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author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 12 Jun 2016 19:06:34 +0000 |
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;******************************************************************************** ;*** File : mphc.pdf ;*** Creation : Wed Mar 11 09:58:30 CST 2009 ;*** XSLT Processor : Apache Software Foundation / http://xml.apache.org/xalan-j / supports XSLT-Ver: 1 ;*** Copyright : (c) Texas Instruments AG, Berlin Germany 2002 ;******************************************************************************** ;*** Document Type : Service Access Point Specification ;*** Document Name : mphc ;*** Document No. : 10.10.10.011 ;*** Document Date : 2003-04-03 ;*** Document Status: BEING_PROCESSED ;*** Document Author: MSB ;******************************************************************************** PRAGMA SRC_FILE_TIME "Thu Nov 29 09:49:44 2007" PRAGMA LAST_MODIFIED "2003-04-03" PRAGMA ID_AND_VERSION "10.10.10.011" CONST BA_LIST_SIZE 33 ; CONST MAX_NCELL_EOTD_L1 12 ; CONST MAX_NCELL 6 ; number of neighbour cells in measurement reports CONST MAX_CARRIERS 548 ; CONST BCCH_LIST_SIZE 32 ; CONST MAX_MEAS_VALUES 8 ; CONST MAX_L2_FRAME_SIZE 23 ; CONST MAX_MA_CARRIER 64 ; CONST MAX_SCHED_SIZE 10 ; CONST ADC_LIST_SIZE 5 ; CONST MAX_KC_STRING_SIZE 16 ; CONST NB_MAX_GSM_BANDS 12 %TI_PS_FF_QUAD_BAND_SUPPORT% ; number of maximum GSM bands VALTAB VAL_bs_pa_mfrms VAL 2 "2 Multiframe Periods" VAL 3 "3 Multiframe Periods" VAL 4 "4 Multiframe Periods" VAL 5 "5 Multiframe Periods" VAL 6 "6 Multiframe Periods" VAL 7 "7 Multiframe Periods" VAL 8 "8 Multiframe Periods" VAL 9 "9 Multiframe Periods" VALTAB VAL_bcch_combined VAL 0 COMB_CCCH_NOT_COMB "CCCH not combined with SDCCH" VAL 1 COMB_CCCH_COMB "CCCH combined with SDCCH" VALTAB VAL_ccch_group VAL 0 CCCH_GROUP_TS0 "equal to timeslot 0" VAL 1 CCCH_GROUP_TS2 "equal to timeslot 2" VAL 2 CCCH_GROUP_TS4 "equal to timeslot 4" VAL 3 CCCH_GROUP_TS6 "equal to timeslot 6" VALTAB VAL_page_block_index VAL 0 - 8 "for non-combined" VAL 0 - 2 "for combined" VALTAB VAL_page_mode VAL 0 PGM_NORMAL "Use normal paging" VAL 1 PGM_EXTENDED "Use extended paging" VAL 2 PGM_REORG "use reorganise paging" VALTAB VAL_modulus VAL 1 - 65536 "valid range for modulus" VAL 0 - 65535 "valid range for relative position" VALTAB VAL_radio_freq VAL 1 - 124 "Layer 1 Encoded Frequency" VAL 1 - 174 "Layer 1 Encoded Frequency" VAL 512 - 810 "Layer 1 Encoded Frequency" VAL 811 - 885 "Layer 1 Encoded Frequency" VAL 1 - 498 "Layer 1 Encoded Frequency" VAL 1 - 548 "Layer 1 Encoded Frequency" VAL 128 - 251 "Layer 1 Encoded Frequency" VAL 1 - 424 "Layer 1 Encoded Frequency" VALTAB VAL_l2_channel %!TI_DUAL_MODE% VAL 1 L2_CHANNEL_SACCH "SACCH block" VAL 2 L2_CHANNEL_SDCCH "SDCCH block" VAL 3 L2_CHANNEL_FACCH_H "FACCH halfrate block" VAL 4 L2_CHANNEL_FACCH_F "FACCH fullrate block" VAL 5 L2_CHANNEL_CCCH "CCCH block" VAL 6 L2_CHANNEL_NBCCH "normal BCCH block" VAL 7 L2_CHANNEL_PCH "PCH block" VAL 8 L2_CHANNEL_EPCH "extended PCH block" VAL 9 L2_CHANNEL_CBCH "CBCH block" VAL 10 L2_CHANNEL_EBCCH "extended BCCH" VALTAB VAL_error_flag VAL 0 VALID_BLOCK "valid block received" VAL 1 INVALID_BLOCK "invalid block received" VALTAB VAL_tc VAL 0 - 7 "valid range" VALTAB VAL_fn_offset VAL 0 - 2715647 "valid range" VALTAB VAL_time_alignment VAL 0 - 4999 "valid range" VALTAB VAL_timing_validity VAL 0 TV_INVALID_TIMING_INFO "timing info shall not be used, do full FB and SB detection" VAL 1 TV_APPROX_TIMING_INFO "timing info may be used, do full FB and SB detection" VAL 2 TV_VALID_TIMING_INFO "read SB based based on timing info (only for ncell)" VAL 3 TV_RTD_TIMING_INFO %REL99 AND TI_PS_FF_RTD% "Timing information is based on Real Time Difference information provided by the network for synchronized and non synchronized neighbor cell. Layer 1 shall carry out a full FB and SB detect but may delay the opening of the receive window based upon the fn_offset, time_alignment infor-mation supplied and the margin time due to un-known of exact OTD of the neighbor cell." VALTAB VAL_search_mode VAL 0 SM_WIDE_MODE "wideband capture and open-loop afc algorithm" VAL 1 SM_NARROW_MODE "narrowband capture and open-loop afc algorithm" VALTAB VAL_bsic VAL 0 - 63 "base station identification code" VALTAB VAL_tsc VAL 0 - 7 "type of sequence code" VALTAB VAL_bcch_blocks_required VAL 1 SI_NBLOCK_0 "TC 0 normal" VAL 2 SI_NBLOCK_1 "TC 1 normal" VAL 4 SI_NBLOCK_2 "TC 2 normal" VAL 8 SI_NBLOCK_3 "TC 3 normal" VAL 16 SI_NBLOCK_4 "TC 4 normal" VAL 32 SI_NBLOCK_5 "TC 5 normal" VAL 64 SI_NBLOCK_6 "TC 6 normal" VAL 128 SI_NBLOCK_7 "TC 7 normal" VAL 256 SI_EBLOCK_0 "TC 0 extended" VAL 512 SI_EBLOCK_1 "TC 1 extended" VAL 1024 SI_EBLOCK_2 "TC 2 extended" VAL 2048 SI_EBLOCK_3 "TC 3 extended" VAL 4096 SI_EBLOCK_4 "TC 4 extended" VAL 8192 SI_EBLOCK_5 "TC 5 extended" VAL 16384 SI_EBLOCK_6 "TC 6 extended" VAL 32768 SI_EBLOCK_7 "TC 7 extended" VAL 0x0002 NCELL_BCCH_SI_2 "PLMN Search" VAL 0x00CC