Whitespace and indentation fixes. Removed "commented away" code and revision comments. Checked with Dan Carpenters strip_whitespace.pl and diff. Compiles fine and .o file is identical before and after. Signed-off-by: Lars Lindley <lindley@xxxxxxxxxx> --- drivers/staging/winbond/phy_calibration.c | 1510 +++++++++++++---------------- 1 files changed, 659 insertions(+), 851 deletions(-) diff --git a/drivers/staging/winbond/phy_calibration.c b/drivers/staging/winbond/phy_calibration.c index 8c56962..e5df155 100644 --- a/drivers/staging/winbond/phy_calibration.c +++ b/drivers/staging/winbond/phy_calibration.c @@ -1,12 +1,7 @@ /* - * phy_302_calibration.c + * phy_calibration.c * * Copyright (C) 2002, 2005 Winbond Electronics Corp. - * - * modification history - * --------------------------------------------------------------------------- - * 0.01.001, 2003-04-16, Kevin created - * */ /****************** INCLUDE FILES SECTION ***********************************/ @@ -18,326 +13,295 @@ /****************** DEBUG CONSTANT AND MACRO SECTION ************************/ /****************** LOCAL CONSTANT AND MACRO SECTION ************************/ -#define LOOP_TIMES 20 -#define US 1000//MICROSECOND +#define LOOP_TIMES 20 +#define US 1000 /* MICROSECOND */ -#define AG_CONST 0.6072529350 -#define FIXED(X) ((s32)((X) * 32768.0)) -#define DEG2RAD(X) 0.017453 * (X) +#define AG_CONST 0.6072529350 +#define FIXED(X) ((s32)((X) * 32768.0)) +#define DEG2RAD(X) 0.017453 * (X) /****************** LOCAL TYPE DEFINITION SECTION ***************************/ -typedef s32 fixed; /* 16.16 fixed-point */ - -static const fixed Angles[]= -{ - FIXED(DEG2RAD(45.0)), FIXED(DEG2RAD(26.565)), FIXED(DEG2RAD(14.0362)), - FIXED(DEG2RAD(7.12502)), FIXED(DEG2RAD(3.57633)), FIXED(DEG2RAD(1.78991)), - FIXED(DEG2RAD(0.895174)),FIXED(DEG2RAD(0.447614)),FIXED(DEG2RAD(0.223811)), - FIXED(DEG2RAD(0.111906)),FIXED(DEG2RAD(0.055953)),FIXED(DEG2RAD(0.027977)) +typedef s32 fixed; /* 16.16 fixed-point */ + +static const fixed Angles[] = { + FIXED(DEG2RAD(45.0)), + FIXED(DEG2RAD(26.565)), + FIXED(DEG2RAD(14.0362)), + FIXED(DEG2RAD(7.12502)), + FIXED(DEG2RAD(3.57633)), + FIXED(DEG2RAD(1.78991)), + FIXED(DEG2RAD(0.895174)), + FIXED(DEG2RAD(0.447614)), + FIXED(DEG2RAD(0.223811)), + FIXED(DEG2RAD(0.111906)), + FIXED(DEG2RAD(0.055953)), + FIXED(DEG2RAD(0.027977)) }; -/****************** LOCAL FUNCTION DECLARATION SECTION **********************/ -//void _phy_rf_write_delay(struct hw_data *phw_data); -//void phy_init_rf(struct hw_data *phw_data); - /****************** FUNCTION DEFINITION SECTION *****************************/ s32 _s13_to_s32(u32 data) { - u32 val; + u32 val; - val = (data & 0x0FFF); + val = (data & 0x0FFF); - if ((data & BIT(12)) != 0) - { - val |= 0xFFFFF000; - } + if ((data & BIT(12)) != 0) { + val |= 0xFFFFF000; + } - return ((s32) val); + return ((s32) val); } u32 _s32_to_s13(s32 data) { - u32 val; + u32 val; - if (data > 4095) - { - data = 4095; - } - else if (data < -4096) - { - data = -4096; - } + if (data > 4095) { + data = 4095; + } else if (data < -4096) { + data = -4096; + } - val = data & 0x1FFF; + val = data & 0x1FFF; - return val; + return val; } /****************************************************************************/ s32 _s4_to_s32(u32 data) { - s32 val; + s32 val; - val = (data & 0x0007); + val = (data & 0x0007); - if ((data & BIT(3)) != 0) - { - val |= 0xFFFFFFF8; - } + if ((data & BIT(3)) != 0) { + val |= 0xFFFFFFF8; + } - return val; + return val; } u32 _s32_to_s4(s32 data) { - u32 val; + u32 val; - if (data > 7) - { - data = 7; - } - else if (data < -8) - { - data = -8; - } + if (data > 7) { + data = 7; + } else if (data < -8) { + data = -8; + } - val = data & 0x000F; + val = data & 0x000F; - return val; + return val; } /****************************************************************************/ s32 _s5_to_s32(u32 data) { - s32 val; + s32 val; - val = (data & 0x000F); + val = (data & 0x000F); - if ((data & BIT(4)) != 0) - { - val |= 0xFFFFFFF0; - } + if ((data & BIT(4)) != 0) { + val |= 0xFFFFFFF0; + } - return val; + return val; } u32 _s32_to_s5(s32 data) { - u32 val; + u32 val; - if (data > 15) - { - data = 15; - } - else if (data < -16) - { - data = -16; - } + if (data > 15) { + data = 15; + } else if (data < -16) { + data = -16; + } - val = data & 0x001F; + val = data & 0x001F; - return val; + return val; } /****************************************************************************/ s32 _s6_to_s32(u32 data) { - s32 val; + s32 val; - val = (data & 0x001F); + val = (data & 0x001F); - if ((data & BIT(5)) != 0) - { - val |= 0xFFFFFFE0; - } + if ((data & BIT(5)) != 0) { + val |= 0xFFFFFFE0; + } - return val; + return val; } u32 _s32_to_s6(s32 data) { - u32 val; + u32 val; - if (data > 31) - { - data = 31; - } - else if (data < -32) - { - data = -32; - } + if (data > 31) { + data = 31; + } else if (data < -32) { + data = -32; + } - val = data & 0x003F; + val = data & 0x003F; - return val; + return val; } /****************************************************************************/ s32 _s9_to_s32(u32 data) { - s32 val; + s32 val; - val = data & 0x00FF; + val = data & 0x00FF; - if ((data & BIT(8)) != 0) - { - val |= 0xFFFFFF00; - } + if ((data & BIT(8)) != 0) { + val |= 0xFFFFFF00; + } - return val; + return val; } u32 _s32_to_s9(s32 data) { - u32 val; + u32 val; - if (data > 255) - { - data = 255; - } - else if (data < -256) - { - data = -256; - } + if (data > 255) { + data = 255; + } else if (data < -256) { + data = -256; + } - val = data & 0x01FF; + val = data & 0x01FF; - return val; + return val; } /****************************************************************************/ s32 _floor(s32 n) { - if (n > 0) - { - n += 5; - } - else - { - n -= 5; - } - - return (n/10); + if (n > 0) { + n += 5; + } else { + n -= 5; + } + + return (n/10); } -/****************************************************************************/ -// The following code is sqare-root function. -// sqsum is the input and the output is sq_rt; -// The maximum of sqsum = 2^27 -1; +/* + * The following code is sqare-root function. + * sqsum is the input and the output is sq_rt; + * The maximum of sqsum = 2^27 -1; + */ u32 _sqrt(u32 sqsum) { - u32 sq_rt; - - int g0, g1, g2, g3, g4; - int seed; - int next; - int step; - - g4 = sqsum / 100000000; - g3 = (sqsum - g4*100000000) /1000000; - g2 = (sqsum - g4*100000000 - g3*1000000) /10000; - g1 = (sqsum - g4*100000000 - g3*1000000 - g2*10000) /100; - g0 = (sqsum - g4*100000000 - g3*1000000 - g2*10000 - g1*100); - - next = g4; - step = 0; - seed = 0; - while (((seed+1)*(step+1)) <= next) - { - step++; - seed++; - } - - sq_rt = seed * 10000; - next = (next-(seed*step))*100 + g3; - - step = 0; - seed = 2 * seed * 10; - while (((seed+1)*(step+1)) <= next) - { - step++; - seed++; - } - - sq_rt = sq_rt + step * 1000; - next = (next - seed * step) * 100 + g2; - seed = (seed + step) * 10; - step = 0; - while (((seed+1)*(step+1)) <= next) - { - step++; - seed++; - } - - sq_rt = sq_rt + step * 100; - next = (next - seed * step) * 100 + g1; - seed = (seed + step) * 10; - step = 0; - - while (((seed+1)*(step+1)) <= next) - { - step++; - seed++; - } - - sq_rt = sq_rt + step * 10; - next = (next - seed* step) * 100 + g0; - seed = (seed + step) * 10; - step = 0; - - while (((seed+1)*(step+1)) <= next) - { - step++; - seed++; - } - - sq_rt = sq_rt + step; - - return sq_rt; + u32 sq_rt; + + int g0, g1, g2, g3, g4; + int seed; + int next; + int step; + + g4 = sqsum / 100000000; + g3 = (sqsum - g4 * 100000000) / 1000000; + g2 = (sqsum - g4 * 100000000 - g3 * 1000000) / 10000; + g1 = (sqsum - g4 * 100000000 - g3 * 1000000 - g2 * 10000) / 100; + g0 = (sqsum - g4 * 100000000 - g3 * 1000000 - g2 * 10000 - g1 * 100); + + next = g4; + step = 0; + seed = 0; + while (((seed + 1) * (step + 1)) <= next) { + step++; + seed++; + } + + sq_rt = seed * 10000; + next = (next-(seed*step))*100 + g3; + + step = 0; + seed = 2 * seed * 10; + while (((seed + 1) * (step + 1)) <= next) { + step++; + seed++; + } + + sq_rt = sq_rt + step * 1000; + next = (next - seed * step) * 100 + g2; + seed = (seed + step) * 10; + step = 0; + while (((seed + 1) * (step + 1)) <= next) { + step++; + seed++; + } + + sq_rt = sq_rt + step * 100; + next = (next - seed * step) * 100 + g1; + seed = (seed + step) * 10; + step = 0; + + while (((seed + 1) * (step + 1)) <= next) { + step++; + seed++; + } + + sq_rt = sq_rt + step * 10; + next = (next - seed * step) * 100 + g0; + seed = (seed + step) * 10; + step = 0; + + while (((seed + 1) * (step + 1)) <= next) { + step++; + seed++; + } + + sq_rt = sq_rt + step; + + return