- 根目录:
- drivers
- staging
- vt6655
- rf.c
/*
* Copyright (c) 1996, 2003 VIA Networking Technologies, Inc.
* All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*
*
* File: rf.c
*
* Purpose: rf function code
*
* Author: Jerry Chen
*
* Date: Feb. 19, 2004
*
* Functions:
* IFRFbWriteEmbedded - Embedded write RF register via MAC
*
* Revision History:
*
*/
#include "mac.h"
#include "srom.h"
#include "rf.h"
#include "baseband.h"
/*--------------------- Static Definitions -------------------------*/
//static int msglevel =MSG_LEVEL_INFO;
#define BY_AL2230_REG_LEN 23 //24bit
#define CB_AL2230_INIT_SEQ 15
#define SWITCH_CHANNEL_DELAY_AL2230 200 //us
#define AL2230_PWR_IDX_LEN 64
#define BY_AL7230_REG_LEN 23 //24bit
#define CB_AL7230_INIT_SEQ 16
#define SWITCH_CHANNEL_DELAY_AL7230 200 //us
#define AL7230_PWR_IDX_LEN 64
/*--------------------- Static Classes ----------------------------*/
/*--------------------- Static Variables --------------------------*/
static const unsigned long dwAL2230InitTable[CB_AL2230_INIT_SEQ] = {
0x03F79000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x03333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x01A00200+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x00FFF300+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x0005A400+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x0F4DC500+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x0805B600+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x0146C700+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x00068800+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x0403B900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x00DBBA00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x00099B00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, //
0x0BDFFC00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x00000D00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x00580F00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW
};
static const unsigned long dwAL2230ChannelTable0[CB_MAX_CHANNEL] = {
0x03F79000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 1, Tf = 2412MHz
0x03F79000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 2, Tf = 2417MHz
0x03E79000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 3, Tf = 2422MHz
0x03E79000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 4, Tf = 2427MHz
0x03F7A000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 5, Tf = 2432MHz
0x03F7A000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 6, Tf = 2437MHz
0x03E7A000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 7, Tf = 2442MHz
0x03E7A000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 8, Tf = 2447MHz
0x03F7B000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 9, Tf = 2452MHz
0x03F7B000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 10, Tf = 2457MHz
0x03E7B000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 11, Tf = 2462MHz
0x03E7B000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 12, Tf = 2467MHz
0x03F7C000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 13, Tf = 2472MHz
0x03E7C000+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW // channel = 14, Tf = 2412M
};
static const unsigned long dwAL2230ChannelTable1[CB_MAX_CHANNEL] = {
0x03333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 1, Tf = 2412MHz
0x0B333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 2, Tf = 2417MHz
0x03333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 3, Tf = 2422MHz
0x0B333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 4, Tf = 2427MHz
0x03333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 5, Tf = 2432MHz
0x0B333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 6, Tf = 2437MHz
0x03333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 7, Tf = 2442MHz
0x0B333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 8, Tf = 2447MHz
0x03333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 9, Tf = 2452MHz
0x0B333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 10, Tf = 2457MHz
0x03333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 11, Tf = 2462MHz
0x0B333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 12, Tf = 2467MHz
0x03333100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 13, Tf = 2472MHz
0x06666100+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW // channel = 14, Tf = 2412M
};
static unsigned long dwAL2230PowerTable[AL2230_PWR_IDX_LEN] = {
0x04040900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04041900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04042900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04043900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04044900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04045900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04046900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04047900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04048900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04049900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0404A900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0404B900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0404C900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0404D900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0404E900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0404F900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04050900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04051900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04052900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04053900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04054900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04055900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04056900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04057900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04058900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04059900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0405A900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0405B900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0405C900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0405D900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0405E900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0405F900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04060900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04061900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04062900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04063900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04064900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04065900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04066900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04067900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04068900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04069900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0406A900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0406B900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0406C900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0406D900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0406E900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0406F900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04070900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04071900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04072900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04073900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04074900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04075900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04076900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04077900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04078900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x04079900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0407A900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0407B900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0407C900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0407D900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0407E900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW,
0x0407F900+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW
};
//{{ RobertYu:20050104
// 40MHz reference frequency
// Need to Pull PLLON(PE3) low when writing channel registers through 3-wire.
