/* xsns_59_ds1624.ino - Support for I2C DS1624 Temperature Sensor Copyright (C) 2021 Leonid Myravjev 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 3 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, see . */ #ifdef USE_I2C #ifdef USE_DS1624 /*********************************************************************************************\ * DS1624, DS1621 - Temperature * * I2C Address: 0x48 - 0x4F \*********************************************************************************************/ #define XSNS_59 59 #define XI2C_42 42 // See I2CDEVICES.md #define DS1624_MEM_REGISTER 0x17 //only for ds1624, don't exists on 1621 #define DS1624_CONF_REGISTER 0xAC #define DS1624_TEMP_REGISTER 0xAA #define DS1624_START_REGISTER 0xEE #define DS1624_STOP_REGISTER 0x22 #define DS1621_COUNTER_REGISTER 0xA8 //exists on 1621 and 1624(undocumented) #define DS1621_SLOPE_REGISTER 0xA9 //exists on 1624 and 1624(undocumented) #define DS1621_CFG_1SHOT (1<<0) #define DS1621_CFG_DONE (1<<7) enum { DS1624_TYPE_DS1624, DS1624_TYPE_DS1621 }; #define DS1624_MAX_SENSORS 8 bool ds1624_init = false; struct { float value; uint8_t type; int errcnt; int misscnt; bool valid; char name[9]; } ds1624_sns[DS1624_MAX_SENSORS]; uint32_t DS1624_Idx2Addr(uint32_t idx) { return 0x48 + idx; } void DS1624_Restart(uint8_t config, uint32_t idx) { uint32_t addr = DS1624_Idx2Addr(idx); if ((config & 1) == 1) { config &= ~(DS1621_CFG_DONE|DS1621_CFG_1SHOT); I2cWrite8(addr, DS1624_CONF_REGISTER, config); // 1shot off delay(10); // by spec after writing AddLog_P(LOG_LEVEL_ERROR, "%s addr %x is reset, reconfig: %x", ds1624_sns[idx].name, addr, config); } I2cValidRead(addr, DS1624_START_REGISTER, 1); } void DS1624_HotPlugUp(uint32_t idx) { uint32_t addr = DS1624_Idx2Addr(idx); if (I2cActive(addr)) { return; } if (!I2cSetDevice(addr)) { return; } uint8_t config; if (I2cValidRead8(&config, addr, DS1624_CONF_REGISTER)) { uint8_t tmp; ds1624_sns[idx].type = (I2cValidRead8(&tmp, addr, DS1624_MEM_REGISTER)) ? DS1624_TYPE_DS1624 : DS1624_TYPE_DS1621; snprintf_P(ds1624_sns[idx].name, sizeof(ds1624_sns[idx].name), PSTR("DS162%c%c%d"), (ds1624_sns[idx].type == DS1624_TYPE_DS1621) ? '1' : '4', IndexSeparator(), idx); I2cSetActiveFound(addr, ds1624_sns[idx].name); ds1624_sns[idx].valid = true; ds1624_sns[idx].errcnt = 0; ds1624_sns[idx].misscnt = 0; DS1624_Restart(config,idx); AddLog_P(LOG_LEVEL_INFO, "Hot Plug %s addr %x config: %x", ds1624_sns[idx].name, addr, config); } } void DS1624_HotPlugDown(int idx) { uint32_t addr = DS1624_Idx2Addr(idx); if (!I2cActive(addr)) { return; } I2cResetActive(addr); ds1624_sns[idx].valid = false; AddLog_P(LOG_LEVEL_INFO, "Hot UnPlug %s", ds1624_sns[idx].name); } bool DS1624GetTemp(float *value, int idx) { uint32_t addr = DS1624_Idx2Addr(idx); uint8_t config; if (!I2cValidRead8(&config, addr, DS1624_CONF_REGISTER)) { ds1624_sns[idx].misscnt++; AddLog_P(LOG_LEVEL_INFO, "%s device missing (errors: %i)", ds1624_sns[idx].name, ds1624_sns[idx].misscnt); return false; } ds1624_sns[idx].misscnt=0; if (config & (DS1621_CFG_1SHOT|DS1621_CFG_DONE)) { ds1624_sns[idx].errcnt++; AddLog_P(LOG_LEVEL_INFO, "%s config error, restart... (errors: %i)", ds1624_sns[idx].name, ds1624_sns[idx].errcnt); DS1624_Restart(config, idx); return false; } uint16_t t; if (!I2cValidRead16(&t, DS1624_Idx2Addr(idx), DS1624_TEMP_REGISTER)) { return false; } if (ds1624_sns[idx].type == DS1624_TYPE_DS1624) { *value = ((float)(int8_t)(t>>8)) + ((t>>4)&0xf)*0.0625; } else { //type == DS1624_TYPE_DS1621 // Datasheet for ds1621 is wrong for high resolution, real is: *value = ((float)(int8_t)(t>>8)); uint8_t remain; if (!I2cValidRead8(&remain, addr, DS1621_COUNTER_REGISTER)) { return true; } uint8_t perc; if (!I2cValidRead8(&perc, addr, DS1621_SLOPE_REGISTER)) { return true; } float fix=(float)(perc - remain)/(float)perc; *value+=fix; } ds1624_sns[idx].errcnt=0; config &= ~(DS1621_CFG_DONE); I2cWrite8(addr, DS1624_CONF_REGISTER, config); return true; } void DS1624HotPlugScan(void) { uint16_t t; for (uint32_t idx = 0; idx < DS1624_MAX_SENSORS; idx++) { uint32_t addr = DS1624_Idx2Addr(idx); if (I2cActive(addr) && !ds1624_sns[idx].valid) { continue; // is busy by another driver } if (ds1624_sns[idx].valid) { if ((ds1624_sns[idx].misscnt>2)||(ds1624_sns[idx].errcnt>2)) { DS1624_HotPlugDown(idx); continue; } } DS1624_HotPlugUp(idx); } } void DS1624EverySecond(void) { float t; for (uint32_t i = 0; i < DS1624_MAX_SENSORS; i++) { if (!ds1624_sns[i].valid) { continue; } if (!DS1624GetTemp(&t, i)) { continue; } ds1624_sns[i].value = ConvertTemp(t); } } void DS1624Show(bool json) { char temperature[33]; bool once = true; for (uint32_t i = 0; i < DS1624_MAX_SENSORS; i++) { if (!ds1624_sns[i].valid) { continue; } dtostrfd(ds1624_sns[i].value, Settings.flag2.temperature_resolution, temperature); if (json) { ResponseAppend_P(JSON_SNS_TEMP, ds1624_sns[i].name, temperature); if ((0 == TasmotaGlobal.tele_period) && once) { #ifdef USE_DOMOTICZ DomoticzSensor(DZ_TEMP, temperature); #endif // USE_DOMOTICZ #ifdef USE_KNX KnxSensor(KNX_TEMPERATURE, ds1624_sns[i].value); #endif // USE_KNX once = false; } #ifdef USE_WEBSERVER } else { WSContentSend_PD(HTTP_SNS_TEMP, ds1624_sns[i].name, temperature, TempUnit()); #endif // USE_WEBSERVER } } } /*********************************************************************************************\ * Interface \*********************************************************************************************/ bool Xsns59(uint8_t function) { if (!I2cEnabled(XI2C_42)) { return false; } bool result = false; if (FUNC_INIT == function) { if (!ds1624_init) { memset(ds1624_sns, 0, sizeof(ds1624_sns)); ds1624_init = true; DS1624HotPlugScan(); // If HotPlug is off } } switch (function) { case FUNC_HOTPLUG_SCAN: DS1624HotPlugScan(); break; case FUNC_EVERY_SECOND: DS1624EverySecond(); break; case FUNC_JSON_APPEND: DS1624Show(1); break; #ifdef USE_WEBSERVER case FUNC_WEB_SENSOR: DS1624Show(0); break; #endif // USE_WEBSERVER } return result; } #endif // USE_DS1624 #endif // USE_I2C