sq_rt; } /****************************************************************************/ void _sin_cos(s32 angle, s32 *sin, s32 *cos) { - fixed X, Y, TargetAngle, CurrAngle; - unsigned Step; - - X=FIXED(AG_CONST); // AG_CONST * cos(0) - Y=0; // AG_CONST * sin(0) - TargetAngle=abs(angle); - CurrAngle=0; - - for (Step=0; Step < 12; Step++) - { - fixed NewX; - - if(TargetAngle > CurrAngle) - { - NewX=X - (Y >> Step); - Y=(X >> Step) + Y; - X=NewX; - CurrAngle += Angles[Step]; - } - else - { - NewX=X + (Y >> Step); - Y=-(X >> Step) + Y; - X=NewX; - CurrAngle -= Angles[Step]; - } - } - - if (angle > 0) - { - *cos = X; - *sin = Y; - } - else - { - *cos = X; - *sin = -Y; - } + fixed X, Y, TargetAngle, CurrAngle; + unsigned Step; + + X = FIXED(AG_CONST); /* AG_CONST * cos(0) */ + Y = 0; /* AG_CONST * sin(0) */ + TargetAngle = abs(angle); + CurrAngle = 0; + + for (Step = 0; Step < 12; Step++) { + fixed NewX; + + if (TargetAngle > CurrAngle) { + NewX = X - (Y >> Step); + Y = (X >> Step) + Y; + X = NewX; + CurrAngle += Angles[Step]; + } else { + NewX = X + (Y >> Step); + Y = -(X >> Step) + Y; + X = NewX; + CurrAngle -= Angles[Step]; + } + } + + if (angle > 0) { + *cos = X; + *sin = Y; + } else { + *cos = X; + *sin = -Y; + } } static unsigned char hal_get_dxx_reg(struct hw_data *pHwData, u16 number, u32 * pValue) @@ -346,7 +310,7 @@ static unsigned char hal_get_dxx_reg(struct hw_data *pHwData, u16 number, u32 * number += 0x1000; return Wb35Reg_ReadSync(pHwData, number, pValue); } -#define hw_get_dxx_reg( _A, _B, _C ) hal_get_dxx_reg( _A, _B, (u32 *)_C ) +#define hw_get_dxx_reg(_A, _B, _C) hal_get_dxx_reg(_A, _B, (u32 *)_C) static unsigned char hal_set_dxx_reg(struct hw_data *pHwData, u16 number, u32 value) { @@ -357,21 +321,18 @@ static unsigned char hal_set_dxx_reg(struct hw_data *pHwData, u16 number, u32 va ret = Wb35Reg_WriteSync(pHwData, number, value); return ret; } -#define hw_set_dxx_reg( _A, _B, _C ) hal_set_dxx_reg( _A, _B, (u32)_C ) +#define hw_set_dxx_reg(_A, _B, _C) hal_set_dxx_reg(_A, _B, (u32)_C) void _reset_rx_cal(struct hw_data *phw_data) { - u32 val; + u32 val; hw_get_dxx_reg(phw_data, 0x54, &val); - if (phw_data->revision == 0x2002) // 1st-cut - { + if (phw_data->revision == 0x2002) { /* 1st-cut */ val &= 0xFFFF0000; - } - else // 2nd-cut - { + } else { /* 2nd-cut */ val &= 0x000003FF; } @@ -379,61 +340,51 @@ void _reset_rx_cal(struct hw_data *phw_data) } -// ************for winbond calibration********* -// +/**************for winbond calibration*********/ -// -// -// ********************************************* void _rxadc_dc_offset_cancellation_winbond(struct hw_data *phw_data, u32 frequency) { - u32 reg_agc_ctrl3; - u32 reg_a_acq_ctrl; - u32 reg_b_acq_ctrl; - u32 val; - - PHY_DEBUG(("[CAL] -> [1]_rxadc_dc_offset_cancellation()\n")); - phy_init_rf(phw_data); - - // set calibration channel - if( (RF_WB_242 == phw_data->phy_type) || - (RF_WB_242_1 == phw_data->phy_type) ) // 20060619.5 Add - { - if ((frequency >= 2412) && (frequency <= 2484)) - { - // w89rf242 change frequency to 2390Mhz - PHY_DEBUG(("[CAL] W89RF242/11G/Channel=2390Mhz\n")); - phy_set_rf_data(phw_data, 3, (3<<24)|0x025586); - - } - } - else - { + u32 reg_agc_ctrl3; + u32 reg_a_acq_ctrl; + u32 reg_b_acq_ctrl; + u32 val; + PHY_DEBUG(("[CAL] -> [1]_rxadc_dc_offset_cancellation()\n")); + phy_init_rf(phw_data); + + /* set calibration channel */ + if ((RF_WB_242 == phw_data->phy_type) || + (RF_WB_242_1 == phw_data->phy_type)) { + if ((frequency >= 2412) && (frequency <= 2484)) { + /* w89rf242 change frequency to 2390Mhz */ + PHY_DEBUG(("[CAL] W89RF242/11G/Channel=2390Mhz\n")); + phy_set_rf_data(phw_data, 3, (3 << 24)|0x025586); + } + } else { } - // reset cancel_dc_i[9:5] and cancel_dc_q[4:0] in register DC_Cancel + /* reset cancel_dc_i[9:5] and cancel_dc_q[4:0] in register DC_Cancel */ hw_get_dxx_reg(phw_data, 0x5C, &val); val &= ~(0x03FF); hw_set_dxx_reg(phw_data, 0x5C, val); - // reset the TX and RX IQ calibration data + /* reset the TX and RX IQ calibration data */ hw_set_dxx_reg(phw_data, 0x3C, 0); hw_set_dxx_reg(phw_data, 0x54, 0); - hw_set_dxx_reg(phw_data, 0x58, 0x30303030); // IQ_Alpha Changed + hw_set_dxx_reg(phw_data, 0x58, 0x30303030); /* IQ_Alpha Changed */ - // a. Disable AGC + /* a. Disable AGC */ hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, ®_agc_ctrl3); reg_agc_ctrl3 &= ~BIT(2); - reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN|MASK_AGC_FIX); + reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN | MASK_AGC_FIX); hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3); hw_get_dxx_reg(phw_data, REG_AGC_CTRL5, &val); val |= MASK_AGC_FIX_GAIN; hw_set_dxx_reg(phw_data, REG_AGC_CTRL5, val); - // b. Turn off BB RX + /* b. Turn off BB RX */ hw_get_dxx_reg(phw_data, REG_A_ACQ_CTRL, ®_a_acq_ctrl); reg_a_acq_ctrl |= MASK_AMER_OFF_REG; hw_set_dxx_reg(phw_data, REG_A_ACQ_CTRL, reg_a_acq_ctrl); @@ -442,9 +393,11 @@ void _rxadc_dc_offset_cancellation_winbond(struct hw_data *phw_data, u32 frequen reg_b_acq_ctrl |= MASK_BMER_OFF_REG; hw_set_dxx_reg(phw_data, REG_B_ACQ_CTRL, reg_b_acq_ctrl); - // c. Make sure MAC is in receiving mode - // d. Turn ON ADC calibration - // - ADC calibrator is triggered by this signal rising from 0 to 1 + /* + * c. Make sure MAC is in receiving mode + * d. Turn ON ADC calibration + * - ADC calibrator is triggered by this signal rising from 0 to 1 + */ hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &val); val &= ~MASK_ADC_DC_CAL_STR; hw_set_dxx_reg(phw_data, REG_MODE_CTRL, val); @@ -452,105 +405,93 @@ void _rxadc_dc_offset_cancellation_winbond(struct hw_data *phw_data, u32 frequen val |= MASK_ADC_DC_CAL_STR; hw_set_dxx_reg(phw_data, REG_MODE_CTRL, val); - // e. The result are shown in "adc_dc_cal_i[8:0] and adc_dc_cal_q[8:0]" -#ifdef _DEBUG + /* e. The result are shown in "adc_dc_cal_i[8:0] and adc_dc_cal_q[8:0]" */ + #ifdef _DEBUG hw_get_dxx_reg(phw_data, REG_OFFSET_READ, &val); PHY_DEBUG(("[CAL] REG_OFFSET_READ = 0x%08X\n", val)); PHY_DEBUG(("[CAL] ** adc_dc_cal_i = %d (0x%04X)\n", - _s9_to_s32(val&0x000001FF), val&0x000001FF)); + _s9_to_s32(val & 0x000001FF), val & 0x000001FF)); PHY_DEBUG(("[CAL] ** adc_dc_cal_q = %d (0x%04X)\n", - _s9_to_s32((val&0x0003FE00)>>9), (val&0x0003FE00)>>9)); -#endif + _s9_to_s32((val & 0x0003FE00) >> 9), (val & 0x0003FE00) >> 9)); + #endif hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &val); val &= ~MASK_ADC_DC_CAL_STR; hw_set_dxx_reg(phw_data, REG_MODE_CTRL, val); - // f. Turn on BB RX - //hw_get_dxx_reg(phw_data, REG_A_ACQ_CTRL, ®_a_acq_ctrl); + /* f. Turn on BB RX */ reg_a_acq_ctrl &= ~MASK_AMER_OFF_REG; hw_set_dxx_reg(phw_data, REG_A_ACQ_CTRL, reg_a_acq_ctrl); - //hw_get_dxx_reg(phw_data, REG_B_ACQ_CTRL, ®_b_acq_ctrl); reg_b_acq_ctrl &= ~MASK_BMER_OFF_REG; hw_set_dxx_reg(phw_data, REG_B_ACQ_CTRL, reg_b_acq_ctrl); - // g. Enable AGC - //hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, &val); + /* g. Enable AGC */ reg_agc_ctrl3 |= BIT(2); - reg_agc_ctrl3 &= ~(MASK_LNA_FIX_GAIN|MASK_AGC_FIX); + reg_agc_ctrl3 &= ~(MASK_LNA_FIX_GAIN | MASK_AGC_FIX); hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3); } -//////////////////////////////////////////////////////// void _txidac_dc_offset_cancellation_winbond(struct hw_data *phw_data) { - u32 reg_agc_ctrl3; - u32 reg_mode_ctrl; - u32 reg_dc_cancel; - s32 iqcal_image_i; - s32 iqcal_image_q; - u32 sqsum; - s32 mag_0; - s32 mag_1; - s32 fix_cancel_dc_i = 0; - u32 val; - int loop; + u32 reg_agc_ctrl3; + u32 reg_mode_ctrl; + u32 reg_dc_cancel; + s32 iqcal_image_i; + s32 iqcal_image_q; + u32 sqsum; + s32 mag_0; + s32 mag_1; + s32 fix_cancel_dc_i = 0; + u32 val; + int loop; PHY_DEBUG(("[CAL] -> [2]_txidac_dc_offset_cancellation()\n")); - // a. Set to "TX calibration mode" + /* a. Set to "TX calibration mode" */ - //0x01 0xEE3FC2 ; 3B8FF ; Calibration (6a). enable TX IQ calibration loop circuits - phy_set_rf_data(phw_data, 1, (1<<24)|0xEE3FC2); - //0x0B 0x1905D6 ; 06417 ; Calibration (6b). enable TX I/Q cal loop squaring circuit - phy_set_rf_data(phw_data, 11, (11<<24)|0x1901D6); - //0x05 0x24C60A ; 09318 ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized - phy_set_rf_data(phw_data, 5, (5<<24)|0x24C48A); - //0x06 0x06880C ; 01A20 ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized - phy_set_rf_data(phw_data, 6, (6<<24)|0x06890C); - //0x00 0xFDF1C0 ; 3F7C7 ; Calibration (6e). turn on IQ imbalance/Test mode - phy_set_rf_data(phw_data, 0, (0<<24)|0xFDF1C0); + /* 0x01 0xEE3FC2 ; 3B8FF ; Calibration (6a). enable TX IQ calibration loop circuits */ + phy_set_rf_data(phw_data, 1, (1 << 24) | 0xEE3FC2); + /*0x0B 0x1905D6 ; 06417 ; Calibration (6b). enable TX I/Q cal loop squaring circuit */ + phy_set_rf_data(phw_data, 11, (11 << 24) | 0x1901D6); + /* 0x05 0x24C60A ; 09318 ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized */ + phy_set_rf_data(phw_data, 5, (5 << 24) | 0x24C48A); + /* 0x06 0x06880C ; 01A20 ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized */ + phy_set_rf_data(phw_data, 6, (6 << 24) | 0x06890C); + /* 0x00 0xFDF1C0 ; 3F7C7 ; Calibration (6e). turn on IQ imbalance/Test mode */ + phy_set_rf_data(phw_data, 0, (0 << 24) | 0xFDF1C0); - hw_set_dxx_reg(phw_data, 0x58, 0x30303030); // IQ_Alpha Changed + hw_set_dxx_reg(phw_data, 0x58, 0x30303030); /* IQ_Alpha Changed */ - // a. Disable AGC + /* a. Disable AGC */ hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, ®_agc_ctrl3); reg_agc_ctrl3 &= ~BIT(2); - reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN|MASK_AGC_FIX); + reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN | MASK_AGC_FIX); hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3); hw_get_dxx_reg(phw_data, REG_AGC_CTRL5, &val); val |= MASK_AGC_FIX_GAIN; hw_set_dxx_reg(phw_data, REG_AGC_CTRL5, val); - // b. set iqcal_mode[1:0] to 0x2 and set iqcal_tone[3:2] to 0 + /* b. set iqcal_mode[1:0] to 0x2 and set iqcal_tone[3:2] to 0 */ hw_get_dxx_reg(phw_data, REG_MODE_CTRL, ®_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (read) = 0x%08X\n", reg_mode_ctrl)); - reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE); + reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL | MASK_IQCAL_MODE); - // mode=2, tone=0 - //reg_mode_ctrl |= (MASK_CALIB_START|2); - - // mode=2, tone=1 - //reg_mode_ctrl |= (MASK_CALIB_START|2|(1<<2)); - - // mode=2, tone=2 - reg_mode_ctrl |= (MASK_CALIB_START|2|(2<<2)); + /* mode=2, tone=2 */ + reg_mode_ctrl |= (MASK_CALIB_START | 2 | (2 << 2)); hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); hw_get_dxx_reg(phw_data, 0x5C, ®_dc_cancel); PHY_DEBUG(("[CAL] DC_CANCEL (read) = 0x%08X\n", reg_dc_cancel)); - for (loop = 0; loop < LOOP_TIMES; loop++) - { + for (loop = 0; loop < LOOP_TIMES; loop++) { PHY_DEBUG(("[CAL] [%d.] ==================================\n", loop)); - // c. - // reset cancel_dc_i[9:5] and cancel_dc_q[4:0] in register DC_Cancel + /* c. reset cancel_dc_i[9:5] and cancel_dc_q[4:0] in register DC_Cancel */ reg_dc_cancel &= ~(0x03FF); PHY_DEBUG(("[CAL] DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel)); hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel); @@ -560,12 +501,12 @@ void _txidac_dc_offset_cancellation_winbond(struct hw_data *phw_data) iqcal_image_i = _s13_to_s32(val & 0x00001FFF); iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13); - sqsum = iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q; + sqsum = iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q; mag_0 = (s32) _sqrt(sqsum); PHY_DEBUG(("[CAL] mag_0=%d (iqcal_image_i=%d, iqcal_image_q=%d)\n", - mag_0, iqcal_image_i, iqcal_image_q)); + mag_0, iqcal_image_i, iqcal_image_q)); - // d. + /* d. */ reg_dc_cancel |= (1 << CANCEL_DC_I_SHIFT); PHY_DEBUG(("[CAL] DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel)); hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel); @@ -575,20 +516,16 @@ void _txidac_dc_offset_cancellation_winbond(struct hw_data *phw_data) iqcal_image_i = _s13_to_s32(val & 0x00001FFF); iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13); - sqsum = iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q; + sqsum = iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q; mag_1 = (s32) _sqrt(sqsum); PHY_DEBUG(("[CAL] mag_1=%d (iqcal_image_i=%d, iqcal_image_q=%d)\n", mag_1, iqcal_image_i, iqcal_image_q)); - // e. Calculate the correct DC offset cancellation value for I - if (mag_0 != mag_1) - { - fix_cancel_dc_i = (mag_0*10000) / (mag_0*10000 - mag_1*10000); - } - else - { - if (mag_0 == mag_1) - { + /* e. Calculate the correct DC offset cancellation value for I */ + if (mag_0 != mag_1) { + fix_cancel_dc_i = (mag_0 * 10000) / (mag_0 * 10000 - mag_1 * 10000); + } else { + if (mag_0 == mag_1) { PHY_DEBUG(("[CAL] ***** mag_0 = mag_1 !!\n")); } @@ -598,70 +535,67 @@ void _txidac_dc_offset_cancellation_winbond(struct hw_data *phw_data) PHY_DEBUG(("[CAL] ** fix_cancel_dc_i = %d (0x%04X)\n", fix_cancel_dc_i, _s32_to_s5(fix_cancel_dc_i))); - if ((abs(mag_1-mag_0)*6) > mag_0) - { + if ((abs(mag_1 - mag_0) * 6) > mag_0) { break; } } - if ( loop >= 19 ) - fix_cancel_dc_i = 0; + if (loop >= 19) + fix_cancel_dc_i = 0; reg_dc_cancel &= ~(0x03FF); reg_dc_cancel |= (_s32_to_s5(fix_cancel_dc_i) << CANCEL_DC_I_SHIFT); hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel); PHY_DEBUG(("[CAL] DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel)); - // g. + /* g. */ reg_mode_ctrl &= ~MASK_CALIB_START; hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); } -/////////////////////////////////////////////////////// void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data) { - u32 reg_agc_ctrl3; - u32 reg_mode_ctrl; - u32 reg_dc_cancel; - s32 iqcal_image_i; - s32 iqcal_image_q; - u32 sqsum; - s32 mag_0; - s32 mag_1; - s32 fix_cancel_dc_q = 0; - u32 val; - int loop; + u32 reg_agc_ctrl3; + u32 reg_mode_ctrl; + u32 reg_dc_cancel; + s32 iqcal_image_i; + s32 iqcal_image_q; + u32 sqsum; + s32 mag_0; + s32 mag_1; + s32 fix_cancel_dc_q = 0; + u32 val; + int loop; PHY_DEBUG(("[CAL] -> [3]_txqdac_dc_offset_cacellation()\n")); - //0x01 0xEE3FC2 ; 3B8FF ; Calibration (6a). enable TX IQ calibration loop circuits - phy_set_rf_data(phw_data, 1, (1<<24)|0xEE3FC2); - //0x0B 0x1905D6 ; 06417 ; Calibration (6b). enable TX I/Q cal loop squaring circuit - phy_set_rf_data(phw_data, 11, (11<<24)|0x1901D6); - //0x05 0x24C60A ; 09318 ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized - phy_set_rf_data(phw_data, 5, (5<<24)|0x24C48A); - //0x06 0x06880C ; 01A20 ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized - phy_set_rf_data(phw_data, 6, (6<<24)|0x06890C); - //0x00 0xFDF1C0 ; 3F7C7 ; Calibration (6e). turn on IQ imbalance/Test mode - phy_set_rf_data(phw_data, 0, (0<<24)|0xFDF1C0); - - hw_set_dxx_reg(phw_data, 0x58, 0x30303030); // IQ_Alpha Changed - - // a. Disable AGC + /* 0x01 0xEE3FC2 ; 3B8FF ; Calibration (6a). enable TX IQ calibration loop circuits */ + phy_set_rf_data(phw_data, 1, (1 << 24) | 0xEE3FC2); + /* 0x0B 0x1905D6 ; 06417 ; Calibration (6b). enable TX I/Q cal loop squaring circuit */ + phy_set_rf_data(phw_data, 11, (11 << 24) | 0x1901D6); + /* 0x05 0x24C60A ; 09318 ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized */ + phy_set_rf_data(phw_data, 5, (5 << 24) | 0x24C48A); + /* 0x06 0x06880C ; 01A20 ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized */ + phy_set_rf_data(phw_data, 6, (6 << 24) | 0x06890C); + /* 0x00 0xFDF1C0 ; 3F7C7 ; Calibration (6e). turn on IQ imbalance/Test mode */ + phy_set_rf_data(phw_data, 0, (0 << 24) | 0xFDF1C0); + + hw_set_dxx_reg(phw_data, 0x58, 0x30303030); /* IQ_Alpha Changed */ + + /* a. Disable AGC */ hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, ®_agc_ctrl3); reg_agc_ctrl3 &= ~BIT(2); - reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN|MASK_AGC_FIX); + reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN | MASK_AGC_FIX); hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3); hw_get_dxx_reg(phw_data, REG_AGC_CTRL5, &val); val |= MASK_AGC_FIX_GAIN; hw_set_dxx_reg(phw_data, REG_AGC_CTRL5, val); - // a. set iqcal_mode[1:0] to 0x3 and set iqcal_tone[3:2] to 0 + /* a. set iqcal_mode[1:0] to 0x3 and set iqcal_tone[3:2] to 0 */ hw_get_dxx_reg(phw_data, REG_MODE_CTRL, ®_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (read) = 0x%08X\n", reg_mode_ctrl)); - //reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE); reg_mode_ctrl &= ~(MASK_IQCAL_MODE); reg_mode_ctrl |= (MASK_CALIB_START|3); hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); @@ -670,12 +604,10 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data) hw_get_dxx_reg(phw_data, 0x5C, ®_dc_cancel); PHY_DEBUG(("[CAL] DC_CANCEL (read) = 0x%08X\n", reg_dc_cancel)); - for (loop = 0; loop < LOOP_TIMES; loop++) - { + for (loop = 0; loop < LOOP_TIMES; loop++) { PHY_DEBUG(("[CAL] [%d.] ==================================\n", loop)); - // b. - // reset cancel_dc_q[4:0] in register DC_Cancel + /* b. reset cancel_dc_q[4:0] in register DC_Cancel */ reg_dc_cancel &= ~(0x001F); PHY_DEBUG(("[CAL] DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel)); hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel); @@ -685,12 +617,12 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data) iqcal_image_i = _s13_to_s32(val & 0x00001FFF); iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13); - sqsum = iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q; + sqsum = iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q; mag_0 = _sqrt(sqsum); PHY_DEBUG(("[CAL] mag_0=%d (iqcal_image_i=%d, iqcal_image_q=%d)\n", mag_0, iqcal_image_i, iqcal_image_q)); - // c. + /* c. */ reg_dc_cancel |= (1 << CANCEL_DC_Q_SHIFT); PHY_DEBUG(("[CAL] DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel)); hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel); @@ -700,20 +632,16 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data) iqcal_image_i = _s13_to_s32(val & 0x00001FFF); iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13); - sqsum = iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q; + sqsum = iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q; mag_1 = _sqrt(sqsum); PHY_DEBUG(("[CAL] mag_1=%d (iqcal_image_i=%d, iqcal_image_q=%d)\n", mag_1, iqcal_image_i, iqcal_image_q)); - // d. Calculate the correct DC offset cancellation value for I - if (mag_0 != mag_1) - { + /* d. Calculate the correct DC offset cancellation value for I */ + if (mag_0 != mag_1) { fix_cancel_dc_q = (mag_0*10000) / (mag_0*10000 - mag_1*10000); - } - else - { - if (mag_0 == mag_1) - { + } else { + if (mag_0 == mag_1) { PHY_DEBUG(("[CAL] ***** mag_0 = mag_1 !!