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#include "wbhal.h"
#include "wb35reg_f.h"
#include "core.h"
/*
* ====================================================
* Original Phy.h
* ====================================================
*/
/*
* ====================================================
* For MAXIM2825/6/7 Ver. 331 or more
*
* 0x00 0x000a2
* 0x01 0x21cc0
* 0x02 0x13802
* 0x02 0x1383a
*
* channe1 01 ; 0x03 0x30142 ; 0x04 0x0b333;
* channe1 02 ; 0x03 0x32141 ; 0x04 0x08444;
* channe1 03 ; 0x03 0x32143 ; 0x04 0x0aeee;
* channe1 04 ; 0x03 0x32142 ; 0x04 0x0b333;
* channe1 05 ; 0x03 0x31141 ; 0x04 0x08444;
* channe1 06 ; 0x03 0x31143 ; 0x04 0x0aeee;
* channe1 07 ; 0x03 0x31142 ; 0x04 0x0b333;
* channe1 08 ; 0x03 0x33141 ; 0x04 0x08444;
* channe1 09 ; 0x03 0x33143 ; 0x04 0x0aeee;
* channe1 10 ; 0x03 0x33142 ; 0x04 0x0b333;
* channe1 11 ; 0x03 0x30941 ; 0x04 0x08444;
* channe1 12 ; 0x03 0x30943 ; 0x04 0x0aeee;
* channe1 13 ; 0x03 0x30942 ; 0x04 0x0b333;
*
* 0x05 0x28986
* 0x06 0x18008
* 0x07 0x38400
* 0x08 0x05100; 100 Hz DC
* 0x08 0x05900; 30 KHz DC
* 0x09 0x24f08
* 0x0a 0x17e00, 0x17ea0
* 0x0b 0x37d80
* 0x0c 0x0c900 -- 0x0ca00 (lager power 9db than 0x0c000), 0x0c000
*/
/* MAX2825 (pure b/g) */
u32 max2825_rf_data[] = {
(0x00<<18) | 0x000a2,
(0x01<<18) | 0x21cc0,
(0x02<<18) | 0x13806,
(0x03<<18) | 0x30142,
(0x04<<18) | 0x0b333,
(0x05<<18) | 0x289A6,
(0x06<<18) | 0x18008,
(0x07<<18) | 0x38000,
(0x08<<18) | 0x05100,
(0x09<<18) | 0x24f08,
(0x0A<<18) | 0x14000,
(0x0B<<18) | 0x37d80,
(0x0C<<18) | 0x0c100 /* 11a: 0x0c300, 11g: 0x0c100 */
};
u32 max2825_channel_data_24[][3] = {
{(0x03 << 18) | 0x30142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channel 01 */
{(0x03 << 18) | 0x32141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channel 02 */
{(0x03 << 18) | 0x32143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channel 03 */
{(0x03 << 18) | 0x32142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channel 04 */
{(0x03 << 18) | 0x31141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channel 05 */
{(0x03 << 18) | 0x31143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channel 06 */
{(0x03 << 18) | 0x31142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channel 07 */
{(0x03 << 18) | 0x33141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channel 08 */
{(0x03 << 18) | 0x33143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channel 09 */
{(0x03 << 18) | 0x33142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channel 10 */
{(0x03 << 18) | 0x30941, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channel 11 */
{(0x03 << 18) | 0x30943, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channel 12 */
{(0x03 << 18) | 0x30942, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channel 13 */
{(0x03 << 18) | 0x32941, (0x04 << 18) | 0x09999, (0x05 << 18) | 0x289A6} /* channel 14 (2484MHz) */
};
u32 max2825_power_data_24[] = {(0x0C << 18) | 0x0c000, (0x0C << 18) | 0x0c100};
/* ========================================== */
/* MAX2827 (a/b/g) */
u32 max2827_rf_data[] = {
(0x00 << 18) | 0x000a2,
(0x01 << 18) | 0x21cc0,
(0x02 << 18) | 0x13806,
(0x03 << 18) | 0x30142,
(0x04 << 18) | 0x0b333,
(0x05 << 18) | 0x289A6,
(0x06 << 18) | 0x18008,
(0x07 << 18) | 0x38000,
(0x08 << 18) | 0x05100,
(0x09 << 18) | 0x24f08,
(0x0A << 18) | 0x14000,
(0x0B << 18) | 0x37d80,
(0x0C << 18) | 0x0c100 /* 11a: 0x0c300, 11g: 0x0c100 */
};
u32 max2827_channel_data_24[][3] = {
{(0x03 << 18) | 0x30142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 01 */
{(0x03 << 18) | 0x32141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channe1 02 */
{(0x03 << 18) | 0x32143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channe1 03 */
{(0x03 << 18) | 0x32142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 04 */
{(0x03 << 18) | 0x31141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channe1 05 */
{(0x03 << 18) | 0x31143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channe1 06 */
{(0x03 << 18) | 0x31142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 07 */
{(0x03 << 18) | 0x33141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channe1 08 */
{(0x03 << 18) | 0x33143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channe1 09 */
{(0x03 << 18) | 0x33142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 10 */
{(0x03 << 18) | 0x30941, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channe1 11 */
{(0x03 << 18) | 0x30943, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channe1 12 */
{(0x03 << 18) | 0x30942, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 13 */
{(0x03 << 18) | 0x32941, (0x04 << 18) | 0x09999, (0x05 << 18) | 0x289A6} /* channel 14 (2484MHz) */
};
u32 max2827_channel_data_50[][3] = {
{(0x03 << 18) | 0x33cc3, (0x04 << 18) | 0x08ccc, (0x05 << 18) | 0x2A9A6}, /* channel 36 */
{(0x03 << 18) | 0x302c0, (0x04 << 18) | 0x08000, (0x05 << 18) | 0x2A9A6}, /* channel 40 */
{(0x03 << 18) | 0x302c2, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x2A9A6}, /* channel 44 */
{(0x03 << 18) | 0x322c1, (0x04 << 18) | 0x09999, (0x05 << 18) | 0x2A9A6}, /* channel 48 */
{(0x03 << 18) | 0x312c1, (0x04 << 18) | 0x0a666, (0x05 << 18) | 0x2A9A6}, /* channel 52 */
{(0x03 << 18) | 0x332c3, (0x04 << 18) | 0x08ccc, (0x05 << 18) | 0x2A9A6}, /* channel 56 */
{(0x03 << 18) | 0x30ac0, (0x04 << 18) | 0x08000, (0x05 << 18) | 0x2A9A6}, /* channel 60 */
{(0x03 << 18) | 0x30ac2, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x2A9A6} /* channel 64 */
};
u32 max2827_power_data_24[] = {(0x0C << 18) | 0x0C000, (0x0C << 18) | 0x0D600, (0x0C << 18) | 0x0C100};
u32 max2827_power_data_50[] = {(0x0C << 18) | 0x0C400, (0x0C << 18) | 0x0D500, (0x0C << 18) | 0x0C300};
/* ======================================================= */
/* MAX2828 (a/b/g) */
u32 max2828_rf_data[] = {
(0x00 << 18) | 0x000a2,
(0x01 << 18) | 0x21cc0,
(0x02 << 18) | 0x13806,
(0x03 << 18) | 0x30142,
(0x04 << 18) | 0x0b333,
(0x05 << 18) | 0x289A6,
(0x06 << 18) | 0x18008,
(0x07 << 18) | 0x38000,
(0x08 << 18) | 0x05100,
(0x09 << 18) | 0x24f08,
(0x0A << 18) | 0x14000,
(0x0B << 18) | 0x37d80,
(0x0C << 18) | 0x0c100 /* 11a: 0x0c300, 11g: 0x0c100 */
};
u32 max2828_channel_data_24[][3] = {
{(0x03 << 18) | 0x30142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 01 */
{(0x03 << 18) | 0x32141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channe1 02 */
{(0x03 << 18) | 0x32143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channe1 03 */
{(0x03 << 18) | 0x32142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 04 */
{(0x03 << 18) | 0x31141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channe1 05 */
{(0x03 << 18) | 0x31143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channe1 06 */
{(0x03 << 18) | 0x31142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 07 */
{(0x03 << 18) | 0x33141, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channe1 08 */
{(0x03 << 18) | 0x33143, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channe1 09 */
{(0x03 << 18) | 0x33142, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 10 */
{(0x03 << 18) | 0x30941, (0x04 << 18) | 0x08444, (0x05 << 18) | 0x289A6}, /* channe1 11 */
{(0x03 << 18) | 0x30943, (0x04 << 18) | 0x0aeee, (0x05 << 18) | 0x289A6}, /* channe1 12 */
{(0x03 << 18) | 0x30942, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channe1 13 */
{(0x03 << 18) | 0x32941, (0x04 << 18) | 0x09999, (0x05 << 18) | 0x289A6} /* channel 14 (2484MHz) */
};
u32 max2828_channel_data_50[][3] = {
{(0x03 << 18) | 0x33cc3, (0x04 << 18) | 0x08ccc, (0x05 << 18) | 0x289A6}, /* channel 36 */
{(0x03 << 18) | 0x302c0, (0x04 << 18) | 0x08000, (0x05 << 18) | 0x289A6}, /* channel 40 */
{(0x03 << 18) | 0x302c2, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6}, /* channel 44 */
{(0x03 << 18) | 0x322c1, (0x04 << 18) | 0x09999, (0x05 << 18) | 0x289A6}, /* channel 48 */
{(0x03 << 18) | 0x312c1, (0x04 << 18) | 0x0a666, (0x05 << 18) | 0x289A6}, /* channel 52 */
{(0x03 << 18) | 0x332c3, (0x04 << 18) | 0x08ccc, (0x05 << 18) | 0x289A6}, /* channel 56 */
{(0x03 << 18) | 0x30ac0, (0x04 << 18) | 0x08000, (0x05 << 18) | 0x289A6}, /* channel 60 */
{(0x03 << 18) | 0x30ac2, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x289A6} /* channel 64 */
};
u32 max2828_power_data_24[] = {(0x0C << 18) | 0x0c000, (0x0C << 18) | 0x0c100};
u32 max2828_power_data_50[] = {(0x0C << 18) | 0x0c000, (0x0C << 18) | 0x0c100};
/* ========================================================== */
/* MAX2829 (a/b/g) */
u32 max2829_rf_data[] = {
(0x00 << 18) | 0x000a2,
(0x01 << 18) | 0x23520,
(0x02 << 18) | 0x13802,
(0x03 << 18) | 0x30142,
(0x04 << 18) | 0x0b333,
(0x05 << 18) | 0x28906,
(0x06 << 18) | 0x18008,
(0x07 << 18) | 0x3B500,
(0x08 << 18) | 0x05100,
(0x09 << 18) | 0x24f08,
(0x0A << 18) | 0x14000,
(0x0B << 18) | 0x37d80,
(0x0C << 18) | 0x0F300 /* TXVGA=51, (MAX-6 dB) */
};
u32 max2829_channel_data_24[][3] = {
{(3 << 18) | 0x30142, (4 << 18) | 0x0b333, (5 << 18) | 0x289C6}, /* 01 (2412MHz) */
{(3 << 18) | 0x32141, (4 << 18) | 0x08444, (5 << 18) | 0x289C6}, /* 02 (2417MHz) */
{(3 << 18) | 0x32143, (4 << 18) | 0x0aeee, (5 << 18) | 0x289C6}, /* 03 (2422MHz) */
{(3 << 18) | 0x32142, (4 << 18) | 0x0b333, (5 << 18) | 0x289C6}, /* 04 (2427MHz) */
{(3 << 18) | 0x31141, (4 << 18) | 0x08444, (5 << 18) | 0x289C6}, /* 05 (2432MHz) */
{(3 << 18) | 0x31143, (4 << 18) | 0x0aeee, (5 << 18) | 0x289C6}, /* 06 (2437MHz) */
{(3 << 18) | 0x31142, (4 << 18) | 0x0b333, (5 << 18) | 0x289C6}, /* 07 (2442MHz) */
{(3 << 18) | 0x33141, (4 << 18) | 0x08444, (5 << 18) | 0x289C6}, /* 08 (2447MHz) */
{(3 << 18) | 0x33143, (4 << 18) | 0x0aeee, (5 << 18) | 0x289C6}, /* 09 (2452MHz) */
{(3 << 18) | 0x33142, (4 << 18) | 0x0b333, (5 << 18) | 0x289C6}, /* 10 (2457MHz) */
{(3 << 18) | 0x30941, (4 << 18) | 0x08444, (5 << 18) | 0x289C6}, /* 11 (2462MHz) */
{(3 << 18) | 0x30943, (4 << 18) | 0x0aeee, (5 << 18) | 0x289C6}, /* 12 (2467MHz) */
{(3 << 18) | 0x30942, (4 << 18) | 0x0b333, (5 << 18) | 0x289C6}, /* 13 (2472MHz) */
{(3 << 18) | 0x32941, (4 << 18) | 0x09999, (5 << 18) | 0x289C6}, /* 14 (2484MHz) */
};
u32 max2829_channel_data_50[][4] = {
