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git-svn-id: file:///Volumes/Transfer/gigaleak_20231201/2020-05-23%20-%20ctr.7z%20+%20svn_v1.068.zip/ctr/svn/ctr_mcu@11 013db118-44a6-b54f-8bf7-843cb86687b1

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This commit is contained in:
fujita_ryohei 2009-09-29 10:31:26 +00:00
parent 4f86e7aa2d
commit 9453e8fbfe
33 changed files with 1360 additions and 975 deletions
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83
trunk/accero.c
View File

@ -41,17 +41,15 @@
#define ACC_BITS_ALL_AXIS_ON 7
#define VREG_BITMASK_ACC_CONF0_HOSU 1
#define VREG_BITMASK_ACC_CONF1_ACQ 3
#define VREG_BITMASK_ACC_CONF_HOSU ( 1 << 1 )
#define VREG_BITMASK_ACC_CONF_ACQ ( 1 << 0 )
// ========================================================
u8 hosu_mode = 0;
/*
0: power down âŽ~
1: ®Ťě
*/
task_interval tsk_soft_int();
/* ========================================================
@ -66,17 +64,14 @@ task_status_immed tsk_cbk_accero(){ //
// 加速度センサデータレジスタへの反映
iic_mcu_read( IIC_SLA_ACCEL, ( ACC_REG_X | 0x80 ), 6, &vreg_ctr[VREG_C_ACC_XL] );
if(( vreg_ctr[ VREG_C_ACC_CONFIG ] & VREG_BITMASK_ACC_CONF1_ACQ ) == 1 ){
vreg_ctr[ VREG_C_IRQ1 ] |= REG_BIT_ACC_DAT_RDY;
if( ( vreg_ctr[ VREG_C_IRQ_MASK1 ] & REG_BIT_ACC_DAT_RDY ) == 0 ){
IRQ0_ast;
}
if(( vreg_ctr[ VREG_C_ACC_CONFIG ] & ( VREG_BITMASK_ACC_CONF_ACQ | VREG_BITMASK_ACC_CONF_HOSU ) ) != 0 ){
set_irq( VREG_C_IRQ1, REG_BIT_ACC_DAT_RDY );
}
}
// 歩数計 offでなければ、電源off中でも計測
if(( vreg_ctr[ VREG_C_ACC_CONFIG_HOSU ] & VREG_BITMASK_ACC_CONF0_HOSU ) != 0 ){
if(( vreg_ctr[ VREG_C_ACC_CONFIG ] & VREG_BITMASK_ACC_CONF1_ACQ ) == 0x01 ){
if(( vreg_ctr[ VREG_C_ACC_CONFIG ] & VREG_BITMASK_ACC_CONF_HOSU ) != 0x00 ){
if(( vreg_ctr[ VREG_C_ACC_CONFIG ] & VREG_BITMASK_ACC_CONF_ACQ ) != 0x00 ){
// 歩数計アルゴリズム 100Hz版
}else{
// 同 省電力版
@ -131,17 +126,25 @@ task_status_immed acc_hosu_set(){
return( ERR_SUCCESS ); // とりあえず、タスクは削除しなくてはならない
}
str_send_buf[1] = 0x00; // ...<2E>B
str_send_buf[2] = 0x02;
str_send_buf[3] = 0x80;
if( (( vreg_ctr[ VREG_C_ACC_CONFIG_HOSU ] & VREG_BITMASK_ACC_CONF0_HOSU ) == 0 )
&& (( vreg_ctr[ VREG_C_ACC_CONFIG ] & VREG_BITMASK_ACC_CONF1_ACQ ) == 0 ) ){
str_send_buf[1] = 0x10; // ctrl2 HPF:normal, filterd, HPF for IRQ : dis/dis, HPF coeff:norm
#ifdef _MCU_WM0_
str_send_buf[2] = 0x10; // 3 IRQ pol :Active HI, Drive:Pushpull,
// IRQ2flg latch: auto clear after read, IRQ2 conf: IRQ( fall,shock,...)
// 1 : auto clear after read, conf: data ready
#else
str_send_buf[2] = 0x02; // 3 IRQ pol :Active HI, Drive:Pushpull,
// IRQ2flg latch: auto clear after read, IRQ2 conf: IRQ( fall,shock,...)
// 1 : auto clear after read, conf: data ready
#endif
str_send_buf[3] = 0x80; // ctrl3 block update:enable, MSB first, scale: +-2G(default), selftest: dis
if(( vreg_ctr[ VREG_C_ACC_CONFIG ] & ( VREG_BITMASK_ACC_CONF_HOSU | VREG_BITMASK_ACC_CONF_ACQ ) ) == 0 ){
// 完全停止
str_send_buf[0] = ( ACC_BITS_PM_PDN << ACC_bP_PM0 | 0 << ACC_bP_DR0 | ACC_BITS_ALL_AXIS_ON );
}
else
{
if(( vreg_ctr[ VREG_C_ACC_CONFIG ] & VREG_BITMASK_ACC_CONF1_ACQ ) == 0x01 ){
if(( vreg_ctr[ VREG_C_ACC_CONFIG ] & VREG_BITMASK_ACC_CONF_ACQ ) != 0x00 ){
// 100Hz 自動取り込み
str_send_buf[0] = ( ACC_BITS_PM_NORM << ACC_bP_PM0 | ACC_BITS_DR_100Hz << ACC_bP_DR0 | ACC_BITS_ALL_AXIS_ON );
}else{
@ -153,3 +156,43 @@ task_status_immed acc_hosu_set(){
return( ERR_SUCCESS );
}
/* ========================================================
I2Cが使用中かもしれないので
======================================================== */
__interrupt void intp23_ACC_ready(){
if( ( vreg_ctr[ VREG_C_ACC_CONFIG ] & 0x03 ) != 0x00 ){
if(( system_status.pwr_state == ON ) || ( system_status.pwr_state == SLEEP ) ){
if( ACC_VALID ){
renge_task_immed_add( tsk_cbk_accero );
}
}
}
}
/* ========================================================
todo : // 本物のマイコンなら、割り込みでタスクを登録
======================================================== */
task_interval tsk_soft_int(){
if( ( vreg_ctr[ VREG_C_ACC_CONFIG ] & 0x03 ) != 0x00 ){
if(( system_status.pwr_state == ON ) || ( system_status.pwr_state == SLEEP ) ){
// Hエッジ検出
// pin = ( pin << 1 ) + ( ACC_VALID? 1: 0 );
// if( ( pin & 0x03 ) == 0x01 ){
if( ACC_VALID ){
renge_task_immed_add( tsk_cbk_accero );
}
}
return( 0 );
}
return( 248 );
}

54
trunk/adc.c
View File

@ -28,16 +28,15 @@ bit adc_updated;
======================================================== */
task_interval tsk_adc(){
static u8 old_tune;
static u8 old_sndvol;
static u8 sndvol_codec;
// static u8 bt_temp_old;
static u8 bt_temp_old;
if(( system_status.pwr_state == ON )
|| ( system_status.pwr_state == SLEEP )){
if( adc_updated ){
#if 0
tune Vol
tune
// tune
if( abs( old_tune - vreg_ctr[ VREG_TUNE ] ) >= 4 ){
old_tune = vreg_ctr[ VREG_TUNE ];
@ -46,22 +45,31 @@ task_interval tsk_adc(){
IRQ0_ast;
}
}
#endif
// Volume
if( abs( old_sndvol - vreg_ctr[ VREG_C_SND_VOL ] ) >= 4 ){
old_sndvol = vreg_ctr[ VREG_C_SND_VOL ];
vreg_ctr[ VREG_C_IRQ0 ] |= REG_BIT_VR_SNDVOL_CHANGE;
if( ( vreg_ctr[ VREG_C_IRQ_MASK0 ] & REG_BIT_VR_SNDVOL_CHANGE ) == 0 ){
IRQ0_ast;
{
static u8 class_old;
u8 class;
static u8 direction = 0; // 0:上り方向
u8 comp; // 補正値
class = ( vreg_ctr[ VREG_C_SND_VOL ] + ( ( direction != 0 )? 0: 2 ) ) / ( 200 / 8 ) ;
if( class != class_old ){
direction = ( class > class_old )? 0: 1;
class_old = class;
set_irq( VREG_C_IRQ0, REG_BIT_VR_SNDVOL_CHANGE );
}
}
#endif
// codecÉ“`‚¦‚é
if( vreg_ctr[ VREG_C_SND_VOL ] != sndvol_codec ){
sndvol_codec = vreg_ctr[ VREG_C_SND_VOL ];
#ifndef _CODEC_CTR_
iic_mcu_write_a_byte( IIC_SLA_DCP, 0, sndvol_codec );
// iic_mcu_write_a_byte( IIC_SLA_DCP, 0, (u8)((unsigned int)sndvol_codec * 4 / 5 ) );
#else
ÈñÆ©·é
iic_mcu_write_a_byte( IIC_SLA_CODEC, REG_ADRS_CODEC_VOL, sndvol_codec );
@ -71,17 +79,31 @@ task_interval tsk_adc(){
}
ADCEN = 1;
ADM = 0b00011011; // セレクトモード、章圧、fCLK/6 ///ここから
ADM = 0b00011011; // セレクトモード、章圧、fCLK/6 ///ここから
ADPC = 0x06; // ADCポートのセレクト
ADPC = 0x06; // ADCポートのセレクト
ADS = ADC_SEL_TUNE;
// NOP();
ADCS = 1; // AD開始。 /// ここまでに、1us以上開ける
ADCS = 1; // AD開始。 /// ここまでに、1us以上開ける
ADIF = 0;
ADMK = 0;
LED_duty_TUNE = ((u16)( vreg_ctr[ VREG_C_TUNE ] ) << 2);
// TUNE_LED ここかよ!
switch( vreg_ctr[ VREG_C_LED_TUNE ] ){
case( 1 ): // 点灯
LED_duty_TUNE = 0;
break;
case( 2 ): //
LED_duty_TUNE = LED_BRIGHT_MAX - vreg_ctr[ VREG_C_TUNE ];
break;
default: // 消灯
LED_duty_TUNE = vreg_ctr[ VREG_C_LED_BRIGHT ];
break;
}
return( 8 );
}
}
@ -132,11 +154,7 @@ __interrupt void int_adc(){
break;
case( ADC_SEL_VOL ):
temp = ADCRH;
if( temp > 200 ){
temp = 200;
}
hist_snd_vol[ index ] = temp;
hist_snd_vol[ index ] = ADCRH;
vreg_ctr[ VREG_C_SND_VOL ] = getmean3( hist_snd_vol );
break;

1
trunk/bsr_system.h
View File

@ -25,6 +25,7 @@ typedef struct{
unsigned char dipsw0 :1;
unsigned char dipsw1 :1;
unsigned char dipsw2 :1;
unsigned char reboot :1;
}system_status_;
extern system_status_ system_status;

14
trunk/config.h
View File

@ -3,13 +3,16 @@
#define _debug_
// #define _debug_led_
#define MCU_VER_MAJOR 0;
#define MCU_VER_MINOR 3;
#define MCU_VER_MINOR 4;
#define _MODEL_TEG2_
//#define _MODEL_TEG2_
//#define _MODEL_WM0_
//#define _MODEL_TS0_
#define _MODEL_TS0_
//#define _MODEL_CTR_
@ -31,12 +34,13 @@
#define _MCU_BSR_
#endif
/*
#ifdef _MODEL_CTR_
#define _PMIC_CTR_
#define _MCU_BSR_
#define _CODEC_CTR_
#endif
*/
#endif

47
trunk/i2c_ctr.c
View File

@ -17,8 +17,7 @@
#ifdef _MCU_BSR_
#ifdef 1
//#ifdef _MODEL_WM0_
// #ifdef _MODEL_TS0_ || _MODEL_WM0_
// ワーキングモデルはI2Cが逆
#define ACKD ACKD1
@ -28,7 +27,6 @@
#define IICAPR0 IICAPR10
#define IICRSV IICRSV1
#define IICA IICA1
#define IICAEN IICA1EN
#define IICAIF IICAIF1
#define IICAMK IICAMK1
#define IICAPR1 IICAPR11
@ -47,38 +45,9 @@
#define WREL WREL1
#define WTIM WTIM1
#define TRC TRC1
#define SMC SMC1
#else
#define ACKD ACKD0
#define ACKE ACKE0
#define COI COI0
#define IICAEN IICA0EN
#define IICAPR0 IICAPR00
#define IICRSV IICRSV0
#define IICA IICA0
#define IICAEN IICA0EN
#define IICAIF IICAIF0
#define IICAMK IICAMK0
#define IICAPR1 IICAPR10
#define IICCTL0 IICCTL00
#define IICE IICE0
#define IICF IICF0
#define IICS IICS0
#define IICWH IICWH0
#define IICWL IICWL0
#define LREL LREL0
#define SPD SPD0
#define SPIE SPIE0
#define STCEN STCEN0
#define STD STD0
#define SVA SVA0
#define WREL WREL0
#define WTIM WTIM0
#endif
#endif
@ -118,11 +87,13 @@ __interrupt void int_iic_ctr(){
rtc_unlock();
// IRQレジスタリードで、割り込みピンの設定
// レジスタリードで、割り込みピンの設定
IRQ0_neg;
if(! (( vreg_ctr[ VREG_C_IRQ0 ] == 0 )
&& ( vreg_ctr[ VREG_C_IRQ1 ] == 0 )
&& ( vreg_ctr[ VREG_C_IRQ2 ] == 0x02 )) ){ // 暫定
&& ( vreg_ctr[ VREG_C_IRQ2 ] == 0 )
&& ( vreg_ctr[ VREG_C_IRQ3 ] == 0 )
) ){
IRQ0_ast;
}
@ -291,8 +262,10 @@ void IIC_ctr_Init( void ){
WTIM = 1; // 自動でACKを返した後clkをLに固定する
ACKE = 1; // ダメCPUは無視して次の通信をはじめるかもしれないんで早くclkを開放しないといけない
IICWL = 6; // L期間の長さ
IICWH = 5;
IICWH = 8;
IICWL = 10; // L期間の長さ
SMC = 1;
IICAMK = 0; // 割り込みを許可