\n")); } @@ -723,14 +651,13 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data) PHY_DEBUG(("[CAL] ** fix_cancel_dc_q = %d (0x%04X)\n", fix_cancel_dc_q, _s32_to_s5(fix_cancel_dc_q))); - if ((abs(mag_1-mag_0)*6) > mag_0) - { + if ((abs(mag_1 - mag_0) * 6) > mag_0) { break; } } - if ( loop >= 19 ) - fix_cancel_dc_q = 0; + if (loop >= 19) + fix_cancel_dc_q = 0; reg_dc_cancel &= ~(0x001F); reg_dc_cancel |= (_s32_to_s5(fix_cancel_dc_q) << CANCEL_DC_Q_SHIFT); @@ -738,39 +665,38 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data) PHY_DEBUG(("[CAL] DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel)); - // f. + /* f. */ reg_mode_ctrl &= ~MASK_CALIB_START; hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); } -//20060612.1.a 20060718.1 Modify u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, s32 a_2_threshold, s32 b_2_threshold) { - u32 reg_mode_ctrl; - s32 iq_mag_0_tx; - s32 iqcal_tone_i0; - s32 iqcal_tone_q0; - s32 iqcal_tone_i; - s32 iqcal_tone_q; - u32 sqsum; - s32 rot_i_b; - s32 rot_q_b; - s32 tx_cal_flt_b[4]; - s32 tx_cal[4]; - s32 tx_cal_reg[4]; - s32 a_2, b_2; - s32 sin_b, sin_2b; - s32 cos_b, cos_2b; - s32 divisor; - s32 temp1, temp2; - u32 val; - u16 loop; - s32 iqcal_tone_i_avg,iqcal_tone_q_avg; - u8 verify_count; - int capture_time; + u32 reg_mode_ctrl; + s32 iq_mag_0_tx; + s32 iqcal_tone_i0; + s32 iqcal_tone_q0; + s32 iqcal_tone_i; + s32 iqcal_tone_q; + u32 sqsum; + s32 rot_i_b; + s32 rot_q_b; + s32 tx_cal_flt_b[4]; + s32 tx_cal[4]; + s32 tx_cal_reg[4]; + s32 a_2, b_2; + s32 sin_b, sin_2b; + s32 cos_b, cos_2b; + s32 divisor; + s32 temp1, temp2; + u32 val; + u16 loop; + s32 iqcal_tone_i_avg, iqcal_tone_q_avg; + u8 verify_count; + int capture_time; PHY_DEBUG(("[CAL] -> _tx_iq_calibration_loop()\n")); PHY_DEBUG(("[CAL] ** a_2_threshold = %d\n", a_2_threshold)); @@ -783,26 +709,26 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, loop = LOOP_TIMES; - while (loop > 0) - { - PHY_DEBUG(("[CAL] [%d.] <_tx_iq_calibration_loop>\n", (LOOP_TIMES-loop+1))); + while (loop > 0) { + PHY_DEBUG(("[CAL] [%d.] <_tx_iq_calibration_loop>\n", (LOOP_TIMES - loop + 1))); - iqcal_tone_i_avg=0; - iqcal_tone_q_avg=0; - if( !hw_set_dxx_reg(phw_data, 0x3C, 0x00) ) // 20060718.1 modify + iqcal_tone_i_avg = 0; + iqcal_tone_q_avg = 0; + if (!hw_set_dxx_reg(phw_data, 0x3C, 0x00)) return 0; - for(capture_time=0;capture_time<10;capture_time++) - { - // a. Set iqcal_mode[1:0] to 0x2 and set "calib_start" to 0x1 to - // enable "IQ alibration Mode II" - reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE); + for (capture_time = 0; capture_time < 10; capture_time++) { + /* + * a. Set iqcal_mode[1:0] to 0x2 and set "calib_start" to 0x1 to + * enable "IQ alibration Mode II" + */ + reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL | MASK_IQCAL_MODE); reg_mode_ctrl &= ~MASK_IQCAL_MODE; - reg_mode_ctrl |= (MASK_CALIB_START|0x02); - reg_mode_ctrl |= (MASK_CALIB_START|0x02|2<<2); + reg_mode_ctrl |= (MASK_CALIB_START | 0x02); + reg_mode_ctrl |= (MASK_CALIB_START | 0x02 | 2 << 2); hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); - // b. + /* b. */ hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val); PHY_DEBUG(("[CAL] CALIB_READ1 = 0x%08X\n", val)); @@ -811,26 +737,26 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, PHY_DEBUG(("[CAL] ** iqcal_tone_i0=%d, iqcal_tone_q0=%d\n", iqcal_tone_i0, iqcal_tone_q0)); - sqsum = iqcal_tone_i0*iqcal_tone_i0 + - iqcal_tone_q0*iqcal_tone_q0; + sqsum = iqcal_tone_i0 * iqcal_tone_i0 + iqcal_tone_q0 * iqcal_tone_q0; iq_mag_0_tx = (s32) _sqrt(sqsum); PHY_DEBUG(("[CAL] ** iq_mag_0_tx=%d\n", iq_mag_0_tx)); - // c. Set "calib_start" to 0x0 + /* c. Set "calib_start" to 0x0 */ reg_mode_ctrl &= ~MASK_CALIB_START; hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); - // d. Set iqcal_mode[1:0] to 0x3 and set "calib_start" to 0x1 to - // enable "IQ alibration Mode II" - //hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &val); + /* + * d. Set iqcal_mode[1:0] to 0x3 and set "calib_start" to 0x1 to + * enable "IQ alibration Mode II" + */ hw_get_dxx_reg(phw_data, REG_MODE_CTRL, ®_mode_ctrl); reg_mode_ctrl &= ~MASK_IQCAL_MODE; - reg_mode_ctrl |= (MASK_CALIB_START|0x03); + reg_mode_ctrl |= (MASK_CALIB_START | 0x03); hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); - // e. + /* e. */ hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val); PHY_DEBUG(("[CAL] CALIB_READ1 = 0x%08X\n", val)); @@ -838,14 +764,11 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, iqcal_tone_q = _s13_to_s32((val & 0x03FFE000) >> 13); PHY_DEBUG(("[CAL] ** iqcal_tone_i = %d, iqcal_tone_q = %d\n", iqcal_tone_i, iqcal_tone_q)); - if( capture_time == 0) - { + if (capture_time == 0) { continue; - } - else - { - iqcal_tone_i_avg=( iqcal_tone_i_avg*(capture_time-1) +iqcal_tone_i)/capture_time; - iqcal_tone_q_avg=( iqcal_tone_q_avg*(capture_time-1) +iqcal_tone_q)/capture_time; + } else { + iqcal_tone_i_avg = (iqcal_tone_i_avg * (capture_time - 1) + iqcal_tone_i) / capture_time; + iqcal_tone_q_avg = (iqcal_tone_q_avg * (capture_time - 1) + iqcal_tone_q) / capture_time; } } @@ -860,11 +783,10 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, PHY_DEBUG(("[CAL] ** rot_i_b = %d, rot_q_b = %d\n", rot_i_b, rot_q_b)); - // f. - divisor = ((iq_mag_0_tx * iq_mag_0_tx * 2)/1024 - rot_i_b) * 2; + /* f. */ + divisor = ((iq_mag_0_tx * iq_mag_0_tx * 2) / 1024 - rot_i_b) * 2; - if (divisor == 0) - { + if (divisor == 0) { PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> ERROR *******\n")); PHY_DEBUG(("[CAL] ** divisor=0 to calculate EPS and THETA !!\n")); PHY_DEBUG(("[CAL] ******************************************\n")); @@ -879,105 +801,80 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, phw_data->iq_rsdl_gain_tx_d2 = a_2; phw_data->iq_rsdl_phase_tx_d2 = b_2; - //if ((abs(a_2) < 150) && (abs(b_2) < 100)) - //if ((abs(a_2) < 200) && (abs(b_2) < 200)) - if ((abs(a_2) < a_2_threshold) && (abs(b_2) < b_2_threshold)) - { + if ((abs(a_2) < a_2_threshold) && (abs(b_2) < b_2_threshold)) { verify_count++; PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *************\n")); PHY_DEBUG(("[CAL] ** VERIFY OK # %d !!\n", verify_count)); PHY_DEBUG(("[CAL] ******************************************\n")); - if (verify_count > 2) - { + if (verify_count > 2) { PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *********\n")); PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION (EPS,THETA) OK !!\n")); PHY_DEBUG(("[CAL] **************************************\n")); return 0; } - continue; - } - else - { + } else { verify_count = 0; } _sin_cos(b_2, &sin_b, &cos_b); - _sin_cos(b_2*2, &sin_2b, &cos_2b); + _sin_cos(b_2 * 2, &sin_2b, &cos_2b); PHY_DEBUG(("[CAL] ** sin(b/2)=%d, cos(b/2)=%d\n", sin_b, cos_b)); PHY_DEBUG(("[CAL] ** sin(b)=%d, cos(b)=%d\n", sin_2b, cos_2b)); - if (cos_2b == 0) - { + if (cos_2b == 0) { PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> ERROR *******\n")); PHY_DEBUG(("[CAL] ** cos(b)=0 !!