NCELL_BCCH_SI_3_4 "Ncell BCCH" VAL 0x00CE NCELL_BCCH_SI_2_3_4 "PLMN Search" VAL 0x8844 NCELL_BCCH_SI_3_7_8 "Ncell BCCH" VALTAB VAL_channel_type VAL 1 CH_TCH_F "TCH/F" VAL 2 CH_TCH_H "TCH/H" VAL 3 CH_SDCCH_4 "SDCCH/4" VAL 4 CH_SDCCH_8 "SDCCH/8" VALTAB VAL_timeslot_no VAL 0 - 7 "timeslot number 0-7" VALTAB VAL_h VAL 0 NO_HOPPING "no hopping" VAL 1 HOPPING "hopping" VALTAB VAL_hsn VAL 0 - 63 "hopping sequence number" VALTAB VAL_maio VAL 0 - 63 "mobile allocation index offset" VALTAB VAL_cbch_select VAL 1 CBCH_READ_EXT "read extended CBCH" VAL 0 CBCH_READ_NORM "read normal CBCH" VALTAB VAL_schedule_length VAL 1 - 49 "length of the schedule period in blocks" VAL 0 CBCH_NO_SCHED "no scheduling provided" VALTAB VAL_tb_bitmap VAL 1 CBCH_NORM_BLOCK2 "norm block 2" VAL 2 CBCH_NORM_BLOCK3 "norm block 3" VAL 4 CBCH_NORM_BLOCK4 "norm block 4" VAL 8 CBCH_EXT_BLOCK2 "ext block 2" VAL 16 CBCH_EXT_BLOCK3 "ext block 3" VAL 32 CBCH_EXT_BLOCK4 "ext block 4" VAL 7 CBCH_NORM_BLOCK234 "request all blocks" VAL 56 CBCH_EXT_BLOCK234 "all ext blocks" VALTAB VAL_normal_cbch VAL 0 CBCH_DONT_STOP "dont stop cbch" VAL 1 CBCH_STOP "stop cbch" VALTAB VAL_txpwr VAL 0 - 31 "Coded as the binary representation of the power control level as defined in GSM 05.05 section 4.1 and is in the range 0 - 31." VALTAB VAL_powerclass_gsm VAL 1 POW_CLASS_1 "Class 1" VAL 2 POW_CLASS_2 "Class 2" VAL 3 POW_CLASS_3 "Class 3" VAL 4 POW_CLASS_4 "Class 4" VAL 5 POW_CLASS_5 "Class 5" VALTAB VAL_dtx_allowed VAL 0 DTX_NOTALLOWED "DTX is not allowed" VAL 1 DTX_ALLOWED "DTX is allowed" VALTAB VAL_pwrc VAL 0 PWRC_NOT_SET "PWRC is not set" VAL 1 PWRC_SET "PWRC is set" VALTAB VAL_channel_mode VAL 0 CM_SIGNALLING_ONLY "signalling only" VAL 1 CM_TCH_FS "TCH full rate speech" VAL 2 CM_TCH_HS "TCH half rate speech" VAL 3 CM_TCH_96 "TCH data 9600" VAL 4 CM_TCH_F_48 "TCH data full rate 4800" VAL 5 CM_TCH_H_48 "TCH data half rate 4800" VAL 6 CM_TCH_F_24 "TCH data full rate 2400" VAL 7 CM_TCH_H_24 "TCH data half rate 2400" VAL 8 CM_TCH_EFR "TCH" VAL 9 CM_TCH_144 "TCH" VAL 10 CM_TCH_AHS "TCH AMR half rate" VAL 11 CM_TCH_AFS "TCH AMR full rate" VALTAB VAL_cipher_mode VAL 0 CI_NO_CIPHERING "ciphering off" VAL 1 CI_CIPHERING "ciphering on" VALTAB VAL_a5_algorithm VAL 0 A5_1 "A5/1 algorithm" VAL 1 A5_2 "A5/2 algorithm" VAL 2 A5_3 "A5/3 algorithm" VAL 3 A5_4 "A5/4 algorithm" VAL 4 A5_5 "A5/5 algorithm" VAL 5 A5_6 "A5/6 algorithm" VAL 6 A5_7 "A5/7 algorithm" VALTAB VAL_cause VAL 0 HO_COMPLETE "success" VAL 1 HO_TIMEOUT "timeout" VAL 2 HO_SYNC_FAIL %REL99 AND FF_BHO% "BSIC error: Synchronization failure or BSIC mismatch (blind HO)" VALTAB VAL_nci VAL 0 HO_TA_OUT_IGNORED "timing advance out of range is ignored" VAL 1 HO_TA_OUT_NOT_IGNORED "timing advance out of range is not ignored" VALTAB VAL_timing_advance_valid VAL 0 HO_TA_NOT_VALID "timing advance information is not valid" VAL 1 HO_TA_VALID "timing advance information is valid" VALTAB VAL_dtx_used VAL 0 DTX_NOT_USED "DTX was not used" VAL 1 DTX_USED "DTX was used" VALTAB VAL_meas_valid VAL 0 MEAS_ARE_NOT_VALID "measurement values are not valid" VAL 1 MEAS_ARE_VALID "measurement values are valid" VALTAB VAL_bcch_freq VAL 1 - 124 "Layer 1 Encoded Frequency" VAL 1 - 174 "Layer 1 Encoded Frequency" VAL 512 - 810 "Layer 1 Encoded Frequency" VAL 512 - 885 "Layer 1 Encoded Frequency" VAL 1 - 498 "Layer 1 Encoded Frequency" VAL 1 - 548 "Layer 1 Encoded Frequency" VALTAB VAL_sub_channel VAL 0 - 3 "SDCCH/4" VAL 0 - 7 "SDCCH/8" VAL 0 - 1 "TCH/H" VAL 0 SUB_CH_0 "sub channel 0" VAL 1 SUB_CH_1 "sub channel 1" VALTAB VAL_frame_erasure VAL 0 TCH_LOOP_A "TCH loop A" VAL 1 TCH_LOOP_B "TCH loop B" VAL 2 TCH_LOOP_C "TCH loop C" VAL 3 TCH_LOOP_D "TCH loop D" VAL 4 TCH_LOOP_E "TCH loop E" VAL 5 TCH_LOOP_F "TCH loop F" VAL 6 TCH_LOOP_I "TCH loop I" VALTAB VAL_tested_device VAL 0 DAI_NO_TEST "no test" VAL 1 DAI_S_DEC "speech decoder" VAL 2 DAI_S_COD "speech coder" VAL 4 DAI_ACOUSTIC "acoustic tests" VALTAB VAL_sleep_mode VAL 0 NO_SLEEP "no sleep mode" VAL 1 SMALL_SLEEP "small sleep mode" VAL 2 BIG_SLEEP "big sleep mode" VAL 3 DEEP_SLEEP "deep sleep mode" VAL 4 ALL_SLEEP "all sleep modes" VALTAB VAL_Clocks VAL 1 CL_ARMIO "ARMIO_CLK" VAL 2 CL_RIFR "RIF_CLKR" VAL 4 CL_RIFX "RIF_CLKX" VAL 16 CL_RIF13 "RIF_CLK13" VAL 32 CL_NCLK "UWIRE_CLK" VAL 64 CL_SIM "SIM_CLK" VAL 128 CL_TSP "TSP_CLK" VAL 256 CL_TIMER "TIMER_CLK" VAL 512 CL_TPU "TPU_CLK" VAL 1024 CL_UART "UART_CLK" VAL 2048 CL_SW_CLOCK "SWITCH_IRQ_CLK" VALTAB VAL_sb_flag VAL 0 NO_SB_FOUND "synchron burst not found (fn_offset, time_alignment and bsic are not valid)" VAL 1 SB_FOUND "synchron burst found (fn_offset, time_alignment and bsic are valid" VALTAB VAL_gprs_prio VAL 0 GPRS_PRIO_TOP "Higher than serving cell" VAL 1 GPRS_PRIO_HIGH "Higher than normal ncell bcch reading" VAL 2 GPRS_PRIO_NORM "Normal" VALTAB VAL_radio_band_config VAL 1 STD_900 "GSM 900" VAL 2 STD_EGSM "extended GSM" VAL 3 STD_1900 "PCS 1900" VAL 4 STD_1800 "DCS 1800" VAL 5 STD_DUAL "GSM 900 / DCS 1800" VAL 6 STD_DUAL_EGSM "extended GSM / DCS 1800" VAL 7 STD_850 "GSM 850" VAL 8 STD_DUAL_US "GSM 850 / PCS 1900" VALTAB VAL_initial_codec_mode VAL 0 CODEC_MODE_1 "lowest codec mode" VAL 1 CODEC_MODE_2 "second lowest mode" VAL 2 CODEC_MODE_3 "third lowest mode" VAL 3 CODEC_MODE_4 "highest mode" VALTAB VAL_eodt_data_valid VAL 0 EOTD_NOT_PRES "EOTD data not present" VAL 1 EOTD_PRES "EOTD data present" VALTAB VAL_eotd VAL 0 NC_MON "neighbour cell monitoring" VAL 1 EOTD_MON "EOTD monitoring" VALTAB VAL_mode VAL 0 MODE_IDLE "idle" VAL 1 MODE_DEDIC "dedicated or packet transfer" VALTAB VAL_handover_type %REL99 AND FF_BHO% VAL 0 HOT_REGULAR %REL99 AND FF_BHO% "regular handover (time difference information provided)" VAL 1 HOT_BLIND %REL99 AND FF_BHO% "blind handover (cell not synchronized)" VAL 255 HOT_NONE %REL99 AND FF_BHO% "Invalid handover type" VALTAB VAL_radio_band %TI_PS_FF_QUAD_BAND_SUPPORT% VAL 0 RADIO_BAND_PGSM900 %TI_PS_FF_QUAD_BAND_SUPPORT% "PGSM 900" VAL 1 RADIO_BAND_GSM850 %TI_PS_FF_QUAD_BAND_SUPPORT% "GSM 850" VAL 2 RADIO_BAND_PCS1900 %TI_PS_FF_QUAD_BAND_SUPPORT% "PCS 1900" VAL 3 RADIO_BAND_DCS1800 %TI_PS_FF_QUAD_BAND_SUPPORT% "DCS 1800" VAL 4 RADIO_BAND_GSM750 %TI_PS_FF_QUAD_BAND_SUPPORT% "GSM 750" VAL 5 RADIO_BAND_GSM480 %TI_PS_FF_QUAD_BAND_SUPPORT% "GSM 480" VAL 6 RADIO_BAND_GSM450 %TI_PS_FF_QUAD_BAND_SUPPORT% "GSM 450" VAL 7 RADIO_BAND_T_GSM380 %TI_PS_FF_QUAD_BAND_SUPPORT% "T GSM 380" VAL 8 RADIO_BAND_T_GSM410 %TI_PS_FF_QUAD_BAND_SUPPORT% "T GSM 410" VAL 9 RADIO_BAND_T_GSM900 %TI_PS_FF_QUAD_BAND_SUPPORT% "T GSM 900" VAL 10 RADIO_BAND_EGSM900 %TI_PS_FF_QUAD_BAND_SUPPORT% "EGSM 900" VAL 11 RADIO_BAND_RGSM900 %TI_PS_FF_QUAD_BAND_SUPPORT% "RGSM 900" VAR param "dummy parameter" B VAR bs_pa_mfrms "Multiframe Period" B VAL @p_mphc - VAL_bs_pa_mfrms@ VAR bs_ag_blks_res "Blocks reserved for AGCH" B VAR bcch_combined "combined BCCH flag" B VAL @p_mphc - VAL_bcch_combined@ VAR ccch_group "CCCH group" B VAL @p_mphc - VAL_ccch_group@ VAR page_group "paging group" B VAR page_block_index "page block index" B VAL @p_mphc - VAL_page_block_index@ VAR page_mode "paging mode" B VAL @p_mphc - VAL_page_mode@ VAR schedule_array_size "number of channel numbers" B VAR modulus "modulo part" S VAL @p_mphc - VAL_modulus@ VAR relative_position "relative part" S VAR radio_freq "channel number" S VAL @p_mphc - VAL_radio_freq@ VAR l2_channel "layer 2 channel type" B VAL @p_mphc - VAL_l2_channel@ VAR error_flag "error cause" B VAL @p_mphc - VAL_error_flag@ VAR content "frame content" B VAR tc "multiframe number modulo 8" B VAL @p_mphc - VAL_tc@ VAR fn "frame number" L VAR fn_offset "frame offset" L VAL @p_mphc - VAL_fn_offset@ VAR time_alignment "Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999)" L VAL @p_mphc - VAL_time_alignment@ VAR time_alignmnt "Difference in quarter bits between serving and handover destination cell (0 to 5000)" L VAL @p_mphc - VAL_time_alignment@ VAR timing_validity "timing validity" B VAL @p_mphc - VAL_timing_validity@ VAR search_mode "search mode" B VAL @p_mphc - VAL_search_mode@ VAR bsic "base station identification code" B VAL @p_mphc - VAL_bsic@ VAR radio_freq_array_size "Number of entries in the radio_freq_array within a stop request. When 6 (maximum number of requests to be served in parallel) are provided the message is interpreted as a complete process stop request." B VAR nbr_of_carriers "The number of cell carriers measured during the PCH block" B VAR num_of_chans "Number of valid carrier numbers contained in the BA list (chan_number) array (1 to 33)" B VAR rf_chan_cnt "number of channels in the mobile allocation list or number of bcch in the list" S VAR radio_freq_array "channel list" S VAR tsc "training sequence code" B VAL @p_mphc - VAL_tsc@ VAR bcch_blocks_required "sys info bitmap" S VAL @p_mphc - VAL_bcch_blocks_required@ VAR rxlev "The accumulated result of a power measurements. The signal strength units used are based on those described in GSM 05.08 (ETS 300 911) section 8.1.4. The measurements continue above 63 and below 0" B VAR s_rxlev "The serving cell received power level (average of the 4 PCH bursts read during the particular PCH block)." B VAR ba_id "band allocation identification" B VAR qual_acc_idle "accumulated rxqual meas. on different channels in Idle mode - error bits" L VAR qual_nbr_meas_idle "accumulated rxqual meas. on different channels in Idle mode - total number of bits decoded" L VAR next_radio_freq_measured "channel index" B VAR channel_type "SDCCH channel type" B VAL @p_mphc - VAL_channel_type@ VAR timeslot_no "timeslot number" B VAL @p_mphc - VAL_timeslot_no@ VAR h "hopping" B VAL @p_mphc - VAL_h@ VAR maio "mobile allocation index offset" B VAL @p_mphc - VAL_maio@ VAR hsn "hopping sequence number" B VAL @p_mphc - VAL_hsn@ VAR cbch_select "which cbch channel to read" B VAL @p_mphc - VAL_cbch_select@ VAR schedule_length "length of schedule period" B VAL @p_mphc - VAL_schedule_length@ VAR first_blocks_0 "Bitmap defining a set of blocks to be read during the