FreeCalypso > hg > freecalypso-citrine
view L1/tpudrv/tpudrv61.h @ 43:bceffa414fc6
cst_pei.c: added the same support for DISABLE_SLEEP as in Magnetite
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 09 Sep 2017 16:16:57 +0000 |
parents | 75a11d740a02 |
children |
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/****************** Revision Controle System Header *********************** * GSM Layer 1 software * Copyright (c) Texas Instruments 1998 * * Filename tpudrv61.h * Version 1.0 * Date June 1st, 2005 * ****************** Revision Controle System Header ***********************/ //FLEXIBLE ADC... #undef VARIABLE_ADC_ON_TX //VARIABLE_ADC_ON_TX- represents the number of symbols before TRF_T11 (the time where the PA is disabled) //the ADC conversion should be performed. VARIABLE_ADC_ON_TX- has a valid range from 14 to 155 symbols. //Hence, to use the fix, VARIABLE_ADC_ON_TX- must be defined to a value between 14 and 155, compile time. //This will cause the ADC conversion offset (TRF_T9) to be calculated by the following equation: //TRF_T9 = TRF_T11-VARIABLE_ADC_ON_TX*4 //The customer is expected to use a value of 76. If this compile flag is not set, the ADC conversion offset (TRF_T9) // is set to a default value of 14 symbols before TXEN is disabled (i.e. the default timing is 40 qbit before the // TX down time anchor and 20 qb before the last tail bit). #define VARIABLE_ADC_ON_TX 76 #if(L1_RF_KBD_FIX == 1) // Keyboard disable config: #define L1_KBD_DIS_RX_NB 1 #define L1_KBD_DIS_RX_SB 1 #define L1_KBD_DIS_RX_FB 1 #define L1_KBD_DIS_RX_FB26 1 #define L1_KBD_DIS_RX_MS 1 #define L1_KBD_DIS_TX_NB 1 #define L1_KBD_DIS_TX_RA 1 #define KBD_DISABLED 1 #endif/*(L1_RF_KBD_FIX == 1)*/ //Fixed declaration of script numbers #define DRP_REG_ON (0x0000) #define DRP_TX_ON (0x0001) #define DRP_RX_ON (0x0002) #define DRP_TEMP_CONV (0x0003) #define DRP_ROC (0x0004) #define DRP_REG_OFF (0x0007) #define DRP_AFC (0x000D) #define DRP_IDLE (0x000F) #define SCRIPT_EN (0x3080) #define START_SCRIPT(script_nb) (SCRIPT_EN | script_nb) // IF settings #define IF_100KHZ_DRP 0 #define IF_120KHZ_DRP 1 // Gain Compensation Enable/Disable #define GAIN_COMP_DISABLE (0x0) //Default #define GAIN_COMP_ENABLE (0x1) // AFE Gains Definition #define AFE_LOW_GAIN (0x0) // 11 dB #define AFE_HIGH_GAIN (0x1) // 38 dB // ABE Gains Definition #define ABE_0_DB (0x0) #define ABE_2_DB (0x1) #define ABE_5_DB (0x2) #define ABE_8_DB (0x3) #define ABE_11_DB (0x4) #define ABE_14_DB (0x5) #define ABE_17_DB (0x6) #define ABE_20_DB (0x7) #define ABE_23_DB (0x8) // Switched Cap Filter Corner Freq Defition #define SCF_270KHZ 0 #define SCF_400KHZ 1 // Retiming definition #define RETIM_DISABLE (0x0000) #define RETIM_TX_ONLY (0x0001) #define RETIM_RX_ONLY (0x0002) #define RETIM_FULL (0x0003) // IF settings for DSP #define IF_100KHZ_DSP 2 #define IF_120KHZ_DSP 1 // DCO algo settings #define DCO_IF_100KHZ 1 #define DCO_IF_0KHZ 2 #define DCO_IF_0KHZ_100KHZ 3 #define DCO_NONE 0 //--- Configuration values //- Select the RF PG (x10), i.e. 10 for 1.0, 11 for 1.1 or 20 for 2.0 // This is also used in l1_rf14h to select the SWAP_IQ //- Bit definitions for TST register programings, etc #define BIT_0 0x000001 #define BIT_1 0x000002 #define BIT_2 0x000004 #define BIT_3 0x000008 #define BIT_4 