\n")); PHY_DEBUG(("[CAL] ******************************************\n")); break; } - // 1280 * 32768 = 41943040 - temp1 = (41943040/cos_2b)*cos_b; + /* 1280 * 32768 = 41943040 */ + temp1 = (41943040 / cos_2b) * cos_b; - //temp2 = (41943040/cos_2b)*sin_b*(-1); - if (phw_data->revision == 0x2002) // 1st-cut - { - temp2 = (41943040/cos_2b)*sin_b*(-1); - } - else // 2nd-cut - { - temp2 = (41943040*4/cos_2b)*sin_b*(-1); + if (phw_data->revision == 0x2002) { /* 1st-cut */ + temp2 = (41943040 / cos_2b) * sin_b * (-1); + } else { /* 2nd-cut */ + temp2 = (41943040 * 4 / cos_2b) * sin_b * (-1); } - tx_cal_flt_b[0] = _floor(temp1/(32768+a_2)); - tx_cal_flt_b[1] = _floor(temp2/(32768+a_2)); - tx_cal_flt_b[2] = _floor(temp2/(32768-a_2)); - tx_cal_flt_b[3] = _floor(temp1/(32768-a_2)); + tx_cal_flt_b[0] = _floor(temp1 / (32768 + a_2)); + tx_cal_flt_b[1] = _floor(temp2 / (32768 + a_2)); + tx_cal_flt_b[2] = _floor(temp2 / (32768 - a_2)); + tx_cal_flt_b[3] = _floor(temp1 / (32768 - a_2)); PHY_DEBUG(("[CAL] ** tx_cal_flt_b[0] = %d\n", tx_cal_flt_b[0])); PHY_DEBUG(("[CAL] tx_cal_flt_b[1] = %d\n", tx_cal_flt_b[1])); PHY_DEBUG(("[CAL] tx_cal_flt_b[2] = %d\n", tx_cal_flt_b[2])); PHY_DEBUG(("[CAL] tx_cal_flt_b[3] = %d\n", tx_cal_flt_b[3])); tx_cal[2] = tx_cal_flt_b[2]; - tx_cal[2] = tx_cal[2] +3; + tx_cal[2] = tx_cal[2] + 3; tx_cal[1] = tx_cal[2]; tx_cal[3] = tx_cal_flt_b[3] - 128; - tx_cal[0] = -tx_cal[3]+1; + tx_cal[0] = -tx_cal[3] + 1; PHY_DEBUG(("[CAL] tx_cal[0] = %d\n", tx_cal[0])); PHY_DEBUG(("[CAL] tx_cal[1] = %d\n", tx_cal[1])); PHY_DEBUG(("[CAL] tx_cal[2] = %d\n", tx_cal[2])); PHY_DEBUG(("[CAL] tx_cal[3] = %d\n", tx_cal[3])); - //if ((tx_cal[0] == 0) && (tx_cal[1] == 0) && - // (tx_cal[2] == 0) && (tx_cal[3] == 0)) - //{ - // PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *************\n")); - // PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION COMPLETE !!\n")); - // PHY_DEBUG(("[CAL] ******************************************\n")); - // return 0; - //} - - // g. - if (phw_data->revision == 0x2002) // 1st-cut - { + /* g. */ + if (phw_data->revision == 0x2002) { /* 1st-cut */ hw_get_dxx_reg(phw_data, 0x54, &val); PHY_DEBUG(("[CAL] ** 0x54 = 0x%08X\n", val)); tx_cal_reg[0] = _s4_to_s32((val & 0xF0000000) >> 28); tx_cal_reg[1] = _s4_to_s32((val & 0x0F000000) >> 24); tx_cal_reg[2] = _s4_to_s32((val & 0x00F00000) >> 20); tx_cal_reg[3] = _s4_to_s32((val & 0x000F0000) >> 16); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ hw_get_dxx_reg(phw_data, 0x3C, &val); PHY_DEBUG(("[CAL] ** 0x3C = 0x%08X\n", val)); tx_cal_reg[0] = _s5_to_s32((val & 0xF8000000) >> 27); tx_cal_reg[1] = _s6_to_s32((val & 0x07E00000) >> 21); tx_cal_reg[2] = _s6_to_s32((val & 0x001F8000) >> 15); tx_cal_reg[3] = _s5_to_s32((val & 0x00007C00) >> 10); - } PHY_DEBUG(("[CAL] ** tx_cal_reg[0] = %d\n", tx_cal_reg[0])); @@ -985,22 +882,17 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, PHY_DEBUG(("[CAL] tx_cal_reg[2] = %d\n", tx_cal_reg[2])); PHY_DEBUG(("[CAL] tx_cal_reg[3] = %d\n", tx_cal_reg[3])); - if (phw_data->revision == 0x2002) // 1st-cut - { - if (((tx_cal_reg[0]==7) || (tx_cal_reg[0]==(-8))) && - ((tx_cal_reg[3]==7) || (tx_cal_reg[3]==(-8)))) - { + if (phw_data->revision == 0x2002) { /* 1st-cut */ + if (((tx_cal_reg[0] == 7) || (tx_cal_reg[0] == (-8))) && + ((tx_cal_reg[3] == 7) || (tx_cal_reg[3] == (-8)))) { PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *********\n")); PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION SATUATION !!\n")); PHY_DEBUG(("[CAL] **************************************\n")); break; } - } - else // 2nd-cut - { - if (((tx_cal_reg[0]==31) || (tx_cal_reg[0]==(-32))) && - ((tx_cal_reg[3]==31) || (tx_cal_reg[3]==(-32)))) - { + } else { /* 2nd-cut */ + if (((tx_cal_reg[0] == 31) || (tx_cal_reg[0] == (-32))) && + ((tx_cal_reg[3] == 31) || (tx_cal_reg[3] == (-32)))) { PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *********\n")); PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION SATUATION !!\n")); PHY_DEBUG(("[CAL] **************************************\n")); @@ -1017,30 +909,27 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, PHY_DEBUG(("[CAL] apply tx_cal[2] = %d\n", tx_cal[2])); PHY_DEBUG(("[CAL] apply tx_cal[3] = %d\n", tx_cal[3])); - if (phw_data->revision == 0x2002) // 1st-cut - { + if (phw_data->revision == 0x2002) { /* 1st-cut */ val &= 0x0000FFFF; - val |= ((_s32_to_s4(tx_cal[0]) << 28)| - (_s32_to_s4(tx_cal[1]) << 24)| - (_s32_to_s4(tx_cal[2]) << 20)| + val |= ((_s32_to_s4(tx_cal[0]) << 28) | + (_s32_to_s4(tx_cal[1]) << 24) | + (_s32_to_s4(tx_cal[2]) << 20) | (_s32_to_s4(tx_cal[3]) << 16)); hw_set_dxx_reg(phw_data, 0x54, val); PHY_DEBUG(("[CAL] ** CALIB_DATA = 0x%08X\n", val)); return 0; - } - else // 2nd-cut - { + } else { /* 2nd-cut */ val &= 0x000003FF; - val |= ((_s32_to_s5(tx_cal[0]) << 27)| - (_s32_to_s6(tx_cal[1]) << 21)| - (_s32_to_s6(tx_cal[2]) << 15)| + val |= ((_s32_to_s5(tx_cal[0]) << 27) | + (_s32_to_s6(tx_cal[1]) << 21) | + (_s32_to_s6(tx_cal[2]) << 15) | (_s32_to_s5(tx_cal[3]) << 10)); hw_set_dxx_reg(phw_data, 0x3C, val); PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION = 0x%08X\n", val)); return 0; } - // i. Set "calib_start" to 0x0 + /* i. Set "calib_start" to 0x0 */ reg_mode_ctrl &= ~MASK_CALIB_START; hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); @@ -1053,40 +942,41 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data, void _tx_iq_calibration_winbond(struct hw_data *phw_data) { - u32 reg_agc_ctrl3; -#ifdef _DEBUG - s32 tx_cal_reg[4]; + u32 reg_agc_ctrl3; + #ifdef _DEBUG + s32 tx_cal_reg[4]; -#endif - u32 reg_mode_ctrl; - u32 val; - u8 result; + #endif + u32 reg_mode_ctrl; + u32 val; + u8 result; PHY_DEBUG(("[CAL] -> [4]_tx_iq_calibration()\n")); - //0x01 0xEE3FC2 ; 3B8FF ; Calibration (6a). enable TX IQ calibration loop circuits - phy_set_rf_data(phw_data, 1, (1<<24)|0xEE3FC2); - //0x0B 0x1905D6 ; 06417 ; Calibration (6b). enable TX I/Q cal loop squaring circuit - phy_set_rf_data(phw_data, 11, (11<<24)|0x19BDD6); // 20060612.1.a 0x1905D6); - //0x05 0x24C60A ; 09318 ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized - phy_set_rf_data(phw_data, 5, (5<<24)|0x24C60A); //0x24C60A (high temperature) - //0x06 0x06880C ; 01A20 ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized - phy_set_rf_data(phw_data, 6, (6<<24)|0x34880C); // 20060612.1.a 0x06890C); - //0x00 0xFDF1C0 ; 3F7C7 ; Calibration (6e). turn on IQ imbalance/Test mode - phy_set_rf_data(phw_data, 0, (0<<24)|0xFDF1C0); - //; [BB-chip]: Calibration (6f).Send test pattern - //; [BB-chip]: Calibration (6g). Search RXGCL optimal value - //; [BB-chip]: Calibration (6h). Caculate TX-path IQ imbalance and setting TX path IQ compensation table - //phy_set_rf_data(phw_data, 3, (3<<24)|0x025586); - - msleep(30); // 20060612.1.a 30ms delay. Add the follow 2 lines - //To adjust TXVGA to fit iq_mag_0 range from 1250 ~ 1750 - adjust_TXVGA_for_iq_mag( phw_data ); - - // a. Disable AGC + /* 0x01 0xEE3FC2 ; 3B8FF ; Calibration (6a). enable TX IQ calibration loop circuits */ + phy_set_rf_data(phw_data, 1, (1 << 24) | 0xEE3FC2); + /* 0x0B 0x1905D6 ; 06417 ; Calibration (6b). enable TX I/Q cal loop squaring circuit */ + phy_set_rf_data(phw_data, 11, (11 << 24) | 0x19BDD6); + /* 0x05 0x24C60A ; 09318 ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized */ + phy_set_rf_data(phw_data, 5, (5 << 24) | 0x24C60A); /* 0x24C60A (high temperature) */ + /* 0x06 0x06880C ; 01A20 ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized */ + phy_set_rf_data(phw_data, 6, (6 << 24) | 0x34880C); + /* 0x00 0xFDF1C0 ; 3F7C7 ; Calibration (6e). turn on IQ imbalance/Test mode */ + phy_set_rf_data(phw_data, 0, (0 << 24) | 0xFDF1C0); + /* + * [BB-chip]: Calibration (6f).Send test pattern + * [BB-chip]: Calibration (6g). Search RXGCL optimal value + * [BB-chip]: Calibration (6h). Caculate TX-path IQ imbalance and setting TX path IQ compensation table + */ + + msleep(30); /* 30ms delay. */ + /* To adjust TXVGA to fit iq_mag_0 range from 1250 ~ 1750 */ + adjust_TXVGA_for_iq_mag(phw_data); + + /* a. Disable AGC */ hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, ®_agc_ctrl3); reg_agc_ctrl3 &= ~BIT(2); - reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN|MASK_AGC_FIX); + reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN | MASK_AGC_FIX); hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3); hw_get_dxx_reg(phw_data, REG_AGC_CTRL5, &val); @@ -1095,16 +985,12 @@ void _tx_iq_calibration_winbond(struct hw_data *phw_data) result = _tx_iq_calibration_loop_winbond(phw_data, 150, 100); - if (result > 0) - { - if (phw_data->revision == 0x2002) // 1st-cut - { + if (result > 0) { + if (phw_data->revision == 0x2002) { /* 1st-cut */ hw_get_dxx_reg(phw_data, 0x54, &val); val &= 0x0000FFFF; hw_set_dxx_reg(phw_data, 0x54, val); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ hw_get_dxx_reg(phw_data, 0x3C, &val); val &= 0x000003FF; hw_set_dxx_reg(phw_data, 0x3C, val); @@ -1112,54 +998,41 @@ void _tx_iq_calibration_winbond(struct hw_data *phw_data) result = _tx_iq_calibration_loop_winbond(phw_data, 300, 200); - if (result > 0) - { - if (phw_data->revision == 0x2002) // 1st-cut - { + if (result > 0) { + if (phw_data->revision == 0x2002) { /* 1st-cut */ hw_get_dxx_reg(phw_data, 0x54, &val); val &= 0x0000FFFF; hw_set_dxx_reg(phw_data, 0x54, val); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ hw_get_dxx_reg(phw_data, 0x3C, &val); val &= 0x000003FF; hw_set_dxx_reg(phw_data, 0x3C, val); } result = _tx_iq_calibration_loop_winbond(phw_data, 500, 400); - if (result > 0) - { - if (phw_data->revision == 0x2002) // 1st-cut - { + if (result > 0) { + if (phw_data->revision == 0x2002) { /* 1st-cut */ hw_get_dxx_reg(phw_data, 0x54, &val); val &= 0x0000FFFF; hw_set_dxx_reg(phw_data, 0x54, val); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ hw_get_dxx_reg(phw_data, 0x3C, &val); val &= 0x000003FF; hw_set_dxx_reg(phw_data, 0x3C, val); } - result = _tx_iq_calibration_loop_winbond(phw_data, 700, 500); - if (result > 0) - { + if (result > 0) { PHY_DEBUG(("[CAL] ** <_tx_iq_calibration> **************\n")); PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION FAILURE !!