71
trunk/i2c_mcu.c
View File

@ -272,12 +272,14 @@ err iic_mcu_write( u8 slave, u8 adrs, u8 len, u8* src ){
iic_mcu_busy = 1;
// スタートコンディションとスレーブの呼び出し...
IICMK10 = 1;
IICIF10 = 0;
if( iic_mcu_call_slave( slave ) != 0 ){
iic_mcu_busy = 0;
EI();
return( ERR_NAK );
}
IICIF10 = 0;
if( !iic_mcu_wo_dma ){
// DMAを使用する通常
@ -302,7 +304,6 @@ err iic_mcu_write( u8 slave, u8 adrs, u8 len, u8* src ){
// DMAを使用しない //
// レジスタアドレスの送信
IICIF10 = 0;
SIO10 = adrs;
IICMK10 = 0;
@ -322,32 +323,15 @@ err iic_mcu_write( u8 slave, u8 adrs, u8 len, u8* src ){
DMA転送が終わっただけでI2Cの転送は終わってません
======================================================== */
__interrupt void int_dma1(){
u8 hoge;
hoge = IICIF10;
IICIF10 = 0;
DMAMK1 = 1;
DEN1 = 0;
IICMK10 = 0;
while(( SSR02 & TSF0 ) != 0 ){
NOP();
IICMK10 = 1;
while(( SSR02L & TSF0 ) != 0 ){;
}
// 最後のバイト転送後、I2C割り込みが発生する
}
// ↓
/* ========================================================
IIC MCUのバイト送出完了割り込み
======================================================== */
__interrupt void int_iic10(){
if( iic_mcu_wo_dma ){
// DMA使用せず、転送途中
if( iic_send_wo_dma_len != 0 ){
SIO10 = *p_iic_send_wo_dma_dat;
p_iic_send_wo_dma_dat++;
iic_send_wo_dma_len--;
return;
}
}
// 共通(最終バイト送信完了)
IICMK10 = 1;
// ISR中で外の関数を呼ぶのは都合が悪いので展開
@ -369,6 +353,45 @@ __interrupt void int_iic10(){
}
iic_mcu_wo_dma = 0;
iic_mcu_busy = 0;
}
/* ========================================================
IIC MCUのバイト送出完了割り込み
======================================================== */
__interrupt void int_iic10(){
if( iic_mcu_wo_dma ){
// DMA使用せず、転送途中
if( iic_send_wo_dma_len != 0 ){
SIO10 = *p_iic_send_wo_dma_dat;
p_iic_send_wo_dma_dat++;
iic_send_wo_dma_len--;
return;
}
iic_mcu_wo_dma = 0;
}
// 共通(最終バイト送信完了)
IICMK10 = 1;
// ISR中で外の関数を呼ぶのは都合が悪いので展開
// iic_mcu_send_sp();
{
ST0 = 0x0004;
SOE0 = 0; // 受信の時はもっと前に「も」設定してる。(NACK出力)
SO0 = 0x0000 | TAUS_MASK; // SCL
NOP();
NOP();
NOP();
NOP();
SO0 = 0x0400 | TAUS_MASK; // SCL
NOP();
NOP();
NOP();
NOP();
SO0 = 0x0404 | TAUS_MASK;
}
iic_mcu_busy = 0;
}
@ -503,6 +526,8 @@ void iic2m_bus_reset(){
======================================================== */
void iic_mcu_start(){
DST1 = 0;
DEN1 = 0;
I2C_PU = 1;
SAU0EN = 1;
NOP(); // 4clkあける
@ -533,5 +558,3 @@ void iic_mcu_stop(){
SAU0EN = 0;
iic_mcu_initialized = 0;
}

43
trunk/i2c_twl.c
View File

@ -10,9 +10,7 @@
extern u8 vreg_twl[];
#ifdef _MCU_BSR_
//#ifdef _MODEL_WM0_
#ifdef 1
//#ifdef _MODEL_TS0_ || _MODEL_WM0_
// ワーキングモデルはI2Cが逆
#define ACKD ACKD0
@ -22,10 +20,9 @@ extern u8 vreg_twl[];
#define IICAPR0 IICAPR00
#define IICRSV IICRSV0
#define IICA IICA0
#define IICAEN IICA0EN
#define IICAIF IICAIF0
#define IICAMK IICAMK0
#define IICAPR1 IICAPR10
#define IICAPR1 IICAPR01
#define IICCTL0 IICCTL00
#define IICE IICE0
#define IICF IICF0
@ -40,36 +37,8 @@ extern u8 vreg_twl[];
#define SVA SVA0
#define WREL WREL0
#define WTIM WTIM0
#define SMC SMC0
#else
#define ACKD ACKD1
#define ACKE ACKE1
#define COI COI1
#define IICAEN IICA1EN
#define IICAPR0 IICAPR10
#define IICRSV IICRSV1
#define IICA IICA1
#define IICAEN IICA1EN
#define IICAIF IICAIF1
#define IICAMK IICAMK1
#define IICAPR1 IICAPR11
#define IICCTL0 IICCTL10
#define IICE IICE1
#define IICF IICF1
#define IICS IICS1
#define IICWH IICWH1
#define IICWL IICWL1
#define LREL LREL1
#define SPD SPD1
#define SPIE SPIE1
#define STCEN STCEN1
#define STD STD1
#define SVA SVA1
#define WREL WREL1
#define WTIM WTIM1
#endif
#endif
#ifndef _MCU_BSR_
@ -202,8 +171,10 @@ void IIC_twl_Init( void ){
WTIM = 1; // 自動でACKを返した後clkをLに固定する
ACKE = 1; // ダメCPUは無視して次の通信をはじめるかもしれないんで早くclkを開放しないといけない
IICWL = 6; // LŠúŠÔÌ·³<E2809A>i<EFBFBD>H<EFBFBD>j
IICWH = 5;
IICWH = 8;
IICWL = 10; // L期間の長さ
SMC = 1;
IICAMK = 0; // 割り込みを許可

1
trunk/incs.h
View File

@ -9,7 +9,6 @@
#pragma section @@CODE ROM_CODE
//#pragma section @@CNST ROM_CNST
//=========================================================
#ifndef _incs_h_
#define _incs_h_

3
trunk/ini_VECT.c
View File

@ -17,6 +17,9 @@
#pragma interrupt INTP7 intp21_RFTx
#endif
#ifdef _MCU_BSR_
#pragma interrupt INTP23 intp23_ACC_ready // 加速度センサ、データ準備完了
#endif
//#pragma interrupt INTCMP0 fn_intcmp0
//#pragma interrupt INTCMP1 fn_intcmp1

21
trunk/jhl_defs.h
View File

@ -18,5 +18,26 @@ typedef unsigned char err;
} \
}
#if 0
// マスクされてたら、フラグは立てるが、割り込みは入れない。
#define set_irq( irqreg, bitpos ) \
{ \
vreg_ctr[ irqreg ] |= bitpos; \
if( ( vreg_ctr[ irqreg+8 ] & bitpos ) == 0 ){ \
IRQ0_ast; \
} \
}
#endif
// マスクされてたら、フラグも立てず、割り込みも入れない。
#define set_irq( irqreg, bitpos ) \
{ \
if( ( vreg_ctr[ irqreg+8 ] & bitpos ) == 0 ){ \
vreg_ctr[ irqreg ] |= bitpos; \
IRQ0_ast; \
} \
}
#endif

259
trunk/led.c
View File

@ -26,8 +26,6 @@
#define BIT_MD123 1
#define BIT_MD0 0
// ========================================================
static task_interval led_pow_normal();
static task_interval led_pow_hotaru();
@ -38,6 +36,10 @@ static task_interval led_pow_hotaru();
u8 wifi_TX;
// ========================================================
static const char MSG_MAIL[] = { 0b11110110, 0b11011010, 0b01101110, 0b10010100 };
#define MSG_SPD 70
// ========================================================
void LED_init(){
/**
@ -60,20 +62,21 @@ void LED_init(){
= 1 << BIT_CKS0 | 0 << BIT_CCS0 | 0 << BIT_MASTER0 | 4 << BIT_STS0 | 0 << BIT_CIS0 | 4 << BIT_MD123 | 1 << BIT_MD0;
ISC = 0;
TOM0 = 0b0000000011111110; // 出力モード。4はPWM出力しないが1にしないとTO5以降にクロックが届かない
#if 0
#ifdef _MODEL_WM0_
TOL0 = 0b0000000000000010;
TOL0 = 0b0000000000000010; // 出力を反転させるかフラグ
#else
#ifdef _MODEL_TS0_
TOL0 = 0b0000000000000110;
#endif
TOL0 = 0b0000000000000110;
#endif
#endif
TO0 = 0; // タイマー動作中で、タイマー出力にしてないときのピンのラッチ。タイマー出力を使わないなら0
TOE0 = 0b0000000011101110; // TOxをタイマーモジュールが制御
TS0 = 0b0000000011101111; // 動作開始
TDR00 = 0x03FE; // 10bit, 周期
TDR00 = LED_BRIGHT_MAX - 1; // 10bit, 周期
}
@ -112,7 +115,7 @@ enum LED_ILUM_MODE{
======================================================== */
task_interval tsk_led_pow(){
switch( vreg_ctr[ VREG_C_LED_POW_ILUMI ] ){
switch( vreg_ctr[ VREG_C_LED_POW ] ){
case( LED_POW_ILM_AUTO ):
switch( system_status.pwr_state ){
case( SLEEP ):
@ -136,7 +139,11 @@ task_interval tsk_led_pow(){
case( LED_POW_ILM_OFF ):
LED_duty_pow_H -= ( LED_duty_pow_H == 0x0000 )? 0: 1;
LED_duty_pow_L -= ( LED_duty_pow_L == 0x0000 )? 0: 1;
return( 0 );
if(( LED_duty_pow_H == 0 ) && ( LED_duty_pow_L == 0 )){
return( 250 );
}else{
return( 0 );
}
break;
case( LED_POW_ILM_HOTARU ):
@ -147,7 +154,20 @@ task_interval tsk_led_pow(){
default:
return( led_pow_normal() );
break;
case( LED_POW_ILM_ONLY_RED ):
LED_duty_pow_H = 0x0000;
LED_duty_pow_L = LED_BRIGHT_MAX;
return( 250 );
break;
case( LED_POW_ILM_ONLY_BLUE ):
LED_duty_pow_H = LED_BRIGHT_MAX;
LED_duty_pow_L = 0x0000;
return( 250 );
break;
}
}
@ -245,11 +265,11 @@ static task_interval led_pow_hotaru(){
case( 2 ):
case( 4 ):
if( vreg_ctr[ VREG_C_BT_REMAIN ] < ( 255 * 0.2 ) ){
red_to = 0x03FF / 8;
red_to = vreg_ctr[ VREG_C_LED_BRIGHT ];
blue_to = 0;
}else{
red_to = 0;
blue_to = 0x03FF / 8;
blue_to = vreg_ctr[ VREG_C_LED_BRIGHT ];
}
break;
default:
@ -267,83 +287,130 @@ static task_interval led_pow_hotaru(){
/* ========================================================
======================================================== */
void set_LED_cam(){
if(( vreg_ctr[ VREG_C_CAM_LED ] & 0x01 ) != 0 ){
LED_duty_CAM = vreg_ctr[ VREG_C_LED_BRIGHT ];
}else{
LED_duty_CAM = 0;
}
if(( vreg_ctr[ VREG_C_CAM_LED ] & 0x02 ) != 0 ){
EGP0 |= 0x80;
}else{
EGP0 &= ~0x80;
}
}
/* ========================================================
// LED_Cam TO02 未
// LED_Charge 5     →PM
LED_Wifi,2 3, P24
LED_TUNE 4
LED_Wifi 3
2 P24
======================================================== */
task_interval tsk_led_wifi(){
// WiFi LED //
static u8 remain_wifi_tx;
static u8 state_wifi_tx;
// フライトモードではNTRパルスが出ても電波でない→
// フライトレジスタ見なくてはならない
if(( vreg_ctr[ VREG_C_WIFI_LED ] & REG_BIT_WIFI_ON ) == 0 ){
return( 250 );
}
/*
// スリープ時
if( PM_SLP == 1 ){
// タスクで回すことはない trig_to_sleep_wifiLed() で減光状態にしてる
return;
}
*/
// 短いパルスを捕まえるために、割り込みフラグを見る
if( wifi_TX != 0 ){
switch( vreg_ctr[ VREG_C_LED_WIFI ] ){
case( WIFI_LED_OFF ):
LED_duty_WiFi = 0;
wifi_TX = 0;
if(( vreg_ctr[ VREG_C_WIFI_LED ] & REG_BIT_WIFI_BLINK_ENA ) != 0 ){
remain_wifi_tx = 2;
}else{
remain_wifi_tx = 0;
}
state_wifi_tx = 0;
remain_wifi_tx = 0;
LED_WIFI_2 = 0;
return( 250 );
}
break;
// 点滅パターン
if( remain_wifi_tx != 0 ){ // TX active
case( WIFI_LED_ON ):
default:
LED_duty_WiFi = vreg_ctr[ VREG_C_LED_BRIGHT ];
wifi_TX = 0;
state_wifi_tx = 0;
remain_wifi_tx = 0;
LED_WIFI_2 = 1;
return( 250 );
break;
case( WIFI_LED_TXAUTO ):
// 短いパルスを捕まえるために、割り込みフラグを見る
if( wifi_TX != 0 ){
wifi_TX = 0;
remain_wifi_tx = 2;
}
// 送信パターン
if( remain_wifi_tx != 0 ){ // TX active
switch( state_wifi_tx ){
case( 1 ):
case( 3 ):
case( 5 ):
LED_duty_WiFi = 0;
LED_WIFI_2 = 0;
break;
default:
LED_duty_WiFi = vreg_ctr[ VREG_C_LED_BRIGHT ];
LED_WIFI_2 = 1;
}
state_wifi_tx++;
if( state_wifi_tx == 32 ){
state_wifi_tx = 0;
remain_wifi_tx--;
}
return( 22 );
}else{
LED_duty_WiFi = vreg_ctr[ VREG_C_LED_BRIGHT ];
LED_WIFI_2 = 1;
return( 200 );
}
break;
case( WIFI_LED_PTN0 ):
LED_WIFI_2 = 1;
switch( state_wifi_tx ){
case( 1 ):
case( 3 ):
case( 5 ):
LED_duty_WiFi = 0;
LED_duty_WiFi = vreg_ctr[ VREG_C_LED_BRIGHT ];
break;
default:
LED_duty_WiFi = vreg_ctr[ VREG_C_LED_BRIGHT ];
LED_duty_WiFi = 0;
}
state_wifi_tx++;
if( state_wifi_tx == 32 ){
if( state_wifi_tx == 16 ){
state_wifi_tx = 0;
remain_wifi_tx--;
}
}else{
set_led_wifi;
}
return( 28 );
}
return( 50 );
break;
case( WIFI_LED_PTN1 ):
LED_WIFI_2 = 1;
{
u8 dat;
if( remain_wifi_tx != 0 ){
LED_duty_WiFi = 0;
remain_wifi_tx = 0;
return( MSG_SPD );
}
dat = ( MSG_MAIL[ state_wifi_tx / 4 ] << (( state_wifi_tx % 4 ) *2 ) ) & 0xC0;
state_wifi_tx = ( dat == 0 )? 0: ( state_wifi_tx + 1 );
switch( dat ){
case( 0b00000000 ):
LED_duty_WiFi = 0;
remain_wifi_tx = 0;
return( MSG_SPD * 3 );
break;
case( 0b01000000 ):
default:
LED_duty_WiFi = 0;
remain_wifi_tx = 1;
return( MSG_SPD );
break;
case( 0b10000000 ):
LED_duty_WiFi = vreg_ctr[ VREG_C_LED_BRIGHT ];
remain_wifi_tx = 1;
return( MSG_SPD );
break;
case( 0b11000000 ):
LED_duty_WiFi = vreg_ctr[ VREG_C_LED_BRIGHT ];
remain_wifi_tx = 1;
return( MSG_SPD * 3 );
break;
}
}
}
}
/* ========================================================
@ -354,3 +421,65 @@ task_interval tsk_led_wifi(){
__interrupt void intp21_RFTx(){
wifi_TX = 1;
}
/* ========================================================
LED_Cam TO02
======================================================== */
task_interval tsk_led_cam(){
static u8 state_led_cam = 0;
switch( vreg_ctr[ VREG_C_LED_CAM ] ){
case( CAM_LED_OFF ):
default:
LED_duty_CAM = 0;
state_led_cam = 0;
break;
case( CAM_LED_ON ):
LED_duty_CAM = vreg_ctr[ VREG_C_LED_BRIGHT ];
state_led_cam = 0;
break;
case( CAM_LED_BLINK ):
case( CAM_LED_BY_TWL ):
if( state_led_cam == 0 ){
LED_duty_CAM = vreg_ctr[ VREG_C_LED_BRIGHT ];
state_led_cam = 1;
}else{
LED_duty_CAM = 0;
state_led_cam = 0;
}
break;
case( CAM_LED_ON_PLUSE ):
if( state_led_cam == 0 ){
LED_duty_CAM = vreg_ctr[ VREG_C_LED_BRIGHT ];
state_led_cam = 1;
}else{
vreg_ctr[ VREG_C_LED_CAM ] = CAM_LED_OFF;
return( 0 );
}
break;
case( CAM_LED_OFF_PLUSE ):
if( state_led_cam == 0 ){
LED_duty_CAM = 0;
state_led_cam = 1;
}else{
vreg_ctr[ VREG_C_LED_CAM ] = CAM_LED_ON;
return( 0 );
}
break;
}
return( 250 );
}
// 捨て看板
/* ========================================================
// LED_Charge 5     →PM
LED_TUNE 4
======================================================== */