static const unsigned long dwAL7230InitTable[CB_AL7230_INIT_SEQ] = {
0x00379000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Channel1 // Need modify for 11a
0x13333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Channel1 // Need modify for 11a
0x841FF200+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11a: 451FE2
0x3FDFA300+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11a: 5FDFA3
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // 11b/g // Need modify for 11a
//0x802B4500+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11a: 8D1B45
// RoberYu:20050113, Rev0.47 Regsiter Setting Guide
0x802B5500+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11a: 8D1B55
0x56AF3600+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0xCE020700+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11a: 860207
0x6EBC0800+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0x221BB900+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0xE0000A00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11a: E0600A
0x08031B00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // init 0x080B1B00 => 0x080F1B00 for 3 wire control TxGain(D10)
//0x00093C00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11a: 00143C
// RoberYu:20050113, Rev0.47 Regsiter Setting Guide
0x000A3C00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11a: 00143C
0xFFFFFD00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0x00000E00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0x1ABA8F00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW // Need modify for 11a: 12BACF
};
static const unsigned long dwAL7230InitTableAMode[CB_AL7230_INIT_SEQ] = {
0x0FF52000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Channel184 // Need modify for 11b/g
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Channel184 // Need modify for 11b/g
0x451FE200+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11b/g
0x5FDFA300+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11b/g
0x67F78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // 11a // Need modify for 11b/g
0x853F5500+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11b/g, RoberYu:20050113
0x56AF3600+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0xCE020700+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11b/g
0x6EBC0800+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0x221BB900+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0xE0600A00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11b/g
0x08031B00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // init 0x080B1B00 => 0x080F1B00 for 3 wire control TxGain(D10)
0x00147C00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // Need modify for 11b/g
0xFFFFFD00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0x00000E00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW,
0x12BACF00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW // Need modify for 11b/g
};
static const unsigned long dwAL7230ChannelTable0[CB_MAX_CHANNEL] = {
0x00379000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 1, Tf = 2412MHz
0x00379000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 2, Tf = 2417MHz
0x00379000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 3, Tf = 2422MHz
0x00379000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 4, Tf = 2427MHz
0x0037A000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 5, Tf = 2432MHz
0x0037A000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 6, Tf = 2437MHz
0x0037A000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 7, Tf = 2442MHz
0x0037A000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 8, Tf = 2447MHz //RobertYu: 20050218, update for APNode 0.49
0x0037B000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 9, Tf = 2452MHz //RobertYu: 20050218, update for APNode 0.49
0x0037B000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 10, Tf = 2457MHz //RobertYu: 20050218, update for APNode 0.49
0x0037B000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 11, Tf = 2462MHz //RobertYu: 20050218, update for APNode 0.49
0x0037B000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 12, Tf = 2467MHz //RobertYu: 20050218, update for APNode 0.49
0x0037C000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 13, Tf = 2472MHz //RobertYu: 20050218, update for APNode 0.49
0x0037C000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 14, Tf = 2484MHz
// 4.9G => Ch 183, 184, 185, 187, 188, 189, 192, 196 (Value:15 ~ 22)
0x0FF52000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 183, Tf = 4915MHz (15)
0x0FF52000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 184, Tf = 4920MHz (16)
0x0FF52000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 185, Tf = 4925MHz (17)
0x0FF52000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 187, Tf = 4935MHz (18)
0x0FF52000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 188, Tf = 4940MHz (19)
0x0FF52000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 189, Tf = 4945MHz (20)
0x0FF53000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 192, Tf = 4960MHz (21)
0x0FF53000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 196, Tf = 4980MHz (22)
// 5G => Ch 7, 8, 9, 11, 12, 16, 34, 36, 38, 40, 42, 44, 46, 48, 52, 56, 60, 64,
// 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165 (Value 23 ~ 56)
0x0FF54000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 7, Tf = 5035MHz (23)
0x0FF54000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 8, Tf = 5040MHz (24)
0x0FF54000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 9, Tf = 5045MHz (25)
0x0FF54000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 11, Tf = 5055MHz (26)
0x0FF54000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 12, Tf = 5060MHz (27)
0x0FF55000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 16, Tf = 5080MHz (28)
0x0FF56000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 34, Tf = 5170MHz (29)
0x0FF56000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 36, Tf = 5180MHz (30)
0x0FF57000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 38, Tf = 5190MHz (31) //RobertYu: 20050218, update for APNode 0.49
0x0FF57000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 40, Tf = 5200MHz (32)
0x0FF57000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 42, Tf = 5210MHz (33)
0x0FF57000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 44, Tf = 5220MHz (34)
0x0FF57000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 46, Tf = 5230MHz (35)
0x0FF57000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 48, Tf = 5240MHz (36)
0x0FF58000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 52, Tf = 5260MHz (37)