\n")); PHY_DEBUG(("[CAL] **************************************\n")); - if (phw_data->revision == 0x2002) // 1st-cut - { + if (phw_data->revision == 0x2002) { /* 1st-cut */ hw_get_dxx_reg(phw_data, 0x54, &val); val &= 0x0000FFFF; hw_set_dxx_reg(phw_data, 0x54, val); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ hw_get_dxx_reg(phw_data, 0x3C, &val); val &= 0x000003FF; hw_set_dxx_reg(phw_data, 0x3C, val); @@ -1169,30 +1042,26 @@ void _tx_iq_calibration_winbond(struct hw_data *phw_data) } } - // i. Set "calib_start" to 0x0 + /* i. Set "calib_start" to 0x0 */ hw_get_dxx_reg(phw_data, REG_MODE_CTRL, ®_mode_ctrl); reg_mode_ctrl &= ~MASK_CALIB_START; hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); - // g. Enable AGC - //hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, &val); + /* g. Enable AGC */ reg_agc_ctrl3 |= BIT(2); - reg_agc_ctrl3 &= ~(MASK_LNA_FIX_GAIN|MASK_AGC_FIX); + reg_agc_ctrl3 &= ~(MASK_LNA_FIX_GAIN | MASK_AGC_FIX); hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3); -#ifdef _DEBUG - if (phw_data->revision == 0x2002) // 1st-cut - { + #ifdef _DEBUG + if (phw_data->revision == 0x2002) { /* 1st-cut */ hw_get_dxx_reg(phw_data, 0x54, &val); PHY_DEBUG(("[CAL] ** 0x54 = 0x%08X\n", val)); tx_cal_reg[0] = _s4_to_s32((val & 0xF0000000) >> 28); tx_cal_reg[1] = _s4_to_s32((val & 0x0F000000) >> 24); tx_cal_reg[2] = _s4_to_s32((val & 0x00F00000) >> 20); tx_cal_reg[3] = _s4_to_s32((val & 0x000F0000) >> 16); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ hw_get_dxx_reg(phw_data, 0x3C, &val); PHY_DEBUG(("[CAL] ** 0x3C = 0x%08X\n", val)); tx_cal_reg[0] = _s5_to_s32((val & 0xF8000000) >> 27); @@ -1208,126 +1077,116 @@ void _tx_iq_calibration_winbond(struct hw_data *phw_data) PHY_DEBUG(("[CAL] tx_cal_reg[3] = %d\n", tx_cal_reg[3])); #endif - - // for test - BEN - // RF Control Override + /* for test - BEN */ + /* RF Control Override */ } -///////////////////////////////////////////////////////////////////////////////////////// u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 frequency) { - u32 reg_mode_ctrl; - s32 iqcal_tone_i; - s32 iqcal_tone_q; - s32 iqcal_image_i; - s32 iqcal_image_q; - s32 rot_tone_i_b; - s32 rot_tone_q_b; - s32 rot_image_i_b; - s32 rot_image_q_b; - s32 rx_cal_flt_b[4]; - s32 rx_cal[4]; - s32 rx_cal_reg[4]; - s32 a_2, b_2; - s32 sin_b, sin_2b; - s32 cos_b, cos_2b; - s32 temp1, temp2; - u32 val; - u16 loop; - - u32 pwr_tone; - u32 pwr_image; - u8 verify_count; - - s32 iqcal_tone_i_avg,iqcal_tone_q_avg; - s32 iqcal_image_i_avg,iqcal_image_q_avg; - u16 capture_time; + u32 reg_mode_ctrl; + s32 iqcal_tone_i; + s32 iqcal_tone_q; + s32 iqcal_image_i; + s32 iqcal_image_q; + s32 rot_tone_i_b; + s32 rot_tone_q_b; + s32 rot_image_i_b; + s32 rot_image_q_b; + s32 rx_cal_flt_b[4]; + s32 rx_cal[4]; + s32 rx_cal_reg[4]; + s32 a_2, b_2; + s32 sin_b, sin_2b; + s32 cos_b, cos_2b; + s32 temp1, temp2; + u32 val; + u16 loop; + + u32 pwr_tone; + u32 pwr_image; + u8 verify_count; + + s32 iqcal_tone_i_avg, iqcal_tone_q_avg; + s32 iqcal_image_i_avg, iqcal_image_q_avg; + u16 capture_time; PHY_DEBUG(("[CAL] -> [5]_rx_iq_calibration_loop()\n")); PHY_DEBUG(("[CAL] ** factor = %d\n", factor)); -// RF Control Override + /* RF Control Override */ hw_get_cxx_reg(phw_data, 0x80, &val); val |= BIT(19); hw_set_cxx_reg(phw_data, 0x80, val); -// RF_Ctrl + /* RF_Ctrl */ hw_get_cxx_reg(phw_data, 0xE4, &val); val |= BIT(0); hw_set_cxx_reg(phw_data, 0xE4, val); PHY_DEBUG(("[CAL] ** RF_CTRL(0xE4) = 0x%08X", val)); - hw_set_dxx_reg(phw_data, 0x58, 0x44444444); // IQ_Alpha + hw_set_dxx_reg(phw_data, 0x58, 0x44444444); /* IQ_Alpha */ - // b. + /* b. */ hw_get_dxx_reg(phw_data, REG_MODE_CTRL, ®_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (read) = 0x%08X\n", reg_mode_ctrl)); verify_count = 0; - //for (loop = 0; loop < 1; loop++) - //for (loop = 0; loop < LOOP_TIMES; loop++) loop = LOOP_TIMES; - while (loop > 0) - { - PHY_DEBUG(("[CAL] [%d.] <_rx_iq_calibration_loop>\n", (LOOP_TIMES-loop+1))); - iqcal_tone_i_avg=0; - iqcal_tone_q_avg=0; - iqcal_image_i_avg=0; - iqcal_image_q_avg=0; - capture_time=0; - - for(capture_time=0; capture_time<10; capture_time++) - { - // i. Set "calib_start" to 0x0 - reg_mode_ctrl &= ~MASK_CALIB_START; - if( !hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl) )//20060718.1 modify - return 0; - PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); + while (loop > 0) { + PHY_DEBUG(("[CAL] [%d.] <_rx_iq_calibration_loop>\n", (LOOP_TIMES - loop + 1))); + iqcal_tone_i_avg = 0; + iqcal_tone_q_avg = 0; + iqcal_image_i_avg = 0; + iqcal_image_q_avg = 0; + capture_time = 0; + + for (capture_time = 0; capture_time < 10; capture_time++) { + /* i. Set "calib_start" to 0x0 */ + reg_mode_ctrl &= ~MASK_CALIB_START; + if (!hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl)) + return 0; + PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); - reg_mode_ctrl &= ~MASK_IQCAL_MODE; - reg_mode_ctrl |= (MASK_CALIB_START|0x1); - hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); - PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); + reg_mode_ctrl &= ~MASK_IQCAL_MODE; + reg_mode_ctrl |= (MASK_CALIB_START | 0x1); + hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); + PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); - // c. - hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val); - PHY_DEBUG(("[CAL] CALIB_READ1 = 0x%08X\n", val)); + /* c. */ + hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val); + PHY_DEBUG(("[CAL] CALIB_READ1 = 0x%08X\n", val)); - iqcal_tone_i = _s13_to_s32(val & 0x00001FFF); - iqcal_tone_q = _s13_to_s32((val & 0x03FFE000) >> 13); - PHY_DEBUG(("[CAL] ** iqcal_tone_i = %d, iqcal_tone_q = %d\n", - iqcal_tone_i, iqcal_tone_q)); + iqcal_tone_i = _s13_to_s32(val & 0x00001FFF); + iqcal_tone_q = _s13_to_s32((val & 0x03FFE000) >> 13); + PHY_DEBUG(("[CAL] ** iqcal_tone_i = %d, iqcal_tone_q = %d\n", + iqcal_tone_i, iqcal_tone_q)); - hw_get_dxx_reg(phw_data, REG_CALIB_READ2, &val); - PHY_DEBUG(("[CAL] CALIB_READ2 = 0x%08X\n", val)); + hw_get_dxx_reg(phw_data, REG_CALIB_READ2, &val); + PHY_DEBUG(("[CAL] CALIB_READ2 = 0x%08X\n", val)); - iqcal_image_i = _s13_to_s32(val & 0x00001FFF); - iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13); - PHY_DEBUG(("[CAL] ** iqcal_image_i = %d, iqcal_image_q = %d\n", - iqcal_image_i, iqcal_image_q)); - if( capture_time == 0) - { + iqcal_image_i = _s13_to_s32(val & 0x00001FFF); + iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13); + PHY_DEBUG(("[CAL] ** iqcal_image_i = %d, iqcal_image_q = %d\n", + iqcal_image_i, iqcal_image_q)); + if (capture_time == 0) { continue; - } - else - { - iqcal_image_i_avg=( iqcal_image_i_avg*(capture_time-1) +iqcal_image_i)/capture_time; - iqcal_image_q_avg=( iqcal_image_q_avg*(capture_time-1) +iqcal_image_q)/capture_time; - iqcal_tone_i_avg=( iqcal_tone_i_avg*(capture_time-1) +iqcal_tone_i)/capture_time; - iqcal_tone_q_avg=( iqcal_tone_q_avg*(capture_time-1) +iqcal_tone_q)/capture_time; + } else { + iqcal_image_i_avg = (iqcal_image_i_avg * (capture_time - 1) + iqcal_image_i) / capture_time; + iqcal_image_q_avg = (iqcal_image_q_avg * (capture_time - 1) + iqcal_image_q) / capture_time; + iqcal_tone_i_avg = (iqcal_tone_i_avg * (capture_time - 1) + iqcal_tone_i) / capture_time; + iqcal_tone_q_avg = (iqcal_tone_q_avg * (capture_time - 1) + iqcal_tone_q) / capture_time; } } - iqcal_image_i = iqcal_image_i_avg; iqcal_image_q = iqcal_image_q_avg; iqcal_tone_i = iqcal_tone_i_avg; iqcal_tone_q = iqcal_tone_q_avg; - // d. + /* d. */ rot_tone_i_b = (iqcal_tone_i * iqcal_tone_i + iqcal_tone_q * iqcal_tone_q) / 1024; rot_tone_q_b = (iqcal_tone_i * iqcal_tone_q * (-1) + @@ -1342,9 +1201,8 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre PHY_DEBUG(("[CAL] ** rot_image_i_b = %d\n", rot_image_i_b)); PHY_DEBUG(("[CAL] ** rot_image_q_b = %d\n", rot_image_q_b)); - // f. - if (rot_tone_i_b == 0) - { + /* f. */ + if (rot_tone_i_b == 0) { PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> ERROR *******\n")); PHY_DEBUG(("[CAL] ** rot_tone_i_b=0 to calculate EPS and THETA !!