Daisuke Yanagihara
/
p_eps_sequencial_20210930
bbmv3
Diff: eps.cpp
- Revision:
- 1:57c53c066bb5
diff -r 38fe4bc9b7c3 -r 57c53c066bb5 eps.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/eps.cpp Thu Oct 07 08:31:46 2021 +0000 @@ -0,0 +1,164 @@ +#include "mbed.h" + +Serial pc(USBTX,USBRX); + +// I/Oピン +DigitalOut COM_on(p21); // com用のスイッチをONにするピン +DigitalOut COM_off(p22); // com用のスイッチをOFFにするピン +DigitalOut dyn(p25); + +// CDH用 +SPISlave to_cdh(p5,p6,p7,p8); // mosi, miso, sclk, ssel + +// ADコン用 +SPI mcp3208(p11,p12,p13); +DigitalOut cs_ad1(p14); + +// バッテリ電圧測定用 +// AnalogIn v(p16); + +// グローバル変数 *********** +uint8_t EPS_cur[5]; +// ************************* + +// ADC用関数 ****************************************** +void mcp3208_Init() { + mcp3208.format(8,0); + mcp3208.frequency(2000000); + uint8_t Vref = 5; + } + +uint8_t get_mcp3208() { + cs_ad1 = 0; + uint8_t d0 = mcp3208.write(0x06); // ch1 + uint8_t d1 = mcp3208.write(0x40); + uint8_t d2 = mcp3208.write(0x00); + cs_ad1 = 1; + uint8_t d3 = d1 << 4; + uint8_t d = (d3 << 4) | d2; + printf("d=%d\n\r", d); + return(d); + } +// ****************************************** ADC用関数終了 + +// ******************* main文 *********************** +int main() +{ + // ***** toCDH初期設定 ***** + to_cdh.format(8,0); + to_cdh.frequency(1000000); + to_cdh.reply(0x0); + + // ***** mcp3208初期設定 ***** + mcp3208_Init(); + + // ローカル関数 + uint8_t ii = 0; + // *************************** + + + pc.printf("--Hi,this is eps(slave).\r\n"); + to_cdh.reply(0x01); + + while(1) { + + if(to_cdh.receive()) { + int rcmd = to_cdh.read(); //receive 1st byte + + if(rcmd == 1){ + pc.printf("start spi to cdh\r\n"); + + to_cdh.reply(0x00); // ★ 送信前データをreplyに連続で詰めたい + pc.printf("receive eps_cmd 1 to cdh\r\n "); + + } + else if(rcmd == 2){ + pc.printf("start survivalHK sensing\r\n"); + + //v_bat[ii] = v.read()*3.3*8.4/3.3; + EPS_cur[ii] = get_mcp3208(); + to_cdh.reply(EPS_cur[ii]); // ★ 送信前データをreplyに連続で詰めたい + pc.printf("EPS_cur = %d[v]\r\n ",EPS_cur[ii]); + ii++; + + //pc.printf("finish survivalHK sensing \r\n"); + + + } + else if(rcmd == 3){ + // 受信 + pc.printf("1Hz HK Interrupt\r\n"); + for(int i=0; i<4; i++){ + EPS_cur[i] = get_mcp3208(); + } + to_cdh.reply(EPS_cur[0]); + pc.printf("finish HK sensing \r\n"); + } + /*else if(rcmd == 0x07){ + to_cdh.reply(0xF0); + pc.printf("send initial sensing data\r\n"); + } + + else if(rcmd == 0x08){ + to_cdh.reply(rcmd); + + pc.printf("COM ON\r\n"); + COM_on = 1; + wait(0.5); + COM_on = 0; + } + + else if(rcmd == 0x11){ + to_cdh.reply(rcmd); + + pc.printf("COM OFF\r\n"); + COM_off = 1; + wait(0.5); + COM_off = 0; + } + + else if(rcmd == 0x14){ + to_cdh.reply(rcmd); + + pc.printf("Check battery voltage\r\n"); + for(int i=0; i<5; i++){ + v_bat[i] = v.read()*3.3*8.4/3.3; //3.3必要? + pc.printf("bat_v = %f[v]\r\n ",v_bat[i]); + wait(1.0); + } + pc.printf("finish \r\n"); + } + + else if(rcmd == 0x15){ + to_cdh.reply(0xF1); + pc.printf("Send battery voltage data\r\n"); + } + + else if(rcmd == 0x16){ + to_cdh.reply(rcmd); + + pc.printf("Heatcut ON\r\n"); + dyn = 1; + for(int i=0; i<5; i++){ + dyn_cur[i]= mcp3208.read_input(3)*5; //()内の数字はchナンバー + pc.printf("dyn_cur = %f[A]\r\n ",dyn_cur[i]); + wait(1.0); + } + dyn = 0; + pc.printf("heat cut OFF\r\n"); + } + + else if(rcmd == 0x17){ + to_cdh.reply(0xF2); + pc.printf("Send cell current data\r\n"); + } + else{ + to_cdh.reply(0xFF); + } + + pc.printf("rcmd: %02x, dummy: %02x\r\n",rcmd, rdummy); + */ + + } + } +} \ No newline at end of file