FreeCalypso > hg > fc-magnetite
view src/cs/layer1/tpu_drivers/source0/tpudrv10.h @ 208:ab79cf3c29a5
AT-over-RVTMUX mechanism ported over to the TCS3.2 version of ACI
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 14 Oct 2016 17:15:08 +0000 |
parents | 945cf7f506b2 |
children |
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/****************** Revision Controle System Header *********************** * GSM Layer 1 software * Copyright (c) Texas Instruments 1998 * * Filename tpudrv10.h * Copyright 2003 (C) Texas Instruments * ****************** Revision Controle System Header ***********************/ #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 //TRF6150 definitions #define MODE0 0x000000 #define MODE1 0x000001 #define MODE2 0x000002 #define MODE3 0x000003 #define MODE4 0x000004 #define MODE5 0x000005 #define MODE6 0x000006 #define MODE7 0x000007 #define REGUL_ON BIT_3 //MODE0 #define BG_SPEEDUP BIT_4 //MODE0 #define RX_ON_CLARA BIT_5 //MODE0 #define TX_ON_CLARA BIT_6 //MODE0 #define PA_CTRLR_ON BIT_7 //MODE0 #define AUX_SYNTH_ON BIT_8 //MODE0 #define MAIN_SYNTH_OFF 0x000000 //MODE0 #define MAIN_SYNTH_ON_RX BIT_9 //MODE0 #define MAIN_SYNTH_ON_TX BIT_10 //MODE0 #define DCO_COMP_ON BIT_11 //MODE0 #define DCO_COMP_RUN BIT_12 //MODE0 #define BAND_SELECT_GSM BIT_13 //MODE0 #define BAND_SELECT_850 BIT_13 //MODE0 #define BAND_SELECT_PCS BIT_14 //MODE0 #define BAND_SELECT_DCS (BIT_14 | BIT_13) #define RX_RF_GAIN BIT_15 //MODE0 // MODE1 is only for Receiver gain programming (AGC) #define AUX_SHDW_ADD(arfcn) ((arfcn >= 822) && (arfcn <= 885)) ? BIT_3 : 0 //MODE2 #define AUX_SHDW_RCL BIT_4 //MODE2 #define MAIN_FCU_REG_100 BIT_7 //MODE2 #define PA_CTRL_I_DIOD BIT_23 //MODE2 //MODE3 #define TEST_MODE BIT_3 //MODE3 #define HB_OPLL_PRECHARGE BIT_4 //MODE3 #define HB_OPLL_CP_CUR_0_125MA 0x000000 //0.125 mA #define HB_OPLL_CP_CUR_0_25MA BIT_5 //0.25 mA #define HB_OPLL_CP_CUR_0_5MA BIT_6 //0.5 mA #define HB_OPLL_CP_CUR_1MA (BIT_6 | BIT_5) //1 mA #define HB_OPLL_CP_CUR_2MA BIT_7 //2 mA #define LB_OPLL_PRECHARGE BIT_8 //MODE3 #define LB_OPLL_CP_CUR_0_125MA 0x000000 //0.125 mA #define LB_OPLL_CP_CUR_0_25MA BIT_9 //0.25 mA #define LB_OPLL_CP_CUR_0_5MA BIT_10 //0.5 mA #define LB_OPLL_CP_CUR_1MA (BIT_10 | BIT_9) //1 mA #define LB_OPLL_CP_CUR_2MA BIT_11 //2 mA #define CLK_REF BIT_17 //MODE3 #define MAIN_VCO_EN BIT_18 //MODE3 #define AUX_VCO_EN BIT_19 //MODE3 #define EXT_VCO_CONTROL BIT_20 //MODE3 #define TEMP_SENSOR_EN BIT_21 //MODE3 //MODE4 #define MAIN_TIMER_RX_49_2US BIT_6 //MODE4 #define MAIN_TIMER_RX_55_35US ( 8 << 3) //added 30.01.02 #define MAIN_TIMER_RX_61_5US (10 << 3) #define MAIN_TIMER_RX_78_9US (13 << 3) #define MAIN_TIMER_RX_91_9US (15 << 3) #define MAIN_TIMER_RX_98_4US (16 << 3) #define MAIN_TIMER_RX_159_9US (26 << 3) //added 21.08 CR #define MAIN_TIMER_TX_49_2US BIT_11 //MODE4 #define MAIN_TIMER_TX_61_5US (10 << 8) //added 30.01.02 #define MAIN_TIMER_TX_104US (17 << 8) //added for RS #define MAIN_TIMER_TX_98_4US (16 << 8) #define MAIN_TIMER_TX_123US (20 << 8) //added 21.08 CR #define MAIN_CP_CUR_0 0x000000 //MODE4 400uA, 1.6mA #define MAIN_CP_CUR_1 BIT_21 //MODE4 400uA, 3.2mA #define MAIN_CP_CUR_2 BIT_22 //MODE4 800uA, 3.2mA #define