FreeCalypso > hg > tcs211-c139
view chipsetsw/layer1/include/l1_tabs.h @ 35:2071211e5d1a
Mot C1xx keypad layout entered
author | Mychaela Falconia <falcon@ivan.Harhan.ORG> |
---|---|
date | Wed, 04 Nov 2015 06:18:11 +0000 |
parents | 509db1a7b7b8 |
children |
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/************* Revision Controle System Header ************* * GSM Layer 1 software * L1_TABS.H * * Filename l1_tabs.h * Copyright 2003 (C) Texas Instruments * ************* Revision Controle System Header *************/ /*********************************************************** * Content: * This file contains the miscelaneous ROM tables. ***********************************************************/ #ifdef L1_ASYNC_C /*-----------------------------------------------------------------*/ /* Idle Tasks info. (Paging position, extended Paging position...) */ /*-----------------------------------------------------------------*/ /* REM: */ /* The "working area" field gives the starting position of an area */ /* it will be used for neighbour: - FB search, */ /* - SB reading, */ /* The value given for each parameter set takes into account the */ /* size of the "FB search" task and the CBCH task. */ /*-----------------------------------------------------------------*/ // NP or EP task size: 1 + 4 + 1 = 6. // BCCHS task size: 1 + 4 + 1 = 6. // FB task size: 1 + 12 + 1 = 14. --+-- FB + SB task take 15 TDMA (pipeline overlay). // SB task size: 1 + 2 + 1 = 4. --+ // CNF, SB task size: 1 + 2 + 1 = 4. // BC (Broad. Channel): 1 + 4 + 1 = 6 const T_IDLE_TASK_INFO IDLE_INFO_NCOMB[(MAX_AG_BLKS_RES_NCOMB+1) * (MAX_PG_BLOC_INDEX_NCOMB+1)] = // BS_CCCH_SDCCH_COMB = False, BCCH not combined. { // BS_AG_BLKS_RES = 0. // ------------------- // Paging, Ext Paging { CCCH_0, CCCH_2 }, // Paging Block Index = 0. { CCCH_1, CCCH_3 }, // Paging Block Index = 1. { CCCH_2, CCCH_4 }, // Paging Block Index = 2. { CCCH_3, CCCH_5 }, // Paging Block Index = 3. { CCCH_4, CCCH_6 }, // Paging Block Index = 4. { CCCH_5, CCCH_7 }, // Paging Block Index = 5. { CCCH_6, CCCH_8 }, // Paging Block Index = 6. { CCCH_7, CCCH_0 }, // Paging Block Index = 7. { CCCH_8, CCCH_1 }, // Paging Block Index = 8. // BS_AG_BLKS_RES = 1. // ------------------- // Paging, Ext Paging { CCCH_1, CCCH_3 }, // Paging Block Index = 0. { CCCH_2, CCCH_4 }, // Paging Block Index = 1. { CCCH_3, CCCH_5 }, // Paging Block Index = 2. { CCCH_4, CCCH_6 }, // Paging Block Index = 3. { CCCH_5, CCCH_7 }, // Paging Block Index = 4. { CCCH_6, CCCH_8 }, // Paging Block Index = 5. { CCCH_7, CCCH_1 }, // Paging Block Index = 6. { CCCH_8, CCCH_2 }, // Paging Block Index = 7. { NULL, NULL }, // Paging Block Index = 8. // BS_AG_BLKS_RES = 2. // ------------------- // Paging, Ext Paging { CCCH_2, CCCH_4 }, // Paging Block Index = 0. { CCCH_3, CCCH_5 }, // Paging Block Index = 1. { CCCH_4, CCCH_6 }, // Paging Block Index = 2. { CCCH_5, CCCH_7 }, // Paging Block Index = 3. { CCCH_6, CCCH_8 }, // Paging Block Index = 4. { CCCH_7, CCCH_2 }, // Paging Block Index = 5. { CCCH_8, CCCH_3 }, // Paging Block Index = 6. { NULL, NULL }, // Paging Block Index = 7. { NULL, NULL }, // Paging Block Index = 8. // BS_AG_BLKS_RES = 3. // ------------------- // Paging, Ext Paging, { CCCH_3, CCCH_5 }, // Paging Block Index = 0. { CCCH_4, CCCH_6 }, // Paging Block Index = 1. { CCCH_5, CCCH_7 }, // Paging Block Index = 2. { CCCH_6, CCCH_8 }, // Paging Block Index = 3. { CCCH_7, CCCH_3 }, // Paging Block Index = 4. { CCCH_8, CCCH_4 }, // Paging Block Index = 5. { NULL, NULL }, // Paging Block Index = 6. { NULL, NULL }, // Paging Block Index = 7. { NULL, NULL }, // Paging Block Index = 8. // BS_AG_BLKS_RES = 4. // ------------------- // Paging, Ext Paging { CCCH_4, CCCH_6 }, // Paging Block Index = 0. { CCCH_5, CCCH_7 }, // Paging Block Index = 1. { CCCH_6, CCCH_8 }, // Paging Block Index = 2. { CCCH_7, CCCH_4 }, // Paging Block Index = 3. { CCCH_8, CCCH_5 }, // Paging Block Index = 4. { NULL, NULL }, // Paging Block Index = 5. { NULL, NULL }, // Paging Block Index = 6. { NULL, NULL }, // Paging Block Index = 7. { NULL, NULL }, // Paging Block Index = 8. // BS_AG_BLKS_RES = 5. // ------------------- // Paging, Ext Paging { CCCH_5, CCCH_7 }, // Paging Block Index = 0. { CCCH_6, CCCH_8 }, // Paging Block Index = 1. { CCCH_7, CCCH_5 }, // Paging Block Index = 2. { CCCH_8, CCCH_6 }, // Paging Block Index = 3. { NULL, NULL }, // Paging Block Index = 4. { NULL, NULL }, // Paging Block Index = 5. { NULL, NULL }, // Paging Block Index = 6. { NULL, NULL }, // Paging Block Index = 7. { NULL, NULL }, // Paging Block Index = 8. // BS_AG_BLKS_RES = 6. // ------------------- // Paging, Ext Paging, { CCCH_6, CCCH_8 }, // Paging Block Index = 0. { CCCH_7, CCCH_6 }, // Paging Block Index = 1. { CCCH_8, CCCH_7 }, // Paging Block Index = 2. { NULL, NULL }, // Paging Block Index = 3. { NULL, NULL }, // Paging Block Index = 4. { NULL, NULL }, // Paging Block Index = 5. { NULL, NULL }, // Paging Block Index = 6. { NULL, NULL }, // Paging Block Index = 7. { NULL, NULL }, // Paging Block Index = 8. // BS_AG_BLKS_RES = 7. // ------------------- // Paging, Ext Paging { CCCH_7, CCCH_7 }, // Paging Block Index = 0. { CCCH_8, CCCH_8 }, // Paging Block Index = 1. { NULL, NULL }, // Paging Block Index = 2. { NULL, NULL }, // Paging Block Index = 3. { NULL, NULL }, // Paging Block Index = 4. { NULL, NULL }, // Paging Block Index = 5. { NULL, NULL }, // Paging Block Index = 6. { NULL, NULL }, // Paging Block Index = 7. { NULL, NULL } // Paging Block Index = 8. }; const T_IDLE_TASK_INFO IDLE_INFO_COMB[(MAX_AG_BLKS_RES_COMB+1) * (MAX_PG_BLOC_INDEX_COMB+1)] = // BS_CCCH_SDCCH_COMB = TRUE, BCCH combined. { // BS_AG_BLKS_RES = 0. // ------------------- // Paging, Ext Paging, offset, working_area { CCCH_0, CCCH_2 }, // Paging Block Index = 0. { CCCH_1, CCCH_0 }, // Paging Block Index = 1. { CCCH_2, CCCH_1 }, // Paging Block Index = 2. // BS_AG_BLKS_RES = 1. // ------------------- // Paging, Ext Paging, offset, working_area { CCCH_1, CCCH_1 }, // Paging Block Index = 0. { CCCH_2, CCCH_2 }, // Paging Block Index = 1. { NULL, NULL }, // Paging Block Index = 2. // BS_AG_BLKS_RES = 2. // ------------------- // Paging, Ext Paging, offset, working_area { CCCH_2, CCCH_2 }, // Paging Block Index = 0. { NULL, NULL }, // Paging Block Index = 1. { NULL, NULL } // Paging Block Index = 2. }; /*-------------------------------------*/ /* Table giving the number of Paging */ /* blocks in a MF51. */ /* (called "N div BS_PA_MFRMS" in */ /* GSM05.02, Page 21). */ /*-------------------------------------*/ // BS_CCCH_SDCCH_COMB = False, BCCH not combined. const UWORD8 NBPCH_IN_MF51_NCOMB[(MAX_AG_BLKS_RES_NCOMB+1)] = { 9, // BS_AG_BLKS_RES = 0. 8, // BS_AG_BLKS_RES = 1. 7, // BS_AG_BLKS_RES = 2. 6, // BS_AG_BLKS_RES = 3. 5, // BS_AG_BLKS_RES = 4. 4, // BS_AG_BLKS_RES = 5. 3, // BS_AG_BLKS_RES = 6. 2 // BS_AG_BLKS_RES = 7. }; // BS_CCCH_SDCCH_COMB = True, BCCH combined. const UWORD8 NBPCH_IN_MF51_COMB[(MAX_AG_BLKS_RES_COMB+1)] = { 3, // BS_AG_BLKS_RES = 0. 2, // BS_AG_BLKS_RES = 1. 1 // BS_AG_BLKS_RES = 2. }; // Initial value for Downlink Signalling failure Counter (DSC). const UWORD8 DSC_INIT_VALUE[MAX_BS_PA_MFRMS-1] = { 45, // BS_PA_MFRMS = 2. 30, // BS_PA_MFRMS = 3. 23, // BS_PA_MFRMS = 4. 18, // BS_PA_MFRMS = 5. 15, // BS_PA_MFRMS = 6. 13, // BS_PA_MFRMS = 7. 11, // BS_PA_MFRMS = 8. 10 // BS_PA_MFRMS = 9. }; // REM: 2nd block of SDCCH is always at the same position as the first block // but 1 mf51 later. // REM: monitoring during SDCCH used a fixe area (FB51/SB51/SBCNF51 tasks). // Here is given the area starting position. This position is chosen // to allow the equations for SBCNF51 occurence as it is in the l1s // scheduler (the area do not overlap the end of 102 multiframe // structure). // Table for SDCCH description, Down Link & Up link, Not combined case. const T_SDCCH_DESC SDCCH_DESC_NCOMB[8] = { // "dl_D" , "dl_A" , "ul_D" , "ul_A". , "monit. area" { 51 - 12 , 32 - 