFC 3095 relocation space Unit: byte
- class PdownlinkStruct[source]
Structure for reading output parameters. Fields:
Simult_Transp_Ch: int: Maximum number of downlink transport channels that the UE is capable to process simultaneously, not considering the rate of each transport channel Range: 4 to 32
Simult_Cc_Tr_Ch: int: Maximum number of downlink coded composite transport channels (CCTrCH) that the UE is capable to process simultaneously. Interpret CCTrCH as consisting of DCH, FACH or DSCH. Range: 1 to 8
Tti_Transp_Block: int: Maximum total number of transport blocks received within transmission time intervals (TTIs) that end within the same 10 ms interval. This value includes all transport blocks that are to be simultaneously received by the UE on DCH, FACH, PCH and DSCH transport channels. Range: 4 to 512
Number_Of_Tfc: int: Maximum number of transport format combinations (TFC) in a downlink transport format combination set that the UE can store Range: 16 to 1024
Number_Of_Tf: int: Maximum number of downlink transport formats (TF) that the UE can store, where all transport formats for all downlink transport channels are counted Range: 32 to 1024
Turbo_Decoding: enums.YesNoStatus: NO | YES Support of turbo decoding
Rx_Bits_All: int: Maximum number of bits of all transport blocks being received at an arbitrary time instant. All bits are considered. Range: 640 bits to 163840 bits, Unit: bits
Rx_Bits_Conv: int: Maximum number of bits of all transport blocks being received at an arbitrary time instant. Only convolutionally coded bits are considered. Range: 640 bits to 163840 bits, Unit: bits
Rx_Bits_Turbo: int: Maximum number of bits of all transport blocks being received at an arbitrary time instant. Only turbo coded bits are considered. Range: 640 bits to 163840 bits, Unit: bits
Dpcch_Codes: int: Maximum number of DPCH codes to be simultaneously received. For DPCH in soft/softer handover, each DPCH is only calculated once. The capability does not include codes used for S-CCPCH. Range: 1 to 8
Physical_Ch_Bits: int: Maximum number of physical channel bits received in any 10 ms interval (DPCH, PDSCH, S-CCPCH) . For DPCH in soft/softer handover, each DPCH is only calculated once. Range: 600 bits to 76800 bits, Unit: bits
Sf_512: enums.YesNoStatus: NO | YES Support of spreading factor (SF) 512 in downlink.
Ma_Ciis: enums.YesNoStatus: NO | YES Support of MAC-i/is entity handling E-DCH
Fdpch: enums.YesNoStatus: NO | YES Support of FDD physical channel F-DPCH
Enhanced_Fdpch: enums.YesNoStatus: NO | YES Support of FDD physical channel enhanced F-DPCH
Dc_Henh: enums.DchEnhanced: NO | BASic | FULL Support of DCH enhancements
Simult_Dch_Enh_Cm: enums.YesNoStatus: NO | YES Support of simultaneous DCH enhancements and CM
Sdch_Enh_Dpcch: enums.YesNoStatus: NO | YES Support of simultaneous DCH enhancements and DPCCH DTX
Drx_Enh: enums.YesNoStatus: NO | YES Support of DRX enhancements
Dpcch_2_Trx: enums.YesNoStatus: NO | YES Support of FDD DPCCH2 transmission
Ftpi_Ch_Feedback: enums.YesNoStatus: NO | YES Support of FDD F-TPICH feedback from the multiflow assisting cell
- class PupLinkStruct[source]
Structure for reading output parameters. Fields:
Simult_Transp_Ch: int: Maximum number of uplink transport channels that the UE is capable to process simultaneously, not considering the rate of each transport channel Range: 4 to 32
Simult_Cc_Tr_Ch: int: Maximum number of uplink coded composite transport channels (CCTrCH) that the UE is capable to process simultaneously Range: 1 to 8
Tti_Transp_Block: int: Maximum total number of transport blocks transmitted within transmission time intervals (TTI) that start at the same time Range: 4 to 512
Number_Of_Tfc: int: Maximum number of transport format combinations (TFC) in an uplink transport format combination set that the UE can store Range: 16 to 1024
Number_Of_Tf: int: Maximum number of uplink transport formats (TF) that the UE can store, where all transport formats for all uplink transport channels are counted Range: 32 to 1024
Turbo_Decoding: enums.YesNoStatus: NO | YES Support of turbo decoding
Tx_Bits_All: int: Maximum number of bits of all transport blocks being transmitted at an arbitrary time instant. All bits are considered. Range: 640 bits to 163840 bits, Unit: bits
Tx_Bits_Conv: int: Maximum number of bits of all transport blocks being transmitted at an arbitrary time instant. Only convolutionally coded bits are considered. Range: 640 bits to 163840 bits, Unit: bits
Tx_Bits_Turbo: int: Maximum number of bits of all transport blocks being transmitted at an arbitrary time instant. Only turbo coded bits are considered. Range: 640 bits to 163840 bits, Unit: bits