31
trunk/led.h
View File

@ -2,36 +2,35 @@
#define __led__
// ====================================
// LED_DUTY
#define LED_duty_pow_L TDR07
#define LED_duty_pow_H TDR06
#define LED_duty_WiFi TDR03
#define LED_duty_CHARGE TDR05
#define LED_duty_WiFi TDR03
#define LED_duty_CAM TDR02
#define LED_duty_TUNE TDR01
void LED_init();
void LED_stop();
void set_LED_cam();
#define set_led_wifi \
if(( vreg_ctr[ VREG_C_WIFI_LED ] & 0x01 ) == 0 ){ \
LED_duty_WiFi = 0; \
MK2L |= 0x10; \
}else{ \
LED_duty_WiFi = vreg_ctr[ VREG_C_LED_BRIGHT ]; \
EGP0 |= 0x80; \
MK2L &= ~0x10; \
}
// wifi2はPWMできません。
#define LED_BRIGHT_MAX 0x00FF
// ====================================
enum LED_ILUM_MODE{
LED_POW_ILM_AUTO = 0,
LED_POW_ILM_ON,
LED_POW_ILM_HOTARU,
LED_POW_ILM_OFF
LED_POW_ILM_OFF,
LED_POW_ILM_ONLY_RED,
LED_POW_ILM_ONLY_BLUE
};
// ====================================
void LED_init();
void LED_stop();
#endif

81
trunk/loader.c
View File

@ -56,6 +56,7 @@ void FSL_Open(void);
void FSL_Close(void);
void hdwinit(void);
void power_save();
static void hdwinit2();
extern void main_loop();
extern void chk_bootCluster();
@ -63,22 +64,28 @@ extern void chk_bootCluster();
// ========================================================
void main(){
u16 i = 0;
do{ // 電池接続時、16ms待ってみる
i+=1;
}while( i != 0 );
while(1){
// 電池投入 //
// hdwinit(); 自動実行
// 電池投入時のみ初期化 //
WDT_Restart();
#if 0
if( RTCEN ){
system_status.reboot = 1;
}else{
u8 pwup_delay0 = 0;
u8 pwup_delay1 = 0;
do{ // 電池接続時、16ms待ってみる
pwup_delay0 += 1;
do{
pwup_delay1 += 1;
}while( pwup_delay1 != 0 ); // コンパイラが不出来のため…。
}while( pwup_delay0 != 0 );
hdwinit2();
}
#if 1
// ファームの整合性チェック //
{
u8 i;
@ -102,7 +109,7 @@ void main(){
}
#endif
chk_bootCluster();
chk_bootCluster();
// 通常運転
main_loop();
@ -115,9 +122,7 @@ void main(){
======================================================== */
void power_save(){
if( !renge_task_interval_run_force ){
HALT();
}
HALT();
}
@ -163,7 +168,10 @@ void hdwinit(void){ //
LVIM = 0b00000000; /* LVI動作禁止 */
/* 電源電圧(VDD)<検出電圧(VLVI)時に割込発生 */
/* 電源電圧(VDD)≧検出電圧<VLVI)、または動作禁止時に低電圧検出 */
}
void hdwinit2(){
// ポート設定
P0 = 0b00000000;
P1 = 0b00000000;
@ -230,19 +238,22 @@ void hdwinit(void){ //
POM3 = 0b00000110;
POM7 = 0b00000000;
/*--- 割り込み設定 ---------*/
IF0L = 0b00000000; /* 割り込み要求フラグクリア */
IF0H = 0b00000000;
IF1L = 0b00000000;
IF1H = 0b00000000;
IF2L = 0b00000000;
IF0 = 0x0000; /* 割り込み要求フラグクリア */
IF1 = 0x0000;
#ifdef _MCU_BSR_
IF2 = 0x0000;
#else
IF2L = 0x00;
#endif
MK0L = 0b11111111; /* 割り込み禁止 */
MK0H = 0b11111111;
MK1L = 0b11111111;
MK1H = 0b11111111;
MK2L = 0b11111111;
MK0 = 0xFFFF; /* 割り込み禁止 */
MK1 = 0xFFFF;
#ifdef _MCU_BSR_
MK2 = 0xFFFF;
#else
MK2L = 0xFF;
#endif
PR00L = 0b11111111; /* 割り込み優先順位、全て低位(LV3) */
PR10L = 0b11111111;
@ -256,9 +267,17 @@ void hdwinit(void){ //
PR12L = 0b11111111;
/*--- 外部割込の有効エッジ設定 ---*/
EGP0 = 0b00000000; /* 立上りエッジの検出禁止 */
EGN0 = 0b00000000; /* 立下りエッジの検出禁止 */
#ifdef _MCU_BSR_
EGP0 = 0b00110001;
EGN0 = 0b01110001;
EGP2 = 0b00000010;
EGN2 = 0b00000000;
// EGP2 = 0b00001010;
// EGN2 = 0b00000000;
#else
EGP0 = 0b10110001;
EGN0 = 0b01110001;
#endif
/*--- キー割り込み設定 ---*/
KRM = 0b00000000; /* 全キー割り込み信号を検出しない */

62
trunk/magic.c
View File

@ -3,18 +3,68 @@
(touchしてね)
****************************************************************************/
#include "config.h"
#pragma section @@CNSTL MGC_LOAD AT 0x0FF6
//__far static const unsigned char MGC_LOAD[] = __TIME__;
__far static const unsigned char MGC_LOAD[] =
__far static const unsigned char MGC_LOAD[] = __TIME__;
#pragma section @@CNST MGC_MIMI AT 0x2100
static const unsigned char MGC_HEAD[] = __TIME__;
#pragma section @@CNST MGC_TAIL AT 0x47F6
static const unsigned char MGC_TAIL[] = __TIME__;
/*
(使)
V0.2 31 34 3A 33 35 3A 33 35 00 00
{ 0x31, 0x34, 0x3A, 0x33, 0x35, 0x3A, 0x33, 0x35, 0x00, 0x00 };
ctr_wm0
31373A30353A32310000
{ 0x31, 0x37, 0x3A, 0x30, 0x35, 0x3A, 0x32, 0x31, 0x00, 0x00 };
ctr_wm0_2
31303A34393A35390000
{ 0x31, 0x30, 0x3A, 0x34, 0x39, 0x3A, 0x35, 0x39, 0x00, 0x00 };
bsr_V0.2_090828_WM2
31323A35393A32350000
{ 0x31, 0x32, 0x3A, 0x35, 0x39, 0x3A, 0x32, 0x35, 0x00, 0x00 };
*/
/*
// V0.1の署名(日付) 30 38 3A 34 35 3A 33 39 00 00
#pragma section @@CNSTL MGC_LOAD AT 0x0FF6
__far static const unsigned char MGC_LOAD[] =
{ 0x30, 0x38, 0x3A, 0x34, 0x35, 0x3A, 0x33, 0x39, 0x00, 0x00 };
#pragma section @@CNST MGC_MIMI AT 0x2100
//static const unsigned char MGC_HEAD[] = __TIME__;
static const unsigned char MGC_HEAD[] =
static const unsigned char MGC_HEAD[] =
{ 0x30, 0x38, 0x3A, 0x34, 0x35, 0x3A, 0x33, 0x39, 0x00, 0x00 };
#pragma section @@CNST MGC_TAIL AT 0x47F6
//static const unsigned char MGC_TAIL[] = __TIME__;
static const unsigned char MGC_TAIL[] =
static const unsigned char MGC_TAIL[] =
{ 0x30, 0x38, 0x3A, 0x34, 0x35, 0x3A, 0x33, 0x39, 0x00, 0x00 };
// V0.4以降
#pragma section @@CNSTL MGC_LOAD AT 0x0FF6
__far static const unsigned char MGC_LOAD[] = __TIME__;
#pragma section @@CNST MGC_MIMI AT 0x2100
static const unsigned char MGC_HEAD[] = __TIME__;
#pragma section @@CNST MGC_TAIL AT 0x47F6
static const unsigned char MGC_TAIL[] = __TIME__;
*/

53
trunk/main.c
View File

@ -45,6 +45,7 @@ system_status_ system_status;
u8 off_delay; // 電源 OFF から PWSW 等で電源オンする際、押してる時間をカウントするのに使う
extern u8 boot_ura;
/* ========================================================
loader.c
@ -52,27 +53,47 @@ u8 off_delay; //
void main_loop( void ){
// 電池投入時の1回のみ
vreg_ctr_init();
if(( RESF & REG_BIT_WDT_DET ) != 0 ){
vreg_ctr[ VREG_C_IRQ1 ] |= REG_BIT_WDT_DET;
iic_mcu_start();
}else{
PM_reset();
}
iic_mcu_stop();
RTCEN = 0;
RTC_init(); // 電池初投入ビットも立てます
if( system_status.reboot == 0 ){
/*
{
u8 temp;
temp = ( RESF & 0b10010001 );
if( temp != 0 ){
vreg_ctr[ VREG_C_IRQ1 ] |= REG_BIT_WDT_DET;
system_status.pwr_state = ON;
}else{
PM_reset();
system_status.pwr_state = OFF_TRIG;
}
}
*/
system_status.pwr_state = OFF_TRIG;
}else{
system_status.pwr_state = ON;
}
vreg_ctr_init();
vreg_twl_init();
iic_mcu_start();
read_dipsw();
// 特定スイッチで何かするか?
renge_init();
/*
if(( vreg_ctr[ VREG_C_IRQ1 ] & REG_BIT_WDT_DET ) != 0 ){
system_status.pwr_state = ON_TRIG;
system_status.pwr_state = OFF;
}else{
system_status.pwr_state = OFF_TRIG;
}
*/
renge_task_interval_run_force = 1;
EI();
@ -82,11 +103,23 @@ void main_loop( void ){
renge_task_interval_run(); // 内部で、システムtickまたは強制起動します
renge_task_immed_run(); // ここのループが廻る度に実行されます
power_save();
/*
{
u8 str[4];
if(( system_status.pwr_state != OFF )){
str[3] = system_status.pwr_state;
str[2] = MK1H;
str[1] = vreg_ctr[ VREG_C_STATUS ];
str[0] = SEC;
iic_mcu_write( 0x44, 0, 4, &str[0] );
}
}
*/
}
}
/* ========================================================
======================================================== */
static void read_dipsw(){