MAIN_CP_CUR_3 (BIT_22 | BIT_21)//MODE4 same as 2 #define FC_60 (60 << 13) #define FC_63 (63 << 13) #define FC_70 (70 << 13) #define FC_100 (100 << 13) #define FC_109 (109 << 13) #define FC_110 (110 << 13) //MODE5 #define SHDW_LOAD BIT_3 //MODE5 #define AUX_PRG_MOD BIT_4 //MODE5 #define AUX_PFD BIT_14 //MODE5 //MODE6 #define FREQ_CAL_ON BIT_4 //MODE6 #define FREQ_CAL_MODE BIT_5 //MODE6 //MODE7 #define FREQ_CAL_DATA (0xd << 19) // 6.15 (00000)-8.88 (01101)-12.66 pF (11111)- modified CR 11.09.01, was (0xb << 19) // RF signals connected to TSPACT [0..7] //#define RESET_RF BIT_0 // act0 #define CLA_SER_ON BIT_0 // act0 #define CLA_SER_OFF 0 #define TXVCO_ON 0 // act3 inverted #define TXVCO_OFF BIT_3 #define TX_ON BIT_5 // act5 #define TX_OFF 0 // RF signals connected to TSPACT for Titanium v2.2 #if 0 //B-Sample #define PA900_ON BIT_2 // signals are inverted therefore PA900_ON act1 #define PA1800_ON BIT_1 // and PA1800_ON act2 #define PA900_OFF BIT_1 // #define PA1800_OFF BIT_2 // #endif #if 0 //C-Sample #define PA900_ON BIT_1 // signals are inverted therefore PA900_ON act1 #define PA1800_ON BIT_2 // and PA1800_ON act2 #define PA900_OFF BIT_2 // #define PA1800_OFF BIT_1 // #endif #if 1 //D-Sample #define PA900_ON BIT_1 // signals are inverted therefore PA900_ON act1 #define PA1800_ON BIT_2 // and PA1800_ON act2 #define RX1900_ON 0 #define PA900_OFF BIT_2 // #define PA1800_OFF BIT_1 // #define RX1900_OFF BIT_4 //RX_UP/DOWN and TX_UP/DOWN #define RU_900 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define RD_900 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define TU_900 (PA900_ON | PA1800_OFF | RX1900_OFF) #define TD_900 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define TU_REV_900 (PA900_OFF | PA1800_ON | RX1900_OFF) #define RU_850 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define RD_850 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define TU_850 (PA900_ON | PA1800_OFF | RX1900_OFF) #define TD_850 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define TU_REV_850 (PA900_OFF | PA1800_ON | RX1900_OFF) #define RU_1800 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define RD_1800 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define TU_1800 (PA900_OFF | PA1800_ON | RX1900_OFF) #define TD_1800 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define TU_REV_1800 (PA900_ON | PA1800_OFF | RX1900_OFF) #define RU_1900 (PA900_OFF | PA1800_OFF | RX1900_ON) #define RD_1900 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define TU_1900 (PA900_OFF | PA1800_ON | RX1900_OFF) #define TD_1900 (PA900_OFF | PA1800_OFF | RX1900_OFF) #define TU_REV_1900 (PA900_ON | PA1800_OFF | RX1900_OFF) #endif #define TC1_DEVICE_ABB TC1_DEVICE0 #define TC1_DEVICE_RF TC1_DEVICE2 #define SL_SU_DELAY1 4 // No. bits to send + load data to shift + send write cmd + 1 #define SL_SU_DELAY2 3 // load data to shift + send write cmd + 1 #define SL_SU_DELAY3 5 // SL_SU_DELAY1 + serialization #define DLT 20 // (TRF6150) DownLoadTime #define DLT_1 1 // 1 tpu instruction = 1 qbit #define DLT_2 2 #define DLT_3 3 #define DLT_1B 4 // 3*move + 1*byte (download) #define DLT_2B 6 // 4*move + 2*byte #define DLT_3B 8 // 5*move + 3*byte //#define crch_timing 