Dpd_Ch_Bits: int: Maximum number of DPDCH bits the UE can transmit in 10 ms. The value applies to UE operation in non-compressed mode (if the value is 9600) or in both compressed and non-compressed mode (if the value is ≥9600) . Range: 600 bits to 57600 bits, Unit: bits
Dpcch_Dtx: enums.YesNoStatus: NO | YES Support of discontinuous uplink DPCCH transmission
Slot_Format_4: enums.YesNoStatus: NO | YES Support of DPCCH slot format 4
Common_Edch: enums.YesNoStatus: NO | YES Support of common E-DCH
Edpcch_Pwr_Boost: enums.YesNoStatus: NO | YES Support of E-DPCCH power boosting
Edpdch_Pwr_Interpol: enums.YesNoStatus: NO | YES Support of E-DPCCH power interpolation
Dtx_Enh: enums.YesNoStatus: NO | YES Support of DTX enhancements
Srv_Edc_Hcd_Op: enums.YesNoStatus: NO | YES Support of FDD serving E-DCH cell decoupling operation
Rlwo_Fdpch: enums.YesNoStatus: NO | YES Support of FDD radio link without DPCH or F-DPCH
- class RlcStruct[source]
Structure for reading output parameters. Fields:
Am_Buffer_Size: int: Maximum total buffer size across all RLC AM entities supported by the UE Range: 10 to 1000
Max_Rlc_Window: int: Maximum RLC window size supported by the UE Range: 0 to 4095
Am_Entities: int: Maximum number of AM entities supported by the UE Range: 3 to 30
Two_Logical_Ch: enums.YesNoStatus: NO | YES Support of AM entity configurated with two logical channels
- get_general() → GeneralStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:GENeral value: GeneralStruct = driver.sense.ueCapability.get_general()
Returns general UE capability information.
- return
structure: for return value, see the help for GeneralStruct structure arguments.
- get_hsdpa() → HsdpaStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:HSDPa value: HsdpaStruct = driver.sense.ueCapability.get_hsdpa()
Returns UE capability information related to HSDPA.
- return
structure: for return value, see the help for HsdpaStruct structure arguments.
- get_hsupa() → HsupaStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:HSUPa value: HsupaStruct = driver.sense.ueCapability.get_hsupa()
Returns UE capability information related to HSUPA.
- return
structure: for return value, see the help for HsupaStruct structure arguments.
- get_ims_voice() → ImsVoiceStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:IMSVoice value: ImsVoiceStruct = driver.sense.ueCapability.get_ims_voice()
Indicates the IMS voice capability of the UE as defined in 3GPP TS 25.331, section 10.3.3.14b.
- return
structure: for return value, see the help for ImsVoiceStruct structure arguments.
- get_mmode() → RsCmwWcdmaSig.enums.UtraMode[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:MMODe value: enums.UtraMode = driver.sense.ueCapability.get_mmode()
Returns UE capability information indicating whether the UE supports UTRA FDD or TDD or both.
- return
utra: FDD | TDD | BOTH
- get_mrat() → MratStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:MRAT value: MratStruct = driver.sense.ueCapability.get_mrat()
Returns UE capability information indicating the radio access technologies (RAT) that the UE supports.
- return
structure: for return value, see the help for MratStruct structure arguments.
- get_pdcp() → PdcpStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:PDCP value: PdcpStruct = driver.sense.ueCapability.get_pdcp()
Returns UE capability information indicating in which way the UE supports the packet data convergence protocol (PDCP) described in 3GPP TS 25.323
- return
structure: for return value, see the help for PdcpStruct structure arguments.
- get_pdownlink() → PdownlinkStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:PDOWnlink value: PdownlinkStruct = driver.sense.ueCapability.get_pdownlink()
Returns UE capability information describing the capacity of the UE to process and store downlink channels.
- return
structure: for return value, see the help for PdownlinkStruct structure arguments.
- get_pup_link() → PupLinkStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:PUPLink value: PupLinkStruct = driver.sense.ueCapability.get_pup_link()
Returns UE capability information describing the capacity of the UE to process and store uplink channels.
- return
structure: for return value, see the help for PupLinkStruct structure arguments.
- get_rlc() → RlcStruct[source]
# SCPI: SENSe:WCDMa:SIGNaling<instance>:UECapability:RLC value: RlcStruct = driver.sense.ueCapability.get_rlc()
Returns UE capability information indicating in which way the UE supports the radio link control acknowledged mode (RLC AM) .
- return
structure: for return value, see the help for RlcStruct structure arguments.
Cloning the Group
# Create a clone of the original group, that exists independently
group2 = driver.sense.ueCapability.clone()
Subgroups