0x000010 #define BIT_5 0x000020 #define BIT_6 0x000040 #define BIT_7 0x000080 #define BIT_8 0x000100 #define BIT_9 0x000200 #define BIT_10 0x000400 #define BIT_11 0x000800 #define BIT_12 0x001000 #define BIT_13 0x002000 #define BIT_14 0x004000 #define BIT_15 0x008000 #define BIT_16 0x010000 #define BIT_17 0x020000 #define BIT_18 0x040000 #define BIT_19 0x080000 #define BIT_20 0x100000 #define BIT_21 0x200000 #define BIT_22 0x400000 #define BIT_23 0x800000 //- Base REGISTER definitions - //- RF signals connected to TSPACT - #define RX_START BIT_0 // RX_START of DRP2 #define TX_START BIT_1 // TX_START of DRP2 modulator #define START_APC BIT_2 // Start of the APC module #define LDO_EN BIT_3 // Activation of the internal LDO inside the APC bloc #if(L1_RF_KBD_FIX == 1) #define KBD_DIS_TSPACT BIT_4 // Disable keyboard #endif #define APC_EN BIT_5 // Enable of the APC module #define START_ADC BIT_0 // Activation of the Triton ADC #define B3 BIT_3 // Control of the RFMD TX module #define B1 BIT_5 // Control of the RFMD TX module #define TX_EN BIT_6 // Control of the RFMD TX module #define B2 BIT_7 // Control of the RFMD TX module #define TXM_SLEEP (0) // To avoid leakage during Deep-Seep // DRP write register #define OCP_DATA_MSB 0x05 #define OCP_DATA_LSB 0x04 #define OCP_ADDRESS_MSB 0x0B #define OCP_ADDRESS_LSB 0x0A #define OCP_ADDRESS_START 0x01 // TSPACT #define REG_SPI_ACT_U 0x07 #define REG_SPI_ACT_L 0x06 // 3-band config // RX_UP/DOWN and TX_UP/DOWN #define RU_900 ( B1 | B3 ) #define RD_900 ( B1 | B3 ) #define TU_900 ( TX_EN | B1 | B3 ) #define TD_900 ( B1 | B3 ) #define RU_850 ( B3 ) #define RD_850 ( B3 ) #define TU_850 ( TX_EN | B3 ) #define TD_850 ( B3 ) #define RU_1800 ( B2 | B3 ) #define RD_1800 ( B2 | B3 ) #define TU_1800 ( TX_EN | B1 | B2 | B3 ) #define TD_1800 ( B2 | B3 ) #define RU_1900 ( B1 | B2 | B3 ) #define RD_1900 ( B1 | B2 | B3 ) #define TU_1900 ( TX_EN | B1 | B2 | B3 ) #define TD_1900 ( B1 | B2 | B3 ) //--- TIMINGS ---------------------------------------------------------- /*------------------------------------------*/ /* Download delay values */ /*------------------------------------------*/ // 1 qbit = 12/13 usec (~0.9230769), i.e. 200 usec is ~ 217 qbit (200 * 13 / 12) #define T TPU_CLOCK_RANGE // - TPU instruction into TSP timings --- // 1 tpu instruction = 1 qbit #define DLT_1 1 // 1 tpu instruction = 1 qbit #define DLT_2 2 // 2 tpu instruction = 2 qbit #define DLT_3 3 // 3 tpu instruction = 3 qbit #define DLT_4 4 // 4 tpu instruction = 4 qbit // - TPU command execution + serialization length --- #define DLT_4B 5 // 5*move // - INIT (delta or DLT) timings --- #define DLT_I1 5 // Time required to set EN high before RF_SER_OFF -> RF_SER_ON #define DLT_I2 200 // Regulators turn on time #define DLT_I3 5 // Time required to set RF_SER_ON #define DLT_I4 110 // Regulator Turn-ON time // - tdt & rdt --- // MAX GSM (not GPRS) rdt and tdt values are... //#define rdt 380 // MAX GSM rx delta timing //#define tdt 400 // MAX GSM tx delta timing // but current rdt and tdt values are... #define rdt 0 // rx delta timing #define tdt 0 // tx delta timing // - RX timings --- // - RX down: // Flexible TPU Timings .... /************************************/ /* Timing for TPU prog */ /************************************/ #if ( L1_TPU_DEV == 0) #define APC_RAMP_UP_TIME 20 // maximum time for ramp up #define APC_RAMP_DELAY 6 // minimum ramp up delay APCDEL #define APC_RAMP_DOWN_TIME 20 // maximum ramp down time #endif #if ( L1_TPU_DEV == 1) extern WORD16 rf_tx_tpu_timings[]; extern WORD16 rf_rx_tpu_timings[]; //define for TPU Dev Mode via the arrays so that they can be tweaked later for Rx & Tx #define TRF_T1 rf_tx_tpu_timings[0] #define TRF_T2 rf_tx_tpu_timings[1] #define TRF_T3 rf_tx_tpu_timings[2] #define TRF_T4 rf_tx_tpu_timings[3] #define TRF_T5 rf_tx_tpu_timings[4] #define TRF_T6 rf_tx_tpu_timings[5] #define TRF_T7 rf_tx_tpu_timings[6] #define TRF_T8 rf_tx_tpu_timings[7] #define TRF_T9 rf_tx_tpu_timings[8] #define TRF_T10 rf_tx_tpu_timings[9] #define TRF_T11 rf_tx_tpu_timings[10] #define TRF_T12 rf_tx_tpu_timings[11] #define TRF_T13 rf_tx_tpu_timings[12] #define TRF_T14 rf_tx_tpu_timings[13] #define TRF_T15 rf_tx_tpu_timings[14] #define TRF_T16 rf_tx_tpu_timings[15] #define TRF_T17 rf_tx_tpu_timings[16] #define TRF_T18 rf_tx_tpu_timings[17] #define TRF_T19 rf_tx_tpu_timings[18] #define TRF_T20 rf_tx_tpu_timings[19] #define TRF_T21 rf_tx_tpu_timings[20] #define TRF_T22 rf_tx_tpu_timings[21] #define TRF_T23 rf_tx_tpu_timings[22] #define TRF_T24 rf_tx_tpu_timings[23] #define TRF_T25 rf_tx_tpu_timings[24] #define TRF_T26 rf_tx_tpu_timings[25] #define TRF_T27 rf_tx_tpu_timings[26] #define TRF_T28 rf_tx_tpu_timings[27] #define TRF_T29 rf_tx_tpu_timings[28] #define TRF_T30 rf_tx_tpu_timings[29] #define TRF_T31 rf_tx_tpu_timings[30] #define TRF_T32 rf_tx_tpu_timings[31] #define TRF_R1 rf_rx_tpu_timings[0] #define TRF_R2 rf_rx_tpu_timings[1] #define TRF_R3 rf_rx_tpu_timings[2] #define TRF_R4 rf_rx_tpu_timings[3] #define TRF_R5 rf_rx_tpu_timings[4] #define TRF_R6 rf_rx_tpu_timings[5] #define TRF_R7 rf_rx_tpu_timings[6] #define TRF_R8 rf_rx_tpu_timings[7] #define TRF_R9 rf_rx_tpu_timings[8] #define TRF_R10 rf_rx_tpu_timings[9] #define TRF_R11 rf_rx_tpu_timings[10] #define TRF_R12 rf_rx_tpu_timings[11] #define TRF_R13 rf_rx_tpu_timings[12] #define TRF_R14 rf_rx_tpu_timings[13] #define TRF_R15 rf_rx_tpu_timings[14] #define TRF_R16 rf_rx_tpu_timings[15] #define TRF_R17 rf_rx_tpu_timings[16] #define TRF_R18 rf_rx_tpu_timings[17] #define TRF_R19 rf_rx_tpu_timings[18] #define TRF_R20 rf_rx_tpu_timings[19] #define TRF_R21 rf_rx_tpu_timings[20] #define TRF_R22 rf_rx_tpu_timings[21] #define TRF_R23 rf_rx_tpu_timings[22] #define TRF_R24 rf_rx_tpu_timings[23] #define TRF_R25 rf_rx_tpu_timings[24] #define TRF_R26 rf_rx_tpu_timings[25] #define TRF_R27 rf_rx_tpu_timings[26] #define TRF_R28 rf_rx_tpu_timings[27] #define TRF_R29 rf_rx_tpu_timings[28] #define TRF_R30 rf_rx_tpu_timings[29] #define TRF_R31 rf_rx_tpu_timings[30] #define TRF_R32 rf_rx_tpu_timings[31] //Flexi ABB Delays // The existing #defines in the code would have to be removed and the definitions done here. extern WORD16 rf_flexi_abb_delays[]; #ifdef APC_RAMP_UP_TIME #undef APC_RAMP_UP_TIME #endif #define APC_RAMP_UP_TIME rf_flexi_abb_delays[1] //default 32 #ifdef DL_ABB_DELAY #undef DL_ABB_DELAY #endif #define DL_ABB_DELAY (rf_flexi_abb_delays[2]) // ( 32L + 4L) #ifdef UL_ABB_DELAY #undef UL_ABB_DELAY #endif #define UL_ABB_DELAY rf_flexi_abb_delays[3] //12 #ifdef UL_DELAY_1RF #undef UL_DELAY_1RF #endif #define