\n")); PHY_DEBUG(("[CAL] ******************************************\n")); @@ -1362,35 +1220,30 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre PHY_DEBUG(("[CAL] ***** THETA/2 = %d\n", b_2)); _sin_cos(b_2, &sin_b, &cos_b); - _sin_cos(b_2*2, &sin_2b, &cos_2b); + _sin_cos(b_2 * 2, &sin_2b, &cos_2b); PHY_DEBUG(("[CAL] ** sin(b/2)=%d, cos(b/2)=%d\n", sin_b, cos_b)); PHY_DEBUG(("[CAL] ** sin(b)=%d, cos(b)=%d\n", sin_2b, cos_2b)); - if (cos_2b == 0) - { + if (cos_2b == 0) { PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> ERROR *******\n")); PHY_DEBUG(("[CAL] ** cos(b)=0 !!\n")); PHY_DEBUG(("[CAL] ******************************************\n")); break; } - // 1280 * 32768 = 41943040 - temp1 = (41943040/cos_2b)*cos_b; + /* 1280 * 32768 = 41943040 */ + temp1 = (41943040 / cos_2b) * cos_b; - //temp2 = (41943040/cos_2b)*sin_b*(-1); - if (phw_data->revision == 0x2002) // 1st-cut - { - temp2 = (41943040/cos_2b)*sin_b*(-1); - } - else // 2nd-cut - { - temp2 = (41943040*4/cos_2b)*sin_b*(-1); + if (phw_data->revision == 0x2002) { /* 1st-cut */ + temp2 = (41943040 / cos_2b) * sin_b * (-1); + } else { /* 2nd-cut */ + temp2 = (41943040 * 4 / cos_2b) * sin_b * (-1); } - rx_cal_flt_b[0] = _floor(temp1/(32768+a_2)); - rx_cal_flt_b[1] = _floor(temp2/(32768-a_2)); - rx_cal_flt_b[2] = _floor(temp2/(32768+a_2)); - rx_cal_flt_b[3] = _floor(temp1/(32768-a_2)); + rx_cal_flt_b[0] = _floor(temp1 / (32768 + a_2)); + rx_cal_flt_b[1] = _floor(temp2 / (32768 - a_2)); + rx_cal_flt_b[2] = _floor(temp2 / (32768 + a_2)); + rx_cal_flt_b[3] = _floor(temp1 / (32768 - a_2)); PHY_DEBUG(("[CAL] ** rx_cal_flt_b[0] = %d\n", rx_cal_flt_b[0])); PHY_DEBUG(("[CAL] rx_cal_flt_b[1] = %d\n", rx_cal_flt_b[1])); @@ -1406,23 +1259,21 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre PHY_DEBUG(("[CAL] rx_cal[2] = %d\n", rx_cal[2])); PHY_DEBUG(("[CAL] rx_cal[3] = %d\n", rx_cal[3])); - // e. - pwr_tone = (iqcal_tone_i*iqcal_tone_i + iqcal_tone_q*iqcal_tone_q); - pwr_image = (iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q)*factor; + /* e. */ + pwr_tone = (iqcal_tone_i * iqcal_tone_i + iqcal_tone_q * iqcal_tone_q); + pwr_image = (iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q) * factor; PHY_DEBUG(("[CAL] ** pwr_tone = %d\n", pwr_tone)); PHY_DEBUG(("[CAL] ** pwr_image = %d\n", pwr_image)); - if (pwr_tone > pwr_image) - { + if (pwr_tone > pwr_image) { verify_count++; PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> *************\n")); PHY_DEBUG(("[CAL] ** VERIFY OK # %d !!\n", verify_count)); PHY_DEBUG(("[CAL] ******************************************\n")); - if (verify_count > 2) - { + if (verify_count > 2) { PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> *********\n")); PHY_DEBUG(("[CAL] ** RX_IQ_CALIBRATION OK !!\n")); PHY_DEBUG(("[CAL] **************************************\n")); @@ -1431,19 +1282,16 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre continue; } - // g. + /* g. */ hw_get_dxx_reg(phw_data, 0x54, &val); PHY_DEBUG(("[CAL] ** 0x54 = 0x%08X\n", val)); - if (phw_data->revision == 0x2002) // 1st-cut - { + if (phw_data->revision == 0x2002) { /* 1st-cut */ rx_cal_reg[0] = _s4_to_s32((val & 0x0000F000) >> 12); rx_cal_reg[1] = _s4_to_s32((val & 0x00000F00) >> 8); rx_cal_reg[2] = _s4_to_s32((val & 0x000000F0) >> 4); rx_cal_reg[3] = _s4_to_s32((val & 0x0000000F)); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ rx_cal_reg[0] = _s5_to_s32((val & 0xF8000000) >> 27); rx_cal_reg[1] = _s6_to_s32((val & 0x07E00000) >> 21); rx_cal_reg[2] = _s6_to_s32((val & 0x001F8000) >> 15); @@ -1455,22 +1303,17 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre PHY_DEBUG(("[CAL] rx_cal_reg[2] = %d\n", rx_cal_reg[2])); PHY_DEBUG(("[CAL] rx_cal_reg[3] = %d\n", rx_cal_reg[3])); - if (phw_data->revision == 0x2002) // 1st-cut - { - if (((rx_cal_reg[0]==7) || (rx_cal_reg[0]==(-8))) && - ((rx_cal_reg[3]==7) || (rx_cal_reg[3]==(-8)))) - { + if (phw_data->revision == 0x2002) { /* 1st-cut */ + if (((rx_cal_reg[0] == 7) || (rx_cal_reg[0] == (-8))) && + ((rx_cal_reg[3] == 7) || (rx_cal_reg[3] == (-8)))) { PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> *********\n")); PHY_DEBUG(("[CAL] ** RX_IQ_CALIBRATION SATUATION !!\n")); PHY_DEBUG(("[CAL] **************************************\n")); break; } - } - else // 2nd-cut - { - if (((rx_cal_reg[0]==31) || (rx_cal_reg[0]==(-32))) && - ((rx_cal_reg[3]==31) || (rx_cal_reg[3]==(-32)))) - { + } else { /* 2nd-cut */ + if (((rx_cal_reg[0] == 31) || (rx_cal_reg[0] == (-32))) && + ((rx_cal_reg[3] == 31) || (rx_cal_reg[3] == (-32)))) { PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> *********\n")); PHY_DEBUG(("[CAL] ** RX_IQ_CALIBRATION SATUATION !!\n")); PHY_DEBUG(("[CAL] **************************************\n")); @@ -1488,26 +1331,23 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre PHY_DEBUG(("[CAL] apply rx_cal[3] = %d\n", rx_cal[3])); hw_get_dxx_reg(phw_data, 0x54, &val); - if (phw_data->revision == 0x2002) // 1st-cut - { + if (phw_data->revision == 0x2002) { /* 1st-cut */ val &= 0x0000FFFF; - val |= ((_s32_to_s4(rx_cal[0]) << 12)| - (_s32_to_s4(rx_cal[1]) << 8)| - (_s32_to_s4(rx_cal[2]) << 4)| + val |= ((_s32_to_s4(rx_cal[0]) << 12) | + (_s32_to_s4(rx_cal[1]) << 8) | + (_s32_to_s4(rx_cal[2]) << 4) | (_s32_to_s4(rx_cal[3]))); hw_set_dxx_reg(phw_data, 0x54, val); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ val &= 0x000003FF; - val |= ((_s32_to_s5(rx_cal[0]) << 27)| - (_s32_to_s6(rx_cal[1]) << 21)| - (_s32_to_s6(rx_cal[2]) << 15)| + val |= ((_s32_to_s5(rx_cal[0]) << 27) | + (_s32_to_s6(rx_cal[1]) << 21) | + (_s32_to_s6(rx_cal[2]) << 15) | (_s32_to_s5(rx_cal[3]) << 10)); hw_set_dxx_reg(phw_data, 0x54, val); - if( loop == 3 ) - return 0; + if (loop == 3) + return 0; } PHY_DEBUG(("[CAL] ** CALIB_DATA = 0x%08X\n", val)); @@ -1517,51 +1357,47 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre return 1; } -////////////////////////////////////////////////////////// - -////////////////////////////////////////////////////////////////////////// void _rx_iq_calibration_winbond(struct hw_data *phw_data, u32 frequency) { -// figo 20050523 marked thsi flag for can't compile for relesase -#ifdef _DEBUG - s32 rx_cal_reg[4]; - u32 val; -#endif + #ifdef _DEBUG + s32 rx_cal_reg[4]; + u32 val; + #endif - u8 result; + u8 result; PHY_DEBUG(("[CAL] -> [5]_rx_iq_calibration()\n")); -// a. Set RFIC to "RX calibration mode" - //; ----- Calibration (7). RX path IQ imbalance calibration loop - // 0x01 0xFFBFC2 ; 3FEFF ; Calibration (7a). enable RX IQ calibration loop circuits - phy_set_rf_data(phw_data, 1, (1<<24)|0xEFBFC2); - // 0x0B 0x1A01D6 ; 06817 ; Calibration (7b). enable RX I/Q cal loop SW1 circuit - phy_set_rf_data(phw_data, 11, (11<<24)|0x1A05D6); - //0x05 0x24848A ; 09212 ; Calibration (7c). setting TX-VGA gain (TXGCH) to 2 --> to be optimized - phy_set_rf_data(phw_data, 5, (5<<24)| phw_data->txvga_setting_for_cal); - //0x06 0x06840C ; 01A10 ; Calibration (7d). RXGCH=00; RXGCL=010 000 (RXVGA) --> to be optimized - phy_set_rf_data(phw_data, 6, (6<<24)|0x06834C); - //0x00 0xFFF1C0 ; 3F7C7 ; Calibration (7e). turn on IQ imbalance/Test mode - phy_set_rf_data(phw_data, 0, (0<<24)|0xFFF1C0); - - // ; [BB-chip]: Calibration (7f). Send test pattern - // ; [BB-chip]: Calibration (7g). Search RXGCL optimal value - // ; [BB-chip]: Calibration (7h). Caculate RX-path IQ imbalance and setting RX path IQ compensation table - + /* + * a. Set RFIC to "RX calibration mode" + * ----- Calibration (7). RX path IQ imbalance calibration loop + * 0x01 0xFFBFC2 ; 3FEFF ; Calibration (7a). enable RX IQ calibration loop circuits + */ + phy_set_rf_data(phw_data, 1, (1 << 24) | 0xEFBFC2); + /* 0x0B 0x1A01D6 ; 06817 ; Calibration (7b). enable RX I/Q cal loop SW1 circuit */ + phy_set_rf_data(phw_data, 11, (11 << 24) | 0x1A05D6); + /* 0x05 0x24848A ; 09212 ; Calibration (7c). setting TX-VGA gain (TXGCH) to 2 --> to be optimized */ + phy_set_rf_data(phw_data, 5, (5 << 24) | phw_data->txvga_setting_for_cal); + /* 0x06 0x06840C ; 01A10 ; Calibration (7d). RXGCH=00; RXGCL=010 000 (RXVGA) --> to be optimized */ + phy_set_rf_data(phw_data, 6, (6 << 24) | 0x06834C); + /* 0x00 0xFFF1C0 ; 3F7C7 ; Calibration (7e). turn on IQ imbalance/Test mode */ + phy_set_rf_data(phw_data, 0, (0 << 24) | 0xFFF1C0); + + /* + * [BB-chip]: Calibration (7f). Send test pattern + * [BB-chip]: Calibration (7g). Search RXGCL optimal value + * [BB-chip]: Calibration (7h). Caculate RX-path IQ imbalance and setting RX path IQ compensation table + */ result = _rx_iq_calibration_loop_winbond(phw_data, 12589, frequency); - if (result > 0) - { + if (result > 0) { _reset_rx_cal(phw_data); result = _rx_iq_calibration_loop_winbond(phw_data, 7943, frequency); - if (result > 0) - { + if (result > 0) { _reset_rx_cal(phw_data); result = _rx_iq_calibration_loop_winbond(phw_data, 5011, frequency); - if (result > 0) - { + if (result > 0) { PHY_DEBUG(("[CAL] ** <_rx_iq_calibration> **************\n")); PHY_DEBUG(("[CAL] ** RX_IQ_CALIBRATION FAILURE !!