420//250//420//0 // CR d.07.08.01 - Temperary movement of Rx and Tx timing for Titanium. Will be set to 0 when new LF is ready. #define rdt 0//359 // rx delta timing #define tdt 0//293 // tx delta timing /*------------------------------------------*/ /* Download delay values */ /*------------------------------------------*/ // 0.9230769 usec ~ 1 qbit i.e. 200 usec is ~ 217 qbit #define T TPU_CLOCK_RANGE #define TRF_I7 334 //qbit #define TRF_I8 378 //qbit // time below are offset to when BDLENA goes low #define TRF_R15 ( 0 - DLT_1B) // 0, BDLENA low, needs DLT_1B to execute #define TRF_R13 ( - 32 - DLT_1B) // 8 right after, power off transceiver //burst data comes here // time below are offset to when BDLENA goes high #define TRF_R12 (PROVISION_TIME - 0 - DLT_1B) // BDLENA i/q comes 32qbit later #define TRF_R10 (PROVISION_TIME - 8 - DLT_1B) // Set RX/TX switch (not really necessary as the default setting is RX mode) #define TRF_R9 (PROVISION_TIME - 16 - DLT_2B) // RX_ON_CLARA #define TRF_R7 (PROVISION_TIME - 66 - DLT_1B) // 67qbit duration BDLON + BDLCAL #define TRF_R6 (PROVISION_TIME - 83 - DLT_1B) // BDLON, RX_ON_CLARA #define TRF_R5 (PROVISION_TIME - 172 - DLT_2B - rdt) // DC offset comp. start LNA ON //#define TRF_R4 (PROVISION_TIME - 172 - DLT_2B - rdt) // DC offset comp. LNA #define TRF_R3 (PROVISION_TIME - 177 - DLT_2B - rdt) // DC offset comp. GAIN //l1dmacro_adc_read_rx() called here requires ~ 16 tpuinst //#define TRF_R2_1 (PROVISION_TIME - 199 - DLT_2B - rdt) // fc //#define TRF_R2 (PROVISION_TIME - 199 - DLT_2B - rdt) // select band #define TRF_R1 (PROVISION_TIME - 209 - DLT_3B - rdt) // Main PLL + set of Main PLL FC & CP current // time below are offset to when BULENA goes low #define TRF_T17 ( 32 - SL_SU_DELAY2) // right after, BULON low //#define TRF_T17 ( 32 ) // right after, BULON low #define TRF_T16 ( 26 - DLT_1B) // Power down Clara #define TRF_T15 ( 14 - DLT_1) // disable TX_ON #define TRF_T14 ( 0 - DLT_1B) // BULENA off #define TRF_T13_3 (- 40 - DLT_1B) // ADC read //burst data comes here // time below are offset to when BULENA goes high #define TRF_T13_2 ( 25 - DLT_1) // TX_ON #define TRF_T13_1 ( 17 - DLT_1) // set rf switch #define TRF_T12 (- 0 - DLT_1B) // BULENA Start of TX burst #define TRF_T10 (- 70 - DLT_3B - tdt) // normal speed #define TRF_T9 (- 121 - DLT_2B - tdt) // Power up TXVCO #define TRF_T8 (- 127 - DLT_1B - tdt) // BULON, disable BULCAL #define TRF_T7 (- 127 - DLT_1B - tdt) // 131 BULON, disable BULCAL #define TRF_T6 (- 137 - DLT_3B - tdt) // Speed up #define TRF_T4 (- 249 - DLT_1B - tdt) // prog AUX PLL & detector polarity #define TRF_T3_1 (- 258 - DLT_2B - tdt) // fc #define TRF_T3 (- 258 - DLT_2B - tdt) // 20 BULON + BULCAL + select band #define TRF_T2 (- 267 - DLT_3B - tdt) // set of Main PLL FC & CP current #define TRF_T1 (- 277 - DLT_3B - tdt) // BULON + Main PLL /*------------------------------------------*/ /* Is arfcn in the DCS band (512-885) ? */ /*------------------------------------------*/ // is working only for GSM and DCS (not PCN) #define IS_DCS_HIGH(arfcn) (((arfcn >= 576) && (arfcn <= 885))? 1 : 0) //Changed by CR 30.08.01, was (((arfcn >= 822) && (arfcn <= 885))? 1 : 0) #ifdef TPUDRV10_C #endif