schedule period. The bits represent the blocks as follows: bit MSB=31 -> block=32; bit LSB=0 -> block=1." L VAR first_blocks_1 "Bitmap defining a set of blocks to be read during the schedule period. The bits represent the blocks as follows: bit MSB=15 -> block=48; bit LSB=0 -> block=33." S VAR tb_bitmap "blocks to read" B VAL @p_mphc - VAL_tb_bitmap@ VAR normal_cbch "normal cbch" B VAL @p_mphc - VAL_normal_cbch@ VAR extended_cbch "extended cbch" B VAR txpwr "Indicates the power level which the mobile should use for transmission ." B VAL @p_mphc - VAL_txpwr@ VAR txpwr_used "TX power level currently used by L1 (For TEST MOBILE only)." B VAR rand "TDMA frames before sending RACH burst" B VAR channel_request "content of channel request message" B VAR powerclass_gsm "GSM power class of the MS." B VAL @p_mphc - VAL_powerclass_gsm@ VAR powerclass_dcs "DCS power class of the MS." B VAR timing_advance "timing advance" B VAR t1 "N32; named n32 in S922.doc" B VAR t3 "N51; named n51 in S922.doc" B VAR t2 "N26; named n26 in S922.doc" B VAR start_time_present "start time present" B VAR maio_bef_sti "MAIO used before starting time" B VAR dtx_allowed "DTX allowed" B VAL @p_mphc - VAL_dtx_allowed@ VAR pwrc "power control indicator" B VAL @p_mphc - VAL_pwrc@ VAR channel_mode "channel mode" B VAL @p_mphc - VAL_channel_mode@ VAR channel_mode_1 "channel mode" B VAR channel_mode_2 "channel mode" B VAR cipher_mode "cipher mode" B VAL @p_mphc - VAL_cipher_mode@ VAR a5_algorithm "A5 algorithm" B VAL @p_mphc - VAL_a5_algorithm@ VAR A "Kc values" B VAR ncc "national colour code" B VAR bcc "base station colour code" B VAR bcch_carrier "BCCH carrier" S VAR ho_acc "handover access" B VAR report_time_diff "time difference" B VAR cause "handover success" B VAL @p_mphc - VAL_cause@ VAR nci "normal cell indication" B VAL @p_mphc - VAL_nci@ VAR timing_advance_valid "timing advance information valid flag" B VAL @p_mphc - VAL_timing_advance_valid@ VAR dtx_used "DTX used flag" B VAL @p_mphc - VAL_dtx_used@ VAR meas_valid "measurement valid flag" B VAL @p_mphc - VAL_meas_valid@ VAR rxlev_full_acc "rxlevel full serving cell accumulated" S VAR rxlev_sub_acc "rxlevel sub serving cell accumulated" S VAR rxlev_full_nbr_meas "number of rxlevel full serving cell samples" B VAR rxlev_sub_nbr_meas "number of rxlevel sub serving cell samples" B VAR rxqual_full_acc_errors "rxqual full serving cell bit errors" S VAR rxqual_sub_acc_errors "rxlevel sub serving cell bit errors" S VAR rxqual_full_nbr_bits "number of examined bits for rxqual full serving cell" S VAR rxqual_sub_nbr_bits "number of examined bits for rxqual sub serving cell" S VAR no_of_ncells_meas "number of neighbour cell results" B VAR bcch_freq "channel number" S VAL @p_mphc - VAL_bcch_freq@ VAR rxlev_acc "accumulated rx level" S VAR rxlev_nbr_meas "nbr of rxlevel samples" B VAR sub_channel "sub channel" B VAL @p_mphc - VAL_sub_channel@ VAR frame_erasure "TCH loop type" B VAL @p_mphc - VAL_frame_erasure@ VAR tested_device "DAI test device" B VAL @p_mphc - VAL_tested_device@ VAR sleep_mode "sleep mode" B VAL @p_mphc - VAL_sleep_mode@ VAR Clocks "clock modules" S VAL @p_mphc - VAL_Clocks@ VAR sb_flag "Flag indicating whether synchronisation channel was read correctly or not" B VAL @p_mphc - VAL_sb_flag@ VAR shared_ptr "Pointer" L VAR adc_results "result" S VAR gprs_prio "Gprs priority" B VAL @p_mphc - VAL_gprs_prio@ VAR ccch_lev "Power strength level" B VAR radio_band_config "Bitmap of frequency bands" B VAL @p_mphc - VAL_radio_band_config@ VAR noise_suppression_control_bit "noise suppression control bit" B VAR initial_codec_mode_indicator "initial code mode indicator" B VAR initial_codec_mode "initial code mode" B VAL @p_mphc - VAL_initial_codec_mode@ VAR active_codec_set "active codec set" B VAR threshold "threshold" B VAR hysteresis "hysteresis" B VAR a_eotd_crosscor "Cross correlation" T VAR d_eotd_first "Delay to first correlation" T VAR d_eotd_max "Delay to maximum correlation" T VAR eodt_data_valid "EOTD data present" B VAL @p_mphc - VAL_eodt_data_valid@ VAR eotd "EOTD or neighbour cell monitoring" B VAL @p_mphc - VAL_eotd@ VAR list_size "1 up to 12 neighbour cells" B VAR mode "idle or dedicated mode" B VAL @p_mphc - VAL_mode@ VAR neigh_id "reserved" B VAR attempt "reserved" B VAR pm "reserved" L VAR toa "reserved" L VAR angle "reserved" L VAR snr "reserved" L VAR fn_sb_neigh "reserved" L VAR fn_in_sb "reserved" L VAR toa_correction "reserved" L VAR delta_fn "reserved" L VAR delta_qbit "reserved" L VAR facch_dl_count "reserved" B VAR facch_ul_count "reserved" B VAR d_eotd_nrj "sum of amplitudes" L VAR time_tag "Time tag" L VAR dsp_code_version "Version number of the DSP code" S VAR dsp_checksum "Checksum of DSP code" S VAR dsp_patch_version "Version number of the DSP patch code" S VAR mcu_alr_version "Version number of the MCU ALR code" S VAR mcu_gprs_version "Version number of the MCU GPRS code" S VAR mcu_tm_version "Version number of the Testmode" S VAR handover_type %REL99 AND FF_BHO% "handover type" B VAL @p_mphc - VAL_handover_type@ VAR rxlev_val_acc %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% "RXLEV accumuated on SACCH for EMR" T VAR rxlev_val_nbr_meas %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% "Number of rxlev_val measurements taken on serving cell" B VAR mean_bep_block_acc %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% "Accumulated value of Mean Bit Error Probability of a block taken over a reporting period." L VAR cv_bep_block_acc %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% "Accumulated value of coefficient of variation of BEP of a block taken over a reporting period." S VAR mean_bep_block_num %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% "Number of block used to accumulate the MEAN_BEPblock" S VAR cv_bep_block_num %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% "Number of block used to accumulate the CV_BEPblock" S VAR nbr_rcvd_blocks %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% "Number of correctly decoded block during a reporting period." B VAR radio_band %TI_PS_FF_QUAD_BAND_SUPPORT% "Radio Bands Supported" B VAR power_class %TI_PS_FF_QUAD_BAND_SUPPORT% "Power Class associated with each radio band" B COMP schedule_array "positional info" { modulus ; modulo part relative_position ; relative part } COMP l2_frame "layer 2 frame" { content [MAX_L2_FRAME_SIZE] ; frame content } COMP chan_list "channel list" { radio_freq [BA_LIST_SIZE] ; channel number } COMP result "measurement results" { radio_freq ; channel number rxlev ; rx level } COMP rf_channel "channel choice" { maio ; mobile allocation index offset hsn ; hopping sequence number } COMP chan_sel "channel selector" { h ; hopping rf_channel ; channel choice } COMP cbch_desc "CBCH channel description" { chan_sel ; channel selector channel_type ; SDCCH channel type sub_channel ; sub channel timeslot_no ; timeslot number tsc ; training sequence code } TYPEDEF COMP cbch_desc channel_desc "channel description" TYPEDEF COMP cbch_desc channel_desc_1 "channel description" TYPEDEF COMP cbch_desc channel_desc_2 "channel description" TYPEDEF COMP cbch_desc channel_desc_1_bef_sti "channel description before starting time" TYPEDEF COMP cbch_desc channel_desc_2_bef_sti "channel description before starting time" COMP rf_chan_no "channel list" { radio_freq [MAX_MA_CARRIER] ; channel number } COMP cbch_freq_list "CBCH frequency list" { rf_chan_cnt ; no of hopping channels rf_chan_no ; hopping channels } TYPEDEF COMP cbch_freq_list frequency_list "frequency list" TYPEDEF COMP cbch_freq_list frequency_list_bef_sti "frequency list before starting time" COMP start_time "starting time" { t1 ; N32; named n32 in S922.doc t3 ; N51; named n51 in S922.doc t2 ; N26; named n26 in S922.doc } COMP starting_time "starting time" { start_time_present ; start time present start_time ; starting time } COMP new_ciph_param "Cipher Key Kc" { A [MAX_KC_STRING_SIZE] ; Kc values } TYPEDEF COMP new_ciph_param cipher_key "encryption key" COMP cell_description "cell description" { ncc ; national colour code bcc ; base station colour code bcch_carrier ; BCCH carrier } COMP handover_command "Handover Command" { cell_description ; cell description channel_desc_1 ; channel description 1 channel_mode_1 ; channel mode 1 starting_time ; starting time ho_acc ; handover access txpwr ; handover power report_time_diff ; report time difference frequency_list ; frequency list channel_desc_2 ; channel description 2 channel_mode_2 ; channel mode 2 frequency_list_bef_sti ; frequency list before starting time channel_desc_1_bef_sti ; channel description 1 before starting time channel_desc_2_bef_sti ; channel description 2 before starting time cipher_mode ; cipher mode a5_algorithm ; A5 algorithm } COMP res_list "neighbour cell measurement results" { bcch_freq ; channel number rxlev_acc ; accumulated rx level rxlev_nbr_meas ; nbr of rxlevel samples } COMP ncell_meas "neighbour cell measurement results" { res_list [BA_LIST_SIZE] ; neighbour cell results } COMP chan_number "channel list" { radio_freq [BCCH_LIST_SIZE] ; channel number } COMP bcch_allocation "BCCH allocation" { rf_chan_cnt ; number of channels chan_number ; channel list } COMP amr_configuration "Parameters for AMR" { noise_suppression_control_bit ; noise suppression control bit initial_codec_mode_indicator ; initial code mode indicator initial_codec_mode ; initial code mode active_codec_set ; active codec set threshold [3] ; threshold hysteresis [3] ; hysteresis } COMP ncell_list "Parameters of a neighbour cell" { radio_freq ; channel number fn_offset ; frame offset time_alignment ; time alignment timing_validity ; timing validity } COMP RADIO_FRAME %!TI_DUAL_MODE% "Layer 2 frame" { content AS A [MAX_L2_FRAME_SIZE] ; Primitive structure element item } COMP multiband_power_class %TI_PS_FF_QUAD_BAND_SUPPORT% "Power Class information for multiple bands" { radio_band ; Radio Band power_class ; Power Class } ; MPHC_NETWORK_SYNC_REQ 