0x0FF58000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 56, Tf = 5280MHz (38)
0x0FF58000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 60, Tf = 5300MHz (39)
0x0FF59000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 64, Tf = 5320MHz (40)
0x0FF5C000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 100, Tf = 5500MHz (41)
0x0FF5C000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 104, Tf = 5520MHz (42)
0x0FF5C000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 108, Tf = 5540MHz (43)
0x0FF5D000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 112, Tf = 5560MHz (44)
0x0FF5D000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 116, Tf = 5580MHz (45)
0x0FF5D000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 120, Tf = 5600MHz (46)
0x0FF5E000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 124, Tf = 5620MHz (47)
0x0FF5E000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 128, Tf = 5640MHz (48)
0x0FF5E000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 132, Tf = 5660MHz (49)
0x0FF5F000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 136, Tf = 5680MHz (50)
0x0FF5F000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 140, Tf = 5700MHz (51)
0x0FF60000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 149, Tf = 5745MHz (52)
0x0FF60000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 153, Tf = 5765MHz (53)
0x0FF60000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 157, Tf = 5785MHz (54)
0x0FF61000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 161, Tf = 5805MHz (55)
0x0FF61000+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW // channel = 165, Tf = 5825MHz (56)
};
static const unsigned long dwAL7230ChannelTable1[CB_MAX_CHANNEL] = {
0x13333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 1, Tf = 2412MHz
0x1B333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 2, Tf = 2417MHz
0x03333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 3, Tf = 2422MHz
0x0B333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 4, Tf = 2427MHz
0x13333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 5, Tf = 2432MHz
0x1B333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 6, Tf = 2437MHz
0x03333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 7, Tf = 2442MHz
0x0B333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 8, Tf = 2447MHz
0x13333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 9, Tf = 2452MHz
0x1B333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 10, Tf = 2457MHz
0x03333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 11, Tf = 2462MHz
0x0B333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 12, Tf = 2467MHz
0x13333100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 13, Tf = 2472MHz
0x06666100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 14, Tf = 2484MHz
// 4.9G => Ch 183, 184, 185, 187, 188, 189, 192, 196 (Value:15 ~ 22)
0x1D555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 183, Tf = 4915MHz (15)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 184, Tf = 4920MHz (16)
0x02AAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 185, Tf = 4925MHz (17)
0x08000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 187, Tf = 4935MHz (18)
0x0AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 188, Tf = 4940MHz (19)
0x0D555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 189, Tf = 4945MHz (20)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 192, Tf = 4960MHz (21)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 196, Tf = 4980MHz (22)
// 5G => Ch 7, 8, 9, 11, 12, 16, 34, 36, 38, 40, 42, 44, 46, 48, 52, 56, 60, 64,
// 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165 (Value 23 ~ 56)
0x1D555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 7, Tf = 5035MHz (23)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 8, Tf = 5040MHz (24)
0x02AAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 9, Tf = 5045MHz (25)
0x08000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 11, Tf = 5055MHz (26)
0x0AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 12, Tf = 5060MHz (27)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 16, Tf = 5080MHz (28)
0x05555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 34, Tf = 5170MHz (29)
0x0AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 36, Tf = 5180MHz (30)
0x10000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 38, Tf = 5190MHz (31)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 40, Tf = 5200MHz (32)
0x1AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 42, Tf = 5210MHz (33)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 44, Tf = 5220MHz (34)
0x05555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 46, Tf = 5230MHz (35)
0x0AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 48, Tf = 5240MHz (36)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 52, Tf = 5260MHz (37)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 56, Tf = 5280MHz (38)
0x0AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 60, Tf = 5300MHz (39)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 64, Tf = 5320MHz (40)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 100, Tf = 5500MHz (41)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 104, Tf = 5520MHz (42)
0x0AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 108, Tf = 5540MHz (43)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 112, Tf = 5560MHz (44)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 116, Tf = 5580MHz (45)
0x0AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 120, Tf = 5600MHz (46)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 124, Tf = 5620MHz (47)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 128, Tf = 5640MHz (48)
0x0AAAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 132, Tf = 5660MHz (49)
0x15555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 136, Tf = 5680MHz (50)
0x00000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 140, Tf = 5700MHz (51)
0x18000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 149, Tf = 5745MHz (52)
0x02AAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 153, Tf = 5765MHz (53)
0x0D555100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 157, Tf = 5785MHz (54)
0x18000100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 161, Tf = 5805MHz (55)
0x02AAA100+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW // channel = 165, Tf = 5825MHz (56)
};
static const unsigned long dwAL7230ChannelTable2[CB_MAX_CHANNEL] = {
