vivarox/arduino
3
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Work on better code

Browse Source
This commit is contained in:
Warky 2024-09-21 10:25:23 +02:00
parent 5e5a8e254e
commit 1d185ec449
5 changed files with 1430 additions and 592 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

1178
docs/PowerLogic-PM8000/genreg/PM8000_Modbus_Map_ad.h
View File

File diff suppressed because it is too large Load Diff

6
docs/PowerLogic-PM8000/genreg/buildregmap2.py
View File

@ -8,13 +8,13 @@ file.close()
header = """ header = """
#include <stdint.h> #include <stdint.h>
struct PM8000RegType struct RegisterMap
{ {
uint16_t regaddr; uint16_t regaddr;
uint8_t regtype; uint8_t regtype;
}; };
const PROGMEM PM8000RegType registers[] = { const PROGMEM RegisterMap registers[] = {
[replace] [replace]
} }
; ;
@ -47,7 +47,7 @@ for d in range(1, len(data)):
#print("{} @ {}:{} ({}) Tag: {}".format(data[d][0], data[d][1] ,data[d][2] ,data[d][3],data[d][7])) #print("{} @ {}:{} ({}) Tag: {}".format(data[d][0], data[d][1] ,data[d][2] ,data[d][3],data[d][7]))
lines += " { " + data[d][1] + ", " + str(typeint) + "} ,\n" lines += " { " + data[d][1] + ", " + str(typeint) + "} , // Name: " + data[d][0] + " (" + data[d][8] + ") - [" + data[d][1] + "," + data[d][2] + "]" + " as " + data[d][3] + "\n"
# #

211
firmware/modbus-sd/modbus-sd-pm8000/modbus-sd-pm8000.ino Normal file
View File

@ -0,0 +1,211 @@
#include <Wire.h>
#include <RTClib.h>
#include <NeoSWSerial.h>
#include <ModbusMaster.h>
#include "util.h"
#include "register_map_pm8000.h"
//#include <SD.h>
#include <SPI.h>
#include <SdFat.h>
#define SD_CS_PIN 10 // Chip Select for SD Card
//RS485 pins
#define DE_RE_PIN 4
#define RX_PIN 8 // SoftwareSerial RX pin
#define TX_PIN 7 // SoftwareSerial TX pin
#define SLAVE_ID 101
#define SERIAL_BAUDRATE 9600
// Try to select the best SD card configuration.
#define SPI_CLOCK SD_SCK_MHZ(50)
#if HAS_SDIO_CLASS
#define SD_CONFIG SdioConfig(FIFO_SDIO)
#elif ENABLE_DEDICATED_SPI
#define SD_CONFIG SdSpiConfig(SD_CS_PIN, DEDICATED_SPI, SPI_CLOCK)
#else // HAS_SDIO_CLASS
#define SD_CONFIG SdSpiConfig(SD_CS_PIN, SHARED_SPI, SPI_CLOCK)
#endif // HAS_SDIO_CLASS
RTC_DS3231 rtc; // Create an RTC object
SdFat32 sd;
//SdExFat sd;
File dataFile;
NeoSWSerial modbusSerial(RX_PIN, TX_PIN); // Create a software serial instance
ModbusMaster node;
void setup()
{
Serial.begin(SERIAL_BAUDRATE); // For debugging
Serial.println(F("Startup \n"));
// Initialize RTC
if (!rtc.begin())
{
Serial.println(F("Couldn't find RTC\n"));
}
if (rtc.lostPower())
{
Serial.println(F("RTC lost power, let's set the time!\n"));
// Comment out the following line once the time is set to avoid resetting on every start
rtc.adjust(DateTime(F(__DATE__), F(__TIME__)));
}
Serial.print(F("Time: "));
Serial.print(rtc.now().timestamp());
Serial.println(F("\n"));
// Initialize SD card
Serial.println(F("SD card initializing..."));
pinMode(SD_CS_PIN, OUTPUT);
// if (!SD.begin(SPI_HALF_SPEED, SD_CS_PIN ))
// {
// Serial.println(F("SD card initialization failed!\n"));
// return;
// }
// Initialize the SD.
if (!sd.begin(SD_CONFIG)) {
sd.initErrorHalt(&Serial);
return;
}
Serial.println(F("SD card initialized.\n"));
Serial.println(F("Initialize RS485 module / Modbus \n"));
pinMode(DE_RE_PIN, OUTPUT);
digitalWrite(DE_RE_PIN, LOW); // Set to LOW for receiving mode initially
modbusSerial.begin(SERIAL_BAUDRATE);
node.begin(SLAVE_ID, modbusSerial);
node.preTransmission(preTransmission);
node.postTransmission(postTransmission);
}
void preTransmission()
{
digitalWrite(DE_RE_PIN, HIGH); // Enable RS485 transmit
}
void postTransmission()
{
digitalWrite(DE_RE_PIN, LOW); // Disable RS485 transmit
}
void writeFile(char *str)
{
if (!dataFile)
{
Serial.println(F("Error opening file"));
return;
}
DateTime now = rtc.now();
// Log the current date and time
dataFile.print(now.year(), DEC);
dataFile.print('-');
dataFile.print(now.month(), DEC);
dataFile.print('-');
dataFile.print(now.day(), DEC);
dataFile.print(" ");
dataFile.print(now.hour(), DEC);
dataFile.print(':');
dataFile.print(now.minute(), DEC);
dataFile.print(':');
dataFile.print(now.second(), DEC);
dataFile.print(F(","));
dataFile.print(str);
dataFile.println();
}
String getFilename()
{
DateTime now = rtc.now();
String mb = F("");
mb += now.year();
mb += now.month();
mb += now.day();
mb += F(".csv");
return mb;
}
unsigned long lastRefreshTime = 0;
String writebuffer;
void loop()
{
delay(100);
if(millis() - lastRefreshTime >= 1000)
{
lastRefreshTime += 1000;
Serial.print(F("\nTime: "));
Serial.print(rtc.now().timestamp());
// Serial.print("\nHeep:");
// Serial.print(ESP.getFreeHeap());
Serial.print("\n");
// Open file for writing
String filename = getFilename();
dataFile.open(filename.c_str(), FILE_WRITE);
Serial.print(F("Open Card "));
Serial.print(filename.c_str());
Serial.print("\n");
writeFile(writebuffer.c_str());
if (dataFile)
{
dataFile.close(); // Close the file
Serial.print(F("Data written to SD card: "));
Serial.print(filename.c_str());
Serial.print(F("\n"));
}
Serial.print(F("\n\n"));
}
for (int i = 0; i < 10; i++) {
Serial.print(F("\naddress: "));
Serial.print(registers[i].regaddr);
Serial.print(F("\ntype: "));
Serial.print(registers[i].regtype);
Serial.print(F("\n "));
if (registers[i].regaddr > 0) {
uint8_t result = node.readHoldingRegisters(registers[i].regaddr-1 , 2);
if (result == node.ku8MBSuccess)
{
if (registers[i].regtype == 2) {
writebuffer += getRegisterFloat(node.getResponseBuffer(0),node.getResponseBuffer(1)) + ",";
} else if (registers[i].regtype == 1) {
writebuffer += node.getResponseBuffer(0) + ",";
} else if (registers[i].regtype == 3) {
writebuffer += getRegisterInt64(node.getResponseBuffer(0),node.getResponseBuffer(1),node.getResponseBuffer(2),node.getResponseBuffer(3)) + ",";
}else if (registers[i].regtype == 0) {
writebuffer += getRegisterInt32(node.getResponseBuffer(0),node.getResponseBuffer(1)) + ",";
}
Serial.print(F("Modbus Read successful:"));
} else {
writebuffer += "E" + result + ",";
Serial.print(F("Modbus Read error: "));
Serial.println(result, HEX);
}
}
}
// // Check if the read was successful
delay(100);
}

600
firmware/modbus-sd/modbus-sd-pm8000/register_map_pm8000.h Normal file
View File

@ -0,0 +1,600 @@
#include <stdint.h>
struct RegisterMap
{
uint16_t regaddr;
uint8_t regtype;
};
const PROGMEM RegisterMap registers[] = {
{ 1837, 1} , // Name: Year (Year) - [1837,1] as INT16U
{ 1838, 1} , // Name: Month (Month) - [1838,1] as INT16U
{ 1839, 1} , // Name: Day (Day) - [1839,1] as INT16U
{ 1840, 1} , // Name: Hour (Hour) - [1840,1] as INT16U
{ 1841, 1} , // Name: Minute (Minute) - [1841,1] as INT16U
{ 2700, 2} , // Name: Active Energy Delivered (Into Load) (kWh del) - [2700,2] as FLOAT32
{ 2702, 2} , // Name: Active Energy Received (Out of Load) (kWh rec) - [2702,2] as FLOAT32
{ 2704, 2} , // Name: Active Energy Delivered + Received (kWh del+rec) - [2704,2] as FLOAT32
{ 2706, 2} , // Name: Active Energy Delivered- Received (kWh del-rec) - [2706,2] as FLOAT32
// { 2708, 2} , // Name: Reactive Energy Delivered (kVARh del) - [2708,2] as FLOAT32
// { 2710, 2} , // Name: Reactive Energy Received (kVARh rec) - [2710,2] as FLOAT32
// { 2712, 2} , // Name: Reactive Energy Delivered + Received (kVARh del+rec) - [2712,2] as FLOAT32
// { 2714, 2} , // Name: Reactive Energy Delivered - Received (kVARh del-rec) - [2714,2] as FLOAT32
// { 2716, 2} , // Name: Apparent Energy Delivered (kVAh del) - [2716,2] as FLOAT32
// { 2718, 2} , // Name: Apparent Energy Received (kVAh rec) - [2718,2] as FLOAT32
// { 2720, 2} , // Name: Apparent Energy Delivered + Received (kVAh del+rec) - [2720,2] as FLOAT32