{36, (3 << 18) | 0x33cc3, (4 << 18) | 0x08ccc, (5 << 18) | 0x2A946}, /* 36 (5.180GHz) */
{40, (3 << 18) | 0x302c0, (4 << 18) | 0x08000, (5 << 18) | 0x2A946}, /* 40 (5.200GHz) */
{44, (3 << 18) | 0x302c2, (4 << 18) | 0x0b333, (5 << 18) | 0x2A946}, /* 44 (5.220GHz) */
{48, (3 << 18) | 0x322c1, (4 << 18) | 0x09999, (5 << 18) | 0x2A946}, /* 48 (5.240GHz) */
{52, (3 << 18) | 0x312c1, (4 << 18) | 0x0a666, (5 << 18) | 0x2A946}, /* 52 (5.260GHz) */
{56, (3 << 18) | 0x332c3, (4 << 18) | 0x08ccc, (5 << 18) | 0x2A946}, /* 56 (5.280GHz) */
{60, (3 << 18) | 0x30ac0, (4 << 18) | 0x08000, (5 << 18) | 0x2A946}, /* 60 (5.300GHz) */
{64, (3 << 18) | 0x30ac2, (4 << 18) | 0x0b333, (5 << 18) | 0x2A946}, /* 64 (5.320GHz) */
{100, (3 << 18) | 0x30ec0, (4 << 18) | 0x08000, (5 << 18) | 0x2A9C6}, /* 100 (5.500GHz) */
{104, (3 << 18) | 0x30ec2, (4 << 18) | 0x0b333, (5 << 18) | 0x2A9C6}, /* 104 (5.520GHz) */
{108, (3 << 18) | 0x32ec1, (4 << 18) | 0x09999, (5 << 18) | 0x2A9C6}, /* 108 (5.540GHz) */
{112, (3 << 18) | 0x31ec1, (4 << 18) | 0x0a666, (5 << 18) | 0x2A9C6}, /* 112 (5.560GHz) */
{116, (3 << 18) | 0x33ec3, (4 << 18) | 0x08ccc, (5 << 18) | 0x2A9C6}, /* 116 (5.580GHz) */
{120, (3 << 18) | 0x301c0, (4 << 18) | 0x08000, (5 << 18) | 0x2A9C6}, /* 120 (5.600GHz) */
{124, (3 << 18) | 0x301c2, (4 << 18) | 0x0b333, (5 << 18) | 0x2A9C6}, /* 124 (5.620GHz) */
{128, (3 << 18) | 0x321c1, (4 << 18) | 0x09999, (5 << 18) | 0x2A9C6}, /* 128 (5.640GHz) */
{132, (3 << 18) | 0x311c1, (4 << 18) | 0x0a666, (5 << 18) | 0x2A9C6}, /* 132 (5.660GHz) */
{136, (3 << 18) | 0x331c3, (4 << 18) | 0x08ccc, (5 << 18) | 0x2A9C6}, /* 136 (5.680GHz) */
{140, (3 << 18) | 0x309c0, (4 << 18) | 0x08000, (5 << 18) | 0x2A9C6}, /* 140 (5.700GHz) */
{149, (3 << 18) | 0x329c2, (4 << 18) | 0x0b333, (5 << 18) | 0x2A9C6}, /* 149 (5.745GHz) */
{153, (3 << 18) | 0x319c1, (4 << 18) | 0x09999, (5 << 18) | 0x2A9C6}, /* 153 (5.765GHz) */
{157, (3 << 18) | 0x339c1, (4 << 18) | 0x0a666, (5 << 18) | 0x2A9C6}, /* 157 (5.785GHz) */
{161, (3 << 18) | 0x305c3, (4 << 18) | 0x08ccc, (5 << 18) | 0x2A9C6}, /* 161 (5.805GHz) */
/* Japan */
{ 184, (3 << 18) | 0x308c2, (4 << 18) | 0x0b333, (5 << 18) | 0x2A946}, /* 184 (4.920GHz) */
{ 188, (3 << 18) | 0x328c1, (4 << 18) | 0x09999, (5 << 18) | 0x2A946}, /* 188 (4.940GHz) */
{ 192, (3 << 18) | 0x318c1, (4 << 18) | 0x0a666, (5 << 18) | 0x2A946}, /* 192 (4.960GHz) */
{ 196, (3 << 18) | 0x338c3, (4 << 18) | 0x08ccc, (5 << 18) | 0x2A946}, /* 196 (4.980GHz) */
{ 8, (3 << 18) | 0x324c1, (4 << 18) | 0x09999, (5 << 18) | 0x2A946}, /* 8 (5.040GHz) */
{ 12, (3 << 18) | 0x314c1, (4 << 18) | 0x0a666, (5 << 18) | 0x2A946}, /* 12 (5.060GHz) */
{ 16, (3 << 18) | 0x334c3, (4 << 18) | 0x08ccc, (5 << 18) | 0x2A946}, /* 16 (5.080GHz) */
{ 34, (3 << 18) | 0x31cc2, (4 << 18) | 0x0b333, (5 << 18) | 0x2A946}, /* 34 (5.170GHz) */
{ 38, (3 << 18) | 0x33cc1, (4 << 18) | 0x09999, (5 << 18) | 0x2A946}, /* 38 (5.190GHz) */
{ 42, (3 << 18) | 0x302c1, (4 << 18) | 0x0a666, (5 << 18) | 0x2A946}, /* 42 (5.210GHz) */
{ 46, (3 << 18) | 0x322c3, (4 << 18) | 0x08ccc, (5 << 18) | 0x2A946}, /* 46 (5.230GHz) */
};
/*
* ====================================================================
* For MAXIM2825/6/7 Ver. 317 or less
*
* 0x00 0x00080
* 0x01 0x214c0
* 0x02 0x13802
*
* 2.4GHz Channels
* channe1 01 (2.412GHz); 0x03 0x30143 ;0x04 0x0accc
* channe1 02 (2.417GHz); 0x03 0x32140 ;0x04 0x09111
* channe1 03 (2.422GHz); 0x03 0x32142 ;0x04 0x0bbbb
* channe1 04 (2.427GHz); 0x03 0x32143 ;0x04 0x0accc
* channe1 05 (2.432GHz); 0x03 0x31140 ;0x04 0x09111
* channe1 06 (2.437GHz); 0x03 0x31142 ;0x04 0x0bbbb
* channe1 07 (2.442GHz); 0x03 0x31143 ;0x04 0x0accc
* channe1 08 (2.447GHz); 0x03 0x33140 ;0x04 0x09111
* channe1 09 (2.452GHz); 0x03 0x33142 ;0x04 0x0bbbb
* channe1 10 (2.457GHz); 0x03 0x33143 ;0x04 0x0accc
* channe1 11 (2.462GHz); 0x03 0x30940 ;0x04 0x09111
* channe1 12 (2.467GHz); 0x03 0x30942 ;0x04 0x0bbbb
* channe1 13 (2.472GHz); 0x03 0x30943 ;0x04 0x0accc
*
* 5.0Ghz Channels
* channel 36 (5.180GHz); 0x03 0x33cc0 ;0x04 0x0b333
* channel 40 (5.200GHz); 0x03 0x302c0 ;0x04 0x08000
* channel 44 (5.220GHz); 0x03 0x302c2 ;0x04 0x0b333
* channel 48 (5.240GHz); 0x03 0x322c1 ;0x04 0x09999
* channel 52 (5.260GHz); 0x03 0x312c1 ;0x04 0x0a666
* channel 56 (5.280GHz); 0x03 0x332c3 ;0x04 0x08ccc
* channel 60 (5.300GHz); 0x03 0x30ac0 ;0x04 0x08000
* channel 64 (5.320GHz); 0x03 0x30ac2 ;0x04 0x08333
*
* 2.4GHz band ; 0x05 0x28986;
* 5.0GHz band ; 0x05 0x2a986
* 0x06 0x18008
* 0x07 0x38400
* 0x08 0x05108
* 0x09 0x27ff8
* 0x0a 0x14000
* 0x0b 0x37f99
* 0x0c 0x0c000
* ====================================================================
*/
u32 maxim_317_rf_data[] = {
(0x00 << 18) | 0x000a2,
(0x01 << 18) | 0x214c0,
(0x02 << 18) | 0x13802,
(0x03 << 18) | 0x30143,
(0x04 << 18) | 0x0accc,
(0x05 << 18) | 0x28986,
(0x06 << 18) | 0x18008,
(0x07 << 18) | 0x38400,
(0x08 << 18) | 0x05108,
(0x09 << 18) | 0x27ff8,
(0x0A << 18) | 0x14000,
(0x0B << 18) | 0x37f99,
(0x0C << 18) | 0x0c000
};
u32 maxim_317_channel_data_24[][3] = {
{(0x03 << 18) | 0x30143, (0x04 << 18) | 0x0accc, (0x05 << 18) | 0x28986}, /* channe1 01 */
{(0x03 << 18) | 0x32140, (0x04 << 18) | 0x09111, (0x05 << 18) | 0x28986}, /* channe1 02 */
{(0x03 << 18) | 0x32142, (0x04 << 18) | 0x0bbbb, (0x05 << 18) | 0x28986}, /* channe1 03 */
{(0x03 << 18) | 0x32143, (0x04 << 18) | 0x0accc, (0x05 << 18) | 0x28986}, /* channe1 04 */
{(0x03 << 18) | 0x31140, (0x04 << 18) | 0x09111, (0x05 << 18) | 0x28986}, /* channe1 05 */
{(0x03 << 18) | 0x31142, (0x04 << 18) | 0x0bbbb, (0x05 << 18) | 0x28986}, /* channe1 06 */
{(0x03 << 18) | 0x31143, (0x04 << 18) | 0x0accc, (0x05 << 18) | 0x28986}, /* channe1 07 */
{(0x03 << 18) | 0x33140, (0x04 << 18) | 0x09111, (0x05 << 18) | 0x28986}, /* channe1 08 */
{(0x03 << 18) | 0x33142, (0x04 << 18) | 0x0bbbb, (0x05 << 18) | 0x28986}, /* channe1 09 */
{(0x03 << 18) | 0x33143, (0x04 << 18) | 0x0accc, (0x05 << 18) | 0x28986}, /* channe1 10 */
{(0x03 << 18) | 0x30940, (0x04 << 18) | 0x09111, (0x05 << 18) | 0x28986}, /* channe1 11 */
{(0x03 << 18) | 0x30942, (0x04 << 18) | 0x0bbbb, (0x05 << 18) | 0x28986}, /* channe1 12 */
{(0x03 << 18) | 0x30943, (0x04 << 18) | 0x0accc, (0x05 << 18) | 0x28986} /* channe1 13 */
};
u32 maxim_317_channel_data_50[][3] = {
{(0x03 << 18) | 0x33cc0, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x2a986}, /* channel 36 */
{(0x03 << 18) | 0x302c0, (0x04 << 18) | 0x08000, (0x05 << 18) | 0x2a986}, /* channel 40 */
{(0x03 << 18) | 0x302c3, (0x04 << 18) | 0x0accc, (0x05 << 18) | 0x2a986}, /* channel 44 */
{(0x03 << 18) | 0x322c1, (0x04 << 18) | 0x09666, (0x05 << 18) | 0x2a986}, /* channel 48 */
{(0x03 << 18) | 0x312c2, (0x04 << 18) | 0x09999, (0x05 << 18) | 0x2a986}, /* channel 52 */
{(0x03 << 18) | 0x332c0, (0x04 << 18) | 0x0b333, (0x05 << 18) | 0x2a99e}, /* channel 56 */
{(0x03 << 18) | 0x30ac0, (0x04 << 18) | 0x08000, (0x05 << 18) | 0x2a99e}, /* channel 60 */
{(0x03 << 18) | 0x30ac3, (0x04 << 18) | 0x0accc, (0x05 << 18) | 0x2a99e} /* channel 64 */
};
u32 maxim_317_power_data_24[] = {(0x0C << 18) | 0x0c000, (0x0C << 18) | 0x0c100};
u32 maxim_317_power_data_50[] = {(0x0C << 18) | 0x0c000, (0x0C << 18) | 0x0c100};
/*
* ===================================================================
* AL2230 MP (Mass Production Version)
* RF Registers Setting for Airoha AL2230 silicon after June 1st, 2004
* 20-bit length and LSB first
*
* Ch01 (2412MHz) ;0x00 0x09EFC ;0x01 0x8CCCC;
* Ch02 (2417MHz) ;0x00 0x09EFC ;0x01 0x8CCCD;
* Ch03 (2422MHz) ;0x00 0x09E7C ;0x01 0x8CCCC;
* Ch04 (2427MHz) ;0x00 0x09E7C ;0x01 0x8CCCD;
* Ch05 (2432MHz) ;0x00 0x05EFC ;0x01 0x8CCCC;
* Ch06 (2437MHz) ;0x00 0x05EFC ;0x01 0x8CCCD;
* Ch07 (2442MHz) ;0x00 0x05E7C ;0x01 0x8CCCC;
* Ch08 (2447MHz) ;0x00 0x05E7C ;0x01 0x8CCCD;
* Ch09 (2452MHz) ;0x00 0x0DEFC ;0x01 0x8CCCC;
* Ch10 (2457MHz) ;0x00 0x0DEFC ;0x01 0x8CCCD;
* Ch11 (2462MHz) ;0x00 0x0DE7C ;0x01 0x8CCCC;
* Ch12 (2467MHz) ;0x00 0x0DE7C ;0x01 0x8CCCD;
* Ch13 (2472MHz) ;0x00 0x03EFC ;0x01 0x8CCCC;
* Ch14 (2484Mhz) ;0x00 0x03E7C ;0x01 0x86666;
*
* 0x02 0x401D8; RXDCOC BW 100Hz for RXHP low
* 0x02 0x481DC; RXDCOC BW 30Khz for RXHP low
*
* 0x03 0xCFFF0
* 0x04 0x23800
* 0x05 0xA3B72
* 0x06 0x6DA01
* 0x07 0xE1688
* 0x08 0x11600
* 0x09 0x99E02
* 0x0A 0x5DDB0
* 0x0B 0xD9900
* 0x0C 0x3FFBD
* 0x0D 0xB0000
* 0x0F 0xF00A0
*
* RF Calibration for Airoha AL2230
*
* 0x0f 0xf00a0 ; Initial Setting
* 0x0f 0xf00b0 ; Activate TX DCC
* 0x0f 0xf02a0 ; Activate Phase Calibration
* 0x0f 0xf00e0 ; Activate Filter RC Calibration
* 0x0f 0xf00a0 ; Restore Initial Setting
* ==================================================================
*/
u32 al2230_rf_data[] = {
(0x00 << 20) | 0x09EFC,
(0x01 << 20) | 0x8CCCC,
(0x02 << 20) | 0x40058,
(0x03 << 20) | 0xCFFF0,
(0x04 << 20) | 0x24100,
(0x05 << 20) | 0xA3B2F,
(0x06 << 20) | 0x6DA01,
(0x07 << 20) | 0xE3628,
(0x08 << 20) | 0x11600,
(0x09 << 20) | 0x9DC02,
(0x0A << 20) | 0x5ddb0,
(0x0B << 20) | 0xD9900,
(0x0C << 20) | 0x3FFBD,
(0x0D << 20) | 0xB0000,
(0x0F << 20) | 0xF01A0
};
u32 al2230s_rf_data[] = {
(0x00 << 20) | 0x09EFC,
(0x01 << 20) | 0x8CCCC,
(0x02 << 20) | 0x40058,
(0x03 << 20) | 0xCFFF0,
(0x04 << 20) | 0x24100,
(0x05 << 20) | 0xA3B2F,
(0x06 << 20) | 0x6DA01,
(0x07 << 20) | 0xE3628,
(0x08 << 20) | 0x11600,
(0x09 << 20) | 0x9DC02,
(0x0A << 20) | 0x5DDB0,
(0x0B << 20) | 0xD9900,
(0x0C << 20) | 0x3FFBD,
(0x0D << 20) | 0xB0000,
(0x0F << 20) | 0xF01A0
};
u32 al2230_channel_data_24[][2] = {
{(0x00 << 20) | 0x09EFC, (0x01 << 20) | 0x8CCCC}, /* channe1 01 */
{(0x00 << 20) | 0x09EFC, (0x01 << 20) | 0x8CCCD}, /* channe1 02 */
{(0x00 << 20) | 0x09E7C, (0x01 << 20) | 0x8CCCC}, /* channe1 03 */
{(0x00 << 20) | 0x09E7C, (0x01 << 20) | 0x8CCCD}, /* channe1 04 */
{(0x00 << 20) | 0x05EFC, (0x01 << 20) | 0x8CCCC}, /* channe1 05 */
{(0x00 << 20) | 0x05EFC, (0x01 << 20) | 0x8CCCD}, /* channe1 06 */
{(0x00 << 20) | 0x05E7C, (0x01 << 20) | 0x8CCCC}, /* channe1 07 */
{(0x00 << 20) | 0x05E7C, (0x01 << 20) | 0x8CCCD}, /* channe1 08 */
{(0x00 << 20) | 0x0DEFC, (0x01 << 20) | 0x8CCCC}, /* channe1 09 */
{(0x00 << 20) | 0x0DEFC, (0x01 << 20) | 0x8CCCD}, /* channe1 10 */
