Tasmota/tasmota/xlgt_04_sm2135.ino

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/*
xlgt_04_sm2135.ino - sm2135 five channel led support for Tasmota
Copyright (C) 2020 Theo Arends and CrudelisPL
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 <http://www.gnu.org/licenses/>.
*/
#ifdef USE_LIGHT
#ifdef USE_SM2135
/*********************************************************************************************\
* SM2135 RGBCW Led bulbs like some Action LSC SmartLed or Polux
*
* Action LSC SmartLed (GreenRedBlue)
* {"NAME":"LSC RGBCW LED","GPIO":[0,0,0,0,0,0,0,0,181,0,180,0,0],"FLAG":0,"BASE":18}
* Polux E14 (BlueGreenRed) - Notice GPIO00 = 9 (Switch1)
* {"NAME":"Polux RGBCW E14","GPIO":[9,0,0,0,0,0,0,0,181,0,180,0,0],"FLAG":0,"BASE":18}
\*********************************************************************************************/
#define XLGT_04 4
#define SM2135_ADDR_MC 0xC0 // Max current register
#define SM2135_ADDR_CH 0xC1 // RGB or CW channel select register
#define SM2135_ADDR_R 0xC2 // Red color
#define SM2135_ADDR_G 0xC3 // Green color
#define SM2135_ADDR_B 0xC4 // Blue color
#define SM2135_ADDR_C 0xC5 // Cold
#define SM2135_ADDR_W 0xC6 // Warm
#define SM2135_RGB 0x00 // RGB channel
#define SM2135_CW 0x80 // CW channel (Chip default)
#define SM2135_10MA 0x00
#define SM2135_15MA 0x01
#define SM2135_20MA 0x02 // RGB max current (Chip default)
#define SM2135_25MA 0x03
#define SM2135_30MA 0x04 // CW max current (Chip default)
#define SM2135_35MA 0x05
#define SM2135_40MA 0x06
#define SM2135_45MA 0x07 // Max value for RGB
#define SM2135_50MA 0x08
#define SM2135_55MA 0x09
#define SM2135_60MA 0x0A
enum Sm2135Color { SM2135_WCGRB, SM2135_WCBGR };
// RGB current CW current
const uint8_t SM2135_CURRENT = (SM2135_20MA << 4) | SM2135_15MA; // See https://github.com/arendst/Tasmota/issues/6495#issuecomment-549121683
struct SM2135 {
uint8_t clk = 0;
uint8_t data = 0;
uint8_t model = SM2135_WCGRB;
} Sm2135;
/*********************************************************************************************\
* SM2135 code
\*********************************************************************************************/
const uint8_t SM2135_DELAY = 4;
void Sm2135SetLow(uint8_t pin) {
noInterrupts();
digitalWrite(pin, LOW);
pinMode(pin, OUTPUT);
interrupts();
}
void Sm2135SetHigh(uint8_t pin) {
noInterrupts();
pinMode(pin, INPUT_PULLUP);
interrupts();
}
bool Sm2135Init(void) {
digitalWrite(Sm2135.data, LOW);
digitalWrite(Sm2135.clk, LOW);
Sm2135SetHigh(Sm2135.data);
Sm2135SetHigh(Sm2135.clk);
return (!((digitalRead(Sm2135.data) == LOW || digitalRead(Sm2135.clk) == LOW)));
}
bool Sm2135Write(uint8_t value) {
for (uint8_t curr = 0X80; curr != 0; curr >>= 1) {
if (curr & value) {
Sm2135SetHigh(Sm2135.data);
} else {
Sm2135SetLow(Sm2135.data);
}
Sm2135SetHigh(Sm2135.clk);
delayMicroseconds(SM2135_DELAY);
Sm2135SetLow(Sm2135.clk);
}
// get Ack or Nak
Sm2135SetHigh(Sm2135.data);
Sm2135SetHigh(Sm2135.clk);
delayMicroseconds(SM2135_DELAY / 2);
uint8_t ack = digitalRead(Sm2135.data);
Sm2135SetLow(Sm2135.clk);
delayMicroseconds(SM2135_DELAY / 2);
Sm2135SetLow(Sm2135.data);
return (0 == ack);
}
bool Sm2135Start(uint8_t addr) {
Sm2135SetLow(Sm2135.data);
delayMicroseconds(SM2135_DELAY);
Sm2135SetLow(Sm2135.clk);
return Sm2135Write(addr);
}
void Sm2135Stop(void) {
Sm2135SetLow(Sm2135.data);
delayMicroseconds(SM2135_DELAY);
Sm2135SetHigh(Sm2135.clk);
delayMicroseconds(SM2135_DELAY);
Sm2135SetHigh(Sm2135.data);
delayMicroseconds(SM2135_DELAY);
}
/********************************************************************************************/
bool Sm2135SetChannels(void) {
uint8_t *cur_col = (uint8_t*)XdrvMailbox.data;
uint8_t data[6];
Sm2135Start(SM2135_ADDR_MC);
Sm2135Write(SM2135_CURRENT);
if ((0 == cur_col[0]) && (0 == cur_col[1]) && (0 == cur_col[2])) {
Sm2135Write(SM2135_CW);
Sm2135Stop();
delay(1);
Sm2135Start(SM2135_ADDR_C);
Sm2135Write(cur_col[4]); // Warm
Sm2135Write(cur_col[3]); // Cold
} else {
Sm2135Write(SM2135_RGB);
if (SM2135_WCBGR == Sm2135.model) {
Sm2135Write(cur_col[2]); // Blue
Sm2135Write(cur_col[1]); // Green
Sm2135Write(cur_col[0]); // Red
} else {
Sm2135Write(cur_col[1]); // Green
Sm2135Write(cur_col[0]); // Red
Sm2135Write(cur_col[2]); // Blue
}
}
Sm2135Stop();
return true;
}
void Sm2135ModuleSelected(void)
{
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if (PinUsed(GPIO_SM2135_CLK) && PinUsed(GPIO_SM2135_DAT)) {
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Sm2135.clk = Pin(GPIO_SM2135_CLK);
Sm2135.data = Pin(GPIO_SM2135_DAT);
Sm2135.model = SM2135_WCGRB;
if (PinUsed(GPIO_SWT1)) {
Sm2135.model = SM2135_WCBGR;
pinMode(Pin(GPIO_SWT1), INPUT); // Discard GPIO_SWT functionality
SetPin(Pin(GPIO_SWT1), AGPIO(GPIO_NONE));
}
Sm2135Init();
light_type = LT_RGBWC;
light_flg = XLGT_04;
AddLog_P2(LOG_LEVEL_DEBUG, PSTR("DBG: SM2135 (%s) Found"), (SM2135_WCBGR == Sm2135.model) ? PSTR("BGR") : PSTR("GRB"));
}
}
/*********************************************************************************************\
* Interface
\*********************************************************************************************/
bool Xlgt04(uint8_t function)
{
bool result = false;
switch (function) {
case FUNC_SET_CHANNELS:
result = Sm2135SetChannels();
break;
case FUNC_MODULE_INIT:
Sm2135ModuleSelected();
break;
}
return result;
}
#endif // USE_SM2135
#endif // USE_LIGHT