// { 2722, 2} , // Name: Apparent Energy Delivered - Received (kVAh del-rec) - [2722,2] as FLOAT32
// { 2724, 2} , // Name: Active Energy in Quadrant I (kWh Q1) - [2724,2] as FLOAT32
// { 2726, 2} , // Name: Active Energy in Quadrant II (kWh Q2) - [2726,2] as FLOAT32
// { 2728, 2} , // Name: Active Energy in Quadrant III (kWh Q3) - [2728,2] as FLOAT32
// { 2730, 2} , // Name: Active Energy in Quadrant IV (kWh Q4) - [2730,2] as FLOAT32
// { 2732, 2} , // Name: Reactive Energy in Quadrant I (kVARh Q1) - [2732,2] as FLOAT32
// { 2734, 2} , // Name: Reactive Energy in Quadrant II (kVARh Q2) - [2734,2] as FLOAT32
// { 2736, 2} , // Name: Reactive Energy in Quadrant III (kVARh Q3) - [2736,2] as FLOAT32
// { 2738, 2} , // Name: Reactive Energy in Quadrant IV (kVARh Q4) - [2738,2] as FLOAT32
// { 2740, 2} , // Name: Apparent Energy in Quadrant I (kVAh Q1) - [2740,2] as FLOAT32
// { 2742, 2} , // Name: Apparent Energy in Quadrant II (kVAh Q2) - [2742,2] as FLOAT32
// { 2744, 2} , // Name: Apparent Energy in Quadrant III (kVAh Q3) - [2744,2] as FLOAT32
// { 2746, 2} , // Name: Apparent Energy in Quadrant IV (kVAh Q4) - [2746,2] as FLOAT32
// { 2748, 2} , // Name: Conditional Active Energy Delivered (Into Load) (Cnd kWh del) - [2748,2] as FLOAT32
// { 2750, 2} , // Name: Conditional Active Energy Received (Out of Load) (Cnd kWh rec) - [2750,2] as FLOAT32
// { 2754, 2} , // Name: Active Energy Delivered - Received, Conditional (Cnd kWh d-r) - [2754,2] as FLOAT32
// { 2756, 2} , // Name: Conditional Reactive Energy In (Delivered) (Cnd kVARh del) - [2756,2] as FLOAT32
// { 2758, 2} , // Name: Conditional Reactive Energy Out (Received) (Cnd kVARh rec) - [2758,2] as FLOAT32
// { 2762, 2} , // Name: Reactive Energy Delivered - Received, Conditional (Cnd kVARh d-r) - [2762,2] as FLOAT32
// { 2768, 2} , // Name: Apparent Energy Delivered + Received, Conditional (Cnd kVAh d+r) - [2768,2] as FLOAT32
// { 2772, 2} , // Name: Active Energy Delivered , Last Complete Interval (Inc kWh del C) - [2772,2] as FLOAT32
// { 2774, 2} , // Name: Active Energy Received , Last Complete Interval (Inc kWh rec C) - [2774,2] as FLOAT32
// { 2776, 2} , // Name: Active Energy Delivered - Received , Last Complete Interval (Inc kWh d-r C) - [2776,2] as FLOAT32
// { 2778, 2} , // Name: Reactive Energy Delivered , Last Complete Interval (Inc kVARh del C) - [2778,2] as FLOAT32
// { 2780, 2} , // Name: Reactive Energy Received , Last Complete Interval (Inc kVARh rec C) - [2780,2] as FLOAT32
// { 2782, 2} , // Name: Reactive Energy Delivered - Received , Last Complete Interval (Inc kVARh d-r C) - [2782,2] as FLOAT32
// { 2784, 2} , // Name: Apparent Energy Delivered + Received , Last Complete Interval (Inc kVAh d+r C) - [2784,2] as FLOAT32
// { 2786, 2} , // Name: Active Energy Delivered , Present Interval (Inc kWh del) - [2786,2] as FLOAT32
// { 2788, 2} , // Name: Active Energy Received , Present Interval (Inc kWh rec) - [2788,2] as FLOAT32
// { 2790, 2} , // Name: Active Energy Delivered - Received , Present Interval (Inc kWh d-r) - [2790,2] as FLOAT32
// { 2792, 2} , // Name: Reactive Energy Delivered , Present Interval (Inc kVARh del) - [2792,2] as FLOAT32
// { 2794, 2} , // Name: Reactive Energy Received , Present Interval (Inc kVARh rec) - [2794,2] as FLOAT32
// { 2796, 2} , // Name: Reactive Energy Delivered - Received , Present Interval (Inc kVARh d-r) - [2796,2] as FLOAT32
// { 2798, 2} , // Name: Apparent Energy Delivered + Received , Present Interval (Inc kVAh d+r) - [2798,2] as FLOAT32
// { 2800, 2} , // Name: Active Energy Delivered Interval (kWh del int) - [2800,2] as FLOAT32
// { 2802, 2} , // Name: Active Energy Received Interval (kWh rec int) - [2802,2] as FLOAT32
// { 2804, 2} , // Name: Reactive Energy Delivered Interval (kVARh del int) - [2804,2] as FLOAT32
// { 2806, 2} , // Name: Reactive Energy Received Interval (kVARh rec int) - [2806,2] as FLOAT32
// { 2808, 2} , // Name: Apparent Energy Delivered Interval (kVAh del int) - [2808,2] as FLOAT32
// { 2810, 2} , // Name: Apparent Energy Received Interval (kVAh rec int) - [2810,2] as FLOAT32
{ 3000, 2} , // Name: Current A (I a) - [3000,2] as FLOAT32
{ 3002, 2} , // Name: Current B (I b) - [3002,2] as FLOAT32
{ 3004, 2} , // Name: Current C (I c) - [3004,2] as FLOAT32
{ 3006, 2} , // Name: Current N (I 4) - [3006,2] as FLOAT32
{ 3008, 2} , // Name: Current G (I 5) - [3008,2] as FLOAT32
//{ 3010, 2} , // Name: Current Avg (I avg) - [3010,2] as FLOAT32
{ 3020, 2} , // Name: Voltage A-B (Vll ab) - [3020,2] as FLOAT32
{ 3022, 2} , // Name: Voltage B-C (Vll bc) - [3022,2] as FLOAT32
{ 3024, 2} , // Name: Voltage C-A (Vll ca) - [3024,2] as FLOAT32
//{ 3026, 2} , // Name: Voltage L-L Avg (Vll avg) - [3026,2] as FLOAT32
{ 3028, 2} , // Name: Voltage A-N (Vln a) - [3028,2] as FLOAT32
{ 3030, 2} , // Name: Voltage B-N (Vln b) - [3030,2] as FLOAT32
{ 3032, 2} , // Name: Voltage C-N (Vln c) - [3032,2] as FLOAT32
// { 3036, 2} , // Name: Voltage L-N Avg (Vln avg) - [3036,2] as FLOAT32
{ 3054, 2} , // Name: Active Power A (kW a) - [3054,2] as FLOAT32
{ 3056, 2} , // Name: Active Power B (kW b) - [3056,2] as FLOAT32
{ 3058, 2} , // Name: Active Power C (kW c) - [3058,2] as FLOAT32
// { 3060, 2} , // Name: Active Power Total (kW tot) - [3060,2] as FLOAT32
// { 3062, 2} , // Name: Reactive Power A (kVAR a) - [3062,2] as FLOAT32
// { 3064, 2} , // Name: Reactive Power B (kVAR b) - [3064,2] as FLOAT32
// { 3066, 2} , // Name: Reactive Power C (kVAR c) - [3066,2] as FLOAT32
// { 3068, 2} , // Name: Reactive Power Total (kVAR tot) - [3068,2] as FLOAT32
// { 3070, 2} , // Name: Apparent Power A (kVA a) - [3070,2] as FLOAT32
// { 3072, 2} , // Name: Apparent Power B (kVA b) - [3072,2] as FLOAT32
// { 3074, 2} , // Name: Apparent Power C (kVA c) - [3074,2] as FLOAT32
// { 3076, 2} , // Name: Apparent Power Total (kVA tot) - [3076,2] as FLOAT32
// { 3110, 2} , // Name: Frequency (Freq) - [3110,2] as FLOAT32
// { 3204, 3} , // Name: Active Energy Delivered (Into Load) (kWh del) - [3204,4] as INT64
// { 3208, 3} , // Name: Active Energy Received (Out of Load) (kWh rec) - [3208,4] as INT64
// { 3212, 3} , // Name: Active Energy Delivered + Received (kWh del+rec) - [3212,4] as INT64
// { 3216, 3} , // Name: Active Energy Delivered- Received (kWh del-rec) - [3216,4] as INT64
// { 3220, 3} , // Name: Reactive Energy Delivered (kVARh del) - [3220,4] as INT64
// { 3224, 3} , // Name: Reactive Energy Received (kVARh rec) - [3224,4] as INT64
// { 3228, 3} , // Name: Reactive Energy Delivered + Received (kVARh del+rec) - [3228,4] as INT64
// { 3232, 3} , // Name: Reactive Energy Delivered - Received (kVARh del-rec) - [3232,4] as INT64
// { 3236, 3} , // Name: Apparent Energy Delivered (kVAh del) - [3236,4] as INT64
// { 3240, 3} , // Name: Apparent Energy Received (kVAh rec) - [3240,4] as INT64
// { 3244, 3} , // Name: Apparent Energy Delivered + Received (kVAh del+rec) - [3244,4] as INT64
// { 3248, 3} , // Name: Apparent Energy Delivered - Received (kVAh del-rec) - [3248,4] as INT64
// { 3256, 3} , // Name: Active Energy in Quadrant I (kWh Q1) - [3256,4] as INT64
// { 3260, 3} , // Name: Active Energy in Quadrant II (kWh Q2) - [3260,4] as INT64
// { 3264, 3} , // Name: Active Energy in Quadrant III (kWh Q3) - [3264,4] as INT64
// { 3268, 3} , // Name: Active Energy in Quadrant IV (kWh Q4) - [3268,4] as INT64
// { 3272, 3} , // Name: Reactive Energy in Quadrant I (kVARh Q1) - [3272,4] as INT64
// { 3276, 3} , // Name: Reactive Energy in Quadrant II (kVARh Q2) - [3276,4] as INT64
// { 3280, 3} , // Name: Reactive Energy in Quadrant III (kVARh Q3) - [3280,4] as INT64