0x000F ; MPHC_NETWORK_SYNC_IND 0x0010 ; MPHC_STOP_NETWORK_SYNC_REQ 0x0011 ; MPHC_STOP_NETWORK_SYNC_CON 0x0012 ; MPHC_START_CCCH_REQ 0x0015 ; MPHC_STOP_CCCH_REQ 0x0016 ; MPHC_STOP_CCCH_CON 0x0017 ; MPHC_SCELL_NBCCH_REQ 0x0018 ; MPHC_SCELL_EBCCH_REQ 0x0019 ; MPHC_STOP_SCELL_BCCH_REQ 0x001A ; MPHC_STOP_SCELL_BCCH_CON 0x001B ; MPHC_DATA_IND 0x0032 ; MPHC_NCELL_SYNC_REQ 0x0020 ; MPHC_NCELL_LIST_SYNC_REQ 0x007A ; MPHC_NCELL_SYNC_IND 0x0021 ; MPHC_STOP_NCELL_SYNC_REQ 0x0022 ; MPHC_STOP_NCELL_SYNC_CON 0x0023 ; MPHC_NCELL_BCCH_REQ 0x001C ; MPHC_NCELL_BCCH_IND 0x001D ; MPHC_STOP_NCELL_BCCH_REQ 0x001E ; MPHC_STOP_NCELL_BCCH_CON 0x001F ; MPHC_RXLEV_PERIODIC_REQ 0x0024 ; MPHC_RXLEV_PERIODIC_IND 0x0025 ; MPHC_STOP_RXLEV_PERIODIC_REQ 0x0026 ; MPHC_STOP_RXLEV_PERIODIC_CON 0x0027 ; MPHC_RXLEV_REQ 0x000B ; MPHC_RXLEV_IND 0x000C ; MPHC_STOP_RXLEV_REQ 0x000D ; MPHC_STOP_RXLEV_CON 0x000E ; MPHC_CONFIG_CBCH_REQ 0x0028 ; MPHC_CBCH_SCHEDULE_REQ 0x0029 ; MPHC_CBCH_INFO_REQ 0x002B ; MPHC_CBCH_UPDATE_REQ 0x002A ; MPHC_STOP_CBCH_REQ 0x002C ; MPHC_STOP_CBCH_CON 0x002D ; MPHC_NEW_SCELL_REQ 0x0013 ; MPHC_NEW_SCELL_CON 0x0014 ; MPHC_RA_REQ 0x002E ; MPHC_RA_CON 0x002F ; MPHC_STOP_RA_REQ 0x0030 ; MPHC_STOP_RA_CON 0x0031 ; MPHC_IMMED_ASSIGN_REQ 0x0033 ; MPHC_IMMED_ASSIGN_CON 0x003F ; MPHC_CHANNEL_ASSIGN_REQ 0x0034 ; MPHC_CHANNEL_ASSIGN_CON 0x003C ; MPHC_ASYNC_HO_REQ 0x0035 ; MPHC_ASYNC_HO_CON 0x003B ; MPHC_HANDOVER_FINISHED 0x0044 ; MPHC_SYNC_HO_REQ 0x0036 ; MPHC_SYNC_HO_CON 0x0042 ; MPHC_TA_FAIL_IND 0x0043 ; MPHC_PRE_SYNC_HO_REQ 0x0037 ; MPHC_PRE_SYNC_HO_CON 0x0040 ; MPHC_HANDOVER_FAIL_REQ 0x0047 ; MPHC_HANDOVER_FAIL_CON 0x003E ; MPHC_CHANGE_FREQUENCY 0x0045 ; MPHC_CHANGE_FREQUENCY_CON 0x003A ; MPHC_CHANNEL_MODE_MODIFY_REQ 0x0046 ; MPHC_CHANNEL_MODE_MODIFY_CON 0x003D ; MPHC_SET_CIPHERING_REQ 0x0048 ; MPHC_SET_CIPHERING_CON 0x0041 ; MPHC_MEAS_REPORT 0x0049 ; MPHC_UPDATE_BA_LIST 0x004A ; MPHC_STOP_DEDICATED_REQ 0x0039 ; MPHC_NCELL_FB_SB_READ 0x004B ; MPHC_NCELL_SB_READ 0x004C ; OML1_CLOSE_TCH_LOOP_REQ 0x0061 ; OML1_CLOSE_TCH_LOOP_CON 0x0065 ; OML1_OPEN_TCH_LOOP_REQ 0x0062 ; OML1_OPEN_TCH_LOOP_CON 0x0066 ; OML1_START_DAI_TEST_REQ 0x0063 ; OML1_START_DAI_TEST_CON 0x0067 ; OML1_STOP_DAI_TEST_REQ 0x0064 ; OML1_STOP_DAI_TEST_CON 0x0068 ; TST_SLEEP_REQ 0x0004 ; MPHC_ADC_IND 0x0069 ; MPHC_INIT_L1_REQ 0x0072 ; MPHC_INIT_L1_CON 0x0073 ; MPHC_DEACTIVATE_REQ 0x006E ; TST_TEST_HW_REQ 0x0001 ; TST_TEST_HW_CON 0x0002 ; PH_DATA_IND 0x006D ; MPHC_STOP_DEDICATED_CON 0x0080 PRIM MPHC_NETWORK_SYNC_REQ 0x000F { radio_freq ; channel number fn_offset ; frame offset time_alignment ; time alignment timing_validity ; timing validity search_mode ; search mode } PRIM MPHC_NETWORK_SYNC_IND 0x0010 { radio_freq ; channel number sb_flag ; valid flag fn_offset ; frame offset time_alignment ; time alignment bsic ; base station identity code } PRIM MPHC_STOP_NETWORK_SYNC_REQ 0x0011 { param ; dummy parameter } PRIM MPHC_STOP_NETWORK_SYNC_CON 0x0012 { param ; dummy parameter } PRIM MPHC_START_CCCH_REQ 0x0015 { bs_pa_mfrms ; Multiframe period bs_ag_blks_res ; BS AG BLOCKS reserved bcch_combined ; BCCH combined ccch_group ; CCCH group page_group ; paging group page_block_index ; page block index page_mode ; page mode } PRIM MPHC_STOP_CCCH_REQ 0x0016 { param ; dummy parameter } PRIM MPHC_STOP_CCCH_CON 0x0017 { param ; dummy parameter } PRIM MPHC_SCELL_NBCCH_REQ 0x0018 { schedule_array_size ; number of elements in schedule array schedule_array [MAX_SCHED_SIZE] ; schedule array } PRIM MPHC_SCELL_EBCCH_REQ 0x0019 { schedule_array_size ; number of elements in schedule array schedule_array [MAX_SCHED_SIZE] ; schedule array } PRIM MPHC_STOP_SCELL_BCCH_REQ 0x001A { param ; dummy parameter } PRIM MPHC_STOP_SCELL_BCCH_CON 0x001B { param ; dummy parameter } PRIM MPHC_DATA_IND 0x0032 { radio_freq ; channel number l2_channel ; layer 2 channel type error_flag ; error cause l2_frame ; layer 2 frame tc ; multiframe number ccch_lev ; CCCH Level fn ; frame number } PRIM MPHC_NCELL_SYNC_REQ 0x0020 { radio_freq ; channel number fn_offset ; frame offset time_alignment ; time alignment timing_validity ; timing validity } PRIM MPHC_NCELL_LIST_SYNC_REQ 0x007A { eotd ; EOTD monitoring list_size ; List Size ncell_list [MAX_NCELL_EOTD_L1] ; Neighbour Cell List } PRIM MPHC_NCELL_SYNC_IND 0x0021 { radio_freq ; channel number sb_flag ; valid flag fn_offset ; frame offset time_alignment ; time alignment bsic ; base station identity code neigh_id ; Reserved attempt ; Reserved pm ; Reserved toa ; Reserved angle ; Reserved snr ; Reserved eodt_data_valid ; EOTD Data valid mode ; Mode d_eotd_first ; Delay to first correlation d_eotd_max ; Delay to maximum correlation d_eotd_nrj ; Sum of Amplitudes a_eotd_crosscor [18] ; Cross correlation time_tag ; Time tag fn_sb_neigh ; Reserved fn_in_sb ; Reserved toa_correction ; Reserved delta_fn ; Reserved delta_qbit ; Reserved } PRIM MPHC_STOP_NCELL_SYNC_REQ 0x0022 { radio_freq_array_size ; number of channels radio_freq_array [MAX_NCELL_EOTD_L1] ; channel