{(0x00 << 20) | 0x0DE7C, (0x01 << 20) | 0x8CCCC}, /* channe1 11 */
{(0x00 << 20) | 0x0DE7C, (0x01 << 20) | 0x8CCCD}, /* channe1 12 */
{(0x00 << 20) | 0x03EFC, (0x01 << 20) | 0x8CCCC}, /* channe1 13 */
{(0x00 << 20) | 0x03E7C, (0x01 << 20) | 0x86666} /* channe1 14 */
};
/* Current setting. u32 airoha_power_data_24[] = {(0x09 << 20) | 0x90202, (0x09 << 20) | 0x96602, (0x09 << 20) | 0x97602}; */
#define AIROHA_TXVGA_LOW_INDEX 31 /* Index for 0x90202 */
#define AIROHA_TXVGA_MIDDLE_INDEX 12 /* Index for 0x96602 */
#define AIROHA_TXVGA_HIGH_INDEX 8 /* Index for 0x97602 1.0.24.0 1.0.28.0 */
u32 al2230_txvga_data[][2] = {
/* value , index */
{0x090202, 0},
{0x094202, 2},
{0x092202, 4},
{0x096202, 6},
{0x091202, 8},
{0x095202, 10},
{0x093202, 12},
{0x097202, 14},
{0x090A02, 16},
{0x094A02, 18},
{0x092A02, 20},
{0x096A02, 22},
{0x091A02, 24},
{0x095A02, 26},
{0x093A02, 28},
{0x097A02, 30},
{0x090602, 32},
{0x094602, 34},
{0x092602, 36},
{0x096602, 38},
{0x091602, 40},
{0x095602, 42},
{0x093602, 44},
{0x097602, 46},
{0x090E02, 48},
{0x098E02, 49},
{0x094E02, 50},
{0x09CE02, 51},
{0x092E02, 52},
{0x09AE02, 53},
{0x096E02, 54},
{0x09EE02, 55},
{0x091E02, 56},
{0x099E02, 57},
{0x095E02, 58},
{0x09DE02, 59},
{0x093E02, 60},
{0x09BE02, 61},
{0x097E02, 62},
{0x09FE02, 63}
};
/*
* ==========================================
* For Airoha AL7230, 2.4Ghz band
* 24bit, MSB first
*/
/* channel independent registers: */
u32 al7230_rf_data_24[] = {
(0x00 << 24) | 0x003790,
(0x01 << 24) | 0x133331,
(0x02 << 24) | 0x841FF2,
(0x03 << 24) | 0x3FDFA3,
(0x04 << 24) | 0x7FD784,
(0x05 << 24) | 0x802B55,
(0x06 << 24) | 0x56AF36,
(0x07 << 24) | 0xCE0207,
(0x08 << 24) | 0x6EBC08,
(0x09 << 24) | 0x221BB9,
(0x0A << 24) | 0xE0000A,
(0x0B << 24) | 0x08071B,
(0x0C << 24) | 0x000A3C,
(0x0D << 24) | 0xFFFFFD,
(0x0E << 24) | 0x00000E,
(0x0F << 24) | 0x1ABA8F
};
u32 al7230_channel_data_24[][2] = {
{(0x00 << 24) | 0x003790, (0x01 << 24) | 0x133331}, /* channe1 01 */
{(0x00 << 24) | 0x003790, (0x01 << 24) | 0x1B3331}, /* channe1 02 */
{(0x00 << 24) | 0x003790, (0x01 << 24) | 0x033331}, /* channe1 03 */
{(0x00 << 24) | 0x003790, (0x01 << 24) | 0x0B3331}, /* channe1 04 */
{(0x00 << 24) | 0x0037A0, (0x01 << 24) | 0x133331}, /* channe1 05 */
{(0x00 << 24) | 0x0037A0, (0x01 << 24) | 0x1B3331}, /* channe1 06 */
{(0x00 << 24) | 0x0037A0, (0x01 << 24) | 0x033331}, /* channe1 07 */
{(0x00 << 24) | 0x0037A0, (0x01 << 24) | 0x0B3331}, /* channe1 08 */
{(0x00 << 24) | 0x0037B0, (0x01 << 24) | 0x133331}, /* channe1 09 */
{(0x00 << 24) | 0x0037B0, (0x01 << 24) | 0x1B3331}, /* channe1 10 */
{(0x00 << 24) | 0x0037B0, (0x01 << 24) | 0x033331}, /* channe1 11 */
{(0x00 << 24) | 0x0037B0, (0x01 << 24) | 0x0B3331}, /* channe1 12 */
{(0x00 << 24) | 0x0037C0, (0x01 << 24) | 0x133331}, /* channe1 13 */
{(0x00 << 24) | 0x0037C0, (0x01 << 24) | 0x066661} /* channel 14 */
};
/* channel independent registers: */
u32 al7230_rf_data_50[] = {
(0x00 << 24) | 0x0FF520,
(0x01 << 24) | 0x000001,
(0x02 << 24) | 0x451FE2,
(0x03 << 24) | 0x5FDFA3,
(0x04 << 24) | 0x6FD784,
(0x05 << 24) | 0x853F55,
(0x06 << 24) | 0x56AF36,
(0x07 << 24) | 0xCE0207,
(0x08 << 24) | 0x6EBC08,
(0x09 << 24) | 0x221BB9,
(0x0A << 24) | 0xE0600A,
(0x0B << 24) | 0x08044B,
(0x0C << 24) | 0x00143C,
(0x0D << 24) | 0xFFFFFD,
(0x0E << 24) | 0x00000E,
(0x0F << 24) | 0x12BACF /* 5Ghz default state */
};
u32 al7230_channel_data_5[][4] = {
/* channel dependent registers: 0x00, 0x01 and 0x04 */
/* 11J =========== */
{184, (0x00 << 24) | 0x0FF520, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 184 */
{188, (0x00 << 24) | 0x0FF520, (0x01 << 24) | 0x0AAAA1, (0x04 << 24) | 0x77F784}, /* channel 188 */
{192, (0x00 << 24) | 0x0FF530, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 192 */
{196, (0x00 << 24) | 0x0FF530, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 196 */
{8, (0x00 << 24) | 0x0FF540, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 008 */
{12, (0x00 << 24) | 0x0FF540, (0x01 << 24) | 0x0AAAA1, (0x04 << 24) | 0x77F784}, /* channel 012 */
{16, (0x00 << 24) | 0x0FF550, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 016 */
{34, (0x00 << 24) | 0x0FF560, (0x01 << 24) | 0x055551, (0x04 << 24) | 0x77F784}, /* channel 034 */
{38, (0x00 << 24) | 0x0FF570, (0x01 << 24) | 0x100001, (0x04 << 24) | 0x77F784}, /* channel 038 */
{42, (0x00 << 24) | 0x0FF570, (0x01 << 24) | 0x1AAAA1, (0x04 << 24) | 0x77F784}, /* channel 042 */
{46, (0x00 << 24) | 0x0FF570, (0x01 << 24) | 0x055551, (0x04 << 24) | 0x77F784}, /* channel 046 */
/* 11 A/H ========= */
{36, (0x00 << 24) | 0x0FF560, (0x01 << 24) | 0x0AAAA1, (0x04 << 24) | 0x77F784}, /* channel 036 */
{40, (0x00 << 24) | 0x0FF570, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 040 */
{44, (0x00 << 24) | 0x0FF570, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 044 */
{48, (0x00 << 24) | 0x0FF570, (0x01 << 24) | 0x0AAAA1, (0x04 << 24) | 0x77F784}, /* channel 048 */
{52, (0x00 << 24) | 0x0FF580, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 052 */
{56, (0x00 << 24) | 0x0FF580, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 056 */
{60, (0x00 << 24) | 0x0FF580, (0x01 << 24) | 0x0AAAA1, (0x04 << 24) | 0x77F784}, /* channel 060 */
{64, (0x00 << 24) | 0x0FF590, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 064 */
{100, (0x00 << 24) | 0x0FF5C0, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 100 */
{104, (0x00 << 24) | 0x0FF5C0, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 104 */
{108, (0x00 << 24) | 0x0FF5C0, (0x01 << 24) | 0x0AAAA1, (0x04 << 24) | 0x77F784}, /* channel 108 */
{112, (0x00 << 24) | 0x0FF5D0, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 112 */
{116, (0x00 << 24) | 0x0FF5D0, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 116 */
{120, (0x00 << 24) | 0x0FF5D0, (0x01 << 24) | 0x0AAAA1, (0x04 << 24) | 0x77F784}, /* channel 120 */
{124, (0x00 << 24) | 0x0FF5E0, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 124 */
{128, (0x00 << 24) | 0x0FF5E0, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 128 */
{132, (0x00 << 24) | 0x0FF5E0, (0x01 << 24) | 0x0AAAA1, (0x04 << 24) | 0x77F784}, /* channel 132 */
{136, (0x00 << 24) | 0x0FF5F0, (0x01 << 24) | 0x155551, (0x04 << 24) | 0x77F784}, /* channel 136 */
{140, (0x00 << 24) | 0x0FF5F0, (0x01 << 24) | 0x000001, (0x04 << 24) | 0x67F784}, /* channel 140 */
{149, (0x00 << 24) | 0x0FF600, (0x01 << 24) | 0x180001, (0x04 << 24) | 0x77F784}, /* channel 149 */
{153, (0x00 << 24) | 0x0FF600, (0x01 << 24) | 0x02AAA1, (0x04 << 24) | 0x77F784}, /* channel 153 */
{157, (0x00 << 24) | 0x0FF600, (0x01 << 24) | 0x0D5551, (0x04 << 24) | 0x77F784}, /* channel 157 */
{161, (0x00 << 24) | 0x0FF610, (0x01 << 24) | 0x180001, (0x04 << 24) | 0x77F784}, /* channel 161 */
{165, (0x00 << 24) | 0x0FF610, (0x01 << 24) | 0x02AAA1, (0x04 << 24) | 0x77F784} /* channel 165 */
};
/*
* RF Calibration <=== Register 0x0F
* 0x0F 0x1ABA8F; start from 2.4Ghz default state
* 0x0F 0x9ABA8F; TXDC compensation
* 0x0F 0x3ABA8F; RXFIL adjustment
* 0x0F 0x1ABA8F; restore 2.4Ghz default state
*/
/* TXVGA Mapping Table <=== Register 0x0B */
u32 al7230_txvga_data[][2] = {
{0x08040B, 0}, /* TXVGA = 0; */
{0x08041B, 1}, /* TXVGA = 1; */
{0x08042B, 2}, /* TXVGA = 2; */
{0x08043B, 3}, /* TXVGA = 3; */
{0x08044B, 4}, /* TXVGA = 4; */
{0x08045B, 5}, /* TXVGA = 5; */
{0x08046B, 6}, /* TXVGA = 6; */
{0x08047B, 7}, /* TXVGA = 7; */
{0x08048B, 8}, /* TXVGA = 8; */
{0x08049B, 9}, /* TXVGA = 9; */
{0x0804AB, 10}, /* TXVGA = 10; */
{0x0804BB, 11}, /* TXVGA = 11; */
{0x0804CB, 12}, /* TXVGA = 12; */
{0x0804DB, 13}, /* TXVGA = 13; */
{0x0804EB, 14}, /* TXVGA = 14; */
{0x0804FB, 15}, /* TXVGA = 15; */
{0x08050B, 16}, /* TXVGA = 16; */
{0x08051B, 17}, /* TXVGA = 17; */
{0x08052B, 18}, /* TXVGA = 18; */
{0x08053B, 19}, /* TXVGA = 19; */
{0x08054B, 20}, /* TXVGA = 20; */
{0x08055B, 21}, /* TXVGA = 21; */
{0x08056B, 22}, /* TXVGA = 22; */
{0x08057B, 23}, /* TXVGA = 23; */
{0x08058B, 24}, /* TXVGA = 24; */
{0x08059B, 25}, /* TXVGA = 25; */
{0x0805AB, 26}, /* TXVGA = 26; */
{0x0805BB, 27}, /* TXVGA = 27; */
{0x0805CB, 28}, /* TXVGA = 28; */
{0x0805DB, 29}, /* TXVGA = 29; */
{0x0805EB, 30}, /* TXVGA = 30; */
{0x0805FB, 31}, /* TXVGA = 31; */
{0x08060B, 32}, /* TXVGA = 32; */
{0x08061B, 33}, /* TXVGA = 33; */
{0x08062B, 34}, /* TXVGA = 34; */
{0x08063B, 35}, /* TXVGA = 35; */
{0x08064B, 36}, /* TXVGA = 36; */
{0x08065B, 37}, /* TXVGA = 37; */
{0x08066B, 38}, /* TXVGA = 38; */
{0x08067B, 39}, /* TXVGA = 39; */
{0x08068B, 40}, /* TXVGA = 40; */
{0x08069B, 41}, /* TXVGA = 41; */
{0x0806AB, 42}, /* TXVGA = 42; */
{0x0806BB, 43}, /* TXVGA = 43; */
{0x0806CB, 44}, /* TXVGA = 44; */
{0x0806DB, 45}, /* TXVGA = 45; */
{0x0806EB, 46}, /* TXVGA = 46; */
{0x0806FB, 47}, /* TXVGA = 47; */
{0x08070B, 48}, /* TXVGA = 48; */
{0x08071B, 49}, /* TXVGA = 49; */
{0x08072B, 50}, /* TXVGA = 50; */
{0x08073B, 51}, /* TXVGA = 51; */
{0x08074B, 52}, /* TXVGA = 52; */
{0x08075B, 53}, /* TXVGA = 53; */
{0x08076B, 54}, /* TXVGA = 54; */
{0x08077B, 55}, /* TXVGA = 55; */
{0x08078B, 56}, /* TXVGA = 56; */
{0x08079B, 57}, /* TXVGA = 57; */
{0x0807AB, 58}, /* TXVGA = 58; */
{0x0807BB, 59}, /* TXVGA = 59; */
{0x0807CB, 60}, /* TXVGA = 60; */
{0x0807DB, 61}, /* TXVGA = 61; */
{0x0807EB, 62}, /* TXVGA = 62; */
{0x0807FB, 63}, /* TXVGA = 63; */
};
/* ============================================= */
/*
* W89RF242 RFIC SPI programming initial data
* Winbond WLAN 11g RFIC BB-SPI register -- version FA5976A rev 1.3b
*/
u32 w89rf242_rf_data[] = {
(0x00 << 24) | 0xF86100, /* 3E184; MODA (0x00) -- Normal mode ; calibration off */
(0x01 << 24) | 0xEFFFC2, /* 3BFFF; MODB (0x01) -- turn off RSSI, and other circuits are turned on */
(0x02 << 24) | 0x102504, /* 04094; FSET (0x02) -- default 20MHz crystal ; Icmp=1.5mA */
(0x03 << 24) | 0x026286, /* 0098A; FCHN (0x03) -- default CH7, 2442MHz */
(0x04 << 24) | 0x000208, /* 02008; FCAL (0x04) -- XTAL Freq Trim=001000 (socket board#1); FA5976AYG_v1.3C */
(0x05 << 24) | 0x24C60A, /* 09316; GANA (0x05) -- TX VGA default (TXVGA=0x18(12)) & TXGPK=110 ; FA5976A_1.3D */