// { 3284, 3} , // Name: Reactive Energy in Quadrant IV (kVARh Q4) - [3284,4] as INT64
// { 3288, 3} , // Name: Apparent Energy in Quadrant I (kVAh Q1) - [3288,4] as INT64
// { 3292, 3} , // Name: Apparent Energy in Quadrant II (kVAh Q2) - [3292,4] as INT64
// { 3296, 3} , // Name: Apparent Energy in Quadrant III (kVAh Q3) - [3296,4] as INT64
// { 3300, 3} , // Name: Apparent Energy in Quadrant IV (kVAh Q4) - [3300,4] as INT64
// { 3358, 3} , // Name: Conditional Active Energy Delivered (Into Load) (Cnd kWh del) - [3358,4] as INT64
// { 3362, 3} , // Name: Conditional Active Energy Received (Out of Load) (Cnd kWh rec) - [3362,4] as INT64
// { 3370, 3} , // Name: Active Energy Delivered - Received, Conditional (Cnd kWh d-r) - [3370,4] as INT64
// { 3374, 3} , // Name: Conditional Reactive Energy In (Delivered) (Cnd kVARh del) - [3374,4] as INT64
// { 3378, 3} , // Name: Conditional Reactive Energy Out (Received) (Cnd kVARh rec) - [3378,4] as INT64
// { 3386, 3} , // Name: Reactive Energy Delivered - Received, Conditional (Cnd kVARh d-r) - [3386,4] as INT64
// { 3398, 3} , // Name: Apparent Energy Delivered + Received, Conditional (Cnd kVAh d+r) - [3398,4] as INT64
// { 3414, 3} , // Name: Active Energy Delivered , Last Complete Interval (Inc kWh del C) - [3414,4] as INT64
// { 3418, 3} , // Name: Active Energy Received , Last Complete Interval (Inc kWh rec C) - [3418,4] as INT64
// { 3422, 3} , // Name: Active Energy Delivered - Received , Last Complete Interval (Inc kWh d-r C) - [3422,4] as INT64
// { 3426, 3} , // Name: Reactive Energy Delivered , Last Complete Interval (Inc kVARh del C) - [3426,4] as INT64
// { 3430, 3} , // Name: Reactive Energy Received , Last Complete Interval (Inc kVARh rec C) - [3430,4] as INT64
// { 3434, 3} , // Name: Reactive Energy Delivered - Received , Last Complete Interval (Inc kVARh d-r C) - [3434,4] as INT64
// { 3438, 3} , // Name: Apparent Energy Delivered + Received , Last Complete Interval (Inc kVAh d+r C) - [3438,4] as INT64
// { 3442, 3} , // Name: Active Energy Delivered , Present Interval (Inc kWh del) - [3442,4] as INT64
// { 3446, 3} , // Name: Active Energy Received , Present Interval (Inc kWh rec) - [3446,4] as INT64
// { 3450, 3} , // Name: Active Energy Delivered - Received , Present Interval (Inc kWh d-r) - [3450,4] as INT64
// { 3454, 3} , // Name: Reactive Energy Delivered , Present Interval (Inc kVARh del) - [3454,4] as INT64
// { 3458, 3} , // Name: Reactive Energy Received , Present Interval (Inc kVARh rec) - [3458,4] as INT64
// { 3462, 3} , // Name: Reactive Energy Delivered - Received , Present Interval (Inc kVARh d-r) - [3462,4] as INT64
// { 3466, 3} , // Name: Apparent Energy Delivered + Received , Present Interval (Inc kVAh d+r) - [3466,4] as INT64
// { 3470, 3} , // Name: Active Energy Delivered Interval (kWh del int) - [3470,4] as INT64
// { 3474, 3} , // Name: Active Energy Received Interval (kWh rec int) - [3474,4] as INT64
// { 3478, 3} , // Name: Reactive Energy Delivered Interval (kVARh del int) - [3478,4] as INT64
// { 3482, 3} , // Name: Reactive Energy Received Interval (kVARh rec int) - [3482,4] as INT64
// { 3486, 3} , // Name: Apparent Energy Delivered Interval (kVAh del int) - [3486,4] as INT64
// { 3490, 3} , // Name: Apparent Energy Received Interval (kVAh rec int) - [3490,4] as INT64
// { 3650, 2} , // Name: Current A Squared Hours (MU Ia^2h) - [3650,2] as FLOAT32
// { 3652, 2} , // Name: Current B Square Hours (MU Ib^2h) - [3652,2] as FLOAT32
// { 3654, 2} , // Name: Current C Square Hours (MU Ic^2h) - [3654,2] as FLOAT32
// { 3656, 2} , // Name: Voltage A-B Square Hours (MU Vll ab^2h) - [3656,2] as FLOAT32
// { 3658, 2} , // Name: Voltage B-C Square Hours (MU Vll bc^2h) - [3658,2] as FLOAT32
// { 3660, 2} , // Name: Voltage C-A Square Hours (MU Vll ca^2h) - [3660,2] as FLOAT32
// { 3668, 2} , // Name: Current A Squared Hours (MU Ia^2h int) - [3668,2] as FLOAT32
// { 3670, 2} , // Name: Current B Square Hours (MU Ib^2h int) - [3670,2] as FLOAT32
// { 3672, 2} , // Name: Current C Square Hours (MU Ic^2h int) - [3672,2] as FLOAT32
// { 3674, 2} , // Name: Voltage A-B Square Hours (MU Vllab^2h int) - [3674,2] as FLOAT32
// { 3676, 2} , // Name: Voltage B-C Square Hours (MU Vllbc^2h int) - [3676,2] as FLOAT32
// { 3678, 2} , // Name: Voltage C-A Square Hours (MU Vllca^2h int) - [3678,2] as FLOAT32
// { 3680, 2} , // Name: Voltage A-N Square Hours (MU Vlna^2h int) - [3680,2] as FLOAT32
// { 3682, 2} , // Name: Voltage B-N Square Hours (MU Vlnb^2h int) - [3682,2] as FLOAT32
// { 3684, 2} , // Name: Voltage C-N Square Hours (MU Vlnc^2h int) - [3684,2] as FLOAT32
// { 4196, 3} , // Name: Active Energy Delivered Rate 1 (kWh del A) - [4196,4] as INT64
// { 4200, 3} , // Name: Active Energy Delivered Rate 2 (kWh del B) - [4200,4] as INT64
// { 4204, 3} , // Name: Active Energy Delivered Rate 3 (kWh del C) - [4204,4] as INT64
// { 4208, 3} , // Name: Active Energy Delivered Rate 4 (kWh del D) - [4208,4] as INT64
// { 4228, 3} , // Name: Active Energy Received Rate 1 (kWh rec A) - [4228,4] as INT64
// { 4232, 3} , // Name: Active Energy Received Rate 2 (kWh rec B) - [4232,4] as INT64
// { 4236, 3} , // Name: Active Energy Received Rate 3 (kWh rec C) - [4236,4] as INT64
// { 4240, 3} , // Name: Active Energy Received Rate 4 (kWh rec D) - [4240,4] as INT64
// { 4260, 3} , // Name: Reactive Energy Delivered Rate 1 (kVARh del A) - [4260,4] as INT64
// { 4264, 3} , // Name: Reactive Energy Delivered Rate 2 (kVARh del B) - [4264,4] as INT64
// { 4268, 3} , // Name: Reactive Energy Delivered Rate 3 (kVARh del C) - [4268,4] as INT64
// { 4272, 3} , // Name: Reactive Energy Delivered Rate 4 (kVARh del D) - [4272,4] as INT64
// { 4292, 3} , // Name: Reactive Energy Received Rate 1 (kVARh rec A) - [4292,4] as INT64
// { 4296, 3} , // Name: Reactive Energy Received Rate 2 (kVARh rec B) - [4296,4] as INT64
// { 4300, 3} , // Name: Reactive Energy Received Rate 3 (kVARh rec C) - [4300,4] as INT64
// { 4304, 3} , // Name: Reactive Energy Received Rate 4 (kVARh rec D) - [4304,4] as INT64
// { 4324, 3} , // Name: Apparent Energy Delivered Rate 1 (kVAh del A) - [4324,4] as INT64
// { 4328, 3} , // Name: Apparent Energy Delivered Rate 2 (kVAh del B) - [4328,4] as INT64
// { 4332, 3} , // Name: Apparent Energy Delivered Rate 3 (kVAh del C) - [4332,4] as INT64
// { 4336, 3} , // Name: Apparent Energy Delivered Rate 4 (kVAh del D) - [4336,4] as INT64
// { 4356, 3} , // Name: Apparent Energy Received Rate 1 (kVAh rec A) - [4356,4] as INT64
// { 4360, 3} , // Name: Apparent Energy Received Rate 2 (kVAh rec B) - [4360,4] as INT64
// { 4364, 3} , // Name: Apparent Energy Received Rate 3 (kVAh rec C) - [4364,4] as INT64
// { 4368, 3} , // Name: Apparent Energy Received Rate 4 (kVAh rec D) - [4368,4] as INT64
// { 4800, 2} , // Name: Active Energy Delivered Rate 1 (kWh del A) - [4800,2] as FLOAT32
// { 4802, 2} , // Name: Active Energy Delivered Rate 2 (kWh del B) - [4802,2] as FLOAT32
// { 4804, 2} , // Name: Active Energy Delivered Rate 3 (kWh del C) - [4804,2] as FLOAT32
// { 4806, 2} , // Name: Active Energy Delivered Rate 4 (kWh del D) - [4806,2] as FLOAT32
// { 4816, 2} , // Name: Active Energy Received Rate 1 (kWh rec A) - [4816,2] as FLOAT32
// { 4818, 2} , // Name: Active Energy Received Rate 2 (kWh rec B) - [4818,2] as FLOAT32
// { 4820, 2} , // Name: Active Energy Received Rate 3 (kWh rec C) - [4820,2] as FLOAT32
// { 4822, 2} , // Name: Active Energy Received Rate 4 (kWh rec D) - [4822,2] as FLOAT32
// { 4832, 2} , // Name: Reactive Energy Delivered Rate 1 (kVARh del A) - [4832,2] as FLOAT32