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 1, Tf = 2412MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 2, Tf = 2417MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 3, Tf = 2422MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 4, Tf = 2427MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 5, Tf = 2432MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 6, Tf = 2437MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 7, Tf = 2442MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 8, Tf = 2447MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 9, Tf = 2452MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 10, Tf = 2457MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 11, Tf = 2462MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 12, Tf = 2467MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 13, Tf = 2472MHz
0x7FD78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 14, Tf = 2484MHz
// 4.9G => Ch 183, 184, 185, 187, 188, 189, 192, 196 (Value:15 ~ 22)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 183, Tf = 4915MHz (15)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 184, Tf = 4920MHz (16)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 185, Tf = 4925MHz (17)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 187, Tf = 4935MHz (18)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 188, Tf = 4940MHz (19)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 189, Tf = 4945MHz (20)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 192, Tf = 4960MHz (21)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 196, Tf = 4980MHz (22)
// 5G => Ch 7, 8, 9, 11, 12, 16, 34, 36, 38, 40, 42, 44, 46, 48, 52, 56, 60, 64,
// 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140, 149, 153, 157, 161, 165 (Value 23 ~ 56)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 7, Tf = 5035MHz (23)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 8, Tf = 5040MHz (24)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 9, Tf = 5045MHz (25)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 11, Tf = 5055MHz (26)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 12, Tf = 5060MHz (27)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 16, Tf = 5080MHz (28)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 34, Tf = 5170MHz (29)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 36, Tf = 5180MHz (30)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 38, Tf = 5190MHz (31)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 40, Tf = 5200MHz (32)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 42, Tf = 5210MHz (33)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 44, Tf = 5220MHz (34)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 46, Tf = 5230MHz (35)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 48, Tf = 5240MHz (36)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 52, Tf = 5260MHz (37)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 56, Tf = 5280MHz (38)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 60, Tf = 5300MHz (39)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 64, Tf = 5320MHz (40)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 100, Tf = 5500MHz (41)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 104, Tf = 5520MHz (42)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 108, Tf = 5540MHz (43)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 112, Tf = 5560MHz (44)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 116, Tf = 5580MHz (45)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 120, Tf = 5600MHz (46)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 124, Tf = 5620MHz (47)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 128, Tf = 5640MHz (48)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 132, Tf = 5660MHz (49)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 136, Tf = 5680MHz (50)
0x67D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 140, Tf = 5700MHz (51)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 149, Tf = 5745MHz (52)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 153, Tf = 5765MHz (53)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 157, Tf = 5785MHz (54)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW, // channel = 161, Tf = 5805MHz (55)
0x77D78400+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW // channel = 165, Tf = 5825MHz (56)
};
//}} RobertYu
/*--------------------- Static Functions --------------------------*/
/*
* Description: AIROHA IFRF chip init function
*
* Parameters:
* In:
* dwIoBase - I/O base address
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
static bool s_bAL7230Init(unsigned long dwIoBase)
{
int ii;
bool bResult;
bResult = true;
//3-wire control for normal mode
VNSvOutPortB(dwIoBase + MAC_REG_SOFTPWRCTL, 0);
MACvWordRegBitsOn(dwIoBase, MAC_REG_SOFTPWRCTL, (SOFTPWRCTL_SWPECTI |
SOFTPWRCTL_TXPEINV));
BBvPowerSaveModeOFF(dwIoBase); //RobertYu:20050106, have DC value for Calibration
for (ii = 0; ii < CB_AL7230_INIT_SEQ; ii++)
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[ii]);
// PLL On
MACvWordRegBitsOn(dwIoBase, MAC_REG_SOFTPWRCTL, SOFTPWRCTL_SWPE3);
//Calibration
MACvTimer0MicroSDelay(dwIoBase, 150);//150us
bResult &= IFRFbWriteEmbedded(dwIoBase, (0x9ABA8F00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW)); //TXDCOC:active, RCK:disable
MACvTimer0MicroSDelay(dwIoBase, 30);//30us
bResult &= IFRFbWriteEmbedded(dwIoBase, (0x3ABA8F00+(BY_AL7230_REG_LEN<<3)+IFREGCTL_REGW)); //TXDCOC:disable, RCK:active
MACvTimer0MicroSDelay(dwIoBase, 30);//30us
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[CB_AL7230_INIT_SEQ-1]); //TXDCOC:disable, RCK:disable
MACvWordRegBitsOn(dwIoBase, MAC_REG_SOFTPWRCTL, (SOFTPWRCTL_SWPE3 |
SOFTPWRCTL_SWPE2 |
SOFTPWRCTL_SWPECTI |
SOFTPWRCTL_TXPEINV));
BBvPowerSaveModeON(dwIoBase); // RobertYu:20050106
// PE1: TX_ON, PE2: RX_ON, PE3: PLLON
//3-wire control for power saving mode
VNSvOutPortB(dwIoBase + MAC_REG_PSPWRSIG, (PSSIG_WPE3 | PSSIG_WPE2)); //1100 0000
return bResult;
}
// Need to Pull PLLON low when writing channel registers through 3-wire interface
static bool s_bAL7230SelectChannel(unsigned long dwIoBase, unsigned char byChannel)
{
bool bResult;
bResult = true;
// PLLON Off
MACvWordRegBitsOff(dwIoBase, MAC_REG_SOFTPWRCTL, SOFTPWRCTL_SWPE3);
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230ChannelTable0[byChannel - 1]); //Reg0
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230ChannelTable1[byChannel - 1]); //Reg1
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230ChannelTable2[byChannel - 1]); //Reg4
// PLLOn On
MACvWordRegBitsOn(dwIoBase, MAC_REG_SOFTPWRCTL, SOFTPWRCTL_SWPE3);
// Set Channel[7] = 0 to tell H/W channel is changing now.