95
trunk/pm.c
View File

@ -185,17 +185,6 @@ STOP
/* ========================================================
PMICにリセットコマンドを送る
======================================================== */
err PM_reset(){
iic_mcu_start();
return( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_CONT, 0x00 ) );
}
/* ========================================================
PMIC達の初期化
@ -291,7 +280,7 @@ Else
NewRCOMP = StartingRCOMP
End If
*/
if( iic_mcu_write( IIC_SLA_BT_GAUGE, BT_BT_PARAM_PANA_RCOMP_ADRS, 2, newrcomp ) == ERR_SUCCESS ){
if( iic_mcu_write( IIC_SLA_BT_GAUGE, BT_BT_PARAM_PANA_RCOMP_ADRS, 2, &newrcomp ) == ERR_SUCCESS ){
temp_old = vreg_ctr[ VREG_C_BT_TEMP ];
}
count += 1;
@ -312,19 +301,19 @@ err PM_LCD_on(){
wait_ms( DELAY_PM_TSS_50B );
wait_ms( DELAY_PM_TSS_50B );
iic_mcu_write_a_byte( IIC_SLA_PMIC, 0x22, 0x4A ); // バグ持ちPMIC対策
vreg_ctr[ VREG_C_STATUS0 ] |= REG_BIT_LCD_POW;
vreg_ctr[ VREG_C_STATUS ] |= REG_BIT_LCD_POW;
return( PM_chk_LDSW() );
}
err PM_BL_on(){
wait_ms( 10 );
vreg_ctr[ VREG_C_STATUS0 ] |= REG_BIT_BL;
vreg_ctr[ VREG_C_STATUS ] |= REG_BIT_BL;
return( PM_chk_LDSW() );
}
err PM_BL_off(){
vreg_ctr[ VREG_C_STATUS0 ] &= ~REG_BIT_BL;
vreg_ctr[ VREG_C_STATUS ] &= ~REG_BIT_BL;
return( ERR_SUCCESS );
}
@ -332,7 +321,7 @@ err PM_LCD_off(){
PM_TEG_LCD_OFF = 1;
wait_ms( 1 + 50 );
PM_VDDLCD_off(); // 残ってたの全部止めます。
vreg_ctr[ VREG_C_STATUS0 ] &= ~( REG_BIT_BL | REG_BIT_LCD_POW );
vreg_ctr[ VREG_C_STATUS ] &= ~( REG_BIT_BL | REG_BIT_LCD_POW );
return( ERR_SUCCESS );
}
@ -355,7 +344,17 @@ task_status_immed tski_vcom_set(){
======================================================== */
err PM_LCD_vcom_set(){
u8 rv;
/*
rv = iic_mcu_write_a_byte(
IIC_SLA_PMIC,
PM_REG_ADRS_POW_DAC1,
92 ); // がっかりなことに、PMICはバースト書き込み不可
rv |= iic_mcu_write_a_byte(
IIC_SLA_PMIC,
PM_REG_ADRS_POW_DAC2,
92 );
/*/
rv = iic_mcu_write_a_byte(
IIC_SLA_PMIC,
PM_REG_ADRS_POW_DAC1,
vreg_ctr[ VREG_C_VCOM_T ] ); // がっかりなことに、PMICはバースト書き込み不可
@ -363,6 +362,7 @@ err PM_LCD_vcom_set(){
IIC_SLA_PMIC,
PM_REG_ADRS_POW_DAC2,
vreg_ctr[ VREG_C_VCOM_B ] );
// */
return( rv );
}
@ -393,7 +393,7 @@ err PM_LCD_on(){
wait_ms( DELAY_PM_TSS_50B );
iic_mcu_write_a_byte( IIC_SLA_PMIC, 0x22, 0x4A ); // バグ持ちPMIC対策
vreg_ctr[ VREG_C_STATUS0 ] |= REG_BIT_LCD_POW;
vreg_ctr[ VREG_C_STATUS ] |= REG_BIT_LCD_POW;
return( PM_chk_LDSW() );
}
@ -402,14 +402,14 @@ err PM_BL_on(){
PM_set_BL( 0x03 );
wait_ms( 10 );
vreg_ctr[ VREG_C_STATUS0 ] |= REG_BIT_BL;
vreg_ctr[ VREG_C_STATUS ] |= REG_BIT_BL;
return( PM_chk_LDSW() );
}
err PM_BL_off(){
PM_set_BL( 0x00 );
vreg_ctr[ VREG_C_STATUS0 ] &= ~REG_BIT_BL;
vreg_ctr[ VREG_C_STATUS ] &= ~REG_BIT_BL;
return( ERR_SUCCESS );
}
@ -419,7 +419,7 @@ err PM_LCD_off(){
wait_ms( 1 + 50 );
PM_VDDLCD_off(); // 残ってたの全部止めます。
vreg_ctr[ VREG_C_STATUS0 ] &= ~( REG_BIT_BL | REG_BIT_LCD_POW );
vreg_ctr[ VREG_C_STATUS ] &= ~REG_BIT_LCD_POW;
return( ERR_SUCCESS );
}
@ -547,34 +547,36 @@ err PM_sys_pow_on(){
/* ========================================================
OFFシーケンス
todo:
======================================================== */
err PM_sys_pow_off(){
#ifndef _PMIC_TWL_
PM_BL_off();
PM_LCD_off();// TCOM,VCS OFF も消してきます。
PM_BL_off();
PM_LCD_off();// TCOM,VCS OFF も消してきます。
PM_reset_ast();
RESET2_ast;
RESET2_ast;
FCRAM_RST_ast;
PM_off();
PM_off();
PM_LDSW_off();
PM_LDSW_off();
#else
wait_ms( 50 );
if( RESET1_n ){
if( RESET1_n ){ // 異常終了から来た場合
RESETs_ast;
FCRAM_RST_ast;
PM_TEG_PWSW = 1;
wait_ms( 250 );
wait_ms( 250 );
wait_ms( 250 );
PM_TEG_PWSW = 0;
}
}
RESETs_ast;
FCRAM_RST_ast;
#endif
#endif
return( ERR_SUCCESS );
}
@ -610,8 +612,8 @@ task_interval tsk_batt(){
static u8 charge_hys = 0; // ヒステリシスで上限下限を拡張するとき1
// 電源周りのステータスが変化?
set_bit( PM_EXTDC, vreg_ctr[ VREG_C_STATUS0 ], REG_BIT_POW_SUPPLY );
set_bit( !BT_CHG_n, vreg_ctr[ VREG_C_STATUS0 ], REG_BIT_BATT_CHARGE );
set_bit( PM_EXTDC, vreg_ctr[ VREG_C_STATUS ], REG_BIT_POW_SUPPLY );
set_bit( !BT_CHG_n, vreg_ctr[ VREG_C_STATUS ], REG_BIT_BATT_CHARGE );
// →割り込み。miscの中でよろしくやってくれている。
// 充電
@ -687,41 +689,40 @@ task_status_immed ntr_pmic_comm(){
DI();
// offリクエスト
if(( reg_shadow & ( 1 << 6 )) != 0 ){
vreg_ctr[ VREG_C_IRQ2 ] |= REG_BIT_TWL_OFF_REQ;
if( ( vreg_ctr[ VREG_C_IRQ_MASK2 ] & REG_BIT_TWL_OFF_REQ ) == 0 ){
if(( reg_shadow & REG_BIT_TWL_REQ_OFF_REQ ) != 0 ){
set_irq( VREG_C_IRQ3, REG_BIT_TWL_OFF_REQ );
vreg_ctr[ VREG_C_IRQ3 ] |= REG_BIT_TWL_OFF_REQ;
if( ( vreg_ctr[ VREG_C_IRQ_MASK3 ] & REG_BIT_TWL_OFF_REQ ) == 0 ){
IRQ0_ast;
}
}
// リセットリクエスト
if(( reg_shadow & ( 1 << 0 )) != 0 ){
vreg_ctr[ VREG_C_IRQ2 ] |= REG_BIT_TWL_RESET_REQ;
if( ( vreg_ctr[ VREG_C_IRQ_MASK2 ] & REG_BIT_TWL_RESET_REQ ) == 0 ){
if(( reg_shadow & REG_BIT_TWL_REQ_RST_REQ ) != 0 ){
vreg_ctr[ VREG_C_IRQ3 ] |= REG_BIT_TWL_RESET_REQ;
if( ( vreg_ctr[ VREG_C_IRQ_MASK3 ] & REG_BIT_TWL_RESET_REQ ) == 0 ){
IRQ0_ast;
}
}
// バックライトが...
if( (( reg_old ^ reg_shadow ) & ~( 0x03 << 2 )) != 0 ){
if(( reg_shadow & ( 0x03 << 2 )) == 0x00 ){
if( (( reg_old ^ reg_shadow ) & ~( REG_BIT_TWL_REQ_BL )) != 0 ){
if(( reg_shadow & ( REG_BIT_TWL_REQ_BL )) == 0x00 ){
// 両方消された
vreg_ctr[ VREG_C_IRQ1 ] |= REG_BIT_STAT_CHANGE;
vreg_ctr[ VREG_C_STATUS0 ] &= ~0x01;
if( ( vreg_ctr[ VREG_C_IRQ_MASK1 ] & REG_BIT_STAT_CHANGE ) == 0 ){
vreg_ctr[ VREG_C_IRQ3 ] |= REG_BIT_TWL_BL_OFF;
if( ( vreg_ctr[ VREG_C_IRQ_MASK3 ] & REG_BIT_TWL_BL_OFF ) == 0 ){
IRQ0_ast;
}
}else if(( reg_shadow & ( 0x03 << 2 )) == ( 0x03 << 2 )){
}else if(( reg_shadow & ( REG_BIT_TWL_REQ_BL )) == ( REG_BIT_TWL_REQ_BL )){
// 両方ついた
vreg_ctr[ VREG_C_IRQ1 ] |= REG_BIT_STAT_CHANGE;
vreg_ctr[ VREG_C_STATUS0 ] |= 0x01;
if( ( vreg_ctr[ VREG_C_IRQ_MASK1 ] & REG_BIT_STAT_CHANGE ) == 0 ){
vreg_ctr[ VREG_C_IRQ3 ] |= REG_BIT_TWL_BL_ON;
if( ( vreg_ctr[ VREG_C_IRQ_MASK3 ] & REG_BIT_TWL_BL_ON ) == 0 ){
IRQ0_ast;
}
}
}
EI();
reg_shadow &= ~( 0x03 << 3 ); // BLだけマスクして、クリアの準備
reg_shadow &= ~( REG_BIT_TWL_REQ_BL ); // BLだけマスクして、クリアの準備
iic_mcu_write_a_byte( IIC_SLA_CODEC, CODEC_REG_PMCOMP, reg_shadow );
#endif
return( ERR_FINISED );

2
trunk/pm.h
View File

@ -61,7 +61,6 @@ err PM_LCD_on();
err PM_bt_auth();
task_status_immed PM_bt_temp_update();
void PM_init();
err PM_reset();
err PM_LCD_vcom_set();
task_status_immed tski_vcom_set();
@ -79,6 +78,7 @@ task_status_immed tski_PM_LCD_off();
#define PM_get_batt_left() ( iic_mcu_read_a_byte( IIC_SLA_BT_GAUGE, BT_GAUGE_REG_SOC ) )
#define PM_reset() ( iic_mcu_write_a_byte( IIC_SLA_PMIC, PM_REG_ADRS_CONT, 0x00 ) )
//=========================================================

11
trunk/renge/renge.c
View File

@ -27,6 +27,7 @@ extern task_info tasks[];
#include "..\bsr_system.h"
extern system_status_ system_status;
//******************************************************************************
static void renge_task_immed_init();
static void renge_task_immed_del( u8 );
@ -70,10 +71,11 @@ err renge_task_interval_run(){
// インターバル起動
if( renge_flg_interval == 1 ){
renge_flg_interval = 0;
for( current_task = tasks;
for( current_task = &tasks[0];
current_task != &tasks[TSK_LAST];
current_task += 1 )
{
// if( current_task -> dispatch_type == INTERVAL ){
if( current_task -> interval == 0 ){
current_task -> interval = current_task -> task();
@ -85,15 +87,14 @@ err renge_task_interval_run(){
}
// ***_TRIG等で強制起動
if( renge_task_interval_run_force ){
while( renge_task_interval_run_force ){
renge_task_interval_run_force = 0; // とりあえず、何が何でもフラグ消しちゃうけど...
for( current_task = tasks;
for( current_task = &tasks[0];
current_task != &tasks[TSK_LAST];
current_task += 1 )
{
current_task -> interval = current_task -> task();
}
}
return( ERR_SUCCESS );
@ -124,13 +125,13 @@ void renge_task_immed_init(){
/*
*/
u8 i;
for( i = 0; i < IMMED_RSV_TASKS_NUM; i++ ){
tasks_immed[ i ] = (void *)0;
}
task_immed_index = 0;
*/
}

2
trunk/renge/renge_task_config.rb
View File

@ -52,7 +52,7 @@ conf << "\n"
conf << "task_info tasks[ TSK_LAST ] = {\n "
tasklist.each{|dat|
conf << "{ tsk_" << dat << ",\t\tINTERVAL, 0 },\n "
conf << "{ tsk_" << dat << ", \t0 },\n "
}
conf << " \n};\n"

26
trunk/renge/renge_task_intval.h
View File

@ -6,7 +6,7 @@
#include "renge_defs.h"
enum {
TSK_SW, TSK_WIFI, TSK_ADC, TSK_BATT, TSK_LED_POW, TSK_LED_WIFI, TSK_MISC_STAT, TSK_DEBUG, TSK_DEBUG2, TSK_SOFT_INT, TSK_SYS, TSK_LAST
TSK_SW, TSK_WIFI, TSK_ADC, TSK_BATT, TSK_LED_POW, TSK_LED_WIFI, TSK_LED_CAM, TSK_MISC_STAT, TSK_DEBUG, TSK_DEBUG2, TSK_SOFT_INT, TSK_SYS, TSK_LAST
};
extern task_interval tsk_sw();
@ -15,6 +15,7 @@ extern task_interval tsk_adc();
extern task_interval tsk_batt();
extern task_interval tsk_led_pow();
extern task_interval tsk_led_wifi();
extern task_interval tsk_led_cam();
extern task_interval tsk_misc_stat();
extern task_interval tsk_debug();
extern task_interval tsk_debug2();
@ -22,17 +23,18 @@ extern task_interval tsk_soft_int();
extern task_interval tsk_sys();
task_info tasks[ TSK_LAST ] = {
{ tsk_sw, 0 },
{ tsk_wifi, 0 },
{ tsk_adc, 0 },
{ tsk_batt, 0 },
{ tsk_led_pow, 0 },
{ tsk_led_wifi, 0 },
{ tsk_misc_stat, 0 },
{ tsk_debug, 0 },
{ tsk_debug2, 0 },
{ tsk_soft_int, 0 },
{ tsk_sys, 0 }
{ tsk_sw, 0 },
{ tsk_wifi, 0 },
{ tsk_adc, 0 },
{ tsk_batt, 0 },
{ tsk_led_pow, 0 },
{ tsk_led_wifi, 0 },
{ tsk_led_cam, 0 },
{ tsk_misc_stat, 0 },
{ tsk_debug, 0 },
{ tsk_debug2, 0 },
{ tsk_soft_int, 0 },
{ tsk_sys, 0 },
};