(0x06 << 24) | 0x3432CC, /* 0D0CB; GANB (0x06) -- RXDC(DC offset) on; LNA=11; RXVGA=001011(11) ; RXFLSW=11(010001); RXGPK=00; RXGCF=00; -50dBm input */
(0x07 << 24) | 0x0C68CE, /* 031A3; FILT (0x07) -- TX/RX filter with auto-tuning; TFLBW=011; RFLBW=100 */
(0x08 << 24) | 0x100010, /* 04000; TCAL (0x08) -- for LO */
(0x09 << 24) | 0x004012, /* 1B900; RCALA (0x09) -- FASTS=11; HPDE=01 (100nsec); SEHP=1 (select B0 pin=RXHP); RXHP=1 (Turn on RXHP function)(FA5976A_1.3C) */
(0x0A << 24) | 0x704014, /* 1C100; RCALB (0x0A) */
(0x0B << 24) | 0x18BDD6, /* 062F7; IQCAL (0x0B) -- Turn on LO phase tuner=0111 & RX-LO phase = 0111; FA5976A_1.3B */
(0x0C << 24) | 0x575558, /* 15D55 ; IBSA (0x0C) -- IFPre =11 ; TC5376A_v1.3A for corner */
(0x0D << 24) | 0x55545A, /* 15555 ; IBSB (0x0D) */
(0x0E << 24) | 0x5557DC, /* 1555F ; IBSC (0x0E) -- IRLNA & IRLNB (PTAT & Const current)=01/01; FA5976B_1.3F */
(0x10 << 24) | 0x000C20, /* 00030 ; TMODA (0x10) -- LNA_gain_step=0011 ; LNA=15/16dB */
(0x11 << 24) | 0x0C0022, /* 03000 ; TMODB (0x11) -- Turn ON RX-Q path Test Switch; To improve IQ path group delay (FA5976A_1.3C) */
(0x12 << 24) | 0x000024 /* TMODC (0x12) -- Turn OFF Temperature sensor */
};
u32 w89rf242_channel_data_24[][2] = {
{(0x03 << 24) | 0x025B06, (0x04 << 24) | 0x080408}, /* channe1 01 */
{(0x03 << 24) | 0x025C46, (0x04 << 24) | 0x080408}, /* channe1 02 */
{(0x03 << 24) | 0x025D86, (0x04 << 24) | 0x080408}, /* channe1 03 */
{(0x03 << 24) | 0x025EC6, (0x04 << 24) | 0x080408}, /* channe1 04 */
{(0x03 << 24) | 0x026006, (0x04 << 24) | 0x080408}, /* channe1 05 */
{(0x03 << 24) | 0x026146, (0x04 << 24) | 0x080408}, /* channe1 06 */
{(0x03 << 24) | 0x026286, (0x04 << 24) | 0x080408}, /* channe1 07 */
{(0x03 << 24) | 0x0263C6, (0x04 << 24) | 0x080408}, /* channe1 08 */
{(0x03 << 24) | 0x026506, (0x04 << 24) | 0x080408}, /* channe1 09 */
{(0x03 << 24) | 0x026646, (0x04 << 24) | 0x080408}, /* channe1 10 */
{(0x03 << 24) | 0x026786, (0x04 << 24) | 0x080408}, /* channe1 11 */
{(0x03 << 24) | 0x0268C6, (0x04 << 24) | 0x080408}, /* channe1 12 */
{(0x03 << 24) | 0x026A06, (0x04 << 24) | 0x080408}, /* channe1 13 */
{(0x03 << 24) | 0x026D06, (0x04 << 24) | 0x080408} /* channe1 14 */
};
u32 w89rf242_power_data_24[] = {(0x05 << 24) | 0x24C48A, (0x05 << 24) | 0x24C48A, (0x05 << 24) | 0x24C48A};
u32 w89rf242_txvga_old_mapping[][2] = {
{0, 0} , /* New <-> Old */
{1, 1} ,
{2, 2} ,
{3, 3} ,
{4, 4} ,
{6, 5} ,
{8, 6},
{10, 7},
{12, 8},
{14, 9},
{16, 10},
{18, 11},
{20, 12},
{22, 13},
{24, 14},
{26, 15},
{28, 16},
{30, 17},
{32, 18},
{34, 19},
};
u32 w89rf242_txvga_data[][5] = {
/* low gain mode */
{(0x05 << 24) | 0x24C00A, 0, 0x00292315, 0x0800FEFF, 0x52523131}, /* min gain */
{(0x05 << 24) | 0x24C80A, 1, 0x00292315, 0x0800FEFF, 0x52523131},
{(0x05 << 24) | 0x24C04A, 2, 0x00292315, 0x0800FEFF, 0x52523131}, /* (default) +14dBm (ANT) */
{(0x05 << 24) | 0x24C84A, 3, 0x00292315, 0x0800FEFF, 0x52523131},
/* TXVGA=0x10 */
{(0x05 << 24) | 0x24C40A, 4, 0x00292315, 0x0800FEFF, 0x60603838},
{(0x05 << 24) | 0x24C40A, 5, 0x00262114, 0x0700FEFF, 0x65653B3B},
/* TXVGA=0x11 */
{ (0x05 << 24) | 0x24C44A, 6, 0x00241F13, 0x0700FFFF, 0x58583333},
{ (0x05 << 24) | 0x24C44A, 7, 0x00292315, 0x0800FEFF, 0x5E5E3737},
/* TXVGA=0x12 */
{(0x05 << 24) | 0x24C48A, 8, 0x00262114, 0x0700FEFF, 0x53533030},
{(0x05 << 24) | 0x24C48A, 9, 0x00241F13, 0x0700FFFF, 0x59593434},
/* TXVGA=0x13 */
{(0x05 << 24) | 0x24C4CA, 10, 0x00292315, 0x0800FEFF, 0x52523030},
{(0x05 << 24) | 0x24C4CA, 11, 0x00262114, 0x0700FEFF, 0x56563232},
/* TXVGA=0x14 */
{(0x05 << 24) | 0x24C50A, 12, 0x00292315, 0x0800FEFF, 0x54543131},
{(0x05 << 24) | 0x24C50A, 13, 0x00262114, 0x0700FEFF, 0x58583434},
/* TXVGA=0x15 */
{(0x05 << 24) | 0x24C54A, 14, 0x00292315, 0x0800FEFF, 0x54543131},
{(0x05 << 24) | 0x24C54A, 15, 0x00262114, 0x0700FEFF, 0x59593434},
/* TXVGA=0x16 */
{(0x05 << 24) | 0x24C58A, 16, 0x00292315, 0x0800FEFF, 0x55553131},
{(0x05 << 24) | 0x24C58A, 17, 0x00292315, 0x0800FEFF, 0x5B5B3535},
/* TXVGA=0x17 */
{(0x05 << 24) | 0x24C5CA, 18, 0x00262114, 0x0700FEFF, 0x51512F2F},
{(0x05 << 24) | 0x24C5CA, 19, 0x00241F13, 0x0700FFFF, 0x55553131},
/* TXVGA=0x18 */
{(0x05 << 24) | 0x24C60A, 20, 0x00292315, 0x0800FEFF, 0x4F4F2E2E},
{(0x05 << 24) | 0x24C60A, 21, 0x00262114, 0x0700FEFF, 0x53533030},
/* TXVGA=0x19 */
{(0x05 << 24) | 0x24C64A, 22, 0x00292315, 0x0800FEFF, 0x4E4E2D2D},
{(0x05 << 24) | 0x24C64A, 23, 0x00262114, 0x0700FEFF, 0x53533030},
/* TXVGA=0x1A */
{(0x05 << 24) | 0x24C68A, 24, 0x00292315, 0x0800FEFF, 0x50502E2E},
{(0x05 << 24) | 0x24C68A, 25, 0x00262114, 0x0700FEFF, 0x55553131},
/* TXVGA=0x1B */
{(0x05 << 24) | 0x24C6CA, 26, 0x00262114, 0x0700FEFF, 0x53533030},
{(0x05 << 24) | 0x24C6CA, 27, 0x00292315, 0x0800FEFF, 0x5A5A3434},
/* TXVGA=0x1C */
{(0x05 << 24) | 0x24C70A, 28, 0x00292315, 0x0800FEFF, 0x55553131},
{(0x05 << 24) | 0x24C70A, 29, 0x00292315, 0x0800FEFF, 0x5D5D3636},
/* TXVGA=0x1D */
{(0x05 << 24) | 0x24C74A, 30, 0x00292315, 0x0800FEFF, 0x5F5F3737},
{(0x05 << 24) | 0x24C74A, 31, 0x00262114, 0x0700FEFF, 0x65653B3B},
/* TXVGA=0x1E */
{(0x05 << 24) | 0x24C78A, 32, 0x00292315, 0x0800FEFF, 0x66663B3B},
{(0x05 << 24) | 0x24C78A, 33, 0x00262114, 0x0700FEFF, 0x70704141},
/* TXVGA=0x1F */
{(0x05 << 24) | 0x24C7CA, 34, 0x00292315, 0x0800FEFF, 0x72724242}
};
/* ================================================================================================== */
/*
* =============================================================================================================
* Uxx_ReadEthernetAddress --
*
* Routine Description:
* Reads in the Ethernet address from the IC.
*
* Arguments:
* pHwData - The pHwData structure
*
* Return Value:
*
* The address is stored in EthernetIDAddr.
* =============================================================================================================
*/
void Uxx_ReadEthernetAddress(struct hw_data *pHwData)
{
u32 ltmp;
/*
* Reading Ethernet address from EEPROM and set into hardware due to MAC address maybe change.
* Only unplug and plug again can make hardware read EEPROM again.
*/
Wb35Reg_WriteSync(pHwData, 0x03b4, 0x08000000); /* Start EEPROM access + Read + address(0x0d) */
Wb35Reg_ReadSync(pHwData, 0x03b4, <mp);
*(u16 *)pHwData->PermanentMacAddress = cpu_to_le16((u16) ltmp);
Wb35Reg_WriteSync(pHwData, 0x03b4, 0x08010000); /* Start EEPROM access + Read + address(0x0d) */
Wb35Reg_ReadSync(pHwData, 0x03b4, <mp);
*(u16 *)(pHwData->PermanentMacAddress + 2) = cpu_to_le16((u16) ltmp);
Wb35Reg_WriteSync(pHwData, 0x03b4, 0x08020000); /* Start EEPROM access + Read + address(0x0d) */
Wb35Reg_ReadSync(pHwData, 0x03b4, <mp);
*(u16 *)(pHwData->PermanentMacAddress + 4) = cpu_to_le16((u16) ltmp);
*(u16 *)(pHwData->PermanentMacAddress + 6) = 0;
Wb35Reg_WriteSync(pHwData, 0x03e8, cpu_to_le32(*(u32 *)pHwData->PermanentMacAddress));
Wb35Reg_WriteSync(pHwData, 0x03ec, cpu_to_le32(*(u32 *)(pHwData->PermanentMacAddress + 4)));
}
/*
* ===============================================================================================================
* CardGetMulticastBit --
* Description:
* For a given multicast address, returns the byte and bit in the card multicast registers that it hashes to.
* Calls CardComputeCrc() to determine the CRC value.
* Arguments:
* Address - the address
* Byte - the byte that it hashes to
* Value - will have a 1 in the relevant bit
* Return Value:
* None.
* ==============================================================================================================
*/
void CardGetMulticastBit(u8 Address[ETH_ALEN], u8 *Byte, u8 *Value)
{
u32 Crc;
u32 BitNumber;
/* First compute the CRC. */
Crc = CardComputeCrc(Address, ETH_ALEN);
/* The computed CRC is bit0~31 from left to right */
/* At first we should do right shift 25bits, and read 7bits by using '&', 2^7=128 */
BitNumber = (u32) ((Crc >> 26) & 0x3f);
*Byte = (u8) (BitNumber >> 3); /* 900514 original (BitNumber / 8) */
*Value = (u8) ((u8) 1 << (BitNumber % 8));
}
void Uxx_power_on_procedure(struct hw_data *pHwData)
{
u32 ltmp, loop;
if (pHwData->phy_type <= RF_MAXIM_V1)
Wb35Reg_WriteSync(pHwData, 0x03d4, 0xffffff38);
else {
Wb35Reg_WriteSync(pHwData, 0x03f4, 0xFF5807FF);
Wb35Reg_WriteSync(pHwData, 0x03d4, 0x80); /* regulator on only */
msleep(10);
Wb35Reg_WriteSync(pHwData, 0x03d4, 0xb8); /* REG_ON RF_RSTN on, and */
msleep(10);
ltmp = 0x4968;
if ((pHwData->phy_type == RF_WB_242) ||
(RF_WB_242_1 == pHwData->phy_type))
ltmp = 0x4468;
Wb35Reg_WriteSync(pHwData, 0x03d0, ltmp);
Wb35Reg_WriteSync(pHwData, 0x03d4, 0xa0); /* PLL_PD REF_PD set to 0 */
msleep(20);
Wb35Reg_ReadSync(pHwData, 0x03d0, <mp);
loop = 500; /* Wait for 5 second */
while (!(ltmp & 0x20) && loop--) {
msleep(10);
if (!Wb35Reg_ReadSync(pHwData, 0x03d0, <mp))
break;
}
Wb35Reg_WriteSync(pHwData, 0x03d4, 0xe0); /* MLK_EN */
}
Wb35Reg_WriteSync(pHwData, 0x03b0, 1); /* Reset hardware first */
msleep(10);
/* Set burst write delay */
Wb35Reg_WriteSync(pHwData, 0x03f8, 0x7ff);
}
static void Set_ChanIndep_RfData_al7230_24(struct hw_data *pHwData, u32 *pltmp,
char number)
{
u8 i;
for (i = 0; i < number; i++) {
pHwData->phy_para[i] = al7230_rf_data_24[i];
pltmp[i] = (1 << 31) | (0 << 30) | (24 << 24) | (al7230_rf_data_24[i] & 0xffffff);
}
}
static void Set_ChanIndep_RfData_al7230_50(struct hw_data *pHwData, u32 *pltmp,
char number)
{
u8 i;
for (i = 0; i < number; i++) {
pHwData->phy_para[i] = al7230_rf_data_50[i];
pltmp[i] = (1 << 31) | (0 << 30) | (24 << 24) | (al7230_rf_data_50[i] & 0xffffff);
}
}
/*
* =============================================================================================================
* RFSynthesizer_initial --
* =============================================================================================================
*/
void RFSynthesizer_initial(struct hw_data *pHwData)
{
u32 altmp[32];
u32 *pltmp = altmp;
u32 ltmp;
u8 number = 0x00; /* The number of register vale */
u8 i;
/*
* bit[31] SPI Enable.
* 1=perform synthesizer program operation. This bit will
* cleared automatically after the operation is completed.
* bit[30] SPI R/W Control
* 0=write, 1=read
* bit[29:24] SPI Data Format Length
* bit[17:4 ] RF Data bits.
* bit[3 :0 ] RF address.