VNSvOutPortB(dwIoBase + MAC_REG_CHANNEL, (byChannel & 0x7F));
MACvTimer0MicroSDelay(dwIoBase, SWITCH_CHANNEL_DELAY_AL7230);
// Set Channel[7] = 1 to tell H/W channel change is done.
VNSvOutPortB(dwIoBase + MAC_REG_CHANNEL, (byChannel | 0x80));
return bResult;
}
/*
* Description: Select channel with UW2452 chip
*
* Parameters:
* In:
* dwIoBase - I/O base address
* uChannel - Channel number
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
//{{ RobertYu: 20041210
/*
* Description: UW2452 IFRF chip init function
*
* Parameters:
* In:
* dwIoBase - I/O base address
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
//}} RobertYu
////////////////////////////////////////////////////////////////////////////////
/*
* Description: VT3226 IFRF chip init function
*
* Parameters:
* In:
* dwIoBase - I/O base address
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
/*
* Description: Select channel with VT3226 chip
*
* Parameters:
* In:
* dwIoBase - I/O base address
* uChannel - Channel number
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
/*--------------------- Export Variables --------------------------*/
/*--------------------- Export Functions --------------------------*/
/*
* Description: Write to IF/RF, by embedded programming
*
* Parameters:
* In:
* dwIoBase - I/O base address
* dwData - data to write
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
bool IFRFbWriteEmbedded(unsigned long dwIoBase, unsigned long dwData)
{
unsigned short ww;
unsigned long dwValue;
VNSvOutPortD(dwIoBase + MAC_REG_IFREGCTL, dwData);
// W_MAX_TIMEOUT is the timeout period
for (ww = 0; ww < W_MAX_TIMEOUT; ww++) {
VNSvInPortD(dwIoBase + MAC_REG_IFREGCTL, &dwValue);
if (dwValue & IFREGCTL_DONE)
break;
}
if (ww == W_MAX_TIMEOUT) {
// DBG_PORT80_ALWAYS(0x32);
return false;
}
return true;
}
/*
* Description: RFMD RF2959 IFRF chip init function
*
* Parameters:
* In:
* dwIoBase - I/O base address
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
/*
* Description: Select channel with RFMD 2959 chip
*
* Parameters:
* In:
* dwIoBase - I/O base address
* uChannel - Channel number
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
/*
* Description: AIROHA IFRF chip init function
*
* Parameters:
* In:
* dwIoBase - I/O base address
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
static bool RFbAL2230Init(unsigned long dwIoBase)
{
int ii;
bool bResult;
bResult = true;
//3-wire control for normal mode
VNSvOutPortB(dwIoBase + MAC_REG_SOFTPWRCTL, 0);
MACvWordRegBitsOn(dwIoBase, MAC_REG_SOFTPWRCTL, (SOFTPWRCTL_SWPECTI |
SOFTPWRCTL_TXPEINV));
//2008-8-21 chester <add>
// PLL Off
MACvWordRegBitsOff(dwIoBase, MAC_REG_SOFTPWRCTL, SOFTPWRCTL_SWPE3);
//patch abnormal AL2230 frequency output
//2008-8-21 chester <add>
IFRFbWriteEmbedded(dwIoBase, (0x07168700+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW));
for (ii = 0; ii < CB_AL2230_INIT_SEQ; ii++)
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL2230InitTable[ii]);
//2008-8-21 chester <add>
MACvTimer0MicroSDelay(dwIoBase, 30); //delay 30 us
// PLL On
MACvWordRegBitsOn(dwIoBase, MAC_REG_SOFTPWRCTL, SOFTPWRCTL_SWPE3);
MACvTimer0MicroSDelay(dwIoBase, 150);//150us