// { 4834, 2} , // Name: Reactive Energy Delivered Rate 2 (kVARh del B) - [4834,2] as FLOAT32
// { 4836, 2} , // Name: Reactive Energy Delivered Rate 3 (kVARh del C) - [4836,2] as FLOAT32
// { 4838, 2} , // Name: Reactive Energy Delivered Rate 4 (kVARh del D) - [4838,2] as FLOAT32
// { 4848, 2} , // Name: Reactive Energy Received Rate 1 (kVARh rec A) - [4848,2] as FLOAT32
// { 4850, 2} , // Name: Reactive Energy Received Rate 2 (kVARh rec B) - [4850,2] as FLOAT32
// { 4852, 2} , // Name: Reactive Energy Received Rate 3 (kVARh rec C) - [4852,2] as FLOAT32
// { 4854, 2} , // Name: Reactive Energy Received Rate 4 (kVARh rec D) - [4854,2] as FLOAT32
// { 4864, 2} , // Name: Apparent Energy Delivered Rate 1 (kVAh del A) - [4864,2] as FLOAT32
// { 4866, 2} , // Name: Apparent Energy Delivered Rate 2 (kVAh del B) - [4866,2] as FLOAT32
// { 4868, 2} , // Name: Apparent Energy Delivered Rate 3 (kVAh del C) - [4868,2] as FLOAT32
// { 4870, 2} , // Name: Apparent Energy Delivered Rate 4 (kVAh del D) - [4870,2] as FLOAT32
// { 4880, 2} , // Name: Apparent Energy Received Rate 1 (kVAh rec A) - [4880,2] as FLOAT32
// { 4882, 2} , // Name: Apparent Energy Received Rate 2 (kVAh rec B) - [4882,2] as FLOAT32
// { 4884, 2} , // Name: Apparent Energy Received Rate 3 (kVAh rec C) - [4884,2] as FLOAT32
// { 4886, 2} , // Name: Apparent Energy Received Rate 4 (kVAh rec D) - [4886,2] as FLOAT32
// { 14045, 2} , // Name: Pickup Setpoint (Over I 4 High Limit) - [14045,2] as FLOAT32
// { 14049, 2} , // Name: Dropout Setpoint (Over I 4 Low Limit) - [14049,2] as FLOAT32
// { 14325, 2} , // Name: Pickup Setpoint (Over kW sd High Limit) - [14325,2] as FLOAT32
// { 14329, 2} , // Name: Dropout Setpoint (Over kW sd Low Limit) - [14329,2] as FLOAT32
// { 14585, 2} , // Name: Pickup Setpoint (Over I a High Limit) - [14585,2] as FLOAT32
// { 14589, 2} , // Name: Dropout Setpoint (Over I a Low Limit) - [14589,2] as FLOAT32
// { 14605, 2} , // Name: Pickup Setpoint (Over I b High Limit) - [14605,2] as FLOAT32
// { 14609, 2} , // Name: Dropout Setpoint (Over I b Low Limit) - [14609,2] as FLOAT32
// { 14625, 2} , // Name: Pickup Setpoint (Over I c High Limit) - [14625,2] as FLOAT32
// { 14629, 2} , // Name: Dropout Setpoint (Over I c Low Limit) - [14629,2] as FLOAT32
// { 21000, 2} , // Name: HS Current A (HS I a) - [21000,2] as FLOAT32
// { 21002, 2} , // Name: HS Current B (HS I b) - [21002,2] as FLOAT32
// { 21004, 2} , // Name: HS Current C (HS I c) - [21004,2] as FLOAT32
// { 21006, 2} , // Name: HS Current N (HS I 4) - [21006,2] as FLOAT32
// { 21008, 2} , // Name: HS Current G (HS I 5) - [21008,2] as FLOAT32
// { 21010, 2} , // Name: HS Current Avg (HS I avg) - [21010,2] as FLOAT32
// { 21016, 2} , // Name: HS Frequency (HS Freq) - [21016,2] as FLOAT32
// { 21018, 2} , // Name: HS Voltage, A-B (HS Vll ab) - [21018,2] as FLOAT32
// { 21020, 2} , // Name: HS Voltage, B-C (HS Vll bc) - [21020,2] as FLOAT32
// { 21022, 2} , // Name: HS Voltage, C-A (HS Vll ca) - [21022,2] as FLOAT32
// { 21024, 2} , // Name: HS Voltage, L-L Average (HS Vll avg) - [21024,2] as FLOAT32
// { 21026, 2} , // Name: HS Voltage, A-N (HS Vln a) - [21026,2] as FLOAT32
// { 21028, 2} , // Name: HS Voltage, B-N (HS Vln b) - [21028,2] as FLOAT32
// { 21030, 2} , // Name: HS Voltage, C-N (HS Vln c) - [21030,2] as FLOAT32
// { 21034, 2} , // Name: HS Voltage, L-N Average (HS Vln avg) - [21034,2] as FLOAT32
// { 21040, 2} , // Name: HS Active Power A (HS kW a) - [21040,2] as FLOAT32
// { 21042, 2} , // Name: HS Active Power B (HS kW b) - [21042,2] as FLOAT32
// { 21044, 2} , // Name: HS Active Power C (HS kW c) - [21044,2] as FLOAT32
// { 21046, 2} , // Name: HS Active Power Total (HS kW tot) - [21046,2] as FLOAT32
// { 21048, 2} , // Name: HS Reactive Power A (HS kVAR a) - [21048,2] as FLOAT32
// { 21050, 2} , // Name: HS Reactive Power B (HS kVAR b) - [21050,2] as FLOAT32
// { 21052, 2} , // Name: HS Reactive Power C (HS kVAR c) - [21052,2] as FLOAT32
// { 21054, 2} , // Name: HS Reactive Power Total (HS kVAR tot) - [21054,2] as FLOAT32
// { 21056, 2} , // Name: HS Apparent Power A (HS kVA a) - [21056,2] as FLOAT32
// { 21058, 2} , // Name: HS Apparent Power B (HS kVA b) - [21058,2] as FLOAT32
// { 21060, 2} , // Name: HS Apparent Power C (HS kVA c) - [21060,2] as FLOAT32
// { 21062, 2} , // Name: HS Apparent Power Total (HS kVA tot) - [21062,2] as FLOAT32
// { 21358, 2} , // Name: K-Factor A (I1 K Factor) - [21358,2] as FLOAT32
// { 21360, 2} , // Name: K-Factor B (I2 K Factor) - [21360,2] as FLOAT32
// { 21362, 2} , // Name: K-Factor C (I3 K Factor) - [21362,2] as FLOAT32
// { 27218, 2} , // Name: Min Current A (I a mn) - [27218,2] as FLOAT32
// { 27220, 2} , // Name: Min Current B (I b mn) - [27220,2] as FLOAT32
// { 27222, 2} , // Name: Min Current C (I c mn) - [27222,2] as FLOAT32
// { 27224, 2} , // Name: Min Current N (I4 mn) - [27224,2] as FLOAT32
// { 27226, 2} , // Name: Min Current G (I5 mn) - [27226,2] as FLOAT32
// { 27228, 2} , // Name: Min Current Avg (I avg mn) - [27228,2] as FLOAT32
// { 27238, 2} , // Name: Min Voltage A-B (Vll ab mn) - [27238,2] as FLOAT32
// { 27240, 2} , // Name: Min Voltage B-C (Vll bc mn) - [27240,2] as FLOAT32
// { 27242, 2} , // Name: Min Voltage C-A (Vll ca mn) - [27242,2] as FLOAT32
// { 27244, 2} , // Name: Min Voltage L-L Avg (Vll avg mn) - [27244,2] as FLOAT32
// { 27246, 2} , // Name: Min Voltage A-N (Vln a mn) - [27246,2] as FLOAT32
// { 27248, 2} , // Name: Min Voltage B-N (Vln b mn) - [27248,2] as FLOAT32
// { 27250, 2} , // Name: Min Voltage C-N (Vln c mn) - [27250,2] as FLOAT32
// { 27254, 2} , // Name: Min Voltage L-N Avg (Vln avg mn) - [27254,2] as FLOAT32
// { 27278, 2} , // Name: Min Active Power Total (kW tot mn) - [27278,2] as FLOAT32
// { 27286, 2} , // Name: Min Reactive Power Total (kVAR tot mn) - [27286,2] as FLOAT32
// { 27294, 2} , // Name: Min Apparent Power Total (kVA tot mn) - [27294,2] as FLOAT32
// { 27616, 2} , // Name: Min Frequency (Freq mn) - [27616,2] as FLOAT32
// { 27644, 2} , // Name: Current A Low (I a low) - [27644,2] as FLOAT32
// { 27646, 2} , // Name: Current B Low (I b low) - [27646,2] as FLOAT32
// { 27648, 2} , // Name: Current C Low (I c low) - [27648,2] as FLOAT32
// { 27650, 2} , // Name: Current N Low (I4 low) - [27650,2] as FLOAT32
// { 27652, 2} , // Name: Current Avg Low (I avg low) - [27652,2] as FLOAT32
// { 27654, 2} , // Name: Voltage A-B Low (Vll ab low) - [27654,2] as FLOAT32
// { 27656, 2} , // Name: Voltage B-C Low (Vll bc low) - [27656,2] as FLOAT32
// { 27658, 2} , // Name: Voltage C-A Low (Vll ca low) - [27658,2] as FLOAT32
// { 27660, 2} , // Name: Voltage L-L Avg Low (Vll avg low) - [27660,2] as FLOAT32
// { 27672, 2} , // Name: Active Power Low (kW tot low) - [27672,2] as FLOAT32
// { 27674, 2} , // Name: Reactive Power Low (kVAR tot low) - [27674,2] as FLOAT32
// { 27676, 2} , // Name: Apparent Power Low (kVA tot low) - [27676,2] as FLOAT32
// { 27682, 2} , // Name: Frequency Low (Freq low) - [27682,2] as FLOAT32
// { 27694, 2} , // Name: Max Current A (I a mx) - [27694,2] as FLOAT32
// { 27696, 2} , // Name: Max Current B (I b mx) - [27696,2] as FLOAT32
// { 27698, 2} , // Name: Max Current C (I c mx) - [27698,2] as FLOAT32
// { 27700, 2} , // Name: Max Current N (I4 mx) - [27700,2] as FLOAT32
// { 27702, 2} , // Name: Max Current G (I5 mx) - [27702,2] as FLOAT32
// { 27704, 2} , // Name: Max Current Avg (I avg mx) - [27704,2] as FLOAT32
// { 27714, 2} , // Name: Max Voltage A-B (Vll ab mx) - [27714,2] as FLOAT32
// { 27716, 2} , // Name: Max Voltage B-C (Vll bc mx) - [27716,2] as FLOAT32