*/
switch (pHwData->phy_type) {
case RF_MAXIM_2825:
case RF_MAXIM_V1: /* 11g Winbond 2nd BB(with Phy board (v1) + Maxim 331) */
number = ARRAY_SIZE(max2825_rf_data);
for (i = 0; i < number; i++) {
pHwData->phy_para[i] = max2825_rf_data[i]; /* Backup Rf parameter */
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2825_rf_data[i], 18);
}
break;
case RF_MAXIM_2827:
number = ARRAY_SIZE(max2827_rf_data);
for (i = 0; i < number; i++) {
pHwData->phy_para[i] = max2827_rf_data[i];
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2827_rf_data[i], 18);
}
break;
case RF_MAXIM_2828:
number = ARRAY_SIZE(max2828_rf_data);
for (i = 0; i < number; i++) {
pHwData->phy_para[i] = max2828_rf_data[i];
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2828_rf_data[i], 18);
}
break;
case RF_MAXIM_2829:
number = ARRAY_SIZE(max2829_rf_data);
for (i = 0; i < number; i++) {
pHwData->phy_para[i] = max2829_rf_data[i];
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2829_rf_data[i], 18);
}
break;
case RF_AIROHA_2230:
number = ARRAY_SIZE(al2230_rf_data);
for (i = 0; i < number; i++) {
pHwData->phy_para[i] = al2230_rf_data[i];
pltmp[i] = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse(al2230_rf_data[i], 20);
}
break;
case RF_AIROHA_2230S:
number = ARRAY_SIZE(al2230s_rf_data);
for (i = 0; i < number; i++) {
pHwData->phy_para[i] = al2230s_rf_data[i];
pltmp[i] = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse(al2230s_rf_data[i], 20);
}
break;
case RF_AIROHA_7230:
/* Start to fill RF parameters, PLL_ON should be pulled low. */
Wb35Reg_WriteSync(pHwData, 0x03dc, 0x00000000);
pr_debug("* PLL_ON low\n");
number = ARRAY_SIZE(al7230_rf_data_24);
Set_ChanIndep_RfData_al7230_24(pHwData, pltmp, number);
break;
case RF_WB_242:
case RF_WB_242_1:
number = ARRAY_SIZE(w89rf242_rf_data);
for (i = 0; i < number; i++) {
ltmp = w89rf242_rf_data[i];
if (i == 4) { /* Update the VCO trim from EEPROM */
ltmp &= ~0xff0; /* Mask bit4 ~bit11 */
ltmp |= pHwData->VCO_trim << 4;
}
pHwData->phy_para[i] = ltmp;
pltmp[i] = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse(ltmp, 24);
}
break;
}
pHwData->phy_number = number;
/* The 16 is the maximum capability of hardware. Here use 12 */
if (number > 12) {
for (i = 0; i < 12; i++) /* For Al2230 */
Wb35Reg_WriteSync(pHwData, 0x0864, pltmp[i]);
pltmp += 12;
number -= 12;
}
/* Write to register. number must less and equal than 16 */
for (i = 0; i < number; i++)
Wb35Reg_WriteSync(pHwData, 0x864, pltmp[i]);
/* Calibration only 1 time */
if (pHwData->CalOneTime)
return;
pHwData->CalOneTime = 1;
switch (pHwData->phy_type) {
case RF_AIROHA_2230:
ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse((0x07 << 20) | 0xE168E, 20);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(10);
ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse(al2230_rf_data[7], 20);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(10);
case RF_AIROHA_2230S:
Wb35Reg_WriteSync(pHwData, 0x03d4, 0x80); /* regulator on only */
msleep(10);
Wb35Reg_WriteSync(pHwData, 0x03d4, 0xa0); /* PLL_PD REF_PD set to 0 */
msleep(10);
Wb35Reg_WriteSync(pHwData, 0x03d4, 0xe0); /* MLK_EN */
Wb35Reg_WriteSync(pHwData, 0x03b0, 1); /* Reset hardware first */
msleep(10);
/* ========================================================= */
/* The follow code doesn't use the burst-write mode */
ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse((0x0F<<20) | 0xF01A0, 20);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
ltmp = pHwData->reg.BB5C & 0xfffff000;
Wb35Reg_WriteSync(pHwData, 0x105c, ltmp);
pHwData->reg.BB50 |= 0x13; /* (MASK_IQCAL_MODE|MASK_CALIB_START) */
Wb35Reg_WriteSync(pHwData, 0x1050, pHwData->reg.BB50);
msleep(5);
ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse((0x0F << 20) | 0xF01B0, 20);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse((0x0F << 20) | 0xF01E0, 20);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse((0x0F << 20) | 0xF01A0, 20);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp) ;
Wb35Reg_WriteSync(pHwData, 0x105c, pHwData->reg.BB5C);
pHwData->reg.BB50 &= ~0x13; /* (MASK_IQCAL_MODE|MASK_CALIB_START); */
Wb35Reg_WriteSync(pHwData, 0x1050, pHwData->reg.BB50);
break;
case RF_AIROHA_7230:
/* RF parameters have filled completely, PLL_ON should be pulled high */
Wb35Reg_WriteSync(pHwData, 0x03dc, 0x00000080);
pr_debug("* PLL_ON high\n");
/* 2.4GHz */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | 0x9ABA8F;
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | 0x3ABA8F;
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | 0x1ABA8F;
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
/* 5GHz */
Wb35Reg_WriteSync(pHwData, 0x03dc, 0x00000000);
pr_debug("* PLL_ON low\n");
number = ARRAY_SIZE(al7230_rf_data_50);
Set_ChanIndep_RfData_al7230_50(pHwData, pltmp, number);
/* Write to register. number must less and equal than 16 */
for (i = 0; i < number; i++)
Wb35Reg_WriteSync(pHwData, 0x0864, pltmp[i]);
msleep(5);
Wb35Reg_WriteSync(pHwData, 0x03dc, 0x00000080);
pr_debug("* PLL_ON high\n");
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | 0x9ABA8F;
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | 0x3ABA8F;
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | 0x12BACF;
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
break;
case RF_WB_242:
case RF_WB_242_1:
/* for FA5976A */
ltmp = pHwData->reg.BB5C & 0xfffff000;
Wb35Reg_WriteSync(pHwData, 0x105c, ltmp);
Wb35Reg_WriteSync(pHwData, 0x1058, 0);
pHwData->reg.BB50 |= 0x3; /* (MASK_IQCAL_MODE|MASK_CALIB_START); */
Wb35Reg_WriteSync(pHwData, 0x1050, pHwData->reg.BB50);
/* ----- Calibration (1). VCO frequency calibration */
/* Calibration (1a.0). Synthesizer reset */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x0F<<24) | 0x00101E, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
/* Calibration (1a). VCO frequency calibration mode ; waiting 2msec VCO calibration time */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFE69c0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(2);
/* ----- Calibration (2). TX baseband Gm-C filter auto-tuning */
/* Calibration (2a). turn off ENCAL signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xF8EBC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (2b.0). TX filter auto-tuning BW: TFLBW=101 (TC5376A default) */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x07<<24) | 0x0C68CE, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (2b). send TX reset signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x0F<<24) | 0x00201E, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (2c). turn-on TX Gm-C filter auto-tuning */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFCEBC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
udelay(150); /* Sleep 150 us */
/* turn off ENCAL signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xF8EBC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* ----- Calibration (3). RX baseband Gm-C filter auto-tuning */
/* Calibration (3a). turn off ENCAL signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFAEDC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (3b.0). RX filter auto-tuning BW: RFLBW=100 (TC5376A+corner default;) */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x07<<24) | 0x0C68CE, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (3b). send RX reset signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x0F<<24) | 0x00401E, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (3c). turn-on RX Gm-C filter auto-tuning */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFEEDC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
udelay(150); /* Sleep 150 us */
/* Calibration (3e). turn off ENCAL signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFAEDC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* ----- Calibration (4). TX LO leakage calibration */
/* Calibration (4a). TX LO leakage calibration */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFD6BC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
udelay(150); /* Sleep 150 us */
/* ----- Calibration (5). RX DC offset calibration */
/* Calibration (5a). turn off ENCAL signal and set to RX SW DC calibration mode */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFAEDC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (5b). turn off AGC servo-loop & RSSI */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x01<<24) | 0xEBFFC2, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* for LNA=11 -------- */
/* Calibration (5c-h). RX DC offset current bias ON; & LNA=11; RXVGA=111111 */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x06<<24) | 0x343FCC, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (5d). turn on RX DC offset cal function; and waiting 2 msec cal time */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFF6DC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(2);
/* Calibration (5f). turn off ENCAL signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFAEDC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* for LNA=10 -------- */
/* Calibration (5c-m). RX DC offset current bias ON; & LNA=10; RXVGA=111111 */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x06<<24) | 0x342FCC, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (5d). turn on RX DC offset cal function; and waiting 2 msec cal time */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFF6DC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(2);
/* Calibration (5f). turn off ENCAL signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFAEDC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* for LNA=01 -------- */
/* Calibration (5c-m). RX DC offset current bias ON; & LNA=01; RXVGA=111111 */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x06<<24) | 0x341FCC, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (5d). turn on RX DC offset cal function; and waiting 2 msec cal time */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFF6DC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(2);
/* Calibration (5f). turn off ENCAL signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFAEDC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* for LNA=00 -------- */
/* Calibration (5c-l). RX DC offset current bias ON; & LNA=00; RXVGA=111111 */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x06<<24) | 0x340FCC, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (5d). turn on RX DC offset cal function; and waiting 2 msec cal time */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFF6DC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(2);
/* Calibration (5f). turn off ENCAL signal */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xFAEDC0, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* Calibration (5g). turn on AGC servo-loop */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x01<<24) | 0xEFFFC2, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
/* ----- Calibration (7). Switch RF chip to normal mode */
/* 0x00 0xF86100 ; 3E184 ; Switch RF chip to normal mode */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse((0x00<<24) | 0xF86100, 24);
Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
msleep(5);
break;
}
}
static void BBProcessor_AL7230_2400(struct hw_data *pHwData)
{
struct wb35_reg *reg = &pHwData->reg;
u32 pltmp[12];
pltmp[0] = 0x16A8337A; /* 0x1000 AGC_Ctrl1 */
pltmp[1] = 0x9AFF9AA6; /* 0x1004 AGC_Ctrl2 */
pltmp[2] = 0x55D00A04; /* 0x1008 AGC_Ctrl3 */
pltmp[3] = 0xFFF72031; /* 0x100c AGC_Ctrl4 */
reg->BB0C = 0xFFF72031;
pltmp[4] = 0x0FacDCC5; /* 0x1010 AGC_Ctrl5 */
pltmp[5] = 0x00CAA333; /* 0x1014 AGC_Ctrl6 */
pltmp[6] = 0xF2211111; /* 0x1018 AGC_Ctrl7 */
pltmp[7] = 0x0FA3F0ED; /* 0x101c AGC_Ctrl8 */
pltmp[8] = 0x06443440; /* 0x1020 AGC_Ctrl9 */
pltmp[9] = 0xA8002A79; /* 0x1024 AGC_Ctrl10 */
pltmp[10] = 0x40000528;
pltmp[11] = 0x232D7F30; /* 0x102c A_ACQ_Ctrl */
reg->BB2C = 0x232D7F30;
Wb35Reg_BurstWrite(pHwData, 0x1000, pltmp, 12, AUTO_INCREMENT);
pltmp[0] = 0x00002c54; /* 0x1030 B_ACQ_Ctrl */
reg->BB30 = 0x00002c54;
pltmp[1] = 0x00C0D6C5; /* 0x1034 A_TXRX_Ctrl */
pltmp[2] = 0x5B2C8769; /* 0x1038 B_TXRX_Ctrl */
pltmp[3] = 0x00000000; /* 0x103c 11a TX LS filter */
reg->BB3C = 0x00000000;
pltmp[4] = 0x00003F29; /* 0x1040 11a TX LS filter */
pltmp[5] = 0x0EFEFBFE; /* 0x1044 11a TX LS filter */
pltmp[6] = 0x00332C1B; /* 0x1048 11b TX RC filter */
pltmp[7] = 0x0A00FEFF; /* 0x104c 11b TX RC filter */
pltmp[8] = 0x2B106208; /* 0x1050 MODE_Ctrl */
reg->BB50 = 0x2B106208;
pltmp[9] = 0; /* 0x1054 */
reg->BB54 = 0x00000000;
pltmp[10] = 0x52524242; /* 0x1058 IQ_Alpha */
reg->BB58 = 0x52524242;
pltmp[11] = 0xAA0AC000; /* 0x105c DC_Cancel */
Wb35Reg_BurstWrite(pHwData, 0x1030, pltmp, 12, AUTO_INCREMENT);
}
static void BBProcessor_AL7230_5000(struct hw_data *pHwData)
{
struct wb35_reg *reg = &pHwData->reg;
u32 pltmp[12];
pltmp[0] = 0x16AA6678; /* 0x1000 AGC_Ctrl1 */
pltmp[1] = 0x9AFFA0B2; /* 0x1004 AGC_Ctrl2 */
pltmp[2] = 0x55D00A04; /* 0x1008 AGC_Ctrl3 */
pltmp[3] = 0xEFFF233E; /* 0x100c AGC_Ctrl4 */
reg->BB0C = 0xEFFF233E;
pltmp[4] = 0x0FacDCC5; /* 0x1010 AGC_Ctrl5 */
pltmp[5] = 0x00CAA333; /* 0x1014 AGC_Ctrl6 */
pltmp[6] = 0xF2432111; /* 0x1018 AGC_Ctrl7 */
pltmp[7] = 0x0FA3F0ED; /* 0x101c AGC_Ctrl8 */
pltmp[8] = 0x05C43440; /* 0x1020 AGC_Ctrl9 */
pltmp[9] = 0x00002A79; /* 0x1024 AGC_Ctrl10 */
pltmp[10] = 0x40000528;
pltmp[11] = 0x232FDF30;/* 0x102c A_ACQ_Ctrl */
reg->BB2C = 0x232FDF30;
Wb35Reg_BurstWrite(pHwData, 0x1000, pltmp, 12, AUTO_INCREMENT);
pltmp[0] = 0x80002C7C; /* 0x1030 B_ACQ_Ctrl */
pltmp[1] = 0x00C0D6C5; /* 0x1034 A_TXRX_Ctrl */
pltmp[2] = 0x5B2C8769; /* 0x1038 B_TXRX_Ctrl */
pltmp[3] = 0x00000000; /* 0x103c 11a TX LS filter */
reg->BB3C = 0x00000000;
pltmp[4] = 0x00003F29; /* 0x1040 11a TX LS filter */
pltmp[5] = 0x0EFEFBFE; /* 0x1044 11a TX LS filter */
pltmp[6] = 0x00332C1B; /* 0x1048 11b TX RC filter */
pltmp[7] = 0x0A00FEFF; /* 0x104c 11b TX RC filter */
pltmp[8] = 0x2B107208; /* 0x1050 MODE_Ctrl */
reg->BB50 = 0x2B107208;
pltmp[9] = 0; /* 0x1054 */
reg->BB54 = 0x00000000;
pltmp[10] = 0x52524242; /* 0x1058 IQ_Alpha */
reg->BB58 = 0x52524242;
pltmp[11] = 0xAA0AC000; /* 0x105c DC_Cancel */
Wb35Reg_BurstWrite(pHwData, 0x1030, pltmp, 12, AUTO_INCREMENT);
}
/*
* ===========================================================================
* BBProcessorPowerupInit --
*
* Description:
* Initialize the Baseband processor.
*
* Arguments:
* pHwData - Handle of the USB Device.
*
* Return values:
* None.