bResult &= IFRFbWriteEmbedded(dwIoBase, (0x00d80f00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW));
MACvTimer0MicroSDelay(dwIoBase, 30);//30us
bResult &= IFRFbWriteEmbedded(dwIoBase, (0x00780f00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW));
MACvTimer0MicroSDelay(dwIoBase, 30);//30us
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL2230InitTable[CB_AL2230_INIT_SEQ-1]);
MACvWordRegBitsOn(dwIoBase, MAC_REG_SOFTPWRCTL, (SOFTPWRCTL_SWPE3 |
SOFTPWRCTL_SWPE2 |
SOFTPWRCTL_SWPECTI |
SOFTPWRCTL_TXPEINV));
//3-wire control for power saving mode
VNSvOutPortB(dwIoBase + MAC_REG_PSPWRSIG, (PSSIG_WPE3 | PSSIG_WPE2)); //1100 0000
return bResult;
}
static bool RFbAL2230SelectChannel(unsigned long dwIoBase, unsigned char byChannel)
{
bool bResult;
bResult = true;
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL2230ChannelTable0[byChannel - 1]);
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL2230ChannelTable1[byChannel - 1]);
// Set Channel[7] = 0 to tell H/W channel is changing now.
VNSvOutPortB(dwIoBase + MAC_REG_CHANNEL, (byChannel & 0x7F));
MACvTimer0MicroSDelay(dwIoBase, SWITCH_CHANNEL_DELAY_AL2230);
// Set Channel[7] = 1 to tell H/W channel change is done.
VNSvOutPortB(dwIoBase + MAC_REG_CHANNEL, (byChannel | 0x80));
return bResult;
}
/*
* Description: UW2451 IFRF chip init function
*
* Parameters:
* In:
* dwIoBase - I/O base address
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
/*
* Description: Select channel with UW2451 chip
*
* Parameters:
* In:
* dwIoBase - I/O base address
* uChannel - Channel number
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
/*
* Description: Set sleep mode to UW2451 chip
*
* Parameters:
* In:
* dwIoBase - I/O base address
* uChannel - Channel number
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
/*
* Description: RF init function
*
* Parameters:
* In:
* byBBType
* byRFType
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
bool RFbInit(
PSDevice pDevice
)
{
bool bResult = true;
switch (pDevice->byRFType) {
case RF_AIROHA:
case RF_AL2230S:
pDevice->byMaxPwrLevel = AL2230_PWR_IDX_LEN;
bResult = RFbAL2230Init(pDevice->PortOffset);
break;
case RF_AIROHA7230:
pDevice->byMaxPwrLevel = AL7230_PWR_IDX_LEN;
bResult = s_bAL7230Init(pDevice->PortOffset);
break;
case RF_NOTHING:
bResult = true;
break;
default:
bResult = false;
break;
}
return bResult;
}
/*
* Description: Select channel
*
* Parameters:
* In:
* byRFType
* byChannel - Channel number
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
bool RFbSelectChannel(unsigned long dwIoBase, unsigned char byRFType, unsigned char byChannel)
{
bool bResult = true;
switch (byRFType) {
case RF_AIROHA:
case RF_AL2230S:
bResult = RFbAL2230SelectChannel(dwIoBase, byChannel);
break;
//{{ RobertYu: 20050104
case RF_AIROHA7230:
bResult = s_bAL7230SelectChannel(dwIoBase, byChannel);
break;
//}} RobertYu
case RF_NOTHING:
bResult = true;
break;
default:
bResult = false;
break;
}
return bResult;
}
/*
* Description: Write WakeProgSyn
*
* Parameters:
* In:
* dwIoBase - I/O base address
* uChannel - channel number
* bySleepCnt - SleepProgSyn count
*
* Return Value: None.