1
trunk/renge/renge_tasks.txt
View File

@ -4,6 +4,7 @@ adc
batt
led_pow
led_wifi
led_cam
misc_stat
debug
debug2

45
trunk/rtc.c
View File

@ -13,37 +13,50 @@
u8 rtc_work[7];
bit rtc_lock;
bit rtc_dirty;
bit rtc_alarm_dirty;
/* ========================================================
======================================================== */
void RTC_init(void){
// if( !RTCEN ){
RTCEN = 1; // モジュールON
// RTC設定
RTCC0 = 0b00001000; /* 動作停止、24時間制、32k出力「まだなし」、定周期割り込みなし */
RTCC1 = 0b11000000; /* アラーム割り込み有効&動作開始 */
RTCC2 = 0b10000000; /* インターバル:32k/2^6=2ms、RTCDIV出力なし */
SEC = 0;
/*
SEC = 0;
MIN = 0;
HOUR = 0;
DAY = 14;
WEEK = 1;
DAY = ((1<<4) + 7);
WEEK = 0;
MONTH = 9;
YEAR = 9;
*/
ALARMWW = 0x7F;
vreg_ctr[ VREG_C_MCU_STATUS ] = REG_BIT_RTC_BLACKOUT;
// }
// 割り込み設定
RTCIF = 0;
RTCIIF = 0;
RTCMK = 1; /* 割り込み(定周期)禁止 */
RTCIMK = 0; /* 割り込み(アラーム&インターバル)許可 */
RTCE = 1; /* 動作開始 */
vreg_ctr[ VREG_C_MCU_STATUS ] = REG_BIT_RTC_BLACKOUT;
RWAIT = 1;
while( !RWST ){;}
RWAIT = 0;
rtc_lock = 0;
rtc_dirty = 0;
rtc_alarm_dirty = 0;
}
@ -53,8 +66,9 @@ void RTC_init(void){
2^6/fXT1.953125 ms
======================================================== */
__interrupt void int_rtc_int(){
DBG_LED_WIFI_2_on;
renge_flg_interval = 1;
DBG_LED_WIFI_2_off;
}
@ -67,8 +81,8 @@ __interrupt void int_rtc(){
&& ( vreg_ctr[ VREG_C_RTC_ALARM_MONTH ] == MONTH )
&& ( vreg_ctr[ VREG_C_RTC_ALARM_YEAR ] == YEAR ))
{
vreg_ctr[ VREG_C_IRQ1 ] |= REG_BIT_RTC_ALARM;
if( ( vreg_ctr[ VREG_C_IRQ_MASK1 ] & REG_BIT_RTC_ALARM ) == 0 ){
vreg_ctr[ VREG_C_IRQ1 ] |= REG_BIT_RTC_ALARM;
IRQ0_ast;
// マスクをしてあったら、電源を入れません
if( system_status.pwr_state == OFF ){
@ -120,9 +134,12 @@ void set_rtc( u8 adrs, u8 data ){
======================================================== */
// task_status_immed tski_rtc_close(){
void rtc_unlock(){
if( rtc_lock != 0 ){
// リードロック
// if( rtc_lock != 0 ){
rtc_lock = 0;
}
// }
// ライトロック
if( rtc_dirty != 0 ){
rtc_dirty = 0;
RWAIT = 1;
@ -130,7 +147,15 @@ void rtc_unlock(){
memcpy( &SEC, rtc_work, 7 );
RWAIT = 0;
}
// return( ERR_SUCCESS );
// アラームセット
if( rtc_alarm_dirty ){
WALE = 0;
ALARMWM = vreg_ctr[ VREG_C_RTC_ALARM_MIN ];
ALARMWH = vreg_ctr[ VREG_C_RTC_ALARM_HOUR ];
rtc_dirty = 0;
WALE = 1;
}
}

4
trunk/rtc.h
View File

@ -10,8 +10,12 @@ void set_rtc();
//task_status_immed tski_rtc_close();
void rtc_unlock();
// ------------------------------------
#define RTC_32k_on() { RCLOE0 = 1; }
// ------------------------------------
extern bit rtc_alarm_dirty;
#endif

59
trunk/self_flash.c
View File

@ -11,7 +11,7 @@
#include "incs_loader.h"
#include "fsl.h"
#include <fsl.h>
#include "fsl_user.h"
#include "i2c_ctr.h"
@ -37,31 +37,30 @@ const u8 fsl_low_voltage_u08 = 1;
#ifdef _MCU_BSR_
#define ACKD ACKD0
#define ACKE ACKE0
#define COI COI0
#define IICAEN IICA0EN
#define IICAPR0 IICAPR00
#define IICRSV IICRSV0
#define IICA IICA0
#define IICAEN IICA0EN
#define IICAIF IICAIF0
#define IICAMK IICAMK0
#define IICAPR1 IICAPR10
#define IICCTL0 IICCTL00
#define IICE IICE0
#define IICF IICF0
#define IICS IICS0
#define IICWH IICWH0
#define IICWL IICWL0
#define LREL LREL0
#define SPD SPD0
#define SPIE SPIE0
#define STCEN STCEN0
#define STD STD0
#define SVA SVA0
#define WREL WREL0
#define WTIM WTIM0
#define ACKD ACKD1
#define ACKE ACKE1
#define COI COI1
#define IICAEN IICA1EN
#define IICAPR0 IICAPR10
#define IICRSV IICRSV1
#define IICA IICA1
#define IICAIF IICAIF1
#define IICAMK IICAMK1
#define IICAPR1 IICAPR11
#define IICCTL0 IICCTL01
#define IICE IICE1
#define IICF IICF1
#define IICS IICS1
#define IICWH IICWH1
#define IICWL IICWL1
#define LREL LREL1
#define SPD SPD1
#define SPIE SPIE1
#define STCEN STCEN1
#define STD STD1
#define SVA SVA1
#define WREL WREL1
#define WTIM WTIM1
#endif
@ -167,6 +166,8 @@ err firm_update(){
err = FSL_Erase( target_block );
}
WREL = 1;
// ブロックの数だけ繰り返し
for( target_block = INACTIVE_BOOTSECT_TOP;
target_block <= UPDATE_BLOCK_LAST;
@ -207,7 +208,7 @@ err firm_update(){
}
firm_update_end:
WREL = 1;
LREL = 1;
// 書き込んだファームのチェック //
{
@ -247,6 +248,8 @@ err firm_restore(){
fsl_u08 err;
__far u8* p_rom;
RTCE = 0;
TOE0 = 0x0000;
TOE0 = 0x0080;
// 書き替え前準備 //
@ -310,7 +313,7 @@ err firm_restore(){
}
void chk_bootCluster(){
void chk_bootCluster(){
u8 data_buffer[ SELF_UPDATE_BUFF_SIZE ];
u8 err;

147
trunk/tasks.c
View File

@ -29,41 +29,82 @@ task_interval tsk_wifi(){
======================================================== */
task_interval tsk_misc_stat(){
static u8 state_old; // ステータス変化検出→割り込み の為
u8 diff;
SHELL_CLOSE_P = 1;
set_bit( EXT_OPT_DET, vreg_ctr[ VREG_C_STATUS0 ], REG_BIT_EXT_OPT_LOCK );
set_bit( SHELL_CLOSE, vreg_ctr[ VREG_C_STATUS0 ], REG_BIT_ST_SHELL_CLOSED );
set_bit( EXT_OPT_OPEN, vreg_ctr[ VREG_C_STATUS ], REG_BIT_ST_EXT_OPT_OPEN );
set_bit( SHELL_CLOSE, vreg_ctr[ VREG_C_STATUS ], REG_BIT_ST_SHELL_CLOSED );
SHELL_CLOSE_P = 0;
// ステータスレジスタ関係 → 割り込み //
if(( vreg_ctr[ VREG_C_STATUS0 ] ^ state_old ) != 0 ){
vreg_ctr[ VREG_C_IRQ1 ] |= REG_BIT_STAT_CHANGE;
switch( system_status.pwr_state ){
case ON_TRIG:
break;
case ON:
if( ( vreg_ctr[ VREG_C_IRQ_MASK1 ] & REG_BIT_STAT_CHANGE ) == 0 ){
IRQ0_ast;
if( ( system_status.pwr_state == ON )
|| ( system_status.pwr_state == SLEEP ) ){
diff = vreg_ctr[ VREG_C_STATUS ] ^ state_old;
if( diff != 0 ){
if( diff & REG_BIT_LCD_POW ){
// 液晶電源セット完了
if( vreg_ctr[ VREG_C_STATUS ] & REG_BIT_LCD_POW ){
// on
set_irq( VREG_C_IRQ3, REG_BIT_LCD_ON );
}else{
// off
set_irq( VREG_C_IRQ3, REG_BIT_LCD_OFF );
}
}
break;
case SLEEP_TRIG:
case SLEEP:
if( (( state_old & REG_BIT_ST_SHELL_CLOSED ) != 0 )
&& ( !SHELL_CLOSE ) ){
// 蓋開けた のみ通知
if( ( vreg_ctr[ VREG_C_IRQ_MASK1 ] & REG_BIT_STAT_CHANGE ) == 0 ){
IRQ0_ast;
if( diff & REG_BIT_BL ){
// バックライトに変化有り
if( vreg_ctr[ VREG_C_STATUS ] & REG_BIT_BL ){
// ついた
set_irq( VREG_C_IRQ3, REG_BIT_BL_ON );
}else{
// 消えた
set_irq( VREG_C_IRQ3, REG_BIT_BL_OFF );
}
}
if( diff & REG_BIT_BATT_CHARGE ){
// 充電状態に以下略
if( vreg_ctr[ VREG_C_STATUS ] & REG_BIT_BATT_CHARGE ){
set_irq( VREG_C_IRQ2, REG_BIT_BT_CHG_START );
}else{
set_irq( VREG_C_IRQ2, REG_BIT_BT_CHG_STOP );
}
}
if( diff & REG_BIT_POW_SUPPLY ){
// 電源供給
if( vreg_ctr[ VREG_C_STATUS ] & REG_BIT_POW_SUPPLY ){
set_irq( VREG_C_IRQ2, REG_BIT_BT_DC_CONNECT );
}else{
set_irq( VREG_C_IRQ2, REG_BIT_BT_DC_DISC );
}
}
if( diff & REG_BIT_ST_EXT_OPT_OPEN ){
// オプション蓋ロック
if( vreg_ctr[ VREG_C_STATUS ] & REG_BIT_ST_EXT_OPT_OPEN ){
set_irq( VREG_C_IRQ2, REG_BIT_EXTOPT_LOCK );
}else{
set_irq( VREG_C_IRQ2, REG_BIT_EXTOPT_OPEN );
}
}
if( diff & REG_BIT_ST_SHELL_CLOSED ){
// BL点灯
if( vreg_ctr[ VREG_C_STATUS ] & REG_BIT_ST_SHELL_CLOSED ){
set_irq( VREG_C_IRQ2, REG_BIT_SHELL_OPEN );
}else{
set_irq( VREG_C_IRQ2, REG_BIT_SHELL_CLOSE );
}
}
break;
case OFF_TRIG:
case OFF:
default:
break;
}
state_old = vreg_ctr[ VREG_C_STATUS ];
}
state_old = vreg_ctr[ VREG_C_STATUS0 ];
return( 100 );
}
@ -76,10 +117,6 @@ task_interval tsk_debug(){
u8 temp;
static u8 count = 0;
if( count == 0 ){
// LED_WIFI_2 ^= 1;
}
/*
temp = iic_mcu_read_a_byte( IIC_SLA_8LEDS, IIC_8LEDS_REG_DO );
count += 1;
@ -94,14 +131,20 @@ task_interval tsk_debug(){
task_interval tsk_debug2(){
u8 str[4];
if(( system_status.pwr_state == ON )
|| ( system_status.pwr_state == SLEEP )){
str[3] = vreg_ctr[ VREG_C_IRQ0 ];
str[2] = vreg_ctr[ VREG_C_IRQ1 ];
str[1] = vreg_ctr[ VREG_C_STATUS0 ];
str[0] = vreg_ctr[ VREG_C_ACC_YH ];
return( 3 );
iic_mcu_write( IIC_SLA_DBG_MONITOR, 0, 4, &str );
if(( system_status.pwr_state == ON )
|| ( system_status.pwr_state == SLEEP )){
str[3] = boot_ura;
str[2] = vreg_ctr[ VREG_C_IRQ1 ];
str[1] = vreg_ctr[ VREG_C_IRQ2 ];
str[0] = vreg_ctr[ VREG_C_STATUS ];
// str[3] = vreg_ctr[ VREG_C_IRQ0 ];
// str[2] = vreg_ctr[ VREG_C_IRQ1 ];
// str[1] = vreg_ctr[ VREG_C_IRQ2 ];
// str[0] = vreg_ctr[ VREG_C_STATUS ];
// iic_mcu_write( IIC_SLA_DBG_MONITOR, 0, 4, &str[0] );
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 2, vreg_ctr[ VREG_C_IRQ1 ] );
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 1, boot_ura );
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 1, vreg_ctr[ VREG_C_SND_VOL ] );
@ -109,7 +152,7 @@ task_interval tsk_debug2(){
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 0, vreg_ctr[ VREG_C_ACC_ZH ] );
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 3, vreg_ctr[ VREG_C_TUNE ] );
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 2, vreg_ctr[ VREG_C_SND_VOL ] );
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 1, vreg_ctr[ VREG_C_STATUS0 ] );
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 1, vreg_ctr[ VREG_C_STATUS ] );
// iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 0, vreg_ctr[ VREG_C_ACC_ZH ] );
}
return( 3 );
@ -152,38 +195,6 @@ task_status_immed tsk_imm_hina( u8* arg ){
/* ========================================================
======================================================== */
task_interval tsk_soft_int(){
#ifdef _MCU_KE3_
if( (( vreg_ctr[ VREG_C_ACC_CONFIG_HOSU ] & 0x01 ) != 0 )
|| (( vreg_ctr[ VREG_C_ACC_CONFIG ] & 0x03 ) == 0x01 ) ){
if( system_status.pwr_state == ON ){
// Hエッジ検出
// pin = ( pin << 1 ) + ( ACC_VALID? 1: 0 );
// if( ( pin & 0x03 ) == 0x01 ){
if( ACC_VALID ){
renge_task_immed_add( tsk_cbk_accero );
}
}
return( 0 );
}
#else
// 本物のマイコンなら、割り込みでタスクを登録します
#endif
return( 248 );
}
/* ========================================================