list } PRIM MPHC_STOP_NCELL_SYNC_CON 0x0023 { param ; dummy parameter } PRIM MPHC_NCELL_BCCH_REQ 0x001C { radio_freq ; channel number fn_offset ; frame offset time_alignment ; time alignment tsc ; training sequence code bcch_blocks_required ; sys info bitmap gprs_prio ; GPRS Priority } PRIM MPHC_NCELL_BCCH_IND 0x001D { radio_freq ; channel number l2_channel ; layer 2 channel type error_flag ; error cause l2_frame ; layer 2 frame tc ; multiframe number fn ; frame number } PRIM MPHC_STOP_NCELL_BCCH_REQ 0x001E { radio_freq_array_size ; number of channels radio_freq_array [6] ; channel list } PRIM MPHC_STOP_NCELL_BCCH_CON 0x001F { param ; dummy parameter } PRIM MPHC_RXLEV_PERIODIC_REQ 0x0024 { chan_list ; channel list num_of_chans ; number of channels ba_id ; band ID next_radio_freq_measured ; next channel } PRIM MPHC_RXLEV_PERIODIC_IND 0x0025 { result [MAX_MEAS_VALUES] ; measurement results nbr_of_carriers ; number of channels s_rxlev ; serving cell rxlev ba_id ; band ID qual_acc_idle ; Primitive Item qual_nbr_meas_idle ; Primitive Item } PRIM MPHC_STOP_RXLEV_PERIODIC_REQ 0x0026 { param ; dummy parameter } PRIM MPHC_STOP_RXLEV_PERIODIC_CON 0x0027 { param ; dummy parameter } PRIM MPHC_RXLEV_REQ 0x000B { shared_ptr ; pointer to measurements } PRIM MPHC_RXLEV_IND 0x000C { shared_ptr ; pointer to measurements } PRIM MPHC_STOP_RXLEV_REQ 0x000D { param ; dummy parameter } PRIM MPHC_STOP_RXLEV_CON 0x000E { param ; dummy parameter } PRIM MPHC_CONFIG_CBCH_REQ 0x0028 { cbch_desc ; CBCH channel description cbch_freq_list ; Frequency list } PRIM MPHC_CBCH_SCHEDULE_REQ 0x0029 { cbch_select ; extended cbch flag schedule_length ; length of schedule period first_blocks_0 ; block bitmap first_blocks_1 ; block bitmap cont. } PRIM MPHC_CBCH_INFO_REQ 0x002B { tb_bitmap ; block bitmap } PRIM MPHC_CBCH_UPDATE_REQ 0x002A { cbch_select ; extended cbch flag first_blocks_0 ; block bitmap first_blocks_1 ; block bitmap cont. } PRIM MPHC_STOP_CBCH_REQ 0x002C { normal_cbch ; normal cbch extended_cbch ; extended cbch } PRIM MPHC_STOP_CBCH_CON 0x002D { param ; dummy parameter } PRIM MPHC_NEW_SCELL_REQ 0x0013 { radio_freq ; channel number fn_offset ; frame offset time_alignment ; time alignment tsc ; training sequence code } PRIM MPHC_NEW_SCELL_CON 0x0014 { param ; dummy parameter } PRIM MPHC_RA_REQ 0x002E { txpwr ; Power level rand ; Delay channel_request ; channel request powerclass_gsm %!TI_PS_FF_QUAD_BAND_SUPPORT% ; GSM power class powerclass_dcs %!TI_PS_FF_QUAD_BAND_SUPPORT% ; DCS power class } PRIM MPHC_RA_CON 0x002F { fn ; frame number channel_request ; channel request } PRIM MPHC_STOP_RA_REQ 0x0030 { param ; dummy parameter } PRIM MPHC_STOP_RA_CON 0x0031 { param ; dummy parameter } PRIM MPHC_IMMED_ASSIGN_REQ 0x0033 { channel_desc ; channel description timing_advance ; timing advance frequency_list ; frequency list starting_time ; starting time frequency_list_bef_sti ; frequency list before starting time maio_bef_sti ; Maio before starting time dtx_allowed ; DTX allowed bcch_allocation ; BCCH allocation ba_id ; band indicator pwrc ; power control indicator } PRIM MPHC_IMMED_ASSIGN_CON 0x003F { param ; dummy parameter } PRIM MPHC_CHANNEL_ASSIGN_REQ 0x0034 { channel_desc_1 ; channel description 1 channel_mode_1 ; channel mode 1 txpwr ; TX power frequency_list ; frequency list starting_time ; starting time channel_desc_2 ; channel description 2 channel_mode_2 ; channel mode 2 frequency_list_bef_sti ; frequency list before starting time channel_desc_1_bef_sti ; channel description 1 before starting time channel_desc_2_bef_sti ; channel description 2 before starting time cipher_mode ; cipher mode a5_algorithm ; A5 algorithm cipher_key ; encryption key dtx_allowed ; DTX allowed flag amr_configuration ; AMR configuration } PRIM MPHC_CHANNEL_ASSIGN_CON 0x003C { param ; dummy parameter } PRIM MPHC_ASYNC_HO_REQ 0x0035 { handover_command ; handover parameter fn_offset ; frame offset time_alignmnt ; time alignment cipher_key ; encryption key amr_configuration ; AMR configuration handover_type %REL99 AND FF_BHO% ; handover type } PRIM MPHC_ASYNC_HO_CON 0x003B { param ; dummy parameter } PRIM MPHC_HANDOVER_FINISHED 0x0044 { cause ; success indication fn_offset %REL99 AND FF_BHO% ; Valid for BHO only time_alignment %REL99 AND FF_BHO% ; Valid for BHO only } PRIM MPHC_SYNC_HO_REQ 0x0036 { handover_command ; handover parameter fn_offset ; frame offset time_alignmnt ; time alignment cipher_key ; encryption key nci ; normal cell indication amr_configuration ; AMR configuration handover_type %REL99 AND FF_BHO% ; Handover type } PRIM MPHC_SYNC_HO_CON 0x0042 { param ; dummy parameter } PRIM MPHC_TA_FAIL_IND 0x0043 { param ; dummy parameter } PRIM MPHC_PRE_SYNC_HO_REQ 0x0037 { handover_command ; handover parameter fn_offset ; frame offset time_alignmnt ; time alignment cipher_key ; encryption key nci ; normal cell indication timing_advance_valid ; timing advance valid timing_advance ; timing advance amr_configuration ; AMR