UL_DELAY_1RF rf_flexi_abb_delays[4] //0 #ifdef UL_DELAY_2RF #undef UL_DELAY_2RF #endif #define UL_DELAY_2RF rf_flexi_abb_delays[5] //0 #ifdef APCDEL_DOWN #undef APCDEL_DOWN #endif #define APCDEL_DOWN rf_flexi_abb_delays[6] //3//3 #ifdef APCDEL_UP #undef APCDEL_UP #endif #define APCDEL_UP rf_flexi_abb_delays[7] //24 #ifdef GUARD_BITS #undef GUARD_BITS #endif #define GUARD_BITS rf_flexi_abb_delays[8] //7 #ifdef SETUP_AFC_AND_RF #undef SETUP_AFC_AND_RF #endif #define SETUP_AFC_AND_RF rf_flexi_abb_delays[9] //6 #ifdef SERV_OFFS_REST_LOAD #undef SERV_OFFS_REST_LOAD #endif #define SERV_OFFS_REST_LOAD rf_flexi_abb_delays[10] // 1L #ifdef TA_MAX #undef TA_MAX #endif #define TA_MAX rf_flexi_abb_delays[11] // ( 63L * 4L ) #ifdef PRG_TX #undef PRG_TX #endif #define PRG_TX rf_flexi_abb_delays[12] // (DL_DELAY_RF + UL_DELAY_2RF + (GUARD_BITS*4) + UL_DELAY_1RF + UL_ABB_DELAY) #ifdef EPSILON_OFFS #undef EPSILON_OFFS #endif #define EPSILON_OFFS rf_flexi_abb_delays[14] // 2L #ifdef EPSILON_MEAS #undef EPSILON_MEAS #endif #define EPSILON_MEAS rf_flexi_abb_delays[15]//20L #ifdef EPSILON_SYNC #undef EPSILON_SYNC #endif #define EPSILON_SYNC rf_flexi_abb_delays[16] //10L #ifdef APC_RAMP_DOWN_TIME #undef APC_RAMP_DOWN_TIME #endif #define APC_RAMP_DOWN_TIME rf_flexi_abb_delays[17] //32 #ifdef APC_RAMP_DELAY #undef APC_RAMP_DELAY #endif #define APC_RAMP_DELAY rf_flexi_abb_delays[18] //6 #endif //L1_TPU_DEV // End Flexible TPU Timings, ABB DElays #if ( L1_TPU_DEV == 0) // - RX timings --- // - RX down: #if (L1_MADC_ON == 1) #define TRF_R8 (PROVISION_TIME - 170 - DLT_4B - rdt ) // for doing MADC #endif // The times below are offsets to when BDLENA goes down #define TRF_R7 ( 2 - DLT_4B ) // Power down RF (idle script) // TRF_R6 not use, warning timing TRF_R6 > TRF_R7 #define TRF_R6 ( -20 - DLT_4B) // Disable RX Start and RF switch // - RX up: // The times below are offsets to when BDLENA goes high // Burst data comes here #define TRF_R5 (PROVISION_TIME - 19 - DLT_1 ) // Enable RX_START #define TRF_R4 (PROVISION_TIME - 39 - DLT_1 - rdt ) // Set RF switch for RX in selected band #if(L1_RF_KBD_FIX == 1) #define TRF_R3_1 (PROVISION_TIME - 89 - DLT_1 - rdt ) // Disable keyboard #endif #define TRF_R3 (PROVISION_TIME - 190 - DLT_4B - rdt ) // RX_ON #define TRF_R2 (PROVISION_TIME - 197 - DLT_4B - rdt ) // Select the AGC & LNA gains #define TRF_R1 (PROVISION_TIME - 203 - DLT_4B - rdt ) // Set RX Synth channel // - TX timings --- // - TX down: // The times below are offsets to when TXSTART goes down #define TRF_T13 ( 25 - DLT_1 ) // #define TRF_T12 ( 23 - DLT_4B ) // #define TRF_T11 ( 16 - DLT_1 ) // #define TRF_T10 ( 0 - DLT_1 ) // #ifdef VARIABLE_ADC_ON_TX #define TRF_T9 (TRF_T11-VARIABLE_ADC_ON_TX*4) #else #define TRF_T9 ( - 40 - DLT_1 ) // #endif // - TX up: // The times below are offsets to when TXSTART goes high //burst data comes here #define TRF_T8 ( 18 - DLT_1 ) // #define TRF_T7 ( 12 - DLT_1 ) // #define TRF_T6 ( 6 - DLT_1 ) // #define TRF_T5 ( 0 - DLT_1 ) // #define TRF_T4 ( - 100 - DLT_1 ) // #if(L1_RF_KBD_FIX == 1) #define TRF_T3_1 (-215 -DLT_1 ) // Disable keyboard #endif #define TRF_T3 ( - 225 - DLT_1 ) // Set APC_LDO enabled #define TRF_T2 ( - 235 - DLT_4B - tdt ) // Power ON TX #define TRF_T1 ( - 255 - DLT_4B - tdt ) // Set TX synth #endif // Non TPU DEV