// { 27718, 2} , // Name: Max Voltage C-A (Vll ca mx) - [27718,2] as FLOAT32
// { 27720, 2} , // Name: Max Voltage L-L Avg (Vll avg mx) - [27720,2] as FLOAT32
// { 27722, 2} , // Name: Max Voltage A-N (Vln a mx) - [27722,2] as FLOAT32
// { 27724, 2} , // Name: Max Voltage B-N (Vln b mx) - [27724,2] as FLOAT32
// { 27726, 2} , // Name: Max Voltage C-N (Vln c mx) - [27726,2] as FLOAT32
// { 27730, 2} , // Name: Max Voltage L-N Avg (Vln avg mx) - [27730,2] as FLOAT32
// { 27754, 2} , // Name: Max Active Power Total (kW tot mx) - [27754,2] as FLOAT32
// { 27762, 2} , // Name: Max Reactive Power Total (kVAR tot mx) - [27762,2] as FLOAT32
// { 27770, 2} , // Name: Max Apparent Power Total (kVA tot mx) - [27770,2] as FLOAT32
// { 28092, 2} , // Name: Max Frequency (Freq mx) - [28092,2] as FLOAT32
// { 28120, 2} , // Name: Current A High (I a high) - [28120,2] as FLOAT32
// { 28122, 2} , // Name: Current B High (I b high) - [28122,2] as FLOAT32
// { 28124, 2} , // Name: Current C High (I c high) - [28124,2] as FLOAT32
// { 28126, 2} , // Name: Current N High (I 4 high) - [28126,2] as FLOAT32
// { 28128, 2} , // Name: Current Avg High (I avg high) - [28128,2] as FLOAT32
// { 28130, 2} , // Name: Voltage A-B High (Vll ab high) - [28130,2] as FLOAT32
// { 28132, 2} , // Name: Voltage B-C High (Vll bc high) - [28132,2] as FLOAT32
// { 28134, 2} , // Name: Voltage C-A High (Vll ca high) - [28134,2] as FLOAT32
// { 28136, 2} , // Name: Voltage L-L Avg High (Vll avg high) - [28136,2] as FLOAT32
// { 28162, 2} , // Name: Active Power High (kW tot high) - [28162,2] as FLOAT32
// { 28164, 2} , // Name: Reactive Power High (kVAR tot high) - [28164,2] as FLOAT32
// { 28166, 2} , // Name: Apparent Power High (kVA tot high) - [28166,2] as FLOAT32
// { 28172, 2} , // Name: Frequency High (Freq high) - [28172,2] as FLOAT32
// { 28180, 2} , // Name: Current A Mean (I a mean) - [28180,2] as FLOAT32
// { 28182, 2} , // Name: Current B Mean (I b mean) - [28182,2] as FLOAT32
// { 28184, 2} , // Name: Current C Mean (I c mean) - [28184,2] as FLOAT32
// { 28186, 2} , // Name: Current N Mean (I 4 mean) - [28186,2] as FLOAT32
// { 28188, 2} , // Name: Current Avg Mean (I avg mean) - [28188,2] as FLOAT32
// { 28190, 2} , // Name: Voltage A-B Mean (Vll ab mean) - [28190,2] as FLOAT32
// { 28192, 2} , // Name: Voltage B-C Mean (Vll bc mean) - [28192,2] as FLOAT32
// { 28194, 2} , // Name: Voltage C-A Mean (Vll ca mean) - [28194,2] as FLOAT32
// { 28196, 2} , // Name: Voltage L-L Avg Mean (Vll avg mean) - [28196,2] as FLOAT32
// { 28208, 2} , // Name: Active Power Mean (kW tot mean) - [28208,2] as FLOAT32
// { 28210, 2} , // Name: Reactive Power Mean (kVAR tot mean) - [28210,2] as FLOAT32
// { 28212, 2} , // Name: Apparent Power Mean (kVA tot mean) - [28212,2] as FLOAT32
// { 28218, 2} , // Name: Frequency Mean (Freq mean) - [28218,2] as FLOAT32
// { 29884, 2} , // Name: Current A Last Demand (I a sd) - [29884,2] as FLOAT32
// { 29886, 2} , // Name: Current A Predicted Demand (I a sd pred) - [29886,2] as FLOAT32
// { 29888, 0} , // Name: Current A Peak Demand (I a sd mx) - [29888,6] as TIMESTAMPED_FLOAT32
// { 29898, 2} , // Name: Current B Last Demand (I b sd) - [29898,2] as FLOAT32
// { 29900, 2} , // Name: Current B Predicted Demand (I b sd pred) - [29900,2] as FLOAT32
// { 29902, 0} , // Name: Current B Peak Demand (I b sd mx) - [29902,6] as TIMESTAMPED_FLOAT32
// { 29912, 2} , // Name: Current C Last Demand (I c sd) - [29912,2] as FLOAT32
// { 29914, 2} , // Name: Current C Predicted Demand (I c sd pred) - [29914,2] as FLOAT32
// { 29916, 0} , // Name: Current C Peak Demand (I c sd mx) - [29916,6] as TIMESTAMPED_FLOAT32
// { 29926, 2} , // Name: Current 4 Last Demand (I 4 sd) - [29926,2] as FLOAT32
// { 29928, 2} , // Name: Current 4 Predicted Demand (I 4 sd pred) - [29928,2] as FLOAT32
// { 29930, 0} , // Name: Current 4 Peak Demand (I 4 sd mx) - [29930,6] as TIMESTAMPED_FLOAT32
// { 29940, 2} , // Name: Current Avg Last Demand (I avg sd) - [29940,2] as FLOAT32
// { 29942, 2} , // Name: Current Avg Predicted Demand (I avg sd pred) - [29942,2] as FLOAT32
// { 29944, 0} , // Name: Current Avg Peak Demand (I avg sd mx) - [29944,6] as TIMESTAMPED_FLOAT32
// { 29954, 2} , // Name: Active Power Last Demand (kW sd del-rec) - [29954,2] as FLOAT32
// { 29956, 2} , // Name: Active Power Predicted Demand (kW pr del-rec) - [29956,2] as FLOAT32
// { 29958, 0} , // Name: Active Power Peak Demand (kW sd mx d-r) - [29958,6] as TIMESTAMPED_FLOAT32
// { 29968, 2} , // Name: Active Power Del Last Demand (kW sd del) - [29968,2] as FLOAT32
// { 29970, 2} , // Name: Active Power Del Predicted Demand (kW pr del) - [29970,2] as FLOAT32
// { 29972, 0} , // Name: Active Power Del Peak Demand (kW sd mx del) - [29972,6] as TIMESTAMPED_FLOAT32
// { 29982, 2} , // Name: Active Power Rec Last Demand (kW sd rec) - [29982,2] as FLOAT32
// { 29984, 2} , // Name: Active Power Rec Predicted Demand (kW pr rec) - [29984,2] as FLOAT32
// { 29986, 0} , // Name: Active Power Rec Peak Demand (kW sd mx rec) - [29986,6] as TIMESTAMPED_FLOAT32
// { 29996, 2} , // Name: Active Power Total Last Demand (kW sd del+rec) - [29996,2] as FLOAT32
// { 29998, 2} , // Name: Active Power Total Predicted Demand (kW pr del+rec) - [29998,2] as FLOAT32
// { 30000, 0} , // Name: Active Power Total Peak Demand (kW sd mx d+r) - [30000,6] as TIMESTAMPED_FLOAT32
// { 30010, 2} , // Name: Reactive Power Last Demand (kVAR sd del-rec) - [30010,2] as FLOAT32
// { 30012, 2} , // Name: Reactive Power Predicted Demand (kVAR pr del-rec) - [30012,2] as FLOAT32
// { 30014, 0} , // Name: Reactive Power Peak Demand (kVAR sd mx d-r) - [30014,6] as TIMESTAMPED_FLOAT32
// { 30024, 2} , // Name: Reactive Power Del Last Demand (kVAR sd del) - [30024,2] as FLOAT32
// { 30026, 2} , // Name: Reactive Power Del Predicted Demand (kVAR pr del) - [30026,2] as FLOAT32
// { 30028, 0} , // Name: Reactive Power Del Peak Demand (kVAR sd mx del) - [30028,6] as TIMESTAMPED_FLOAT32
// { 30038, 2} , // Name: Reactive Power Rec Last Demand (kVAR sd rec) - [30038,2] as FLOAT32
// { 30040, 2} , // Name: Reactive Power Rec Predicted Demand (kVAR pr rec) - [30040,2] as FLOAT32
// { 30042, 0} , // Name: Reactive Power Rec Peak Demand (kVAR sd mx rec) - [30042,6] as TIMESTAMPED_FLOAT32
// { 30052, 2} , // Name: Reactive Power Total Last Demand (kVAR sd del+rec) - [30052,2] as FLOAT32
// { 30054, 2} , // Name: Reactive Power Total Predicted Demand (kVAR pr del+rec) - [30054,2] as FLOAT32
// { 30056, 0} , // Name: Reactive Power Total Peak Demand (kVAR sd mx d+r) - [30056,6] as TIMESTAMPED_FLOAT32
// { 30066, 2} , // Name: Apparent Power Last Demand (kVA sd del-rec) - [30066,2] as FLOAT32
// { 30068, 2} , // Name: Apparent Power Predicted Demand (kVA pr del-rec) - [30068,2] as FLOAT32
// { 30070, 0} , // Name: Apparent Power Peak Demand (kVA sd mx d-r) - [30070,6] as TIMESTAMPED_FLOAT32
// { 30080, 2} , // Name: Apparent Power Del Last Demand (kVA sd del) - [30080,2] as FLOAT32
// { 30082, 2} , // Name: Apparent Power Del Predicted Demand (kVA pr del) - [30082,2] as FLOAT32
// { 30084, 0} , // Name: Apparent Power Del Peak Demand (kVA sd mx del) - [30084,6] as TIMESTAMPED_FLOAT32
// { 30094, 2} , // Name: Apparent Power Rec Last Demand (kVA sd rec) - [30094,2] as FLOAT32
// { 30096, 2} , // Name: Apparent Power Rec Predicted Demand (kVA pr rec) - [30096,2] as FLOAT32
// { 30098, 0} , // Name: Apparent Power Rec Peak Demand (kVA sd mx rec) - [30098,6] as TIMESTAMPED_FLOAT32
// { 30108, 2} , // Name: Apparent Power Total Last Demand (kVA sd del+rec) - [30108,2] as FLOAT32