*============================================================================
*/
void BBProcessor_initial(struct hw_data *pHwData)
{
struct wb35_reg *reg = &pHwData->reg;
u32 i, pltmp[12];
switch (pHwData->phy_type) {
case RF_MAXIM_V1: /* Initializng the Winbond 2nd BB(with Phy board (v1) + Maxim 331) */
pltmp[0] = 0x16F47E77; /* 0x1000 AGC_Ctrl1 */
pltmp[1] = 0x9AFFAEA4; /* 0x1004 AGC_Ctrl2 */
pltmp[2] = 0x55D00A04; /* 0x1008 AGC_Ctrl3 */
pltmp[3] = 0xEFFF1A34; /* 0x100c AGC_Ctrl4 */
reg->BB0C = 0xEFFF1A34;
pltmp[4] = 0x0FABE0B7; /* 0x1010 AGC_Ctrl5 */
pltmp[5] = 0x00CAA332; /* 0x1014 AGC_Ctrl6 */
pltmp[6] = 0xF6632111; /* 0x1018 AGC_Ctrl7 */
pltmp[7] = 0x0FA3F0ED; /* 0x101c AGC_Ctrl8 */
pltmp[8] = 0x04CC3640; /* 0x1020 AGC_Ctrl9 */
pltmp[9] = 0x00002A79; /* 0x1024 AGC_Ctrl10 */
pltmp[10] = (pHwData->phy_type == 3) ? 0x40000a28 : 0x40000228; /* 0x1028 MAXIM_331(b31=0) + WBRF_V1(b11=1) : MAXIM_331(b31=0) + WBRF_V2(b11=0) */
pltmp[11] = 0x232FDF30; /* 0x102c A_ACQ_Ctrl */
reg->BB2C = 0x232FDF30; /* Modify for 33's 1.0.95.xxx version, antenna 1 */
Wb35Reg_BurstWrite(pHwData, 0x1000, pltmp, 12, AUTO_INCREMENT);
pltmp[0] = 0x00002C54; /* 0x1030 B_ACQ_Ctrl */
reg->BB30 = 0x00002C54;
pltmp[1] = 0x00C0D6C5; /* 0x1034 A_TXRX_Ctrl */
pltmp[2] = 0x5B6C8769; /* 0x1038 B_TXRX_Ctrl */
pltmp[3] = 0x00000000; /* 0x103c 11a TX LS filter */
reg->BB3C = 0x00000000;
pltmp[4] = 0x00003F29; /* 0x1040 11a TX LS filter */
pltmp[5] = 0x0EFEFBFE; /* 0x1044 11a TX LS filter */
pltmp[6] = 0x00453B24; /* 0x1048 11b TX RC filter */
pltmp[7] = 0x0E00FEFF; /* 0x104c 11b TX RC filter */
pltmp[8] = 0x27106208; /* 0x1050 MODE_Ctrl */
reg->BB50 = 0x27106208;
pltmp[9] = 0; /* 0x1054 */
reg->BB54 = 0x00000000;
pltmp[10] = 0x64646464; /* 0x1058 IQ_Alpha */
reg->BB58 = 0x64646464;
pltmp[11] = 0xAA0AC000; /* 0x105c DC_Cancel */
Wb35Reg_BurstWrite(pHwData, 0x1030, pltmp, 12, AUTO_INCREMENT);
Wb35Reg_Write(pHwData, 0x1070, 0x00000045);
break;
case RF_MAXIM_2825:
case RF_MAXIM_2827:
case RF_MAXIM_2828:
pltmp[0] = 0x16b47e77; /* 0x1000 AGC_Ctrl1 */
pltmp[1] = 0x9affaea4; /* 0x1004 AGC_Ctrl2 */
pltmp[2] = 0x55d00a04; /* 0x1008 AGC_Ctrl3 */
pltmp[3] = 0xefff1a34; /* 0x100c AGC_Ctrl4 */
reg->BB0C = 0xefff1a34;
pltmp[4] = 0x0fabe0b7; /* 0x1010 AGC_Ctrl5 */
pltmp[5] = 0x00caa332; /* 0x1014 AGC_Ctrl6 */
pltmp[6] = 0xf6632111; /* 0x1018 AGC_Ctrl7 */
pltmp[7] = 0x0FA3F0ED; /* 0x101c AGC_Ctrl8 */
pltmp[8] = 0x04CC3640; /* 0x1020 AGC_Ctrl9 */
pltmp[9] = 0x00002A79; /* 0x1024 AGC_Ctrl10 */
pltmp[10] = 0x40000528;
pltmp[11] = 0x232fdf30; /* 0x102c A_ACQ_Ctrl */
reg->BB2C = 0x232fdf30; /* antenna 1 */
Wb35Reg_BurstWrite(pHwData, 0x1000, pltmp, 12, AUTO_INCREMENT);
pltmp[0] = 0x00002C54; /* 0x1030 B_ACQ_Ctrl */
reg->BB30 = 0x00002C54;
pltmp[1] = 0x00C0D6C5; /* 0x1034 A_TXRX_Ctrl */
pltmp[2] = 0x5B6C8769; /* 0x1038 B_TXRX_Ctrl */
pltmp[3] = 0x00000000; /* 0x103c 11a TX LS filter */
reg->BB3C = 0x00000000;
pltmp[4] = 0x00003F29; /* 0x1040 11a TX LS filter */
pltmp[5] = 0x0EFEFBFE; /* 0x1044 11a TX LS filter */
pltmp[6] = 0x00453B24; /* 0x1048 11b TX RC filter */
pltmp[7] = 0x0D00FDFF; /* 0x104c 11b TX RC filter */
pltmp[8] = 0x27106208; /* 0x1050 MODE_Ctrl */
reg->BB50 = 0x27106208;
pltmp[9] = 0; /* 0x1054 */
reg->BB54 = 0x00000000;
pltmp[10] = 0x64646464; /* 0x1058 IQ_Alpha */
reg->BB58 = 0x64646464;
pltmp[11] = 0xAA28C000; /* 0x105c DC_Cancel */
Wb35Reg_BurstWrite(pHwData, 0x1030, pltmp, 12, AUTO_INCREMENT);
Wb35Reg_Write(pHwData, 0x1070, 0x00000045);
break;
case RF_MAXIM_2829:
pltmp[0] = 0x16b47e77; /* 0x1000 AGC_Ctrl1 */
pltmp[1] = 0x9affaea4; /* 0x1004 AGC_Ctrl2 */
pltmp[2] = 0x55d00a04; /* 0x1008 AGC_Ctrl3 */
pltmp[3] = 0xf4ff1632; /* 0x100c AGC_Ctrl4 */
reg->BB0C = 0xf4ff1632;
pltmp[4] = 0x0fabe0b7; /* 0x1010 AGC_Ctrl5 */
pltmp[5] = 0x00caa332; /* 0x1014 AGC_Ctrl6 */
pltmp[6] = 0xf8632112; /* 0x1018 AGC_Ctrl7 */
pltmp[7] = 0x0FA3F0ED; /* 0x101c AGC_Ctrl8 */
pltmp[8] = 0x04CC3640; /* 0x1020 AGC_Ctrl9 */
pltmp[9] = 0x00002A79; /* 0x1024 AGC_Ctrl10 */
pltmp[10] = 0x40000528;
pltmp[11] = 0x232fdf30; /* 0x102c A_ACQ_Ctrl */
reg->BB2C = 0x232fdf30; /* antenna 1 */
Wb35Reg_BurstWrite(pHwData, 0x1000, pltmp, 12, AUTO_INCREMENT);
pltmp[0] = 0x00002C54; /* 0x1030 B_ACQ_Ctrl */
reg->BB30 = 0x00002C54;
pltmp[1] = 0x00C0D6C5; /* 0x1034 A_TXRX_Ctrl */
pltmp[2] = 0x5b2c8769; /* 0x1038 B_TXRX_Ctrl */
pltmp[3] = 0x00000000; /* 0x103c 11a TX LS filter */
reg->BB3C = 0x00000000;
pltmp[4] = 0x00003F29; /* 0x1040 11a TX LS filter */
pltmp[5] = 0x0EFEFBFE; /* 0x1044 11a TX LS filter */
pltmp[6] = 0x002c2617; /* 0x1048 11b TX RC filter */
pltmp[7] = 0x0800feff; /* 0x104c 11b TX RC filter */
pltmp[8] = 0x27106208; /* 0x1050 MODE_Ctrl */
reg->BB50 = 0x27106208;
pltmp[9] = 0; /* 0x1054 */
reg->BB54 = 0x00000000;
pltmp[10] = 0x64644a4a; /* 0x1058 IQ_Alpha */
reg->BB58 = 0x64646464;
pltmp[11] = 0xAA28C000; /* 0x105c DC_Cancel */
Wb35Reg_BurstWrite(pHwData, 0x1030, pltmp, 12, AUTO_INCREMENT);
Wb35Reg_Write(pHwData, 0x1070, 0x00000045);
break;
case RF_AIROHA_2230:
pltmp[0] = 0X16764A77; /* 0x1000 AGC_Ctrl1 */
pltmp[1] = 0x9affafb2; /* 0x1004 AGC_Ctrl2 */
pltmp[2] = 0x55d00a04; /* 0x1008 AGC_Ctrl3 */
pltmp[3] = 0xFFFd203c; /* 0x100c AGC_Ctrl4 */
reg->BB0C = 0xFFFd203c;
pltmp[4] = 0X0FBFDCc5; /* 0x1010 AGC_Ctrl5 */
pltmp[5] = 0x00caa332; /* 0x1014 AGC_Ctrl6 */
pltmp[6] = 0XF6632111; /* 0x1018 AGC_Ctrl7 */
pltmp[7] = 0x0FA3F0ED; /* 0x101c AGC_Ctrl8 */
pltmp[8] = 0x04C43640; /* 0x1020 AGC_Ctrl9 */
pltmp[9] = 0x00002A79; /* 0x1024 AGC_Ctrl10 */
pltmp[10] = 0X40000528;
pltmp[11] = 0x232dfF30; /* 0x102c A_ACQ_Ctrl */
reg->BB2C = 0x232dfF30; /* antenna 1 */
Wb35Reg_BurstWrite(pHwData, 0x1000, pltmp, 12, AUTO_INCREMENT);
pltmp[0] = 0x00002C54; /* 0x1030 B_ACQ_Ctrl */
reg->BB30 = 0x00002C54;
pltmp[1] = 0x00C0D6C5; /* 0x1034 A_TXRX_Ctrl */
pltmp[2] = 0x5B2C8769; /* 0x1038 B_TXRX_Ctrl */
pltmp[3] = 0x00000000; /* 0x103c 11a TX LS filter */
reg->BB3C = 0x00000000;
pltmp[4] = 0x00003F29; /* 0x1040 11a TX LS filter */
pltmp[5] = 0x0EFEFBFE; /* 0x1044 11a TX LS filter */
pltmp[6] = BB48_DEFAULT_AL2230_11G; /* 0x1048 11b TX RC filter */
reg->BB48 = BB48_DEFAULT_AL2230_11G; /* 20051221 ch14 */
pltmp[7] = BB4C_DEFAULT_AL2230_11G; /* 0x104c 11b TX RC filter */
reg->BB4C = BB4C_DEFAULT_AL2230_11G;
pltmp[8] = 0x27106200; /* 0x1050 MODE_Ctrl */
reg->BB50 = 0x27106200;
pltmp[9] = 0; /* 0x1054 */
reg->BB54 = 0x00000000;
pltmp[10] = 0x52524242; /* 0x1058 IQ_Alpha */
reg->BB58 = 0x52524242;
pltmp[11] = 0xAA0AC000; /* 0x105c DC_Cancel */
Wb35Reg_BurstWrite(pHwData, 0x1030, pltmp, 12, AUTO_INCREMENT);
Wb35Reg_Write(pHwData, 0x1070, 0x00000045);
break;
case RF_AIROHA_2230S:
pltmp[0] = 0X16764A77; /* 0x1000 AGC_Ctrl1 */
pltmp[1] = 0x9affafb2; /* 0x1004 AGC_Ctrl2 */
pltmp[2] = 0x55d00a04; /* 0x1008 AGC_Ctrl3 */
pltmp[3] = 0xFFFd203c; /* 0x100c AGC_Ctrl4 */
reg->BB0C = 0xFFFd203c;
pltmp[4] = 0X0FBFDCc5; /* 0x1010 AGC_Ctrl5 */
pltmp[5] = 0x00caa332; /* 0x1014 AGC_Ctrl6 */
pltmp[6] = 0XF6632111; /* 0x1018 AGC_Ctrl7 */
pltmp[7] = 0x0FA3F0ED; /* 0x101c AGC_Ctrl8 */
pltmp[8] = 0x04C43640; /* 0x1020 AGC_Ctrl9 */
pltmp[9] = 0x00002A79; /* 0x1024 AGC_Ctrl10 */
pltmp[10] = 0X40000528;
pltmp[11] = 0x232dfF30; /* 0x102c A_ACQ_Ctrl */
reg->BB2C = 0x232dfF30; /* antenna 1 */
Wb35Reg_BurstWrite(pHwData, 0x1000, pltmp, 12, AUTO_INCREMENT);
pltmp[0] = 0x00002C54; /* 0x1030 B_ACQ_Ctrl */
reg->BB30 = 0x00002C54;
pltmp[1] = 0x00C0D6C5; /* 0x1034 A_TXRX_Ctrl */
pltmp[2] = 0x5B2C8769; /* 0x1038 B_TXRX_Ctrl */
pltmp[3] = 0x00000000; /* 0x103c 11a TX LS filter */
reg->BB3C = 0x00000000;
pltmp[4] = 0x00003F29; /* 0x1040 11a TX LS filter */
pltmp[5] = 0x0EFEFBFE; /* 0x1044 11a TX LS filter */
pltmp[6] = BB48_DEFAULT_AL2230_11G; /* 0x1048 11b TX RC filter */
reg->BB48 = BB48_DEFAULT_AL2230_11G; /* ch14 */
pltmp[7] = BB4C_DEFAULT_AL2230_11G; /* 0x104c 11b TX RC filter */
reg->BB4C = BB4C_DEFAULT_AL2230_11G;
pltmp[8] = 0x27106200; /* 0x1050 MODE_Ctrl */
reg->BB50 = 0x27106200;
pltmp[9] = 0; /* 0x1054 */
reg->BB54 = 0x00000000;
pltmp[10] = 0x52523232; /* 0x1058 IQ_Alpha */
reg->BB58 = 0x52523232;
pltmp[11] = 0xAA0AC000; /* 0x105c DC_Cancel */
Wb35Reg_BurstWrite(pHwData, 0x1030, pltmp, 12, AUTO_INCREMENT);
Wb35Reg_Write(pHwData, 0x1070, 0x00000045);
break;
case RF_AIROHA_7230:
BBProcessor_AL7230_2400(pHwData);
Wb35Reg_Write(pHwData, 0x1070, 0x00000045);
break;
case RF_WB_242:
case RF_WB_242_1:
pltmp[0] = 0x16A8525D; /* 0x1000 AGC_Ctrl1 */
pltmp[1] = 0x9AFF9ABA; /* 0x1004 AGC_Ctrl2 */
pltmp[2] = 0x55D00A04; /* 0x1008 AGC_Ctrl3 */
pltmp[3] = 0xEEE91C32; /* 0x100c AGC_Ctrl4 */
reg->BB0C = 0xEEE91C32;
pltmp[4] = 0x0FACDCC5; /* 0x1010 AGC_Ctrl5 */
pltmp[5] = 0x000AA344; /* 0x1014 AGC_Ctrl6 */
pltmp[6] = 0x22222221; /* 0x1018 AGC_Ctrl7 */
pltmp[7] = 0x0FA3F0ED; /* 0x101c AGC_Ctrl8 */
pltmp[8] = 0x04CC3440; /* 0x1020 AGC_Ctrl9 */
pltmp[9] = 0xA9002A79; /* 0x1024 AGC_Ctrl10 */
pltmp[10] = 0x40000528; /* 0x1028 */
pltmp[11] = 0x23457F30; /* 0x102c A_ACQ_Ctrl */
reg->BB2C = 0x23457F30;
Wb35Reg_BurstWrite(pHwData, 0x1000, pltmp, 12, AUTO_INCREMENT);
pltmp[0] = 0x00002C54; /* 0x1030 B_ACQ_Ctrl */
reg->BB30 = 0x00002C54;
pltmp[1] = 0x00C0D6C5; /* 0x1034 A_TXRX_Ctrl */
pltmp[2] = 0x5B2C8769; /* 0x1038 B_TXRX_Ctrl */
pltmp[3] = pHwData->BB3c_cal; /* 0x103c 11a TX LS filter */
reg->BB3C = pHwData->BB3c_cal;
pltmp[4] = 0x00003F29; /* 0x1040 11a TX LS filter */
pltmp[5] = 0x0EFEFBFE; /* 0x1044 11a TX LS filter */
pltmp[6] = BB48_DEFAULT_WB242_11G; /* 0x1048 11b TX RC filter */
reg->BB48 = BB48_DEFAULT_WB242_11G;
pltmp[7] = BB4C_DEFAULT_WB242_11G; /* 0x104c 11b TX RC filter */
reg->BB4C = BB4C_DEFAULT_WB242_11G;
pltmp[8] = 0x27106208; /* 0x1050 MODE_Ctrl */
reg->BB50 = 0x27106208;
pltmp[9] = pHwData->BB54_cal; /* 0x1054 */
reg->BB54 = pHwData->BB54_cal;
pltmp[10] = 0x52523131; /* 0x1058 IQ_Alpha */
reg->BB58 = 0x52523131;
pltmp[11] = 0xAA0AC000; /* 0x105c DC_Cancel */
Wb35Reg_BurstWrite(pHwData, 0x1030, pltmp, 12, AUTO_INCREMENT);
Wb35Reg_Write(pHwData, 0x1070, 0x00000045);
break;
}
/* Fill the LNA table */
reg->LNAValue[0] = (u8) (reg->BB0C & 0xff);
reg->LNAValue[1] = 0;
reg->LNAValue[2] = (u8) ((reg->BB0C & 0xff00) >> 8);
reg->LNAValue[3] = 0;
/* Fill SQ3 table */
for (i = 0; i < MAX_SQ3_FILTER_SIZE; i++)
reg->SQ3_filter[i] = 0x2f; /* half of Bit 0 ~ 6 */
}
static inline void set_tx_power_per_channel_max2829(struct hw_data *pHwData,
struct chan_info Channel)
{
RFSynthesizer_SetPowerIndex(pHwData, 100);
}
static void set_tx_power_per_channel_al2230(struct hw_data *pHwData,
struct chan_info Channel)
{
u8 index = 100;
if (pHwData->TxVgaFor24[Channel.ChanNo - 1] != 0xff)
index = pHwData->TxVgaFor24[Channel.ChanNo - 1];
RFSynthesizer_SetPowerIndex(pHwData, index);
}
static void set_tx_power_per_channel_al7230(struct hw_data *pHwData,
struct chan_info Channel)
{
u8 i, index = 100;
switch (Channel.band) {
case BAND_TYPE_DSSS:
case BAND_TYPE_OFDM_24:
if (pHwData->TxVgaFor24[Channel.ChanNo - 1] != 0xff)
index = pHwData->TxVgaFor24[Channel.ChanNo - 1];
break;
case BAND_TYPE_OFDM_5:
for (i = 0; i < 35; i++) {
if (Channel.ChanNo == pHwData->TxVgaFor50[i].ChanNo) {
if (pHwData->TxVgaFor50[i].TxVgaValue != 0xff)
index = pHwData->TxVgaFor50[i].TxVgaValue;
break;
}
}
break;
}
RFSynthesizer_SetPowerIndex(pHwData, index);
}
static void set_tx_power_per_channel_wb242(struct hw_data *pHwData,
struct chan_info Channel)
{
u8 index = 100;
switch (Channel.band) {
case BAND_TYPE_DSSS:
case BAND_TYPE_OFDM_24:
if (pHwData->TxVgaFor24[Channel.ChanNo - 1] != 0xff)
index = pHwData->TxVgaFor24[Channel.ChanNo - 1];
break;
case BAND_TYPE_OFDM_5:
break;
}
RFSynthesizer_SetPowerIndex(pHwData, index);
}
/*
* ==========================================================================
* RFSynthesizer_SwitchingChannel --
*
* Description:
* Swithch the RF channel.