12 , 15 - 12 , 47 - 12 , 70 - 12 }, // SDCCH, D0 { 55 - 12 , 36 - 12 , 19 - 12 , 51 - 12 , 74 - 12 }, // SDCCH, D1 { 59 - 12 , 40 - 12 , 23 - 12 , 55 - 12 , 78 - 12 }, // SDCCH, D2 { 12 - 12 , 44 - 12 , 27 - 12 , 59 - 12 , 82 - 12 }, // SDCCH, D3 { 16 - 12 , 83 - 12 , 31 - 12 , 98 - 12 , 35 - 12 }, // SDCCH, D4 { 20 - 12 , 87 - 12 , 35 - 12 , 102 - 12 , 39 - 12 }, // SDCCH, D5 { 24 - 12 , 91 - 12 , 39 - 12 , 4 - 12 + 102 , 43 - 12 }, // SDCCH, D6 { 28 - 12 , 95 - 12 , 43 - 12 , 8 - 12 + 102 , 47 - 12 } // SDCCH, D7 }; // REM: monitoring during SDCCH used a fixe area (FB51/SB51/SBCNF51 tasks). // Here is given the area starting position. This position is chosen // to allow the equations for SBCNF51 occurence as it is in the l1s // scheduler (the area do not overlap the end of 102 multiframe // structure). // Table for SDCCH description, Down Link & Up link, Combined case. const T_SDCCH_DESC SDCCH_DESC_COMB[4] = { // "dl_D" , "dl_A" , "ul_D" , "ul_A". , "monit. area" { 73 - 37 , 42 - 37 , 37 - 37 , 57 - 37 , 92 - 37 }, // SDCCH, D0 { 77 - 37 , 46 - 37 , 41 - 37 , 61 - 37 , 96 - 37 }, // SDCCH, D1 { 83 - 37 , 93 - 37 , 47 - 37 , 6 - 37 + 102 , 51 - 37 }, // SDCCH, D2 { 87 - 37 , 97 - 37 , 51 - 37 , 10 - 37 + 102 , 55 - 37 } // SDCCH, D3 }; // Table for HOPPING SEQUENCE GENERATION ALGORITHM. const UWORD8 RNTABLE[114] = { 48, 98, 63, 1, 36, 95, 78, 102, 94, 73, 0, 64, 25, 81, 76, 59, 124, 23, 104, 100, 101, 47, 118, 85, 18, 56, 96, 86, 54, 2, 80, 34, 127, 13, 6, 89, 57, 103, 12, 74, 55, 111, 75, 38, 109, 71, 112, 29, 11, 88, 87, 19, 3, 68, 110, 26, 33, 31, 8, 45, 82, 58, 40, 107, 32, 5, 106, 92, 62, 67, 77, 108, 122, 37, 60, 66, 121, 42, 51, 126, 117, 114, 4, 90, 43, 52, 53, 113, 120, 72, 16, 49, 7, 79, 119, 61, 22, 84, 9, 97, 91, 15, 21, 24, 46, 39, 93, 105, 65, 70, 125, 99, 17, 123 }; // Table giving the RACH slot positions when COMBINED. // Rem: all is shifted left by 1 to map the position of the possible "contoles". const UWORD8 COMBINED_RA_DISTRIB[51] = { 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0 }; #if !L1_GPRS const T_TASK_MFTAB TASK_ROM_MFTAB[NBR_DL_L1S_TASKS] = { { BLOC_HWTEST, BLOC_HWTEST_SIZE }, // HWTEST { BLOC_ADC , BLOC_ADC_SIZE }, // ADC in CS_MODE0 { NULL, 0 }, // DEDIC (not meaningfull) { BLOC_RAACC, BLOC_RAACC_SIZE }, // RAACC { NULL, 0 }, // RAHO (not meaningfull) { NULL, 0 }, // NSYNC (not meaningfull) { BLOC_FBNEW, BLOC_FBNEW_SIZE }, // FBNEW { BLOC_SBCONF, BLOC_SBCONF_SIZE }, // SBCONF { BLOC_SB2, BLOC_SB2_SIZE }, // SB2 { BLOC_FB26, BLOC_FB26_SIZE }, // FB26 { BLOC_SB26, BLOC_SB26_SIZE }, // SB26 { BLOC_SBCNF26, BLOC_SBCNF26_SIZE }, // SBCNF26 { BLOC_FB51, BLOC_FB51_SIZE }, // FB51 { BLOC_SB51, BLOC_SB51_SIZE }, // SB51 { BLOC_SBCNF51, BLOC_SBCNF51_SIZE }, // SBCNF51 { BLOC_BCCHN, BLOC_BCCHN_SIZE }, // BCCHN { BLOC_ALLC, S_RECT4_SIZE }, // ALLC { BLOC_EBCCHS, S_RECT4_SIZE }, // EBCCHS { BLOC_NBCCHS, S_RECT4_SIZE }, // NBCCHS { BLOC_SMSCB, BLOC_SMSCB_SIZE }, // SMSCB { BLOC_NP, S_RECT4_SIZE }, // NP { BLOC_EP, S_RECT4_SIZE }, // EP { BLOC_ADL, S_RECT4_SIZE }, // ADL { BLOC_AUL, S_RECT4_SIZE }, // AUL { BLOC_DDL, S_RECT4_SIZE }, // DDL { BLOC_DUL, S_RECT4_SIZE }, // DUL { BLOC_TCHD, BLOC_TCHT_SIZE }, // TCHD { BLOC_TCHA, BLOC_TCHA_SIZE }, // TCHA { BLOC_TCHTF, BLOC_TCHT_SIZE }, // TCHTF { BLOC_TCHTH, BLOC_TCHT_SIZE }, // TCHTH { BLOC_BCCHN_TOP,BLOC_BCCHN_TOP_SIZE}, // BCCHN_TOP { BLOC_SYNCHRO, BLOC_SYNCHRO_SIZE } // SYNCHRO }; const UWORD8 DSP_TASK_CODE[NBR_DL_L1S_TASKS] = { CHECKSUM_DSP_TASK,// HWTEST 0, // DEDIC (not meaningfull) 0, // ADC (not meaningfull) RACH_DSP_TASK, // RAACC RACH_DSP_TASK, // RAHO 0, // NSYNC (not meaningfull) FB_DSP_TASK, // FBNEW SB_DSP_TASK, // SBCONF SB_DSP_TASK, // SB2 TCH_FB_DSP_TASK, // FB26 TCH_SB_DSP_TASK, // SB26 TCH_SB_DSP_TASK, // SBCNF26 FB_DSP_TASK, // FB51 SB_DSP_TASK, // SB51 SB_DSP_TASK, // SBCNF51 NBN_DSP_TASK, // BCCHN ALLC_DSP_TASK, // ALLC NBS_DSP_TASK, // EBCCHS NBS_DSP_TASK, // NBCCHS DDL_DSP_TASK, // Temporary (BUG IN SIMULATOR) CB_DSP_TASK, // SMSCB NP_DSP_TASK, // NP EP_DSP_TASK, // EP ADL_DSP_TASK, // ADL AUL_DSP_TASK, // AUL DDL_DSP_TASK, // DDL DUL_DSP_TASK, // DUL TCHD_DSP_TASK, // TCHD TCHA_DSP_TASK, // TCHA TCHT_DSP_TASK, // TCHTF TCHT_DSP_TASK, // TCHTH NBN_DSP_TASK, // BCCHN_TOP == BCCHN 0, // SYNCHRO (not meaningfull) }; #else const T_TASK_MFTAB TASK_ROM_MFTAB[NBR_DL_L1S_TASKS] = { { BLOC_HWTEST, BLOC_HWTEST_SIZE }, // HWTEST { BLOC_ADC, BLOC_ADC_SIZE }, // ADC in CS_MODE0 { NULL, 0 }, // DEDIC (not meaningfull) { BLOC_RAACC, BLOC_RAACC_SIZE }, // RAACC { NULL, 0 }, // RAHO (not meaningfull) { NULL, 0 }, // NSYNC (not meaningfull) { BLOC_POLL , BLOC_POLL_SIZE }, // POLL { BLOC_PRACH, BLOC_PRACH_SIZE }, // PRACH { BLOC_ITMEAS, BLOC_ITMEAS_SIZE }, // ITMEAS { BLOC_FBNEW, BLOC_FBNEW_SIZE }, // FBNEW { BLOC_SBCONF, BLOC_SBCONF_SIZE }, // SBCONF { BLOC_SB2, BLOC_SB2_SIZE }, // SB2 { BLOC_PTCCH, BLOC_PTCCH_SIZE }, // PTCCH { BLOC_FB26, BLOC_FB26_SIZE }, // FB26 { BLOC_SB26, BLOC_SB26_SIZE }, // SB26 { BLOC_SBCNF26, BLOC_SBCNF26_SIZE }, // SBCNF26 { BLOC_FB51, BLOC_FB51_SIZE }, // FB51 { BLOC_SB51, BLOC_SB51_SIZE }, // SB51 { BLOC_SBCNF51, BLOC_SBCNF51_SIZE }, // SBCNF51 { BLOC_PDTCH, BLOC_PDTCH_SIZE }, // PDTCH { BLOC_BCCHN, BLOC_BCCHN_SIZE }, // BCCHN { BLOC_ALLC, S_RECT4_SIZE }, // ALLC { BLOC_EBCCHS, S_RECT4_SIZE }, // EBCCHS { BLOC_NBCCHS, S_RECT4_SIZE }, // NBCCHS { BLOC_ADL, S_RECT4_SIZE }, // ADL { BLOC_AUL, S_RECT4_SIZE }, // AUL { BLOC_DDL, S_RECT4_SIZE }, // DDL { BLOC_DUL, S_RECT4_SIZE }, // DUL { BLOC_TCHD, BLOC_TCHT_SIZE }, // TCHD { BLOC_TCHA, BLOC_TCHA_SIZE }, // TCHA { BLOC_TCHTF, BLOC_TCHT_SIZE }, // TCHTF { BLOC_TCHTH, BLOC_TCHT_SIZE }, // TCHTH { BLOC_PALLC, BLOC_PCCCH_SIZE }, // PALLC { BLOC_SMSCB, BLOC_SMSCB_SIZE }, // SMSCB { BLOC_PBCCHS, BLOC_PBCCHS_SIZE }, // PBCCHS { BLOC_PNP, BLOC_PCCCH_SIZE }, // PNP { BLOC_PEP, BLOC_PCCCH_SIZE }, // PEP { BLOC_SINGLE, BLOC_SINGLE_SIZE }, // SINGLE { BLOC_PBCCHN_TRAN, BLOC_PBCCHN_TRAN_SIZE }, // PBCCHN_TRAN { BLOC_PBCCHN_IDLE, BLOC_PBCCHN_IDLE_SIZE }, // PBCCHN_IDLE { BLOC_BCCHN_TRAN, BLOC_BCCHN_TRAN_SIZE }, // BCCHN_TRAN { BLOC_NP, S_RECT4_SIZE }, // NP { BLOC_EP, S_RECT4_SIZE }, // EP { BLOC_BCCHN_TOP, BLOC_BCCHN_TOP_SIZE}, // BCCHN_TOP { BLOC_SYNCHRO, BLOC_SYNCHRO_SIZE } // SYNCHRO }; const UWORD8 DSP_TASK_CODE[NBR_DL_L1S_TASKS] = { CHECKSUM_DSP_TASK,// HWTEST 0, // ADC (not meaningfull) 0, // DEDIC (not meaningfull) RACH_DSP_TASK, // RAACC RACH_DSP_TASK, // RAHO 0, // NSYNC (not meaningfull) 0, // POLL (not meaningfull) 0, // PRACH (not meaningfull) 0, // ITMEAS FB_DSP_TASK, // FBNEW SB_DSP_TASK, // SBCONF SB_DSP_TASK, // SB2 PTCCHU_DSP_TASK, // PTCCH TCH_FB_DSP_TASK, // FB26 TCH_SB_DSP_TASK, // SB26 TCH_SB_DSP_TASK, // SBCNF26 FB_DSP_TASK, // FB51 SB_DSP_TASK, // SB51 SB_DSP_TASK, // SBCNF51 0, // PDTCH (not meaningfull) NBN_DSP_TASK, // BCCHN ALLC_DSP_TASK, // ALLC NBS_DSP_TASK, // EBCCHS NBS_DSP_TASK, // NBCCHS ADL_DSP_TASK, // ADL AUL_DSP_TASK, // AUL DDL_DSP_TASK, // DDL DUL_DSP_TASK, // DUL TCHD_DSP_TASK, // TCHD TCHA_DSP_TASK, // TCHA TCHT_DSP_TASK, // TCHTF TCHT_DSP_TASK, // TCHTH 0, // PALLC (not meaningfull) DDL_DSP_TASK, // Temporary (BUG IN SIMULATOR) CB_DSP_TASK, // SMSCB DDL_DSP_TASK, // PBCCHS (In order to allow PBCCHS running in CS or Idle mode, we have to specify a valid DSP task in order to request a PBCCHS with the GSM scheduler) 0, // PNP (not meaningfull) 0, // PEP (not meaningfull) 0, // SINGLE (not meaningfull) 0, // PBCCHN_TRAN (not meaningfull) DDL_DSP_TASK, // PBCCHN_IDLE (only for GSM scheduler the task used is the same as SMSCB task) NBN_DSP_TASK, // BCCHN_TRAN == BCCHN NP_DSP_TASK, // NP EP_DSP_TASK, // EP NBN_DSP_TASK, // BCCHN_TOP == BCCHN 0 // SYNCHRO (not meaningfull) }; #endif const UWORD8 REPORTING_PERIOD[] = { 255, // INVALID_CHANNEL -> invalid reporting period 104, // TCH_F 104, // TCH_H 102, // SDCCH_4 102 // SDCCH_8 }; const UWORD8 TOA_PERIOD_LEN[] = { 0, // CS_MODE0 not used for histogram filling 12, // CS_MODE histogram length 12, // I_MODE histogram length 12, // CON_EST_MODE1 histogram length 144, // CON_EST_MODE2 histogram length 36, // DEDIC_MODE (Full rate) histogram length 42 // DEDIC_MODE (Half rate) histogram length #if L1_GPRS ,16 // PACKET TRANSFER MODE histogram length #endif }; // #if (STD == GSM) const UWORD8 MIN_TXPWR_GSM[] = { 0, // unused. 