// { 30110, 2} , // Name: Apparent Power Total Predicted Demand (kVA pr del+rec) - [30110,2] as FLOAT32
// { 30112, 0} , // Name: Apparent Power Total Peak Demand (kVA sd mx d+r) - [30112,6] as TIMESTAMPED_FLOAT32
// { 30222, 2} , // Name: Active Power Del A Last Demand (kW sd del A) - [30222,2] as FLOAT32
// { 30224, 2} , // Name: Active Power Del A Predicted Demand (kW pr del A) - [30224,2] as FLOAT32
// { 30226, 0} , // Name: Active Power Del A Peak Demand (kW sd mx del A) - [30226,6] as TIMESTAMPED_FLOAT32
// { 30236, 2} , // Name: Active Power Del B Last Demand (kW sd del B) - [30236,2] as FLOAT32
// { 30238, 2} , // Name: Active Power Del B Predicted Demand (kW pr del B) - [30238,2] as FLOAT32
// { 30240, 0} , // Name: Active Power Del B Peak Demand (kW sd mx del B) - [30240,6] as TIMESTAMPED_FLOAT32
// { 30250, 2} , // Name: Active Power Del C Last Demand (kW sd del C) - [30250,2] as FLOAT32
// { 30252, 2} , // Name: Active Power Del C Predicted Demand (kW pr del C) - [30252,2] as FLOAT32
// { 30254, 0} , // Name: Active Power Del C Peak Demand (kW sd mx del C) - [30254,6] as TIMESTAMPED_FLOAT32
// { 30264, 2} , // Name: Active Power Del D Last Demand (kW sd del D) - [30264,2] as FLOAT32
// { 30266, 2} , // Name: Active Power Del D Predicted Demand (kW pr del D) - [30266,2] as FLOAT32
// { 30268, 0} , // Name: Active Power Del D Peak Demand (kW sd mx del D) - [30268,6] as TIMESTAMPED_FLOAT32
// { 30278, 2} , // Name: Active Power Rec A Last Demand (kW sd rec A) - [30278,2] as FLOAT32
// { 30280, 2} , // Name: Active Power Rec A Predicted Demand (kW pr rec A) - [30280,2] as FLOAT32
// { 30282, 0} , // Name: Active Power Rec A Peak Demand (kW sd mx rec A) - [30282,6] as TIMESTAMPED_FLOAT32
// { 30292, 2} , // Name: Active Power Rec B Last Demand (kW sd rec B) - [30292,2] as FLOAT32
// { 30294, 2} , // Name: Active Power Rec B Predicted Demand (kW pr rec B) - [30294,2] as FLOAT32
// { 30296, 0} , // Name: Active Power Rec B Peak Demand (kW sd mx rec B) - [30296,6] as TIMESTAMPED_FLOAT32
// { 30306, 2} , // Name: Active Power Rec C Last Demand (kW sd rec C) - [30306,2] as FLOAT32
// { 30308, 2} , // Name: Active Power Rec C Predicted Demand (kW pr rec C) - [30308,2] as FLOAT32
// { 30310, 0} , // Name: Active Power Rec C Peak Demand (kW sd mx rec C) - [30310,6] as TIMESTAMPED_FLOAT32
// { 30320, 2} , // Name: Active Power Rec D Last Demand (kW sd rec D) - [30320,2] as FLOAT32
// { 30322, 2} , // Name: Active Power Rec D Predicted Demand (kW pr rec D) - [30322,2] as FLOAT32
// { 30324, 0} , // Name: Active Power Rec D Peak Demand (kW sd mx rec D) - [30324,6] as TIMESTAMPED_FLOAT32
// { 30334, 2} , // Name: Reactive Power Del A Last Demand (kVAR sd del A) - [30334,2] as FLOAT32
// { 30336, 2} , // Name: Reactive Power Del A Predicted Demand (kVAR pr del A) - [30336,2] as FLOAT32
// { 30338, 0} , // Name: Reactive Power Del A Peak Demand (kVAR sd mx d A) - [30338,6] as TIMESTAMPED_FLOAT32
// { 30348, 2} , // Name: Reactive Power Del B Last Demand (kVAR sd del B) - [30348,2] as FLOAT32
// { 30350, 2} , // Name: Reactive Power Del B Predicted Demand (kVAR pr del B) - [30350,2] as FLOAT32
// { 30352, 0} , // Name: Reactive Power Del B Peak Demand (kVAR sd mx d B) - [30352,6] as TIMESTAMPED_FLOAT32
// { 30362, 2} , // Name: Reactive Power Del C Last Demand (kVAR sd del C) - [30362,2] as FLOAT32
// { 30364, 2} , // Name: Reactive Power Del C Predicted Demand (kVAR pr del C) - [30364,2] as FLOAT32
// { 30366, 0} , // Name: Reactive Power Del C Peak Demand (kVAR sd mx d C) - [30366,6] as TIMESTAMPED_FLOAT32
// { 30376, 2} , // Name: Reactive Power Del D Last Demand (kVAR sd del D) - [30376,2] as FLOAT32
// { 30378, 2} , // Name: Reactive Power Del D Predicted Demand (kVAR pr del D) - [30378,2] as FLOAT32
// { 30380, 0} , // Name: Reactive Power Del D Peak Demand (kVAR sd mx d D) - [30380,6] as TIMESTAMPED_FLOAT32
// { 30390, 2} , // Name: Reactive Power Rec A Last Demand (kVAR sd rec A) - [30390,2] as FLOAT32
// { 30392, 2} , // Name: Reactive Power Rec A Predicted Demand (kVAR pr rec A) - [30392,2] as FLOAT32
// { 30394, 0} , // Name: Reactive Power Rec A Peak Demand (kVAR sd mx r A) - [30394,6] as TIMESTAMPED_FLOAT32
// { 30404, 2} , // Name: Reactive Power Rec B Last Demand (kVAR sd rec B) - [30404,2] as FLOAT32
// { 30406, 2} , // Name: Reactive Power Rec B Predicted Demand (kVAR pr rec B) - [30406,2] as FLOAT32
// { 30408, 0} , // Name: Reactive Power Rec B Peak Demand (kVAR sd mx r B) - [30408,6] as TIMESTAMPED_FLOAT32
// { 30418, 2} , // Name: Reactive Power Rec C Last Demand (kVAR sd rec C) - [30418,2] as FLOAT32
// { 30420, 2} , // Name: Reactive Power Rec C Predicted Demand (kVAR pr rec C) - [30420,2] as FLOAT32
// { 30422, 0} , // Name: Reactive Power Rec C Peak Demand (kVAR sd mx r C) - [30422,6] as TIMESTAMPED_FLOAT32
// { 30432, 2} , // Name: Reactive Power Rec D Last Demand (kVAR sd rec D) - [30432,2] as FLOAT32
// { 30434, 2} , // Name: Reactive Power Rec D Predicted Demand (kVAR pr rec D) - [30434,2] as FLOAT32
// { 30436, 0} , // Name: Reactive Power Rec D Peak Demand (kVAR sd mx r D) - [30436,6] as TIMESTAMPED_FLOAT32
// { 30446, 2} , // Name: Apparent Power Del A Last Demand (kVA sd del A) - [30446,2] as FLOAT32
// { 30448, 2} , // Name: Apparent Power Del A Predicted Demand (kVA pr del A) - [30448,2] as FLOAT32
// { 30450, 0} , // Name: Apparent Power Del A Peak Demand (kVA sd mx del A) - [30450,6] as TIMESTAMPED_FLOAT32
// { 30460, 2} , // Name: Apparent Power Del B Last Demand (kVA sd del B) - [30460,2] as FLOAT32
// { 30462, 2} , // Name: Apparent Power Del B Predicted Demand (kVA pr del B) - [30462,2] as FLOAT32
// { 30464, 0} , // Name: Apparent Power Del B Peak Demand (kVA sd mx del B) - [30464,6] as TIMESTAMPED_FLOAT32
// { 30474, 2} , // Name: Apparent Power Del C Last Demand (kVA sd del C) - [30474,2] as FLOAT32
// { 30476, 2} , // Name: Apparent Power Del C Predicted Demand (kVA pr del C) - [30476,2] as FLOAT32
// { 30478, 0} , // Name: Apparent Power Del C Peak Demand (kVA sd mx del C) - [30478,6] as TIMESTAMPED_FLOAT32
// { 30488, 2} , // Name: Apparent Power Del D Last Demand (kVA sd del D) - [30488,2] as FLOAT32
// { 30490, 2} , // Name: Apparent Power Del D Predicted Demand (kVA pr del D) - [30490,2] as FLOAT32
// { 30492, 0} , // Name: Apparent Power Del D Peak Demand (kVA sd mx del D) - [30492,6] as TIMESTAMPED_FLOAT32
// { 30502, 2} , // Name: Apparent Power Rec A Last Demand (kVA sd rec A) - [30502,2] as FLOAT32
// { 30504, 2} , // Name: Apparent Power Rec A Predicted Demand (kVA pr rec A) - [30504,2] as FLOAT32
// { 30506, 0} , // Name: Apparent Power Rec A Peak Demand (kVA sd mx rec A) - [30506,6] as TIMESTAMPED_FLOAT32
// { 30516, 2} , // Name: Apparent Power Rec B Last Demand (kVA sd rec B) - [30516,2] as FLOAT32
// { 30518, 2} , // Name: Apparent Power Rec B Predicted Demand (kVA pr rec B) - [30518,2] as FLOAT32
// { 30520, 0} , // Name: Apparent Power Rec B Peak Demand (kVA sd mx rec B) - [30520,6] as TIMESTAMPED_FLOAT32
// { 30530, 2} , // Name: Apparent Power Rec C Last Demand (kVA sd rec C) - [30530,2] as FLOAT32
// { 30532, 2} , // Name: Apparent Power Rec C Predicted Demand (kVA pr rec C) - [30532,2] as FLOAT32
// { 30534, 0} , // Name: Apparent Power Rec C Peak Demand (kVA sd mx rec C) - [30534,6] as TIMESTAMPED_FLOAT32
// { 30544, 2} , // Name: Apparent Power Rec D Last Demand (kVA sd rec D) - [30544,2] as FLOAT32
// { 30546, 2} , // Name: Apparent Power Rec D Predicted Demand (kVA pr rec D) - [30546,2] as FLOAT32
// { 30548, 0} , // Name: Apparent Power Rec D Peak Demand (kVA sd mx rec D) - [30548,6] as TIMESTAMPED_FLOAT32