*
*/
bool RFvWriteWakeProgSyn(unsigned long dwIoBase, unsigned char byRFType, unsigned int uChannel)
{
int ii;
unsigned char byInitCount = 0;
unsigned char bySleepCount = 0;
VNSvOutPortW(dwIoBase + MAC_REG_MISCFFNDEX, 0);
switch (byRFType) {
case RF_AIROHA:
case RF_AL2230S:
if (uChannel > CB_MAX_CHANNEL_24G)
return false;
byInitCount = CB_AL2230_INIT_SEQ + 2; // Init Reg + Channel Reg (2)
bySleepCount = 0;
if (byInitCount > (MISCFIFO_SYNDATASIZE - bySleepCount)) {
return false;
}
for (ii = 0; ii < CB_AL2230_INIT_SEQ; ii++) {
MACvSetMISCFifo(dwIoBase, (unsigned short)(MISCFIFO_SYNDATA_IDX + ii), dwAL2230InitTable[ii]);
}
MACvSetMISCFifo(dwIoBase, (unsigned short)(MISCFIFO_SYNDATA_IDX + ii), dwAL2230ChannelTable0[uChannel-1]);
ii++;
MACvSetMISCFifo(dwIoBase, (unsigned short)(MISCFIFO_SYNDATA_IDX + ii), dwAL2230ChannelTable1[uChannel-1]);
break;
//{{ RobertYu: 20050104
// Need to check, PLLON need to be low for channel setting
case RF_AIROHA7230:
byInitCount = CB_AL7230_INIT_SEQ + 3; // Init Reg + Channel Reg (3)
bySleepCount = 0;
if (byInitCount > (MISCFIFO_SYNDATASIZE - bySleepCount)) {
return false;
}
if (uChannel <= CB_MAX_CHANNEL_24G) {
for (ii = 0; ii < CB_AL7230_INIT_SEQ; ii++) {
MACvSetMISCFifo(dwIoBase, (unsigned short)(MISCFIFO_SYNDATA_IDX + ii), dwAL7230InitTable[ii]);
}
} else {
for (ii = 0; ii < CB_AL7230_INIT_SEQ; ii++) {
MACvSetMISCFifo(dwIoBase, (unsigned short)(MISCFIFO_SYNDATA_IDX + ii), dwAL7230InitTableAMode[ii]);
}
}
MACvSetMISCFifo(dwIoBase, (unsigned short)(MISCFIFO_SYNDATA_IDX + ii), dwAL7230ChannelTable0[uChannel-1]);
ii++;
MACvSetMISCFifo(dwIoBase, (unsigned short)(MISCFIFO_SYNDATA_IDX + ii), dwAL7230ChannelTable1[uChannel-1]);
ii++;
MACvSetMISCFifo(dwIoBase, (unsigned short)(MISCFIFO_SYNDATA_IDX + ii), dwAL7230ChannelTable2[uChannel-1]);
break;
//}} RobertYu
case RF_NOTHING:
return true;
break;
default:
return false;
break;
}
MACvSetMISCFifo(dwIoBase, MISCFIFO_SYNINFO_IDX, (unsigned long)MAKEWORD(bySleepCount, byInitCount));
return true;
}
/*
* Description: Set Tx power
*
* Parameters:
* In:
* dwIoBase - I/O base address
* dwRFPowerTable - RF Tx Power Setting
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
bool RFbSetPower(
PSDevice pDevice,
unsigned int uRATE,
unsigned int uCH
)
{
bool bResult = true;
unsigned char byPwr = 0;
unsigned char byDec = 0;
unsigned char byPwrdBm = 0;
if (pDevice->dwDiagRefCount != 0) {
return true;
}
if ((uCH < 1) || (uCH > CB_MAX_CHANNEL)) {
return false;
}
switch (uRATE) {
case RATE_1M:
case RATE_2M:
case RATE_5M:
case RATE_11M:
byPwr = pDevice->abyCCKPwrTbl[uCH];
byPwrdBm = pDevice->abyCCKDefaultPwr[uCH];
//PLICE_DEBUG->
//byPwr+=5;
//PLICE_DEBUG <-
break;
case RATE_6M:
case RATE_9M:
case RATE_18M:
byPwr = pDevice->abyOFDMPwrTbl[uCH];
if (pDevice->byRFType == RF_UW2452) {
byDec = byPwr + 14;
} else {
byDec = byPwr + 10;
}
if (byDec >= pDevice->byMaxPwrLevel) {
byDec = pDevice->byMaxPwrLevel-1;
}
if (pDevice->byRFType == RF_UW2452) {
byPwrdBm = byDec - byPwr;
byPwrdBm /= 3;
} else {
byPwrdBm = byDec - byPwr;
byPwrdBm >>= 1;
}
byPwrdBm += pDevice->abyOFDMDefaultPwr[uCH];
byPwr = byDec;
//PLICE_DEBUG->
//byPwr+=5;
//PLICE_DEBUG<-
break;
case RATE_24M:
case RATE_36M:
case RATE_48M:
case RATE_54M:
byPwr = pDevice->abyOFDMPwrTbl[uCH];
byPwrdBm = pDevice->abyOFDMDefaultPwr[uCH];
//PLICE_DEBUG->
//byPwr+=5;
//PLICE_DEBUG<-
break;
}
if (pDevice->byCurPwr == byPwr) {
return true;
}
bResult = RFbRawSetPower(pDevice, byPwr, uRATE);
if (bResult) {
pDevice->byCurPwr = byPwr;
}
return bResult;
}
/*
* Description: Set Tx power
*
* Parameters:
* In:
* dwIoBase - I/O base address
* dwRFPowerTable - RF Tx Power Setting
* Out:
* none
*
* Return Value: true if succeeded; false if failed.