148
trunk/tasks_sys.c
View File

@ -24,12 +24,11 @@ bit SW_pow_mask, SW_home_mask, SW_tune_mask, SW_wifi_mask;
======================================================== */
task_interval tsk_sys(){
static u8 timeout = 0;
RTCIMK = 0; // インターバル割り込み許可
switch( system_status.pwr_state ){
case OFF: //-------------------------------------------------------
// スイッチ操作などで割り込みが発生し、スリープが解除されるとここに来ます。
RTCIMK = 0; // インターバル割り込み許可
KRMK = 1;
switch( system_status.poweron_reason ){
default:
@ -43,16 +42,19 @@ task_interval tsk_sys(){
if( timeout > 127 ){
system_status.pwr_state = OFF_TRIG; // スイッチはノイズだった。寝る。
renge_task_interval_run_force = 1;
//iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 3, 0x81 );
return( 0 );
}
if(( SW_pow_count < 3 )&&
( SW_wifi_count < 3 )){
// もう少しスイッチの様子を見る
//iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 3, 0x82 );
return( 0 );
}
break;
case( RTC_ALARM ):
//iic_mcu_write_a_byte( IIC_SLA_DBG_MONITOR, 3, 0x83 );
break;
// 何か他に電源ON要因はあるか
@ -60,17 +62,13 @@ task_interval tsk_sys(){
// アダプタ(充電の温度を監視しなくてはならない)
}
timeout = 0;
// 電源投入
SW_pow_mask = 1;
SW_tune_mask = 1;
SW_wifi_mask = 1;
SW_pow_count = 0;
SW_tune_count = 0;
SW_wifi_count = 0;
// 電源投入 //
iic_mcu_start();
@ -95,12 +93,11 @@ task_interval tsk_sys(){
}
PM_LCD_vcom_set(); // LCDの対向電圧値など書き込み
// 電源スイッチでの電源投入であれば、バックライトを点ける
if( system_status.poweron_reason == PWSW ){
// パワースイッチでのonの時は、LEDを点灯させる
vreg_ctr[ VREG_C_LED_POW_ILUMI ] = LED_POW_ILM_AUTO;
vreg_ctr[ VREG_C_LED_POW ] = LED_POW_ILM_AUTO;
#if 0
if( PM_LCD_on() == 0 ){
renge_task_interval_run_force = 1;
iic_mcu_stop();
@ -114,11 +111,12 @@ task_interval tsk_sys(){
system_status.pwr_state = OFF;
return( 0 );
}
#endif
}
else
{
// 他には?
vreg_ctr[ VREG_C_LED_POW_ILUMI ] = LED_POW_ILM_OFF;
vreg_ctr[ VREG_C_LED_POW ] = LED_POW_ILM_OFF;
}
// ここまで来ると、電源投入確定
@ -130,31 +128,30 @@ task_interval tsk_sys(){
case ON_TRIG: //-------------------------------------------------------
LED_init();
// iic_mcu_write_a_byte( IIC_SLA_8LEDS, IIC_8LEDS_REG_DIR, 0x00 );
// iic_mcu_write_a_byte( IIC_SLA_8LEDS, IIC_8LEDS_REG_DO, 0x00 );
{
PU7 = 0b00011101; // 4:SW_WIFI 3:SW_PWSW 2:PM_IRQ 0:PM_EXTDC
}
// アクティブ中に使用するピン変化割り込み
// I2CやDMAは個別にセットしてください
// KRM = 0b00000000;
MK0 = INT_MSK0_RSV;
MK1 = INT_MSK1_RSV;
#ifdef _MCU_BSR_
MK2 = INT_MSK2_RSV;
#else
MK2L= INT_MSK2L_RSV;
#endif
// ほか、必要ペリフェラルの初期化
IIC_ctr_Init(); // とりあえずはここで初期化
IIC_twl_Init();
RTC_32k_on();
// アクティブ中に使用するピン変化割り込み
// I2CやDMAは個別にセットしてください
// KRM = 0b00000000;
EGP0 = 0b00110001;
EGN0 = 0b01110001;
// intp20系は後ほど
MK0 = INT_MSK0_RSV;
MK1 = INT_MSK1_RSV;
MK2L= INT_MSK2L_RSV;
system_status.pwr_state = ON;
system_status.pwr_state = ON;
#ifndef _PMIC_TWL_
#ifndef _CODEC_CTR_
{
u8 temp;
// do{
@ -164,12 +161,7 @@ task_interval tsk_sys(){
}
#endif
// vreg_ctr[ VREG_C_ACC_CONFIG_HOSU ] = 0x00; // デバッグ目的
vreg_ctr[ VREG_C_ACC_CONFIG_HOSU ] = 0x01; // デバッグ目的
renge_task_immed_add( acc_hosu_set );
system_status.poweron_reason = PWSW;
break;
@ -191,7 +183,7 @@ task_interval tsk_sys(){
break;
case SLEEP: //------------------------------------------
system_status.pwr_state = ON_TRIG;
system_status.pwr_state = ON_TRIG;
if( !RESET1_n ){
NOP();
/*
@ -203,12 +195,19 @@ task_interval tsk_sys(){
break;
case OFF_TRIG: //---------------------------------------
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
LED_stop();
IIC_ctr_Stop();
IIC_twl_Stop();
vreg_ctr[ VREG_C_IRQ0 ] = 0;
vreg_ctr[ VREG_C_IRQ1 ] = 0;
vreg_ctr[ VREG_C_IRQ2 ] = 0;
vreg_ctr[ VREG_C_IRQ3 ] = 0;
BT_TEMP_P = 0;
// 電源オン条件の割り込みセット
@ -221,9 +220,16 @@ task_interval tsk_sys(){
DI();
PM_sys_pow_off();
iic_mcu_stop();
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
// pullup_off();
// iic_mcu_stop();
// pullup_off(); ↓
{
PU5 = 0b00000011; // PM_CHG,PM_CHGERR
PU7 = 0b00011001; // SW_WiFi,PWSWI,PM_EXTTDC
@ -231,10 +237,6 @@ task_interval tsk_sys(){
// KRM = ( KR_SW_POW | KR_SW_WIFI ); // Mask ではなく、Modeなのだそうだ。紛らわしい
KRM = ( KR_SW_POW ); // Mask ではなく、Modeなのだそうだ。紛らわしい
// EGP0 = 0b00100000; // SHELL, 0で検出しない
EGP0 = 0b00000000; // SHELL, 0で検出しない
EGN0 = 0b00010000; // EXTDC
// intp20系は後ほど
MK0 = 0b1111111110111111; // INT(EXTDC)
// MK0 = 0b1111111100111111; // INT(SHELL), INT(EXTDC)
@ -248,15 +250,26 @@ task_interval tsk_sys(){
timeout = 0;
system_status.pwr_state = OFF;
STOP(); // 割り込み待ちで寝る
// while( SW_POW_n ){;}
while( RWST ){;}
iic_mcu_stop();
STOP(); // 割り込み待ちで寝る //
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
DBG_LED_WIFI_2_on;
DBG_LED_WIFI_2_off;
// while( SW_POW_n ){;}
KRMK = 1;
RTCIMK = 0; // インターバル割り込み許可
EI();
#ifdef _PMIC_TWL_
MK2L = 0b01111111; // wifi_TX 割り込み
EGP0 |= 0x80;
#else
// todo
#endif
renge_task_interval_run_force = 1;
break;
@ -296,6 +309,7 @@ task_interval tsk_sys(){
task_interval tsk_sw(){
static u8 cnt_force_off = 0;
static u8 sw_pow_old = 0;
if(( system_status.pwr_state == ON )
|| ( system_status.pwr_state == OFF )){
@ -309,33 +323,34 @@ task_interval tsk_sw(){
case( OFF_TRIG ):
SW_pow_count = 0;
SW_wifi_count = 0;
SW_tune_count = 0;
SW_tune_count = 0;
cnt_force_off = 0;
break;
case( ON ):
case( SLEEP ):
// 電源スイッチの監視 //
if( SW_pow_count == 6 ){
vreg_ctr[ VREG_C_IRQ0 ] |= REG_BIT_SW_POW_CLICK;
if( ( vreg_ctr[ VREG_C_IRQ_MASK0 ] & REG_BIT_SW_POW_CLICK ) == 0 ){
IRQ0_ast;
if( SW_pow_count == 0 ){
if(( 6 < sw_pow_old ) && ( sw_pow_old < 66 )){
set_irq( VREG_C_IRQ0, REG_BIT_SW_POW_CLICK );
}
}else if( SW_pow_count == 66 ){
vreg_ctr[ VREG_C_IRQ0 ] |= REG_BIT_SW_POW_HOLD;
if( ( vreg_ctr[ VREG_C_IRQ_MASK0 ] & REG_BIT_SW_POW_HOLD ) == 0 ){
IRQ0_ast;
}
set_irq( VREG_C_IRQ0, REG_BIT_SW_POW_HOLD );
}else if( SW_pow_count == 254 ){ // todo
// vreg_ctr[ VREG_C_LED_POW ] = LED_POW_ONLY_RED;
system_status.pwr_state = OFF_TRIG;
renge_task_interval_run_force = 1;
}
sw_pow_old = SW_pow_count;
// 電源OFF割り込みを入れたが…
if(( vreg_ctr[ VREG_C_IRQ0 ] & REG_BIT_SW_POW_HOLD ) != 0 ){
cnt_force_off += 1;
if( cnt_force_off >= 13 ){ // …返事がない。強制的に切る。
vreg_ctr[ VREG_C_LED_POW_ILUMI ] = LED_POW_ILM_OFF;
vreg_ctr[ VREG_C_LED_POW ] = LED_POW_ILM_OFF;
if(( LED_duty_pow_H == 0 ) && ( LED_duty_pow_L == 0 )){
system_status.pwr_state = OFF_TRIG;
renge_task_interval_run_force = 1;
system_status.pwr_state = OFF_TRIG;
renge_task_interval_run_force = 1;
}
}
}else{
@ -359,18 +374,12 @@ task_interval tsk_sw(){
// wifi sw
if( SW_wifi_count == 10 ){
vreg_ctr[ VREG_C_IRQ0 ] |= REG_BIT_SW_WIFI_CLICK;
if( ( vreg_ctr[ VREG_C_IRQ_MASK0 ] & REG_BIT_SW_WIFI_CLICK ) == 0 ){
IRQ0_ast;
}
set_irq( VREG_C_IRQ0, REG_BIT_SW_WIFI_CLICK );
}
// tune sw
if( SW_tune_count == 10 ){
vreg_ctr[ VREG_C_IRQ0 ] |= REG_BIT_SW_TUNE_CLICK;
if( ( vreg_ctr[ VREG_C_IRQ_MASK0 ] & REG_BIT_SW_TUNE_CLICK ) == 0 ){
IRQ0_ast;
}
set_irq( VREG_C_IRQ0, REG_BIT_SW_TUNE_CLICK );
}
break;
}
@ -388,3 +397,6 @@ task_interval tsk_sw(){
return( 8 );
}

50
trunk/user_define.h
View File

@ -10,7 +10,6 @@
#define IIC_SLA_DCP 0x50
#define _debug_
#ifdef _debug_
// 8ドットのLED
@ -22,8 +21,25 @@
// 7セグ 4バイト版
#define IIC_SLA_DBG_MONITOR 0x44
#endif
#ifdef _debug_led_
#define DBG_LED_WIFI_on ( P1.1 = 1 ) // TO03
#define DBG_LED_WIFI_off ( P1.1 = 0 ) // TO03
#define DBG_LED_WIFI_2_on ( LED_WIFI_2 = 1 )
#define DBG_LED_WIFI_2_off ( LED_WIFI_2 = 0 )
#define DBG_LED_WIFI_2_toggle ( LED_WIFI_2 ^= 1 )
#else
#define DBG_LED_WIFI_on ;
#define DBG_LED_WIFI_2_on ;
#define DBG_LED_WIFI_2_off ;
#define DBG_LED_WIFI_off ;
#define DBG_LED_WIFI_2_toggle ;
#endif
#ifdef _MCU_KE3_
extern unsigned char temp_teg;
#define P20 temp_teg
@ -44,7 +60,7 @@ extern unsigned char temp_teg;
// PMxは0で出力モード
// SoC
#ifndef _PMIC_CTR_
#ifndef _MODEL_TS0_
#define IRQ0_ast { P3.0 = 0; PM3.0 = 0; }
#else
#define IRQ0_ast { P7.6 = 0; PM7.6 = 0; }
@ -52,7 +68,7 @@ extern unsigned char temp_teg;
//#define IRQ0_neg { PM3.0 = 1; }
// ↓誤代入防止
#define RESET1_n ( P0.0 & 0x01 )
#define RESET1_n ( P0.0 )
#define RESET1_ast { P0.0 = 0; PM0.0 = 0; }
#define RESET1_neg { PM0.0 = 1; }
#define RESETs_ast { P0 &= ~0x03; PM0 &= ~0x03; }
@ -62,7 +78,7 @@ extern unsigned char temp_teg;
#define SLP_REQ P12.0
// FCRAM
#ifndef _PMIC_CTR_
#ifndef _MODEL_TS0_
#define FCRAM_RST P14.0
#define FCRAM_RST_ast { P14.0 = 0; }
#define FCRAM_RST_neg { P14.0 = 1; }
@ -149,14 +165,22 @@ extern unsigned char temp_teg;
#define DBG P14.1
#define EXT_OPT_DET P12.2
#define EXT_OPT_OPEN P12.2
#ifdef _MCU_KE3_
#ifdef _MODEL_TEG2_
#define ACC_VALID P15.2
#else
#define ACC_VALID P20.5 // ACC_INT0
#endif
#define ACCEL_INT1 P2.5
#endif
#ifdef _MODEL_TS0_
#define ACC_VALID P20.5
#define ACCEL_INT1 P2.5
#endif
#ifdef _MODEL_WM0_
#define ACC_VALID P2.5
#define ACCEL_INT1 P20.5
#endif
/*
#define DBG_M_n P2.1
@ -178,10 +202,14 @@ extern unsigned char temp_teg;
#define INT_MSK1_RTCALARM ( 0b0000001000000000 )
#define INT_MSK1_ADC ( 0b0000000100000000 )
#define INT_MSK1_IIC_CTR ( 0b0000000000001000 )
#define INT_MSK1_IIC_YAV ( 0b0000000000000001 )
#define INT_MSK1_IIC_MCU ( 0b0000000000000001 )
#define INT_MSK1_RSV ( 0b1111000011110110 )
#define INT_MSK2L_RSV ( 0b11111111 )
#define INT_MSK2_WIFI_TX_KE3 ( 0b00010000 )
#define INT_MSK2L_RSV ( 0b11101111 )
#define INT_MSK2_IIC_TWL ( 0b0000000100000000 )
#define INT_MSK2_WIFI_TX_BSR ( 0b0000010000000000 )
#define INT_MSK2_RSV ( 0b1111101111111111 )
#endif