// { 30558, 2} , // Name: Active Power Q1 Last Demand (kW sd Q1) - [30558,2] as FLOAT32
// { 30560, 2} , // Name: Active Power Q1 Predicted Demand (kW pr Q1) - [30560,2] as FLOAT32
// { 30562, 0} , // Name: Active Power Q1 Peak Demand (kW sd mx Q1) - [30562,6] as TIMESTAMPED_FLOAT32
// { 30572, 2} , // Name: Active Power Q2 Last Demand (kW sd Q2) - [30572,2] as FLOAT32
// { 30574, 2} , // Name: Active Power Q2 Predicted Demand (kW pr Q2) - [30574,2] as FLOAT32
// { 30576, 0} , // Name: Active Power Q2 Peak Demand (kW sd mx Q2) - [30576,6] as TIMESTAMPED_FLOAT32
// { 30586, 2} , // Name: Active Power Q3 Last Demand (kW sd Q3) - [30586,2] as FLOAT32
// { 30588, 2} , // Name: Active Power Q3 Predicted Demand (kW pr Q3) - [30588,2] as FLOAT32
// { 30590, 0} , // Name: Active Power Q3 Peak Demand (kW sd mx Q3) - [30590,6] as TIMESTAMPED_FLOAT32
// { 30600, 2} , // Name: Active Power Q4 Last Demand (kW sd Q4) - [30600,2] as FLOAT32
// { 30602, 2} , // Name: Active Power Q4 Predicted Demand (kW pr Q4) - [30602,2] as FLOAT32
// { 30604, 0} , // Name: Active Power Q4 Peak Demand (kW sd mx Q4) - [30604,6] as TIMESTAMPED_FLOAT32
// { 30614, 2} , // Name: Reactive Power Q1 Last Demand (kVAR sd Q1) - [30614,2] as FLOAT32
// { 30616, 2} , // Name: Reactive Power Q1 Predicted Demand (kVAR pr Q1) - [30616,2] as FLOAT32
// { 30618, 0} , // Name: Reactive Power Q1 Peak Demand (kVAR sd mx Q1) - [30618,6] as TIMESTAMPED_FLOAT32
// { 30628, 2} , // Name: Reactive Power Q2 Last Demand (kVAR sd Q2) - [30628,2] as FLOAT32
// { 30630, 2} , // Name: Reactive Power Q2 Predicted Demand (kVAR pr Q2) - [30630,2] as FLOAT32
// { 30632, 0} , // Name: Reactive Power Q2 Peak Demand (kVAR sd mx Q2) - [30632,6] as TIMESTAMPED_FLOAT32
// { 30642, 2} , // Name: Reactive Power Q3 Last Demand (kVAR sd Q3) - [30642,2] as FLOAT32
// { 30644, 2} , // Name: Reactive Power Q3 Predicted Demand (kVAR pr Q3) - [30644,2] as FLOAT32
// { 30646, 0} , // Name: Reactive Power Q3 Peak Demand (kVAR sd mx Q3) - [30646,6] as TIMESTAMPED_FLOAT32
// { 30656, 2} , // Name: Reactive Power Q4 Last Demand (kVAR sd Q4) - [30656,2] as FLOAT32
// { 30658, 2} , // Name: Reactive Power Q4 Predicted Demand (kVAR pr Q4) - [30658,2] as FLOAT32
// { 30660, 0} , // Name: Reactive Power Q4 Peak Demand (kVAR sd mx Q4) - [30660,6] as TIMESTAMPED_FLOAT32
// { 30670, 2} , // Name: Apparent Power Q1 Last Demand (kVA sd Q1) - [30670,2] as FLOAT32
// { 30672, 2} , // Name: Apparent Power Q1 Predicted Demand (kVA pr Q1) - [30672,2] as FLOAT32
// { 30674, 0} , // Name: Apparent Power Q1 Peak Demand (kVA sd mx Q1) - [30674,6] as TIMESTAMPED_FLOAT32
// { 30684, 2} , // Name: Apparent Power Q2 Last Demand (kVA sd Q2) - [30684,2] as FLOAT32
// { 30686, 2} , // Name: Apparent Power Q2 Predicted Demand (kVA pr Q2) - [30686,2] as FLOAT32
// { 30688, 0} , // Name: Apparent Power Q2 Peak Demand (kVA sd mx Q2) - [30688,6] as TIMESTAMPED_FLOAT32
// { 30698, 2} , // Name: Apparent Power Q3 Last Demand (kVA sd Q3) - [30698,2] as FLOAT32
// { 30700, 2} , // Name: Apparent Power Q3 Predicted Demand (kVA pr Q3) - [30700,2] as FLOAT32
// { 30702, 0} , // Name: Apparent Power Q3 Peak Demand (kVA sd mx Q3) - [30702,6] as TIMESTAMPED_FLOAT32
// { 30712, 2} , // Name: Apparent Power Q4 Last Demand (kVA sd Q4) - [30712,2] as FLOAT32
// { 30714, 2} , // Name: Apparent Power Q4 Predicted Demand (kVA pr Q4) - [30714,2] as FLOAT32
// { 30716, 0} , // Name: Apparent Power Q4 Peak Demand (kVA sd mx Q4) - [30716,6] as TIMESTAMPED_FLOAT32
// { 30822, 2} , // Name: Block Demand Active Power (kVA co kW d-r) - [30822,2] as FLOAT32
// { 30824, 2} , // Name: Block Demand Active Power Into the Load (kVA co kW del) - [30824,2] as FLOAT32
// { 30826, 2} , // Name: Block Demand Active Power Out of the Load (kVA co kW rec) - [30826,2] as FLOAT32
// { 30828, 2} , // Name: Block Demand Active Power Total (kVA co kW d+r) - [30828,2] as FLOAT32
// { 30830, 2} , // Name: Block Demand Reactive Power (kVA co kVAR d-r) - [30830,2] as FLOAT32
// { 30832, 2} , // Name: Block Demand Reactive Power Into the Load (kVA co kVAR del) - [30832,2] as FLOAT32
// { 30834, 2} , // Name: Block Demand Reactive Power Out of the Load (kVA co kVAR rec) - [30834,2] as FLOAT32
// { 30836, 2} , // Name: Block Demand Reactive Power Total (kVA co kVAR d+r) - [30836,2] as FLOAT32
// { 30838, 2} , // Name: Block Demand Active Power (kVAR co kW d-r) - [30838,2] as FLOAT32
// { 30840, 2} , // Name: Block Demand Active Power Into the Load (kVAR co kW del) - [30840,2] as FLOAT32
// { 30842, 2} , // Name: Block Demand Active Power Out of the Load (kVAR co kW rec) - [30842,2] as FLOAT32
// { 30844, 2} , // Name: Block Demand Active Power Total (kVAR co kW d+r) - [30844,2] as FLOAT32
// { 30846, 2} , // Name: Block Demand Apparent Power (kVAR co kVA d-r) - [30846,2] as FLOAT32
// { 30848, 2} , // Name: Block Demand Apparent Power Into the Load (kVAR co kVA del) - [30848,2] as FLOAT32
// { 30850, 2} , // Name: Block Demand Apparent Power Out of the Load (kVAR co kVA rec) - [30850,2] as FLOAT32
// { 30852, 2} , // Name: Block Demand Apparent Power Total (kVAR co kVA d+r) - [30852,2] as FLOAT32
// { 30854, 2} , // Name: Block Demand Reactive Power (kW co kVAR d-r) - [30854,2] as FLOAT32
// { 30856, 2} , // Name: Block Demand Reactive Power Into the Load (kW co kVAR del) - [30856,2] as FLOAT32
// { 30858, 2} , // Name: Block Demand Reactive Power Out of the Load (kW co kVAR rec) - [30858,2] as FLOAT32
// { 30860, 2} , // Name: Block Demand Reactive Power Total (kW co kVAR d+r) - [30860,2] as FLOAT32
// { 30862, 2} , // Name: Block Demand Apparent Power (kW co kVA d-r) - [30862,2] as FLOAT32
// { 30864, 2} , // Name: Block Demand Apparent Power Into the Load (kW co kVA del) - [30864,2] as FLOAT32
// { 30866, 2} , // Name: Block Demand Apparent Power Out of the Load (kW co kVA rec) - [30866,2] as FLOAT32
// { 30868, 2} , // Name: Block Demand Apparent Power Total (kW co kVA d+r) - [30868,2] as FLOAT32
// { 30870, 3} , // Name: Active Energy Delivered Rate 1 (PB kWh del A) - [30870,4] as INT64
// { 30874, 3} , // Name: Active Energy Delivered Rate 2 (PB kWh del B) - [30874,4] as INT64
// { 30878, 3} , // Name: Active Energy Delivered Rate 3 (PB kWh del C) - [30878,4] as INT64
// { 30882, 3} , // Name: Active Energy Delivered Rate 4 (PB kWh del D) - [30882,4] as INT64
// { 30886, 3} , // Name: Active Energy Delivered (PB kWh del) - [30886,4] as INT64
// { 30890, 3} , // Name: Active Energy Received (PB kWh rec) - [30890,4] as INT64
// { 30894, 3} , // Name: Reactive Energy Delivered (PB kVARh del) - [30894,4] as INT64
// { 30898, 3} , // Name: Reactive Energy Received (PB kVARh rec) - [30898,4] as INT64
// { 30902, 3} , // Name: Apparent Energy Delivered (PB kVAh del) - [30902,4] as INT64
// { 30906, 3} , // Name: Apparent Energy Received (PB kVAh rec) - [30906,4] as INT64
// { 30910, 2} , // Name: Peak Block Demand Active Power Delived Rate 1 (PB kW sd mx d A) - [30910,2] as FLOAT32
// { 30912, 2} , // Name: Peak Block Demand Active Power Delived Rate 2 (PB kW sd mx d B) - [30912,2] as FLOAT32
// { 30914, 2} , // Name: Peak Block Demand Active Power Delived Rate 3 (PB kW sd mx d C) - [30914,2] as FLOAT32
// { 30916, 2} , // Name: Peak Block Demand Active Power Delived Rate 4 (PB kW sd mx d D) - [30916,2] as FLOAT32
// { 30918, 2} , // Name: Peak Block Demand Active Power Received (PB kW sd mx rec) - [30918,2] as FLOAT32
// { 30920, 2} , // Name: Peak Block Demand Reactive Power Delivered (PB kVAR sd mx d) - [30920,2] as FLOAT32