*
* Arguments:
* pHwData - Handle of the USB Device.
* Channel - The channel no.
*
* Return values:
* None.
* ===========================================================================
*/
void RFSynthesizer_SwitchingChannel(struct hw_data *pHwData, struct chan_info Channel)
{
struct wb35_reg *reg = &pHwData->reg;
u32 pltmp[16]; /* The 16 is the maximum capability of hardware */
u32 count, ltmp;
u8 i, j, number;
u8 ChnlTmp;
switch (pHwData->phy_type) {
case RF_MAXIM_2825:
case RF_MAXIM_V1: /* 11g Winbond 2nd BB(with Phy board (v1) + Maxim 331) */
if (Channel.band <= BAND_TYPE_OFDM_24) { /* channel 1 ~ 13 */
for (i = 0; i < 3; i++)
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2825_channel_data_24[Channel.ChanNo-1][i], 18);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 3, NO_INCREMENT);
}
RFSynthesizer_SetPowerIndex(pHwData, 100);
break;
case RF_MAXIM_2827:
if (Channel.band <= BAND_TYPE_OFDM_24) { /* channel 1 ~ 13 */
for (i = 0; i < 3; i++)
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2827_channel_data_24[Channel.ChanNo-1][i], 18);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 3, NO_INCREMENT);
} else if (Channel.band == BAND_TYPE_OFDM_5) { /* channel 36 ~ 64 */
ChnlTmp = (Channel.ChanNo - 36) / 4;
for (i = 0; i < 3; i++)
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2827_channel_data_50[ChnlTmp][i], 18);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 3, NO_INCREMENT);
}
RFSynthesizer_SetPowerIndex(pHwData, 100);
break;
case RF_MAXIM_2828:
if (Channel.band <= BAND_TYPE_OFDM_24) { /* channel 1 ~ 13 */
for (i = 0; i < 3; i++)
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2828_channel_data_24[Channel.ChanNo-1][i], 18);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 3, NO_INCREMENT);
} else if (Channel.band == BAND_TYPE_OFDM_5) { /* channel 36 ~ 64 */
ChnlTmp = (Channel.ChanNo - 36) / 4;
for (i = 0; i < 3; i++)
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2828_channel_data_50[ChnlTmp][i], 18);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 3, NO_INCREMENT);
}
RFSynthesizer_SetPowerIndex(pHwData, 100);
break;
case RF_MAXIM_2829:
if (Channel.band <= BAND_TYPE_OFDM_24) {
for (i = 0; i < 3; i++)
pltmp[i] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2829_channel_data_24[Channel.ChanNo-1][i], 18);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 3, NO_INCREMENT);
} else if (Channel.band == BAND_TYPE_OFDM_5) {
count = ARRAY_SIZE(max2829_channel_data_50);
for (i = 0; i < count; i++) {
if (max2829_channel_data_50[i][0] == Channel.ChanNo) {
for (j = 0; j < 3; j++)
pltmp[j] = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2829_channel_data_50[i][j+1], 18);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 3, NO_INCREMENT);
if ((max2829_channel_data_50[i][3] & 0x3FFFF) == 0x2A946) {
ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse((5 << 18) | 0x2A906, 18);
Wb35Reg_Write(pHwData, 0x0864, ltmp);
} else { /* 0x2A9C6 */
ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse((5 << 18) | 0x2A986, 18);
Wb35Reg_Write(pHwData, 0x0864, ltmp);
}
}
}
}
set_tx_power_per_channel_max2829(pHwData, Channel);
break;
case RF_AIROHA_2230:
case RF_AIROHA_2230S:
if (Channel.band <= BAND_TYPE_OFDM_24) { /* channel 1 ~ 14 */
for (i = 0; i < 2; i++)
pltmp[i] = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse(al2230_channel_data_24[Channel.ChanNo-1][i], 20);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 2, NO_INCREMENT);
}
set_tx_power_per_channel_al2230(pHwData, Channel);
break;
case RF_AIROHA_7230:
/* Channel independent registers */
if (Channel.band != pHwData->band) {
if (Channel.band <= BAND_TYPE_OFDM_24) {
/* Update BB register */
BBProcessor_AL7230_2400(pHwData);
number = ARRAY_SIZE(al7230_rf_data_24);
Set_ChanIndep_RfData_al7230_24(pHwData, pltmp, number);
} else {
/* Update BB register */
BBProcessor_AL7230_5000(pHwData);
number = ARRAY_SIZE(al7230_rf_data_50);
Set_ChanIndep_RfData_al7230_50(pHwData, pltmp, number);
}
/* Write to register. number must less and equal than 16 */
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, number, NO_INCREMENT);
pr_debug("Band changed\n");
}
if (Channel.band <= BAND_TYPE_OFDM_24) { /* channel 1 ~ 14 */
for (i = 0; i < 2; i++)
pltmp[i] = (1 << 31) | (0 << 30) | (24 << 24) | (al7230_channel_data_24[Channel.ChanNo-1][i]&0xffffff);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 2, NO_INCREMENT);
} else if (Channel.band == BAND_TYPE_OFDM_5) {
/* Update Reg12 */
if ((Channel.ChanNo > 64) && (Channel.ChanNo <= 165)) {
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | 0x00143c;
Wb35Reg_Write(pHwData, 0x0864, ltmp);
} else { /* reg12 = 0x00147c at Channel 4920 ~ 5320 */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | 0x00147c;
Wb35Reg_Write(pHwData, 0x0864, ltmp);
}
count = ARRAY_SIZE(al7230_channel_data_5);
for (i = 0; i < count; i++) {
if (al7230_channel_data_5[i][0] == Channel.ChanNo) {
for (j = 0; j < 3; j++)
pltmp[j] = (1 << 31) | (0 << 30) | (24 << 24) | (al7230_channel_data_5[i][j+1] & 0xffffff);
Wb35Reg_BurstWrite(pHwData, 0x0864, pltmp, 3, NO_INCREMENT);
}
}
}
set_tx_power_per_channel_al7230(pHwData, Channel);
break;
case RF_WB_242:
case RF_WB_242_1:
if (Channel.band <= BAND_TYPE_OFDM_24) { /* channel 1 ~ 14 */
ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse(w89rf242_channel_data_24[Channel.ChanNo-1][0], 24);
Wb35Reg_Write(pHwData, 0x864, ltmp);
}
set_tx_power_per_channel_wb242(pHwData, Channel);
break;
}
if (Channel.band <= BAND_TYPE_OFDM_24) {
/* BB: select 2.4 GHz, bit[12-11]=00 */
reg->BB50 &= ~(BIT(11) | BIT(12));
Wb35Reg_Write(pHwData, 0x1050, reg->BB50); /* MODE_Ctrl */
/* MAC: select 2.4 GHz, bit[5]=0 */
reg->M78_ERPInformation &= ~BIT(5);
Wb35Reg_Write(pHwData, 0x0878, reg->M78_ERPInformation);
/* enable 11b Baseband */
reg->BB30 &= ~BIT(31);
Wb35Reg_Write(pHwData, 0x1030, reg->BB30);
} else if (Channel.band == BAND_TYPE_OFDM_5) {
/* BB: select 5 GHz */
reg->BB50 &= ~(BIT(11) | BIT(12));
if (Channel.ChanNo <= 64)
reg->BB50 |= BIT(12); /* 10-5.25GHz */
else if ((Channel.ChanNo >= 100) && (Channel.ChanNo <= 124))
reg->BB50 |= BIT(11); /* 01-5.48GHz */
else if ((Channel.ChanNo >= 128) && (Channel.ChanNo <= 161))
reg->BB50 |= (BIT(12) | BIT(11)); /* 11-5.775GHz */
else /* Chan 184 ~ 196 will use bit[12-11] = 10 in version sh-src-1.2.25 */
reg->BB50 |= BIT(12);
Wb35Reg_Write(pHwData, 0x1050, reg->BB50); /* MODE_Ctrl */
/* (1) M78 should alway use 2.4G setting when using RF_AIROHA_7230 */
/* (2) BB30 has been updated previously. */
if (pHwData->phy_type != RF_AIROHA_7230) {
/* MAC: select 5 GHz, bit[5]=1 */
reg->M78_ERPInformation |= BIT(5);
Wb35Reg_Write(pHwData, 0x0878, reg->M78_ERPInformation);
/* disable 11b Baseband */
reg->BB30 |= BIT(31);
Wb35Reg_Write(pHwData, 0x1030, reg->BB30);
}
}
}
/*
* Set the tx power directly from DUT GUI, not from the EEPROM.
* Return the current setting
*/
u8 RFSynthesizer_SetPowerIndex(struct hw_data *pHwData, u8 PowerIndex)
{
u32 Band = pHwData->band;
u8 index = 0;
if (pHwData->power_index == PowerIndex)
return PowerIndex;
if (RF_MAXIM_2825 == pHwData->phy_type) {
/* Channel 1 - 13 */
index = RFSynthesizer_SetMaxim2825Power(pHwData, PowerIndex);
} else if (RF_MAXIM_2827 == pHwData->phy_type) {
if (Band <= BAND_TYPE_OFDM_24) /* Channel 1 - 13 */
index = RFSynthesizer_SetMaxim2827_24Power(pHwData, PowerIndex);
else /* Channel 36 - 64 */
index = RFSynthesizer_SetMaxim2827_50Power(pHwData, PowerIndex);
} else if (RF_MAXIM_2828 == pHwData->phy_type) {
if (Band <= BAND_TYPE_OFDM_24) /* Channel 1 - 13 */
index = RFSynthesizer_SetMaxim2828_24Power(pHwData, PowerIndex);
else /* Channel 36 - 64 */
index = RFSynthesizer_SetMaxim2828_50Power(pHwData, PowerIndex);
} else if (RF_AIROHA_2230 == pHwData->phy_type) {
/* Power index: 0 ~ 63 --- Channel 1 - 14 */
index = RFSynthesizer_SetAiroha2230Power(pHwData, PowerIndex);
index = (u8) al2230_txvga_data[index][1];
} else if (RF_AIROHA_2230S == pHwData->phy_type) {
/* Power index: 0 ~ 63 --- Channel 1 - 14 */
index = RFSynthesizer_SetAiroha2230Power(pHwData, PowerIndex);
index = (u8) al2230_txvga_data[index][1];
} else if (RF_AIROHA_7230 == pHwData->phy_type) {
/* Power index: 0 ~ 63 */
index = RFSynthesizer_SetAiroha7230Power(pHwData, PowerIndex);
index = (u8)al7230_txvga_data[index][1];
} else if ((RF_WB_242 == pHwData->phy_type) ||
(RF_WB_242_1 == pHwData->phy_type)) {
/* Power index: 0 ~ 19 for original. New range is 0 ~ 33 */
index = RFSynthesizer_SetWinbond242Power(pHwData, PowerIndex);
index = (u8)w89rf242_txvga_data[index][1];
}
pHwData->power_index = index; /* Backup current */
return index;
}
/* -- Sub function */
u8 RFSynthesizer_SetMaxim2828_24Power(struct hw_data *pHwData, u8 index)
{
u32 PowerData;
if (index > 1)
index = 1;
PowerData = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2828_power_data_24[index], 18);
Wb35Reg_Write(pHwData, 0x0864, PowerData);
return index;
}
u8 RFSynthesizer_SetMaxim2828_50Power(struct hw_data *pHwData, u8 index)
{
u32 PowerData;
if (index > 1)
index = 1;
PowerData = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2828_power_data_50[index], 18);
Wb35Reg_Write(pHwData, 0x0864, PowerData);
return index;
}
u8 RFSynthesizer_SetMaxim2827_24Power(struct hw_data *pHwData, u8 index)
{
u32 PowerData;
if (index > 1)
index = 1;
PowerData = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2827_power_data_24[index], 18);
Wb35Reg_Write(pHwData, 0x0864, PowerData);
return index;
}
u8 RFSynthesizer_SetMaxim2827_50Power(struct hw_data *pHwData, u8 index)
{
u32 PowerData;
if (index > 1)
index = 1;
PowerData = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2827_power_data_50[index], 18);
Wb35Reg_Write(pHwData, 0x0864, PowerData);
return index;
}
u8 RFSynthesizer_SetMaxim2825Power(struct hw_data *pHwData, u8 index)
{
u32 PowerData;
if (index > 1)
index = 1;
PowerData = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(max2825_power_data_24[index], 18);
Wb35Reg_Write(pHwData, 0x0864, PowerData);
return index;
}
u8 RFSynthesizer_SetAiroha2230Power(struct hw_data *pHwData, u8 index)
{
u32 PowerData;
u8 i, count;
count = ARRAY_SIZE(al2230_txvga_data);
for (i = 0; i < count; i++) {
if (al2230_txvga_data[i][1] >= index)
break;
}
if (i == count)
i--;
PowerData = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse(al2230_txvga_data[i][0], 20);
Wb35Reg_Write(pHwData, 0x0864, PowerData);
return i;
}
u8 RFSynthesizer_SetAiroha7230Power(struct hw_data *pHwData, u8 index)
{
u32 PowerData;
u8 i, count;
count = ARRAY_SIZE(al7230_txvga_data);
for (i = 0; i < count; i++) {
if (al7230_txvga_data[i][1] >= index)
break;
}
if (i == count)
i--;
PowerData = (1 << 31) | (0 << 30) | (24 << 24) | (al7230_txvga_data[i][0] & 0xffffff);
Wb35Reg_Write(pHwData, 0x0864, PowerData);
return i;
}
u8 RFSynthesizer_SetWinbond242Power(struct hw_data *pHwData, u8 index)
{
u32 PowerData;
u8 i, count;
count = ARRAY_SIZE(w89rf242_txvga_data);
for (i = 0; i < count; i++) {
if (w89rf242_txvga_data[i][1] >= index)
break;
}
if (i == count)
i--;
/* Set TxVga into RF */
PowerData = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse(w89rf242_txvga_data[i][0], 24);
Wb35Reg_Write(pHwData, 0x0864, PowerData);
/* Update BB48 BB4C BB58 for high precision txvga */
Wb35Reg_Write(pHwData, 0x1048, w89rf242_txvga_data[i][2]);
Wb35Reg_Write(pHwData, 0x104c, w89rf242_txvga_data[i][3]);
Wb35Reg_Write(pHwData, 0x1058, w89rf242_txvga_data[i][4]);
return i;
}
/*
* ===========================================================================
* Dxx_initial --
* Mxx_initial --
*
* Routine Description:
* Initial the hardware setting and module variable
* ===========================================================================
*/
void Dxx_initial(struct hw_data *pHwData)
{
struct wb35_reg *reg = &pHwData->reg;
/*
* Old IC: Single mode only.