0, // Power class = 1, unused for GSM900 2, // Power class = 2. 3, // Power class = 3. 5, // Power class = 4. 7 // Power class = 5. }; // #elif (STD == PCS1900) const UWORD8 MIN_TXPWR_PCS[] = { 0, // unused. 0, // Power class = 1. 3, // Power class = 2. 30 // Power class = 3. }; // #elif (STD == DCS1800) const UWORD8 MIN_TXPWR_DCS[] = { 0, // unused. 0, // Power class = 1. 3, // Power class = 2. 29 // Power class = 3. }; const UWORD8 MIN_TXPWR_GSM850[] = { 0, // unused. 0, // Power class = 1, unused for GSM900 2, // Power class = 2. 3, // Power class = 3. 5, // Power class = 4. 7 // Power class = 5. }; // #elif (STD == DUAL) // const UWORD8 MIN_TXPWR_GSM[] = // { // 0, // unused. // 0, // Power class = 1, unused for GSM900 // 2, // Power class = 2. // 3, // Power class = 3. // 5, // Power class = 4. // 7 // Power class = 5. // }; // const UWORD8 MIN_TXPWR_DCS[] = // { // 0, // unused. // 0, // Power class = 1. // 3, // Power class = 2. // 29 // Power class = 3. // }; // #endif const UWORD8 GAUG_VS_PAGING_RATE[] = { 4, // bs_pa_mfrms = 2, 1 gauging every 4 Paging blocs 3, // bs_pa_mfrms = 3, 1 gauging every 3 Paging blocs 2, // bs_pa_mfrms = 4, 1 gauging every 2 Paging blocs 1, // bs_pa_mfrms = 5, 1 gauging every 1 Paging bloc 1, // bs_pa_mfrms = 6, 1 gauging every 1 Paging bloc 1, // bs_pa_mfrms = 7, 1 gauging every 1 Paging bloc 1, // bs_pa_mfrms = 8, 1 gauging every 1 Paging bloc 1 // bs_pa_mfrms = 9, 1 gauging every 1 Paging bloc }; #else extern T_IDLE_TASK_INFO IDLE_INFO_COMB[(MAX_AG_BLKS_RES_COMB+1) * (MAX_PG_BLOC_INDEX_COMB+1)]; extern T_IDLE_TASK_INFO IDLE_INFO_NCOMB[(MAX_AG_BLKS_RES_NCOMB+1) * (MAX_PG_BLOC_INDEX_NCOMB+1)]; extern UWORD8 NBPCH_IN_MF51_NCOMB[(MAX_AG_BLKS_RES_NCOMB+1)]; extern UWORD8 NBPCH_IN_MF51_COMB[(MAX_AG_BLKS_RES_COMB+1)]; extern UWORD8 DSC_INIT_VALUE[MAX_BS_PA_MFRMS-2]; extern T_SDCCH_DESC SDCCH_DESC_NCOMB[]; extern T_SDCCH_DESC SDCCH_DESC_COMB[]; extern UWORD8 RNTABLE[114]; extern UWORD8 COMBINED_RA_DISTRIB[51]; extern T_TASK_MFTAB TASK_ROM_MFTAB[NBR_DL_L1S_TASKS]; extern UWORD8 DSP_TASK_CODE[NBR_DL_L1S_TASKS]; extern UWORD8 REPORTING_PERIOD[]; extern UWORD8 TOA_PERIOD_LEN[]; extern UWORD8 MIN_TXPWR_GSM[]; extern UWORD8 MIN_TXPWR_DCS[]; extern UWORD8 MIN_TXPWR_PCS[]; extern UWORD8 MIN_TXPWR_GSM850[]; extern UWORD8 GAUG_VS_PAGING_RATE[]; #endif