// { 30922, 2} , // Name: Peak Block Demand Reactive Power Received (PB kVAR sd mx r) - [30922,2] as FLOAT32
// { 30924, 2} , // Name: Peak Block Demand Apparent Power Delivered (PB kVA sd mx d) - [30924,2] as FLOAT32
// { 30926, 2} , // Name: Peak Block Demand Apparent Power Received (PB kVA sd mx r) - [30926,2] as FLOAT32
// { 30928, 3} , // Name: Active Energy Delivered Rate 1 (PS kWh del A) - [30928,4] as INT64
// { 30932, 3} , // Name: Active Energy Delivered Rate 2 (PS kWh del B) - [30932,4] as INT64
// { 30936, 3} , // Name: Active Energy Delivered Rate 3 (PS kWh del C) - [30936,4] as INT64
// { 30940, 3} , // Name: Active Energy Delivered Rate 4 (PS kWh del D) - [30940,4] as INT64
// { 30944, 3} , // Name: Active Energy Delivered (PS kWh del) - [30944,4] as INT64
// { 30948, 3} , // Name: Active Energy Received (PS kWh rec) - [30948,4] as INT64
// { 30952, 3} , // Name: Reactive Energy Delivered (PS kVARh del) - [30952,4] as INT64
// { 30956, 3} , // Name: Reactive Energy Received (PS kVARh rec) - [30956,4] as INT64
// { 30960, 3} , // Name: Apparent Energy Delivered (PS kVAh del) - [30960,4] as INT64
// { 30964, 3} , // Name: Apparent Energy Received (PS kVAh rec) - [30964,4] as INT64
// { 30968, 2} , // Name: Peak Block Demand Active Power Delived Rate 1 (PS kW sd mx d A) - [30968,2] as FLOAT32
// { 30970, 2} , // Name: Peak Block Demand Active Power Delived Rate 2 (PS kW sd mx d B) - [30970,2] as FLOAT32
// { 30972, 2} , // Name: Peak Block Demand Active Power Delived Rate 3 (PS kW sd mx d C) - [30972,2] as FLOAT32
// { 30974, 2} , // Name: Peak Block Demand Active Power Delived Rate 4 (PS kW sd mx d D) - [30974,2] as FLOAT32
// { 30976, 2} , // Name: Peak Block Demand Active Power Received (PS kW sd mx rec) - [30976,2] as FLOAT32
// { 30978, 2} , // Name: Peak Block Demand Reactive Power Delivered (PS kVAR sd mx d) - [30978,2] as FLOAT32
// { 30980, 2} , // Name: Peak Block Demand Reactive Power Received (PS kVAR sd mx r) - [30980,2] as FLOAT32
// { 30982, 2} , // Name: Peak Block Demand Apparent Power Delivered (PS kVA sd mx d) - [30982,2] as FLOAT32
// { 30984, 2} , // Name: Peak Block Demand Apparent Power Received (PS kVA sd mx r) - [30984,2] as FLOAT32
// { 30986, 2} , // Name: Active Energy Delivered Rate 1 (PB kWh del A) - [30986,2] as FLOAT32
// { 30988, 2} , // Name: Active Energy Delivered Rate 2 (PB kWh del B) - [30988,2] as FLOAT32
// { 30990, 2} , // Name: Active Energy Delivered Rate 3 (PB kWh del C) - [30990,2] as FLOAT32
// { 30992, 2} , // Name: Active Energy Delivered Rate 4 (PB kWh del D) - [30992,2] as FLOAT32
// { 30994, 2} , // Name: Active Energy Delivered (PB kWh del) - [30994,2] as FLOAT32
// { 30996, 2} , // Name: Active Energy Received (PB kWh rec) - [30996,2] as FLOAT32
// { 30998, 2} , // Name: Reactive Energy Delivered (PB kVARh del) - [30998,2] as FLOAT32
// { 31000, 2} , // Name: Reactive Energy Received (PB kVARh rec) - [31000,2] as FLOAT32
// { 31002, 2} , // Name: Apparent Energy Delivered (PB kVAh del) - [31002,2] as FLOAT32
// { 31004, 2} , // Name: Apparent Energy Received (PB kVAh rec) - [31004,2] as FLOAT32
// { 31006, 2} , // Name: Active Energy Delivered Rate 1 (PS kWh del A) - [31006,2] as FLOAT32
// { 31008, 2} , // Name: Active Energy Delivered Rate 2 (PS kWh del B) - [31008,2] as FLOAT32
// { 31010, 2} , // Name: Active Energy Delivered Rate 3 (PS kWh del C) - [31010,2] as FLOAT32
// { 31012, 2} , // Name: Active Energy Delivered Rate 4 (PS kWh del D) - [31012,2] as FLOAT32
// { 31014, 2} , // Name: Active Energy Delivered (PS kWh del) - [31014,2] as FLOAT32
// { 31016, 2} , // Name: Active Energy Received (PS kWh rec) - [31016,2] as FLOAT32
// { 31018, 2} , // Name: Reactive Energy Delivered (PS kVARh del) - [31018,2] as FLOAT32
// { 31020, 2} , // Name: Reactive Energy Received (PS kVARh rec) - [31020,2] as FLOAT32
// { 31022, 2} , // Name: Apparent Energy Delivered (PS kVAh del) - [31022,2] as FLOAT32
// { 31024, 2} , // Name: Apparent Energy Received (PS kVAh rec) - [31024,2] as FLOAT32
// { 34352, 2} , // Name: Current, Phase A 3 Second (150/180 Cycles) (I1 3s) - [34352,2] as FLOAT32
// { 34354, 2} , // Name: Current, Phase A 10 Minute (I1 10m) - [34354,2] as FLOAT32
// { 34358, 2} , // Name: Current, Phase B 3 Second (150/180 Cycles) (I2 3s) - [34358,2] as FLOAT32
// { 34360, 2} , // Name: Current, Phase B 10 Minute (I2 10m) - [34360,2] as FLOAT32
// { 34364, 2} , // Name: Current, Phase C 3 Second (150/180 Cycles) (I3 3s) - [34364,2] as FLOAT32
// { 34366, 2} , // Name: Current, Phase C 10 Minute (I3 10m) - [34366,2] as FLOAT32
// { 34400, 2} , // Name: Voltage, A-N 3 Second (150/180 Cycles) (V1 3s) - [34400,2] as FLOAT32
// { 34402, 2} , // Name: Voltage, A-N 10 Minute (V1 10m) - [34402,2] as FLOAT32
// { 34404, 2} , // Name: Voltage, A-N 2 Hour (V1 2hr) - [34404,2] as FLOAT32
// { 34406, 2} , // Name: Voltage, B-N 3 Second (150/180 Cycles) (V2 3s) - [34406,2] as FLOAT32
// { 34408, 2} , // Name: Voltage, B-N 10 Minute (V2 10m) - [34408,2] as FLOAT32
// { 34410, 2} , // Name: Voltage, B-N 2 Hour (V2 2hr) - [34410,2] as FLOAT32
// { 34412, 2} , // Name: Voltage, C-N 3 Second (150/180 Cycles) (V3 3s) - [34412,2] as FLOAT32
// { 34414, 2} , // Name: Voltage, C-N 10 Minute (V3 10m) - [34414,2] as FLOAT32
// { 34416, 2} , // Name: Voltage, C-N 2 Hour (V3 2hr) - [34416,2] as FLOAT32
// { 34472, 2} , // Name: Power Frequency 3 Second (150/180 Cycles) (Power Frequency) - [34472,2] as FLOAT32
// { 34474, 2} , // Name: Power Frequency 10 Minute (Power Freq 10m) - [34474,2] as FLOAT32
// { 34476, 2} , // Name: Power Frequency 2 Hour (Power Freq 2hr) - [34476,2] as FLOAT32
// { 40000, 2} , // Name: Frequency 10m Mean (PQ Freq mean) - [40000,2] as FLOAT32
// { 40002, 2} , // Name: Frequency 10m Low (PQ Freq low) - [40002,2] as FLOAT32
// { 40004, 2} , // Name: Frequency 10m High (PQ Freq high) - [40004,2] as FLOAT32
// { 40006, 2} , // Name: Frequency Minimum (PQ Freq mn-op) - [40006,2] as FLOAT32
// { 40008, 2} , // Name: Frequency Maximum (PQ Freq mx-op) - [40008,2] as FLOAT32
// { 40010, 2} , // Name: V1 10m Mean (PQ V1 mean) - [40010,2] as FLOAT32
// { 40012, 2} , // Name: V1 10m Low (PQ V1 low) - [40012,2] as FLOAT32
// { 40014, 2} , // Name: V1 10m High (PQ V1 high) - [40014,2] as FLOAT32
// { 40016, 2} , // Name: V2 10m Mean (PQ V2 mean) - [40016,2] as FLOAT32
// { 40018, 2} , // Name: V2 10m Low (PQ V2 low) - [40018,2] as FLOAT32
// { 40020, 2} , // Name: V2 10m High (PQ V2 high) - [40020,2] as FLOAT32
// { 40022, 2} , // Name: V3 10m Mean (PQ V3 mean) - [40022,2] as FLOAT32
// { 40024, 2} , // Name: V3 10m Low (PQ V3 low) - [40024,2] as FLOAT32
// { 40026, 2} , // Name: V3 10m High (PQ V3 high) - [40026,2] as FLOAT32
// { 54396, 1} , // Name: FAC1 Nominal Frequency (N/A) - [54396,1] as INT16U
// { 56977, 0} , // Name: COM1 RTS Delay (N/A) - [56977,2] as INT32
}
;

27
firmware/modbus-sd/modbus-sd-pm8000/util.h Normal file
View File

@ -0,0 +1,27 @@
#include <stdint.h>
#include <stdlib.h>
#include <stdio.h>
uint32_t getRegisterUInt32(uint16_t highWord, uint16_t lowWord) {
uint32_t val = (highWord << 16) + lowWord;
return val;
}
int32_t getRegisterInt32(uint16_t highWord, uint16_t lowWord) {
int32_t val = (highWord << 16) + lowWord;
return val;
}
int64_t getRegisterInt64(uint16_t word1, uint16_t word2, uint16_t word3, uint16_t word4) {
uint64_t val = ((uint64_t)word1 << 48) + ((uint64_t)word2 << 32) + (word3 << 16) + word4;
return val;
}
float getRegisterFloat(uint16_t highWord, uint16_t lowWord) {
uint32_t floatRaw = ((uint32_t)highWord << 16) | lowWord;
float floatValue;
memcpy(&floatValue, &floatRaw, sizeof(float));
return floatValue;
}