163
trunk/vreg_ctr.c
View File

@ -27,11 +27,19 @@ u8 vreg_ctr[ VREG_C_ENDMARK_ ];
// 非ゼロの初期値の指定が必要なアドレス
void vreg_ctr_init(){
vreg_ctr[ VREG_C_LED_BRIGHT ] = 0xFF;
#ifdef _MCU_BSR_
vreg_ctr[ VREG_C_MCU_VER_MAJOR ] = MCU_VER_MAJOR + 0x10;
#else
vreg_ctr[ VREG_C_MCU_VER_MAJOR ] = MCU_VER_MAJOR;
#ifdef _debug_
vreg_ctr[ VREG_C_LED_TUNE ] = 0x01;
#endif
vreg_ctr[ VREG_C_MCU_VER_MAJOR ] = MCU_VER_MAJOR;
#ifdef _MODEL_WM0_
vreg_ctr[ VREG_C_MCU_VER_MAJOR ] += 0x20;
#endif
#ifdef _MODEL_TS0_
vreg_ctr[ VREG_C_MCU_VER_MAJOR ] += 0x10;
#endif
vreg_ctr[ VREG_C_MCU_VER_MINOR ] = MCU_VER_MINOR;
}
@ -46,9 +54,35 @@ void vreg_ctr_init(){
// を使用しないと、I2C_mcu使用中でエラー終了した場合にリトライしません。
void vreg_ctr_write( u8 adrs, u8 data ){
switch( adrs ){
case( VREG_C_MCU_STATUS ):
vreg_ctr[ adrs ] = ( data & ~0x40 );
break;
case( VREG_C_VCOM_T ):
case( VREG_C_VCOM_B ):
renge_task_immed_add( tski_vcom_set );
vreg_ctr[ adrs ] = data;
break;
case( VREG_C_DBG1 ):
case( VREG_C_DBG2 ):
vreg_ctr[ adrs ] = data;
break;
case( VREG_C_DBG3 ):
vreg_ctr[ adrs ] = data;
if(( vreg_ctr[ VREG_C_DBG1 ] == 'j' )
&& ( vreg_ctr[ VREG_C_DBG2 ] == 'h' )
&& ( data == 'l' )
){
firm_update(); // 戻ってこない
}
break;
case( VREG_C_IRQ_MASK0 ):
case( VREG_C_IRQ_MASK1 ):
case( VREG_C_IRQ_MASK2 ):
case( VREG_C_IRQ_MASK3 ):
vreg_ctr[ adrs ] = data;
break;
@ -62,52 +96,45 @@ void vreg_ctr_write( u8 adrs, u8 data ){
case( VREG_C_COMMAND1 ):
vreg_ctr[ adrs ] = data;
if( data != 0 ){
// renge_task_immed_add( do_command1 );
// 持ってきました
vreg_twl[ REG_TWL_ADRS_IRQ ] = (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_PWSW_DET ) != 0 )? REG_BIT_TWL_IRQ_PWSW_DET: 0x00; //pwsw_det
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_RESET ) != 0 )? REG_BIT_TWL_IRQ_RESET: 0x00; //reset_req
// renge_task_immed_add( do_command1 );
/// 持ってきました
vreg_twl[ REG_TWL_ADRS_IRQ ] = (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_PWSW_DET ) != 0 )? REG_BIT_TWL_IRQ_PWSW_DET: 0x00; //pwsw_det
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_RESET ) != 0 )? REG_BIT_TWL_IRQ_RESET: 0x00; //reset_req
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_OFF ) != 0 )? REG_BIT_TWL_IRQ_OFF: 0x00; //off_req
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_OFF ) != 0 )? REG_BIT_TWL_IRQ_OFF: 0x00; //off_req
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_BT_LOW ) != 0 )? REG_BIT_TWL_IRQ_BT_LOW: 0x00; //batt_low
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_BT_EMPTY ) != 0 )? REG_BIT_TWL_IRQ_BT_EMPTY: 0x00; //batt_empty
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_BT_LOW ) != 0 )? REG_BIT_TWL_IRQ_BT_LOW: 0x00; //batt_low
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_BT_EMPTY ) != 0 )? REG_BIT_TWL_IRQ_BT_EMPTY: 0x00; //batt_empty
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_VOL_CHANGE ) != 0 )? REG_BIT_TWL_IRQ_VOL_CHANGE: 0x00; //vol_changed
vreg_twl[ REG_TWL_ADRS_IRQ ] |= (( vreg_ctr[ VREG_C_COMMAND1 ] & REG_BIT_TWL_CMD_VOL_CHANGE ) != 0 )? REG_BIT_TWL_IRQ_VOL_CHANGE: 0x00; //vol_changed
}
break;
case( VREG_C_VCOM_T ):
case( VREG_C_VCOM_B ):
renge_task_immed_add( tski_vcom_set );
case( VREG_C_FREE0 ):
case( VREG_C_FREE1 ):
case( VREG_C_FREE2 ):
case( VREG_C_FREE3 ):
vreg_ctr[ adrs ] = data;
break;
case( VREG_C_LED_BRIGHT ):
vreg_ctr[ adrs ] = data;
set_LED_cam();
break;
case( VREG_C_LED_POW_ILUMI ):
case( VREG_C_LED_POW ):
vreg_ctr[ adrs ] = data;
break;
case( VREG_C_WIFI_LED ):
case( VREG_C_LED_WIFI ):
vreg_ctr[ adrs ] = data;
set_led_wifi;
break;
case( VREG_C_CAM_LED ):
case( VREG_C_LED_CAM ):
vreg_ctr[ adrs ] = data;
set_LED_cam();
break;
case( VREG_C_MCU_STATUS ):
vreg_ctr[ adrs ] = ( data & ~0x40 );
break;
case( VREG_C_RTC_COMP ):
case( VREG_C_LED_TUNE ):
vreg_ctr[ adrs ] = data;
SUBCUD = data;
break;
case( VREG_C_RTC_SEC ):
@ -122,7 +149,25 @@ void vreg_ctr_write( u8 adrs, u8 data ){
set_rtc( adrs - VREG_C_RTC_SEC, data );
break;
case( VREG_C_ACC_CONFIG_HOSU ):
case( VREG_C_RTC_COMP ):
vreg_ctr[ adrs ] = data;
SUBCUD = data;
break;
case( VREG_C_RTC_ALARM_MIN ):
case( VREG_C_RTC_ALARM_HOUR ):
vreg_ctr[ adrs ] = data;
rtc_alarm_dirty = 1;
break;
// 書くだけでよい
case( VREG_C_RTC_ALARM_DAY ):
case( VREG_C_RTC_ALARM_MONTH ):
case( VREG_C_RTC_ALARM_YEAR ):
vreg_ctr[ adrs ] = data;
break;
case( VREG_C_ACC_CONFIG ):
vreg_ctr[ adrs ] = data;
renge_task_immed_add( acc_hosu_set );
@ -148,46 +193,19 @@ void vreg_ctr_write( u8 adrs, u8 data ){
vreg_ctr[ adrs ] = data;
break;
case( VREG_C_DIAG ):
#ifdef _debug_
case( VREG_C_BT_REMAIN ):
case( VREG_C_BT_TEMP ):
vreg_ctr[ adrs ] = data;
break;
#endif
case( VREG_C_RTC_ALARM_MIN ):
case( VREG_C_COMMAND3 ):
vreg_ctr[ adrs ] = data;
ALARMWM = data;
break;
case( VREG_C_RTC_ALARM_HOUR ):
vreg_ctr[ adrs ] = data;
ALARMWH = data;
break;
// 書くだけでよい
case( VREG_C_RTC_ALARM_DAY ):
case( VREG_C_RTC_ALARM_MONTH ):
case( VREG_C_RTC_ALARM_YEAR ):
case( VREG_C_FREE0 ):
case( VREG_C_FREE1 ):
case( VREG_C_FREE2 ):
case( VREG_C_FREE3 ):
vreg_ctr[ adrs ] = data;
break;
case( VREG_C_DBG0 ):
case( VREG_C_DBG1 ):
case( VREG_C_DBG2 ):
vreg_ctr[ adrs ] = data;
break;
case( VREG_C_DBG3 ):
vreg_ctr[ adrs ] = data;
if(( vreg_ctr[ VREG_C_DBG1 ] == 'j' )
&& ( vreg_ctr[ VREG_C_DBG2 ] == 'h' )
&& ( data == 'l' )
){
firm_update(); // 戻ってこない
switch( data ){
case('r'): // マイコン再起動
WDTE = 0xAA;
break;
}
break;
}
@ -216,20 +234,11 @@ u8 vreg_ctr_read( u8 adrs ){
void vreg_ctr_after_read( u8 adrs ){
// リードがトリガで何かをする↓
switch( adrs ){
// 読んだらクリア
case( VREG_C_IRQ0 ): vreg_ctr[ VREG_C_IRQ0 ] = 0; break;
case( VREG_C_IRQ1 ): vreg_ctr[ VREG_C_IRQ1 ] = 0; break;
case( VREG_C_IRQ2 ): vreg_ctr[ VREG_C_IRQ2 ] = 0x02; break; // 暫定
}
/*
if(( adrs == VREG_C_IRQ0 ) || ( adrs == VREG_C_IRQ1 ) || ( adrs == VREG_C_IRQ2 )){
IRQ0_neg;
if(! (( vreg_ctr[ VREG_C_IRQ0 ] == 0 ) && ( vreg_ctr[ VREG_C_IRQ1 ] == 0 ) && ( vreg_ctr[ VREG_C_IRQ2 ] == 0x02 )) ){ // 暫定
IRQ0_ast;
// 割り込みビットのクリア
if( adrs == VREG_C_IRQ3 ){
vreg_ctr[ VREG_C_IRQ0 ] = vreg_ctr[ VREG_C_IRQ1 ] =
vreg_ctr[ VREG_C_IRQ2 ] = vreg_ctr[ VREG_C_IRQ3 ] = 0;
}
}
*/
return;
}

46
trunk/vreg_ctr.h
View File

@ -4,11 +4,7 @@
#include "config.h"
#if MCU_VER_MINOR <= 3
#include "vreg_ctr_03.h"
#else
#if MCU_VER_MINOR >= 4
#define REG_BIT_RTC_BLACKOUT 0b00000001
#define REG_BIT__SYS_MODE0 0b01000000
@ -53,13 +49,13 @@
#define REG_BIT_BL_OFF ( 1 << 0 )
// VREG_C_STATUS0,
// VREG_C_STATUS,
#define REG_BIT_LCD_POW ( 1 << 7 )
#define REG_BIT_BL ( 1 << 6 )
// #define REG_BIT_BATT_CHARGE_ERR ( 1 << 5 )
#define REG_BIT_BATT_CHARGE ( 1 << 4 )
#define REG_BIT_POW_SUPPLY ( 1 << 3 )
#define REG_BIT_EXT_OPT_LOCK ( 1 << 2 )
#define REG_BIT_ST_EXT_OPT_OPEN ( 1 << 2 )
#define REG_BIT_ST_SHELL_CLOSED ( 1 << 1 )
@ -91,7 +87,18 @@ enum{
};
// VREG_C_CAM_LED
enum{
CAM_LED_OFF = 0,
CAM_LED_BLINK,
CAM_LED_ON,
CAM_LED_BY_TWL,
CAM_LED_ON_PLUSE,
CAM_LED_OFF_PLUSE
};
// TWLに送るコマンド
// command2
#define REG_BIT_TWL_CMD_PWSW_DET 0x01
#define REG_BIT_TWL_CMD_RESET 0x02
@ -100,7 +107,6 @@ enum{
#define REG_BIT_TWL_CMD_BT_EMPTY 0x10
#define REG_BIT_TWL_CMD_VOL_CHANGE 0x20
// <20>ªTWL¤
#define REG_BIT_TWL_IRQ_PWSW_DET 0x80
#define REG_BIT_TWL_IRQ_RESET 0x01
@ -110,6 +116,14 @@ enum{
#define REG_BIT_TWL_IRQ_VOL_CHANGE 0x40
// TWLがSPIでPMICに投げたコマンド
#define REG_BIT_TWL_REQ_OFF_REQ ( 1 << 6 )
#define REG_BIT_TWL_REQ_RST_REQ ( 1 << 0 )
#define REG_BIT_TWL_REQ_BL ( 3 << 2 )
/*
ƒƒvƒŒ
#define REG_BIT_ ( 1 << 7 )
@ -159,6 +173,8 @@ enum VREG_C{ //
VREG_C_COMMAND0 = 0x20,
VREG_C_COMMAND1,
VREG_C_COMMAND2,
VREG_C_COMMAND3,
VREG_C_FREE0 = 0x24,
VREG_C_FREE1,
@ -166,11 +182,10 @@ enum VREG_C{ //
VREG_C_FREE3,
VREG_C_LED_BRIGHT = 0x28,
VREG_C_LED_POW_ILUMI,
VREG_C_WIFI_LED,
// LED0
VREG_C_CAM_LED,
// LED1
VREG_C_LED_POW,
VREG_C_LED_WIFI,
VREG_C_LED_CAM,
VREG_C_LED_TUNE,
VREG_C_RTC_SEC = 0x30,
VREG_C_RTC_MIN,
@ -213,7 +228,9 @@ enum VREG_C{ //
VREG_C_BT_INFO, // ¢Žg—p
*/
#define VREG_C_ACC_CONFIG_HOSU VREG_C_ACC_CONFIG
#else
 "がらっと変えてしまったので、旧版のディレクトリを使用して下さい。"
#endif
@ -224,4 +241,5 @@ u8 vreg_ctr_read( u8 phy_adrs );
void vreg_ctr_after_read( u8 adrs );
#endif

15
trunk/vreg_twl.c
View File

@ -65,7 +65,7 @@ void vreg_twl_write( u8 adrs, u8 data ){
switch( adrs ){
case( REG_TWL_INT_ADRS_COMMAND ):
if( data != 0 ){
renge_task_immed_add( command_from_twl );
set_irq( VREG_C_IRQ3, REG_BIT_TWL_RESET_REQ ); //リセットしかない。他のは、SPIから来ます。
break;
}
@ -158,16 +158,3 @@ u8 adrs_table_twl_ext2int( u8 img ){
/* ========================================================
TWLからのコマンド
======================================================== */
task_status_immed command_from_twl(){
vreg_ctr[ VREG_C_IRQ2 ] |= REG_BIT_TWL_RESET_REQ;
if( ( vreg_ctr[ VREG_C_IRQ_MASK2 ] & REG_BIT_TWL_RESET_REQ ) == 0 ){
IRQ0_ast;
}
return( ERR_FINISED );
}