* New IC: operation decide by Software set bit[4]. 1:multiple 0: single
*/
reg->D00_DmaControl = 0xc0000004; /* Txon, Rxon, multiple Rx for new 4k DMA */
/* Txon, Rxon, single Rx for old 8k ASIC */
if (!HAL_USB_MODE_BURST(pHwData))
reg->D00_DmaControl = 0xc0000000; /* Txon, Rxon, single Rx for new 4k DMA */
Wb35Reg_WriteSync(pHwData, 0x0400, reg->D00_DmaControl);
}
void Mxx_initial(struct hw_data *pHwData)
{
struct wb35_reg *reg = &pHwData->reg;
u32 tmp;
u32 pltmp[11];
u16 i;
/*
* ======================================================
* Initial Mxx register
* ======================================================
*/
/* M00 bit set */
reg->M00_MacControl = 0x80000000; /* Solve beacon sequence number stop by hardware */
/* M24 disable enter power save, BB RxOn and enable NAV attack */
reg->M24_MacControl = 0x08040042;
pltmp[0] = reg->M24_MacControl;
pltmp[1] = 0; /* Skip M28, because no initialize value is required. */
/* M2C CWmin and CWmax setting */
pHwData->cwmin = DEFAULT_CWMIN;
pHwData->cwmax = DEFAULT_CWMAX;
reg->M2C_MacControl = DEFAULT_CWMIN << 10;
reg->M2C_MacControl |= DEFAULT_CWMAX;
pltmp[2] = reg->M2C_MacControl;
/* M30 BSSID */
pltmp[3] = *(u32 *)pHwData->bssid;
/* M34 */
pHwData->AID = DEFAULT_AID;
tmp = *(u16 *) (pHwData->bssid + 4);
tmp |= DEFAULT_AID << 16;
pltmp[4] = tmp;
/* M38 */
reg->M38_MacControl = (DEFAULT_RATE_RETRY_LIMIT << 8) | (DEFAULT_LONG_RETRY_LIMIT << 4) | DEFAULT_SHORT_RETRY_LIMIT;
pltmp[5] = reg->M38_MacControl;
/* M3C */
tmp = (DEFAULT_PIFST << 26) | (DEFAULT_EIFST << 16) | (DEFAULT_DIFST << 8) | (DEFAULT_SIFST << 4) | DEFAULT_OSIFST ;
reg->M3C_MacControl = tmp;
pltmp[6] = tmp;
/* M40 */
pHwData->slot_time_select = DEFAULT_SLOT_TIME;
tmp = (DEFAULT_ATIMWD << 16) | DEFAULT_SLOT_TIME;
reg->M40_MacControl = tmp;
pltmp[7] = tmp;
/* M44 */
tmp = DEFAULT_MAX_TX_MSDU_LIFE_TIME << 10; /* *1024 */
reg->M44_MacControl = tmp;
pltmp[8] = tmp;
/* M48 */
pHwData->BeaconPeriod = DEFAULT_BEACON_INTERVAL;
pHwData->ProbeDelay = DEFAULT_PROBE_DELAY_TIME;
tmp = (DEFAULT_BEACON_INTERVAL << 16) | DEFAULT_PROBE_DELAY_TIME;
reg->M48_MacControl = tmp;
pltmp[9] = tmp;
/* M4C */
reg->M4C_MacStatus = (DEFAULT_PROTOCOL_VERSION << 30) | (DEFAULT_MAC_POWER_STATE << 28) | (DEFAULT_DTIM_ALERT_TIME << 24);
pltmp[10] = reg->M4C_MacStatus;
for (i = 0; i < 11; i++)
Wb35Reg_WriteSync(pHwData, 0x0824 + i * 4, pltmp[i]);
/* M60 */
Wb35Reg_WriteSync(pHwData, 0x0860, 0x12481248);
reg->M60_MacControl = 0x12481248;
/* M68 */
Wb35Reg_WriteSync(pHwData, 0x0868, 0x00050900);
reg->M68_MacControl = 0x00050900;
/* M98 */
Wb35Reg_WriteSync(pHwData, 0x0898, 0xffff8888);
reg->M98_MacControl = 0xffff8888;
}
void Uxx_power_off_procedure(struct hw_data *pHwData)
{
/* SW, PMU reset and turn off clock */
Wb35Reg_WriteSync(pHwData, 0x03b0, 3);
Wb35Reg_WriteSync(pHwData, 0x03f0, 0xf9);
}
/*Decide the TxVga of every channel */
void GetTxVgaFromEEPROM(struct hw_data *pHwData)
{
u32 i, j, ltmp;
u16 Value[MAX_TXVGA_EEPROM];
u8 *pctmp;
u8 ctmp = 0;
/* Get the entire TxVga setting in EEPROM */
for (i = 0; i < MAX_TXVGA_EEPROM; i++) {
Wb35Reg_WriteSync(pHwData, 0x03b4, 0x08100000 + 0x00010000 * i);
Wb35Reg_ReadSync(pHwData, 0x03b4, <mp);
Value[i] = (u16) (ltmp & 0xffff); /* Get 16 bit available */
Value[i] = cpu_to_le16(Value[i]); /* [7:0]2412 [7:0]2417 .... */
}
/* Adjust the filed which fills with reserved value. */
pctmp = (u8 *) Value;
for (i = 0; i < (MAX_TXVGA_EEPROM * 2); i++) {
if (pctmp[i] != 0xff)
ctmp = pctmp[i];
else
pctmp[i] = ctmp;
}
/* Adjust WB_242 to WB_242_1 TxVga scale */
if (pHwData->phy_type == RF_WB_242) {
for (i = 0; i < 4; i++) { /* Only 2412 2437 2462 2484 case must be modified */
for (j = 0; j < ARRAY_SIZE(w89rf242_txvga_old_mapping); j++) {
if (pctmp[i] < (u8) w89rf242_txvga_old_mapping[j][1]) {
pctmp[i] = (u8) w89rf242_txvga_old_mapping[j][0];
break;
}
}
if (j == ARRAY_SIZE(w89rf242_txvga_old_mapping))
pctmp[i] = (u8)w89rf242_txvga_old_mapping[j-1][0];
}
}
memcpy(pHwData->TxVgaSettingInEEPROM, pctmp, MAX_TXVGA_EEPROM * 2); /* MAX_TXVGA_EEPROM is u16 count */
EEPROMTxVgaAdjust(pHwData);
}
/*
* This function will affect the TxVga parameter in HAL. If hal_set_current_channel
* or RFSynthesizer_SetPowerIndex be called, new TxVga will take effect.
* TxVgaSettingInEEPROM of sHwData is an u8 array point to EEPROM contain for IS89C35
* This function will use default TxVgaSettingInEEPROM data to calculate new TxVga.
*/
void EEPROMTxVgaAdjust(struct hw_data *pHwData)
{
u8 *pTxVga = pHwData->TxVgaSettingInEEPROM;
s16 i, stmp;
/* -- 2.4G -- */
/* channel 1 ~ 5 */
stmp = pTxVga[1] - pTxVga[0];
for (i = 0; i < 5; i++)
pHwData->TxVgaFor24[i] = pTxVga[0] + stmp * i / 4;
/* channel 6 ~ 10 */
stmp = pTxVga[2] - pTxVga[1];
for (i = 5; i < 10; i++)
pHwData->TxVgaFor24[i] = pTxVga[1] + stmp * (i - 5) / 4;
/* channel 11 ~ 13 */
stmp = pTxVga[3] - pTxVga[2];
for (i = 10; i < 13; i++)
pHwData->TxVgaFor24[i] = pTxVga[2] + stmp * (i - 10) / 2;
/* channel 14 */
pHwData->TxVgaFor24[13] = pTxVga[3];
/* -- 5G -- */
if (pHwData->phy_type == RF_AIROHA_7230) {
/* channel 184 */
pHwData->TxVgaFor50[0].ChanNo = 184;
pHwData->TxVgaFor50[0].TxVgaValue = pTxVga[4];
/* channel 196 */
pHwData->TxVgaFor50[3].ChanNo = 196;
pHwData->TxVgaFor50[3].TxVgaValue = pTxVga[5];
/* interpolate */
pHwData->TxVgaFor50[1].ChanNo = 188;
pHwData->TxVgaFor50[2].ChanNo = 192;
stmp = pTxVga[5] - pTxVga[4];
pHwData->TxVgaFor50[2].TxVgaValue = pTxVga[5] - stmp / 3;
pHwData->TxVgaFor50[1].TxVgaValue = pTxVga[5] - stmp * 2 / 3;
/* channel 16 */
pHwData->TxVgaFor50[6].ChanNo = 16;
pHwData->TxVgaFor50[6].TxVgaValue = pTxVga[6];
pHwData->TxVgaFor50[4].ChanNo = 8;
pHwData->TxVgaFor50[4].TxVgaValue = pTxVga[6];
pHwData->TxVgaFor50[5].ChanNo = 12;
pHwData->TxVgaFor50[5].TxVgaValue = pTxVga[6];
/* channel 36 */
pHwData->TxVgaFor50[8].ChanNo = 36;
pHwData->TxVgaFor50[8].TxVgaValue = pTxVga[7];
pHwData->TxVgaFor50[7].ChanNo = 34;
pHwData->TxVgaFor50[7].TxVgaValue = pTxVga[7];
pHwData->TxVgaFor50[9].ChanNo = 38;
pHwData->TxVgaFor50[9].TxVgaValue = pTxVga[7];
/* channel 40 */
pHwData->TxVgaFor50[10].ChanNo = 40;
pHwData->TxVgaFor50[10].TxVgaValue = pTxVga[8];
/* channel 48 */
pHwData->TxVgaFor50[14].ChanNo = 48;
pHwData->TxVgaFor50[14].TxVgaValue = pTxVga[9];
/* interpolate */
pHwData->TxVgaFor50[11].ChanNo = 42;
pHwData->TxVgaFor50[12].ChanNo = 44;
pHwData->TxVgaFor50[13].ChanNo = 46;
stmp = pTxVga[9] - pTxVga[8];
pHwData->TxVgaFor50[13].TxVgaValue = pTxVga[9] - stmp / 4;
pHwData->TxVgaFor50[12].TxVgaValue = pTxVga[9] - stmp * 2 / 4;
pHwData->TxVgaFor50[11].TxVgaValue = pTxVga[9] - stmp * 3 / 4;
/* channel 52 */
pHwData->TxVgaFor50[15].ChanNo = 52;
pHwData->TxVgaFor50[15].TxVgaValue = pTxVga[10];
/* channel 64 */
pHwData->TxVgaFor50[18].ChanNo = 64;
pHwData->TxVgaFor50[18].TxVgaValue = pTxVga[11];
/* interpolate */
pHwData->TxVgaFor50[16].ChanNo = 56;
pHwData->TxVgaFor50[17].ChanNo = 60;
stmp = pTxVga[11] - pTxVga[10];
pHwData->TxVgaFor50[17].TxVgaValue = pTxVga[11] - stmp / 3;
pHwData->TxVgaFor50[16].TxVgaValue = pTxVga[11] - stmp * 2 / 3;
/* channel 100 */
pHwData->TxVgaFor50[19].ChanNo = 100;
pHwData->TxVgaFor50[19].TxVgaValue = pTxVga[12];
/* channel 112 */
pHwData->TxVgaFor50[22].ChanNo = 112;
pHwData->TxVgaFor50[22].TxVgaValue = pTxVga[13];
/* interpolate */
pHwData->TxVgaFor50[20].ChanNo = 104;
pHwData->TxVgaFor50[21].ChanNo = 108;
stmp = pTxVga[13] - pTxVga[12];
pHwData->TxVgaFor50[21].TxVgaValue = pTxVga[13] - stmp / 3;
pHwData->TxVgaFor50[20].TxVgaValue = pTxVga[13] - stmp * 2 / 3;
/* channel 128 */
pHwData->TxVgaFor50[26].ChanNo = 128;
pHwData->TxVgaFor50[26].TxVgaValue = pTxVga[14];
/* interpolate */
pHwData->TxVgaFor50[23].ChanNo = 116;
pHwData->TxVgaFor50[24].ChanNo = 120;
pHwData->TxVgaFor50[25].ChanNo = 124;
stmp = pTxVga[14] - pTxVga[13];
pHwData->TxVgaFor50[25].TxVgaValue = pTxVga[14] - stmp / 4;
pHwData->TxVgaFor50[24].TxVgaValue = pTxVga[14] - stmp * 2 / 4;
pHwData->TxVgaFor50[23].TxVgaValue = pTxVga[14] - stmp * 3 / 4;
/* channel 140 */
pHwData->TxVgaFor50[29].ChanNo = 140;
pHwData->TxVgaFor50[29].TxVgaValue = pTxVga[15];
/* interpolate */
pHwData->TxVgaFor50[27].ChanNo = 132;
pHwData->TxVgaFor50[28].ChanNo = 136;
stmp = pTxVga[15] - pTxVga[14];
pHwData->TxVgaFor50[28].TxVgaValue = pTxVga[15] - stmp / 3;
pHwData->TxVgaFor50[27].TxVgaValue = pTxVga[15] - stmp * 2 / 3;
/* channel 149 */
pHwData->TxVgaFor50[30].ChanNo = 149;
pHwData->TxVgaFor50[30].TxVgaValue = pTxVga[16];
/* channel 165 */
pHwData->TxVgaFor50[34].ChanNo = 165;
pHwData->TxVgaFor50[34].TxVgaValue = pTxVga[17];
/* interpolate */
pHwData->TxVgaFor50[31].ChanNo = 153;
pHwData->TxVgaFor50[32].ChanNo = 157;
pHwData->TxVgaFor50[33].ChanNo = 161;
stmp = pTxVga[17] - pTxVga[16];
pHwData->TxVgaFor50[33].TxVgaValue = pTxVga[17] - stmp / 4;
pHwData->TxVgaFor50[32].TxVgaValue = pTxVga[17] - stmp * 2 / 4;
pHwData->TxVgaFor50[31].TxVgaValue = pTxVga[17] - stmp * 3 / 4;
}
}
void BBProcessor_RateChanging(struct hw_data *pHwData, u8 rate)
{
struct wb35_reg *reg = &pHwData->reg;
unsigned char Is11bRate;
Is11bRate = (rate % 6) ? 1 : 0;
switch (pHwData->phy_type) {
case RF_AIROHA_2230:
case RF_AIROHA_2230S:
if (Is11bRate) {
if ((reg->BB48 != BB48_DEFAULT_AL2230_11B) &&
(reg->BB4C != BB4C_DEFAULT_AL2230_11B)) {
Wb35Reg_Write(pHwData, 0x1048, BB48_DEFAULT_AL2230_11B);
Wb35Reg_Write(pHwData, 0x104c, BB4C_DEFAULT_AL2230_11B);
}
} else {
if ((reg->BB48 != BB48_DEFAULT_AL2230_11G) &&
(reg->BB4C != BB4C_DEFAULT_AL2230_11G)) {
Wb35Reg_Write(pHwData, 0x1048, BB48_DEFAULT_AL2230_11G);
Wb35Reg_Write(pHwData, 0x104c, BB4C_DEFAULT_AL2230_11G);
}
}
break;
case RF_WB_242:
if (Is11bRate) {
if ((reg->BB48 != BB48_DEFAULT_WB242_11B) &&
(reg->BB4C != BB4C_DEFAULT_WB242_11B)) {
reg->BB48 = BB48_DEFAULT_WB242_11B;
reg->BB4C = BB4C_DEFAULT_WB242_11B;
Wb35Reg_Write(pHwData, 0x1048, BB48_DEFAULT_WB242_11B);
Wb35Reg_Write(pHwData, 0x104c, BB4C_DEFAULT_WB242_11B);
}
} else {
if ((reg->BB48 != BB48_DEFAULT_WB242_11G) &&
(reg->BB4C != BB4C_DEFAULT_WB242_11G)) {
reg->BB48 = BB48_DEFAULT_WB242_11G;
reg->BB4C = BB4C_DEFAULT_WB242_11G;
Wb35Reg_Write(pHwData, 0x1048, BB48_DEFAULT_WB242_11G);
Wb35Reg_Write(pHwData, 0x104c, BB4C_DEFAULT_WB242_11G);
}
}
break;
}
}
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