*
*/
bool RFbRawSetPower(
PSDevice pDevice,
unsigned char byPwr,
unsigned int uRATE
)
{
bool bResult = true;
unsigned long dwMax7230Pwr = 0;
if (byPwr >= pDevice->byMaxPwrLevel) {
return false;
}
switch (pDevice->byRFType) {
case RF_AIROHA:
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, dwAL2230PowerTable[byPwr]);
if (uRATE <= RATE_11M) {
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, 0x0001B400+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW);
} else {
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, 0x0005A400+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW);
}
break;
case RF_AL2230S:
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, dwAL2230PowerTable[byPwr]);
if (uRATE <= RATE_11M) {
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, 0x040C1400+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW);
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, 0x00299B00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW);
} else {
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, 0x0005A400+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW);
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, 0x00099B00+(BY_AL2230_REG_LEN<<3)+IFREGCTL_REGW);
}
break;
case RF_AIROHA7230:
// 0x080F1B00 for 3 wire control TxGain(D10) and 0x31 as TX Gain value
dwMax7230Pwr = 0x080C0B00 | ((byPwr) << 12) |
(BY_AL7230_REG_LEN << 3) | IFREGCTL_REGW;
bResult &= IFRFbWriteEmbedded(pDevice->PortOffset, dwMax7230Pwr);
break;
default:
break;
}
return bResult;
}
/*+
*
* Routine Description:
* Translate RSSI to dBm
*
* Parameters:
* In:
* pDevice - The adapter to be translated
* byCurrRSSI - RSSI to be translated
* Out:
* pdwdbm - Translated dbm number
*
* Return Value: none
*
-*/
void
RFvRSSITodBm(
PSDevice pDevice,
unsigned char byCurrRSSI,
long *pldBm
)
{
unsigned char byIdx = (((byCurrRSSI & 0xC0) >> 6) & 0x03);
long b = (byCurrRSSI & 0x3F);
long a = 0;
unsigned char abyAIROHARF[4] = {0, 18, 0, 40};
switch (pDevice->byRFType) {
case RF_AIROHA:
case RF_AL2230S:
case RF_AIROHA7230: //RobertYu: 20040104
a = abyAIROHARF[byIdx];
break;
default:
break;
}
*pldBm = -1 * (a + b * 2);
}
////////////////////////////////////////////////////////////////////////////////
//{{ RobertYu: 20050104
// Post processing for the 11b/g and 11a.
// for save time on changing Reg2,3,5,7,10,12,15
bool RFbAL7230SelectChannelPostProcess(unsigned long dwIoBase, unsigned char byOldChannel, unsigned char byNewChannel)
{
bool bResult;
bResult = true;
// if change between 11 b/g and 11a need to update the following register
// Channel Index 1~14
if ((byOldChannel <= CB_MAX_CHANNEL_24G) && (byNewChannel > CB_MAX_CHANNEL_24G)) {
// Change from 2.4G to 5G
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTableAMode[2]); //Reg2
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTableAMode[3]); //Reg3
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTableAMode[5]); //Reg5
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTableAMode[7]); //Reg7
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTableAMode[10]);//Reg10
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTableAMode[12]);//Reg12
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTableAMode[15]);//Reg15
} else if ((byOldChannel > CB_MAX_CHANNEL_24G) && (byNewChannel <= CB_MAX_CHANNEL_24G)) {
// change from 5G to 2.4G
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[2]); //Reg2
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[3]); //Reg3
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[5]); //Reg5
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[7]); //Reg7
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[10]);//Reg10
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[12]);//Reg12
bResult &= IFRFbWriteEmbedded(dwIoBase, dwAL7230InitTable[15]);//Reg15
}
return bResult;
}
//}} RobertYu
////////////////////////////////////////////////////////////////////////////////