\n")); PHY_DEBUG(("[CAL] **************************************\n")); @@ -1570,19 +1406,16 @@ void _rx_iq_calibration_winbond(struct hw_data *phw_data, u32 frequency) } } -#ifdef _DEBUG + #ifdef _DEBUG hw_get_dxx_reg(phw_data, 0x54, &val); PHY_DEBUG(("[CAL] ** 0x54 = 0x%08X\n", val)); - if (phw_data->revision == 0x2002) // 1st-cut - { + if (phw_data->revision == 0x2002) { /* 1st-cut */ rx_cal_reg[0] = _s4_to_s32((val & 0x0000F000) >> 12); rx_cal_reg[1] = _s4_to_s32((val & 0x00000F00) >> 8); rx_cal_reg[2] = _s4_to_s32((val & 0x000000F0) >> 4); rx_cal_reg[3] = _s4_to_s32((val & 0x0000000F)); - } - else // 2nd-cut - { + } else { /* 2nd-cut */ rx_cal_reg[0] = _s5_to_s32((val & 0xF8000000) >> 27); rx_cal_reg[1] = _s6_to_s32((val & 0x07E00000) >> 21); rx_cal_reg[2] = _s6_to_s32((val & 0x001F8000) >> 15); @@ -1593,164 +1426,139 @@ void _rx_iq_calibration_winbond(struct hw_data *phw_data, u32 frequency) PHY_DEBUG(("[CAL] rx_cal_reg[1] = %d\n", rx_cal_reg[1])); PHY_DEBUG(("[CAL] rx_cal_reg[2] = %d\n", rx_cal_reg[2])); PHY_DEBUG(("[CAL] rx_cal_reg[3] = %d\n", rx_cal_reg[3])); -#endif - + #endif } -//////////////////////////////////////////////////////////////////////// void phy_calibration_winbond(struct hw_data *phw_data, u32 frequency) { - u32 reg_mode_ctrl; - u32 iq_alpha; + u32 reg_mode_ctrl; + u32 iq_alpha; PHY_DEBUG(("[CAL] -> phy_calibration_winbond()\n")); - // 20040701 1.1.25.1000 kevin hw_get_cxx_reg(phw_data, 0x80, &mac_ctrl); hw_get_cxx_reg(phw_data, 0xE4, &rf_ctrl); hw_get_dxx_reg(phw_data, 0x58, &iq_alpha); - - _rxadc_dc_offset_cancellation_winbond(phw_data, frequency); - //_txidac_dc_offset_cancellation_winbond(phw_data); - //_txqdac_dc_offset_cacellation_winbond(phw_data); _tx_iq_calibration_winbond(phw_data); _rx_iq_calibration_winbond(phw_data, frequency); - //------------------------------------------------------------------------ hw_get_dxx_reg(phw_data, REG_MODE_CTRL, ®_mode_ctrl); - reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE|MASK_CALIB_START); // set when finish + reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL | MASK_IQCAL_MODE | MASK_CALIB_START); /* set when finish */ hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); - // i. Set RFIC to "Normal mode" + /* i. Set RFIC to "Normal mode" */ hw_set_cxx_reg(phw_data, 0x80, mac_ctrl); hw_set_cxx_reg(phw_data, 0xE4, rf_ctrl); hw_set_dxx_reg(phw_data, 0x58, iq_alpha); - - //------------------------------------------------------------------------ phy_init_rf(phw_data); - } -//=========================== -void phy_set_rf_data( struct hw_data * pHwData, u32 index, u32 value ) +void phy_set_rf_data(struct hw_data *pHwData, u32 index, u32 value) { - u32 ltmp=0; - - switch( pHwData->phy_type ) - { - case RF_MAXIM_2825: - case RF_MAXIM_V1: // 11g Winbond 2nd BB(with Phy board (v1) + Maxim 331) - ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse( value, 18 ); - break; - - case RF_MAXIM_2827: - ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse( value, 18 ); - break; - - case RF_MAXIM_2828: - ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse( value, 18 ); - break; - - case RF_MAXIM_2829: - ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse( value, 18 ); - break; - - case RF_AIROHA_2230: - case RF_AIROHA_2230S: // 20060420 Add this - ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse( value, 20 ); - break; - - case RF_AIROHA_7230: - ltmp = (1 << 31) | (0 << 30) | (24 << 24) | (value&0xffffff); - break; - - case RF_WB_242: - case RF_WB_242_1: // 20060619.5 Add - ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse( value, 24 ); - break; + u32 ltmp = 0; + + switch (pHwData->phy_type) { + case RF_MAXIM_2825: + case RF_MAXIM_V1: /* 11g Winbond 2nd BB(with Phy board (v1) + Maxim 331) */ + ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(value, 18); + break; + case RF_MAXIM_2827: + ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(value, 18); + break; + case RF_MAXIM_2828: + ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(value, 18); + break; + case RF_MAXIM_2829: + ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(value, 18); + break; + case RF_AIROHA_2230: + case RF_AIROHA_2230S: + ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse(value, 20); + break; + case RF_AIROHA_7230: + ltmp = (1 << 31) | (0 << 30) | (24 << 24) | (value & 0xffffff); + break; + case RF_WB_242: + case RF_WB_242_1: + ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse(value, 24); + break; } - Wb35Reg_WriteSync( pHwData, 0x0864, ltmp ); + Wb35Reg_WriteSync(pHwData, 0x0864, ltmp); } -// 20060717 modify as Bruce's mail unsigned char adjust_TXVGA_for_iq_mag(struct hw_data *phw_data) { - int init_txvga = 0; - u32 reg_mode_ctrl; - u32 val; - s32 iqcal_tone_i0; - s32 iqcal_tone_q0; - u32 sqsum; - s32 iq_mag_0_tx; - u8 reg_state; - int current_txvga; - + int init_txvga = 0; + u32 reg_mode_ctrl; + u32 val; + s32 iqcal_tone_i0; + s32 iqcal_tone_q0; + u32 sqsum; + s32 iq_mag_0_tx; + u8 reg_state; + int current_txvga; reg_state = 0; - for( init_txvga=0; init_txvga<10; init_txvga++) - { - current_txvga = ( 0x24C40A|(init_txvga<<6) ); - phy_set_rf_data(phw_data, 5, ((5<<24)|current_txvga) ); + for (init_txvga = 0; init_txvga < 10; init_txvga++) { + current_txvga = (0x24C40A | (init_txvga << 6)); + phy_set_rf_data(phw_data, 5, ((5 << 24) | current_txvga)); phw_data->txvga_setting_for_cal = current_txvga; - msleep(30); // 20060612.1.a + msleep(30); - if( !hw_get_dxx_reg(phw_data, REG_MODE_CTRL, ®_mode_ctrl) ) // 20060718.1 modify + if (!hw_get_dxx_reg(phw_data, REG_MODE_CTRL, ®_mode_ctrl)) return false; PHY_DEBUG(("[CAL] MODE_CTRL (read) = 0x%08X\n", reg_mode_ctrl)); - // a. Set iqcal_mode[1:0] to 0x2 and set "calib_start" to 0x1 to - // enable "IQ alibration Mode II" - reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE); + /* + * a. Set iqcal_mode[1:0] to 0x2 and set "calib_start" to 0x1 to + * enable "IQ alibration Mode II" + */ + reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL | MASK_IQCAL_MODE); reg_mode_ctrl &= ~MASK_IQCAL_MODE; - reg_mode_ctrl |= (MASK_CALIB_START|0x02); - reg_mode_ctrl |= (MASK_CALIB_START|0x02|2<<2); + reg_mode_ctrl |= (MASK_CALIB_START | 0x02); + reg_mode_ctrl |= (MASK_CALIB_START | 0x02 | 2 << 2); hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl); PHY_DEBUG(("[CAL] MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl)); - udelay(1); // 20060612.1.a + udelay(1); - udelay(300); // 20060612.1.a + udelay(300); - // b. + /* b. */ hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val); PHY_DEBUG(("[CAL] CALIB_READ1 = 0x%08X\n", val)); - udelay(300); // 20060612.1.a + udelay(300); iqcal_tone_i0 = _s13_to_s32(val & 0x00001FFF); iqcal_tone_q0 = _s13_to_s32((val & 0x03FFE000) >> 13); PHY_DEBUG(("[CAL] ** iqcal_tone_i0=%d, iqcal_tone_q0=%d\n", iqcal_tone_i0, iqcal_tone_q0)); - sqsum = iqcal_tone_i0*iqcal_tone_i0 + iqcal_tone_q0*iqcal_tone_q0; + sqsum = iqcal_tone_i0 * iqcal_tone_i0 + iqcal_tone_q0 * iqcal_tone_q0; iq_mag_0_tx = (s32) _sqrt(sqsum); PHY_DEBUG(("[CAL] ** auto_adjust_txvga_for_iq_mag_0_tx=%d\n", iq_mag_0_tx)); - if( iq_mag_0_tx>=700 && iq_mag_0_tx<=1750 ) + if (iq_mag_0_tx >= 700 && iq_mag_0_tx <= 1750) break; - else if(iq_mag_0_tx > 1750) - { - init_txvga=-2; + else if (iq_mag_0_tx > 1750) { + init_txvga = -2; continue; - } - else + } else continue; - } - if( iq_mag_0_tx>=700 && iq_mag_0_tx<=1750 ) + if (iq_mag_0_tx >= 700 && iq_mag_0_tx <= 1750) return true; else return false; } - - -- 1.7.0.2 _______________________________________________ devel mailing list devel@xxxxxxxxxxxxxxxxxxxxxx http://driverdev.linuxdriverproject.org/mailman/listinfo/devel