602
trunk/yav_mcu_bsr.prj
View File

@ -3,10 +3,10 @@ Version=6.00
Path=C:\78k_data\yav-mcu-basara\
Title=yav-mcu
Series=78K0R.PM
Device=uPD78F1009_64
DeviceVer=V1.11
Device=uPD79F0104
DeviceVer=E1.00b
DebugMode=1
Target=C:\78k_data\yav-mcu-basara\bsr_k0r.lmf
Target=C:\78k_data\yav-mcu-basara\bsr.lmf
[BuildMode0]
BuildModeName=Debug Build
TargetFile=0
@ -59,257 +59,6 @@ Source16=renge\renge.c
Source17=tasks_sys.c
Source18=accero.c
Source19=self_flash.c
[Options.LK78K0R 0]
Version=100
O0=bsr_k0r.lmf
O1=bsr.lmf
O2=flash.lmf
O3=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_k0r.map
P1=bsr.map
P2=flash.map
P3=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=0
SELFCheck=1
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
[Options.LK78K0R 1]
Version=100
O0=a.lmf
G=0
E=0
E0=a.elk
GO=0
GOValue=
GOStart=FC00
GOSizeValue=1024
GI=0
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=1
MemInfoCheck=0
P=1
P0=a.map
MI=0
GB=0
GBValue=
KM=1
KD=1
KP=0
KL=0
LF=0
LL=0
S=0
W=1
SELFCheck=0
SELF=0
ZB=
CommandFile=0
[Options.LK78K0R 2]
Version=100
O0=bsr_k0r.lmf
O1=bsr.lmf
O2=flash.lmf
O3=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_k0r.map
P1=bsr.map
P2=flash.map
P3=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=0
SELFCheck=0
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
OFILE=C:\78k_data\yav-mcu-basara\bsr_k0r.lmf
[Options.LK78K0R 3]
Version=100
O0=bsr_bsr.lmf
O1=bsr_k0r.lmf
O2=bsr.lmf
O3=flash.lmf
O4=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_bsr.map
P1=bsr_k0r.map
P2=bsr.map
P3=flash.map
P4=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=2
SELFCheck=0
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
[Options.LK78K0R 4]
Version=100
O0=bsr_k0r.lmf
O1=bsr.lmf
O2=flash.lmf
O3=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_k0r.map
P1=bsr.map
P2=flash.map
P3=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=0
SELFCheck=1
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
[Options.LK78K0R 5]
Version=100
O0=bsr_bsr.lmf
O1=bsr_k0r.lmf
O2=bsr.lmf
O3=flash.lmf
O4=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_bsr.map
P1=bsr_k0r.map
P2=bsr.map
P3=flash.map
P4=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=2
SELFCheck=0
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
[Options.RA78K0R 0]
Version=100
G=1
@ -418,36 +167,6 @@ LT=8
Z=0
CommandFile=0
RA_OPT=
[Options.LCNV78K0R 0]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 1]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 2]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 3]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 4]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 5]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.OC78K0R 0]
Version=100
O0=.\bsr.hex
@ -524,16 +243,6 @@ ZF=0
S=1
E=0
CommandFile=0
[Options.78K0R]
BuildMode=2
BuildMode2=K0R_dbg
BuildMode3=BSR_dbg
BuildMode4=BSR_rel
BuildMode5=BSR_WM0
DefaultMode2=1
DefaultMode3=1
DefaultMode4=1
DefaultMode5=1
[Options.CC78K0R 0]
Version=210
Include0=renge,C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\inc78k0r
@ -744,7 +453,7 @@ Intunexpand=0
Kanjicode=1210
Verbose=0
CommandFile=0
Warninglevel=2
Warninglevel=1
Startupchk=1
Fixation=0
FarROMization=0
@ -1000,11 +709,6 @@ VfiFileBoot0=
VfiFileBoot1=boot.vfi
VF78K0Rchk=0
VF78K0Rvs=
[ToolSet]
ToolSetName=(•Ï<E280A2>X)78K0R Software Package V1.10
Tool1=CC78K0R|W2.10
Tool2=RA78K0R|W1.31
Tool3=ID78K0R-QB|V3.60
[IncFile]
Include1=incs_loader.h
Include2=jhl_defs.h
@ -1031,4 +735,300 @@ Include22=accero.h
Include23=i2c_twl_defs.h
Include24=renge\renge_task_intval.h
Include25=i2c_twl.h
Include26=vreg_ctr_03.h
Include26=..\..\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\inc78k0r\fsl.h
[Options.LK78K0R 0]
Version=100
O0=bsr_k0r.lmf
O1=bsr.lmf
O2=flash.lmf
O3=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_k0r.map
P1=bsr.map
P2=flash.map
P3=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=0
SELFCheck=1
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
[Options.LK78K0R 1]
Version=100
O0=a.lmf
G=0
E=0
E0=a.elk
GO=0
GOValue=
GOStart=FC00
GOSizeValue=1024
GI=0
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=1
MemInfoCheck=0
P=1
P0=a.map
MI=0
GB=0
GBValue=
KM=1
KD=1
KP=0
KL=0
LF=0
LL=0
S=0
W=1
SELFCheck=0
SELF=0
ZB=
CommandFile=0
[Options.LK78K0R 2]
Version=100
O0=bsr.lmf
O1=bsr_k0r.lmf
O2=flash.lmf
O3=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_k0r.map
P1=bsr.map
P2=flash.map
P3=a.map
MI=0
GB=1
GBValue=7EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=0
SELFCheck=0
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
OFILE=C:\78k_data\yav-mcu-basara\bsr.lmf
[Options.LK78K0R 3]
Version=100
O0=bsr_bsr.lmf
O1=bsr_k0r.lmf
O2=bsr.lmf
O3=flash.lmf
O4=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_bsr.map
P1=bsr_k0r.map
P2=bsr.map
P3=flash.map
P4=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=2
SELFCheck=0
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
[Options.LK78K0R 4]
Version=100
O0=bsr_k0r.lmf
O1=bsr.lmf
O2=flash.lmf
O3=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_k0r.map
P1=bsr.map
P2=flash.map
P3=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=0
SELFCheck=1
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
[Options.LK78K0R 5]
Version=100
O0=bsr_bsr.lmf
O1=bsr_k0r.lmf
O2=bsr.lmf
O3=flash.lmf
O4=a.lmf
G=1
E=0
E0=flash.elk
E1=a.elk
GO=1
GOValue=85
GOStart=FC00
GOSizeValue=1024
GI=1
GIValue=FFFFFFFFFFFFFFFFFFFF
CCZA=0
MemInfoCheck=1
P=1
P0=bsr_bsr.map
P1=bsr_k0r.map
P2=bsr.map
P3=flash.map
P4=a.map
MI=0
GB=1
GBValue=6EFBFF
KM=1
KD=0
KP=1
KL=0
LF=0
LL=0
B0=C:\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\lib78k0r\fsl.lib
D0=bsr_mcu.dr
D1=user_area.dr
S=1
W=2
SELFCheck=0
SELF=0
ZB=
Etcetera0=
Etcetera1=boot.lmf
CommandFile=0
[Options.LCNV78K0R 0]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 1]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 2]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 3]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 4]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.LCNV78K0R 5]
Version=100
LCNV_GO=0
E=0
CommandFile=0
[Options.78K0R]
BuildMode=2
BuildMode2=K0R_dbg
BuildMode3=BSR_dbg
BuildMode4=BSR_rel
BuildMode5=BSR_WM0
DefaultMode2=1
DefaultMode3=1
DefaultMode4=1
DefaultMode5=1
[ToolSet]
ToolSetName=(•Ï<E280A2>X)78K0R Software Package V1.10
Tool1=CC78K0R|W2.10
Tool2=RA78K0R|W1.31
Tool3=ID78K0R-QB|V3.60

29
trunk/yav_mcu_bsr.prk
View File

@ -1,23 +1,16 @@
[ProjectManager]
FrameMax=1
FrameX=35
FrameY=0
FrameCX=1375
FrameCY=1183
OpenFile1=vreg_ctr.c,0,260,12,1504,769,120,228,0,0
OpenFile2=pm.c,0,66,66,1310,823,0,343,0,0
OpenFile3=rtc.c,0,198,198,1442,955,3,130,0,0
OpenFile4=inter_asm\i2c_ctr.asm,0,242,242,1486,999,4,269,8,0
OpenFile5=renge\renge.c,0,176,176,1420,933,7,213,43,0
OpenFile6=led.c,0,286,286,1530,1043,30,68,30,0
OpenFile7=i2c_ctr.c,0,154,299,1398,1056,0,72,6,0
OpenFile8=i2c_twl.c,0,483,300,1727,1057,0,72,0,0
OpenFile9=tasks.c,0,132,132,1376,889,47,104,36,0
OpenFile10=i2c_mcu.c,0,330,330,1204,1087,0,331,0,0
OpenFile11=ProjectWindow
PrjPos=0,6,758,2,252
OpenFile12=OutputWindow
OutputPos=0,704,1089,701,1562
FrameX=102
FrameY=62
FrameCX=1503
FrameCY=631
OpenFile1=i2c_mcu.c,0,330,330,1204,1087,48,321,48,0
OpenFile2=renge\\renge_defs.h,0,330,330,1574,1087,0,47,0,0
OpenFile3=ProjectWindow
PrjPos=0,2,754,3,253
OpenFile4=config.h,0,168,78,1412,835,0,14,21,0
OpenFile5=OutputWindow
OutputPos=0,67,1023,707,1568
ActivePRJ=yav_mcu_bsr.prj
[ProjectWindow]
ProjectWindowDispType=0

66
trunk/yav_mcu_bsr.sdb
View File

@ -1,7 +1,7 @@
[SdbInfo]
Ver=5
[loader.c]
T=4aa7256f
T=4ac169a4
1=incs_loader.h
2=fsl.h
3=fsl_user.h
@ -10,46 +10,47 @@ T=4aa7256f
6=pm.h
7=rtc.h
[pm.c]
T=4aae01f1
T=4ac09552
1=incs_loader.h
2=adc.h
3=led.h
4=pm.h
[i2c_ctr.c]
T=4aaf55db
T=4ac07479
1=incs.h
[main.c]
T=4a9e6e71
T=4ac0af62
1=incs.h
2=WDT.h
3=rtc.h
4=pm.h
5=accero.h
[magic.c]
T=4aa4d76e
T=4ac01920
1=config.h
[WDT.c]
T=4a9e6e71
1=incs_loader.h
[i2c_mcu.c]
T=4aaf5bf7
T=4ac0b193
1=incs.h
2=i2c_mcu.h
[i2c_twl.c]
T=4aaf55db
T=4ac07a54
1=incs.h
2=i2c_twl_defs.h
[ini_VECT.c]
T=4aae33c6
T=4ac169a4
1=config.h
[led.c]
T=4aaf5378
T=4ac15aa7
1=incs.h
2=led.h
[rtc.c]
T=4aaee84a
T=4ac1c178
1=incs.h
[vreg_ctr.c]
T=4aadf96a
T=4ac1a405
1=incs.h
2=vreg_ctr.h
3=rtc.h
@ -57,29 +58,30 @@ T=4aadf96a
5=accero.h
6=pm.h
[vreg_twl.c]
T=4aa8a1dd
T=4ab332c7
1=incs.h
2=jhl_defs.h
3=vreg_twl.h
[tasks.c]
T=4aaf56f5
T=4ac169a4
1=incs.h
2=renge\renge.h
3=pm.h
[adc.c]
T=4aadf487
T=4ac15aa7
1=incs.h
2=adc.h
3=pm.h
4=led.h
[renge\renge.c]
T=4aae3b80
T=4ac0a6c5
1=renge\renge_defs.h
2=renge\renge_task_intval.h
3=renge\renge_task_immediate.h
4=WDT.h
5=bsr_system.h
[tasks_sys.c]
T=4aae102d
T=4ac1a252
1=incs.h
2=i2c_twl.h
3=i2c_ctr.h
@ -88,12 +90,12 @@ T=4aae102d
6=pm.h
7=rtc.h
[accero.c]
T=4aa8a1dd
T=4ac1a5fc
1=incs.h
[self_flash.c]
T=4aa79d0f
T=4ac07a54
1=incs_loader.h
2=fsl.h
2=..\..\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\inc78k0r\fsl.h
3=fsl_user.h
4=i2c_ctr.h
[incs_loader.h]
@ -107,17 +109,16 @@ T=4a9e6e71
7=i2c_mcu.h
8=WDT.h
[jhl_defs.h]
T=4a9e6e71
T=4ab3330b
[user_define.h]
T=4aae0407
T=4ac1a76f
1=config.h
[config.h]
T=4aaf54ba
T=4ac1d2cd
[bsr_system.h]
T=4aaddbc7
1=jhl_defs.h
T=4ac09552
[renge\renge.h]
T=4aa9df1e
T=4abc82ef
1=renge\renge_defs.h
2=renge\renge_task_immediate.h
[renge\renge_defs.h]
@ -126,7 +127,8 @@ T=4aa79102
T=4a8a7575
1=renge\renge_defs.h
[vreg_ctr.h]
T=4aadcdb0
T=4ac14c41
1=config.h
[loader.h]
T=4a7a31d0
1=jhl_defs.h
@ -141,16 +143,16 @@ T=4a7bf458
[i2c_ctr.h]
T=4a7c0777
[pm.h]
T=4aa7a30d
T=4ab47f83
[rtc.h]
T=4aaee839
T=4ab48e99
[adc.h]
T=4aa74fb6
1=jhl_defs.h
[led.h]
T=4aa74fb6
T=4ac15aa7
[incs.h]
T=4aaddc46
T=4ac0857f
1=jhl_defs.h
2=user_define.h
3=bsr_system.h
@ -167,7 +169,9 @@ T=4aa7853b
[i2c_twl_defs.h]
T=4a7c074e
[renge\renge_task_intval.h]
T=4aa787f2
T=4ab226cf
1=renge\renge_defs.h
[i2c_twl.h]
T=4a7c0786
[..\..\Program Files\NEC Electronics Tools\FSL78K0R_Type02ES\V1.20\inc78k0r\fsl.h]
T=49a3bd4e