Files
SPPro/esp32/sppro_esp32.ino
T

106 lines
3.2 KiB
Arduino

/*
* sppro_esp32.ino - read a Selectronic SP PRO from an ESP32 over UART2.
*
* Reuses the portable core unchanged. Copy src/sppro.c, src/sppro.h, src/md5.c
* and src/md5.h next to this .ino (Arduino compiles all source in the sketch
* folder), or add src/ as a library.
*
* Wiring (see docs/HARDWARE.md) - the SP PRO port is RS-232 (+/-12V), so a
* level shifter is required; do NOT wire it straight to the ESP32:
*
* SP PRO RJ45 pin 3 (TXD) --> MAX3232 R1IN ; R1OUT --> ESP32 GPIO16 (RX2)
* ESP32 GPIO17 (TX2) --> MAX3232 T1IN ; T1OUT --> SP PRO RJ45 pin 6 (RXD)
* SP PRO RJ45 pin 4/5 (GND)--> MAX3232 GND --> ESP32 GND (common ground!)
* ESP32 3V3 --> MAX3232 VCC (+ four 0.1uF charge-pump caps)
*
* Set SPPRO_PASSWORD to the inverter's serial-port password ("" if none).
*/
extern "C" {
#include "sppro.h"
}
static const int PIN_RX = 16; /* ESP32 RX2 <- MAX3232 R1OUT */
static const int PIN_TX = 17; /* ESP32 TX2 -> MAX3232 T1IN */
static const char *SPPRO_PASSWORD = "";
static sppro_scales_t g_scales;
static bool g_ready = false;
/* ----- transport bound to Serial2 ---------------------------------------- */
static int esp_read(void *ctx, uint8_t *buf, size_t len) {
(void)ctx;
size_t got = 0;
/* brief wait so a frame that is mid-flight is not reported as "empty" */
unsigned long start = millis();
while (got < len && (millis() - start) < 200) {
while (Serial2.available() && got < len) {
buf[got++] = (uint8_t)Serial2.read();
start = millis();
}
if (got == 0) delay(1);
else break;
}
return (int)got; /* 0 on timeout */
}
static int esp_write(void *ctx, const uint8_t *buf, size_t len) {
(void)ctx;
return (int)Serial2.write(buf, len);
}
static sppro_transport_t g_transport = { esp_read, esp_write, nullptr };
/* ----- sketch ------------------------------------------------------------- */
static bool connect_sppro() {
if (sppro_session_login(&g_transport, SPPRO_PASSWORD) != SPPRO_OK) {
Serial.println("login failed - check wiring/password");
return false;
}
if (sppro_session_read_scales(&g_transport, &g_scales) != SPPRO_OK) {
Serial.println("could not read scale factors");
return false;
}
Serial.println("connected to SP PRO");
return true;
}
static void show(const char *name) {
const sppro_reg_t *reg = sppro_reg_by_name(name);
double value;
if (!reg) return;
if (sppro_session_read(&g_transport, reg, &g_scales, &value) != SPPRO_OK) {
Serial.printf("%-26s (read error)\n", reg->description);
return;
}
if (reg->conv == SPPRO_C_SHUNT_NAME)
Serial.printf("%-26s %12s\n", reg->description, sppro_shunt_name((int)value));
else
Serial.printf("%-26s %12.2f %s\n", reg->description, value, reg->units);
}
void setup() {
Serial.begin(115200);
Serial2.begin(SPPRO_BAUD, SERIAL_8N1, PIN_RX, PIN_TX);
delay(200);
g_ready = connect_sppro();
}
void loop() {
if (!g_ready) {
delay(2000);
g_ready = connect_sppro();
return;
}
Serial.println("\n== Selectronic SP PRO ==");
show("BatteryVolts");
show("BattSocPercent");
show("BatteryTemperature");
show("DCBatteryPower");
show("LoadAcPower");
show("CombinedKacoAcPowerHiRes");
show("ACGeneratorPower");
delay(5000);
}