configuration handover_type %REL99 AND FF_BHO% ; Handover type } PRIM MPHC_PRE_SYNC_HO_CON 0x0040 { param ; dummy parameter } PRIM MPHC_HANDOVER_FAIL_REQ 0x0047 { param ; dummy parameter } PRIM MPHC_HANDOVER_FAIL_CON 0x003E { param ; dummy parameter } PRIM MPHC_CHANGE_FREQUENCY 0x0045 { channel_desc ; channel description frequency_list ; frequency list starting_time ; starting time } PRIM MPHC_CHANGE_FREQUENCY_CON 0x003A { param ; dummy parameter } PRIM MPHC_CHANNEL_MODE_MODIFY_REQ 0x0046 { sub_channel ; change sub channel; The parameter defines the sub channel for halfrate operation channel_mode ; channel mode amr_configuration ; AMR configuration } PRIM MPHC_CHANNEL_MODE_MODIFY_CON 0x003D { param ; dummy parameter } PRIM MPHC_SET_CIPHERING_REQ 0x0048 { cipher_mode ; cipher mode a5_algorithm ; A5 algorithm new_ciph_param ; ciphering key } PRIM MPHC_SET_CIPHERING_CON 0x0041 { param ; dummy parameter } PRIM MPHC_MEAS_REPORT 0x0049 { dtx_used ; DTX used meas_valid ; measurements valid rxlev_full_acc ; rxlev full serving cell rxlev_full_nbr_meas ; number of full serving cell samples rxlev_sub_acc ; rxlev sub serving cell rxlev_sub_nbr_meas ; number of sub serving cell samples rxqual_full_acc_errors ; rxqual full serving cell rxqual_full_nbr_bits ; number of full serving cell samples rxqual_sub_acc_errors ; rxqual sub serving cell rxqual_sub_nbr_bits ; number of sub serving cell samples no_of_ncells_meas ; number of neighbour cells ncell_meas ; neighbour cell measurement values ba_id ; band indication timing_advance ; timing advance txpwr_used ; txpwr used rxlev_val_acc %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% ; Accumulated RXLEVEL_VAL measurements rxlev_val_nbr_meas %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% ; Number of rxlev_val measurements taken on serving cell mean_bep_block_acc %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% ; Accumulated value of Mean BEP of a block cv_bep_block_acc %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% ; Accumulated value of coefficient of variation of BEP mean_bep_block_num %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% ; Number of block used to accumulate the MEAN_BEP cv_bep_block_num %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% ; Number of block used to accumulate the CV_BEP nbr_rcvd_blocks %REL99 AND (TI_PS_FF_EMR OR TI_PS_FF_RTD)% ; Number of correctly decoded block during a reporting period. facch_dl_count ; FACCH downlink count facch_ul_count ; FACCH uplink count } PRIM MPHC_UPDATE_BA_LIST 0x004A { num_of_chans ; number of channels chan_list ; channel list pwrc ; power control indicator dtx_allowed ; DTX allowed ba_id ; band indication } PRIM MPHC_STOP_DEDICATED_REQ 0x0039 { param ; dummy parameter } PRIM MPHC_NCELL_FB_SB_READ 0x004B { radio_freq ; channel number } PRIM MPHC_NCELL_SB_READ 0x004C { sb_flag ; SB flag radio_freq ; channel number bsic ; base station identification code fn_offset ; frame offset time_alignmnt ; time alignment } PRIM OML1_CLOSE_TCH_LOOP_REQ 0x0061 { sub_channel ; loop sub channel; The parameter defines the sub channel for halfrate operation frame_erasure ; frame erasure } PRIM OML1_CLOSE_TCH_LOOP_CON 0x0065 { param ; dummy parameter } PRIM OML1_OPEN_TCH_LOOP_REQ 0x0062 { param ; dummy parameter } PRIM OML1_OPEN_TCH_LOOP_CON 0x0066 { param ; dummy parameter } PRIM OML1_START_DAI_TEST_REQ 0x0063 { tested_device ; tested device } PRIM OML1_START_DAI_TEST_CON 0x0067 { param ; dummy parameter } PRIM OML1_STOP_DAI_TEST_REQ 0x0064 { param ; dummy parameter } PRIM OML1_STOP_DAI_TEST_CON 0x0068 { param ; dummy parameter } PRIM TST_SLEEP_REQ 0x0004 { sleep_mode ; sleep mode Clocks ; clocks } PRIM MPHC_ADC_IND 0x0069 { adc_results [9] ; adc results } PRIM MPHC_INIT_L1_REQ 0x0072 { radio_band_config %!TI_PS_FF_QUAD_BAND_SUPPORT% ; radio band configuration param %TI_PS_FF_QUAD_BAND_SUPPORT% ; Dummy Parameter } PRIM MPHC_INIT_L1_CON 0x0073 { param %!TI_PS_FF_QUAD_BAND_SUPPORT% ; dummy parameter multiband_power_class [NB_MAX_GSM_BANDS] %TI_PS_FF_QUAD_BAND_SUPPORT% ; Bands Supported and respective power class } PRIM MPHC_DEACTIVATE_REQ 0x006E { param ; dummy parameter } PRIM TST_TEST_HW_REQ 0x0001 { param ; dummy parameter } PRIM TST_TEST_HW_CON 0x0002 { dsp_code_version ; Version number of the DSP code dsp_checksum ; Checksum of DSP code dsp_patch_version ; Version number of the DSP patch code mcu_alr_version ; Version number of the MCU ALR code mcu_gprs_version ; Version number of the MCU GPRS code mcu_tm_version ; Version number of the Testmode } PRIM PH_DATA_IND 0x006D { radio_freq AS rf_chan_num ; Channel (radio_freq) that block was read on l2_channel AS l2_channel_type ; Indicates the MF51 block type read (enum type), maps to l1s msg signal code error_flag AS error_cause ; Indicates if l2_frame data is invalid RADIO_FRAME AS l2_frame ; Layer 2 frame bsic ; Base station identification code tc ; multiframe number modulo 8 } PRIM MPHC_STOP_DEDICATED_CON 0x0080 { param ; dummy }