Ebyte LoRa E220 LLCC68 device for Arduino, esp32 or esp8266: configuration – 3

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LoRa or Long Range wireless data telemetry is a technology pioneered by Semtech that operates at a lower frequency than NRF24L01 (433 MHz, 868 MHz, or 916 MHz against 2.4 GHz for the NRF24L01) but at thrice the distance (from 5000m to 11000m).

Now we try to examine better how to configure the Ebyte E220 UART LoRa device based on LLCC68 Wireless Modules.

Ebyte LoRa E220 LLCC68 device for Arduino, esp32 or esp8266 Configuration
Ebyte LoRa E220 LLCC68 device for Arduino, esp32 or esp8266 Configuration

Here some devices: E220-400T22D 433MHz 5Km - E220-400T30D 433MHz 10Km - E220-900T22D 868MHz 915MHz 5Km - E220-900T30D 868MHz 915MHz 10Km

I created this library to manage EBYTE E220 especially to simplify the configuration process because can be very tedious.

sx1278 sx1276 wireless lora uart module serial 3000m arduino 433 rf

If you have device freezing problems, you must put a pull-up 4.7k resistor or better connect to the device AUX pin.

Library

You can find my library here, and It’s available on the Arduino IDE library manager.

EByte LoRa E22 E32 Arduino library manager
EByte LoRa E22 E32 Arduino library manager

To download.

Click the DOWNLOADS button in the top right corner, and rename the uncompressed folder LoRa_E220.

Check that the LoRa_E220 folder contains LoRa_E220.cpp and LoRa_E220.h.

Place the LoRa_E220 library folder in your /libraries/ folder.

You may need to create the libraries subfolder if it’s your first library.

Restart the IDE.

Connection schemas for programming

For the primary usage, we had used a specified configuration for Arduino. Still, you are working only in “Normal mode” in that configuration. Now we will manage only the needed pins dynamic (RX, TX) to simplify the programming process and the others statically.

Pin No.Pin itemPin directionPin application
1M0Input(weak pull-up)Work with M1 & decide on the four operating modes. Floating is not allowed; it can be ground.
2M1Input(weak pull-up)Work with M0 & decide on the four operating modes. Floating is not allowed; it can be ground.
3RXDInputTTL UART inputs connect to external (MCU, PC) TXD output pin. It can be configured as open-drain or pull-up input.
4TXDOutputTTL UART outputs connect to external RXD (MCU, PC) input pin. Can be configured as open-drain or push-pull output

5

AUX

Output
To indicate the module’s working status & wake up the external MCU. During the procedure of self-check initialization, the pin outputs a low level. It can be configured as open-drain or push-pull output (floating is allowed).
6VCCPower supply 3V~5.5V DC
7GNDGround

As you can see, you can set various modes via M0 and M1 pins.

ModeM1M0Explanation
Normal00UART and wireless channels are open, and transparent transmission is on
WOR Transmitter01WOR Transmitter
WOR Receiver10WOR Receiver (Supports wake up over air)
Deep sleep mode11The module goes to sleep (automatically wake up when configuring parameters)

Standard configuration (transparent)

Ebyte LoRa E32 E22 E220 Arduino UNO normal mode breadboard
Ebyte LoRa E32 E22 E220 Arduino UNO normal mode breadboard
M0GND (Set normal mode)
M1GND (Set normal mode)
TXPIN 2 (PullUP 4,7KΩ)
RXPIN 3 (PullUP 4,7KΩ & Voltage divider)
AUXNot connected (PullUP 4,7KΩ)
VCC5v
GNDGND

and this configuration for Wemos D1 mini:

Ebyte LoRa E32 E22 E220 Wemos D1 normal mode breadboard
Ebyte LoRa E32 E22 E220 Wemos D1 normal mode breadboard
M0GND (Set normal mode)
M1GND (Set normal mode)
TXPIN D2 (PullUP 4,7KΩ)
RXPIN D3 (PullUP 4,7KΩ)
AUXNot connected (PullUP 4,7KΩ)
VCC3.3v/5v
GNDGND

ESP-32:

Ebyte LoRa E32 E22 E220 ESP32 DEV KIT V1 normal mode breadboard
Ebyte LoRa E32 E22 E220 ESP32 DEV KIT V1 normal mode breadboard
M0GND (Set normal mode)
M1GND (Set normal mode)
RXTX2 (PullUP 4,7KΩ)
TXRX2 (PullUP 4,7KΩ)
AUXNot connected (PullUP 4,7KΩ)
VCC3.3v/5v
GNDGND

Arduino MKR WiFi 1010:

Ebyte LoRa Exx Arduino MKR WiFi 1010 normal mode connected breadboard
Ebyte LoRa Exx Arduino MKR WiFi 1010 normal mode connected breadboard
M0GND (Set normal mode)
M1GND (Set normal mode)
TXPIN 14 Tx (PullUP 4,7KΩ)
RXPIN 13 Rx (PullUP 4,7KΩ)
AUXNot connected (PullUP 4,7KΩ) or better connected to Pin 1
VCC3.3v/5V
GNDGND

Wiring for programming/sleep mode

To configure It, you must set M0 and M1 to high (remember to use 3.3v).

But If you connect all pins, the library sets HIGH or LOW the pins as needed without a problem.

Ebyte LoRa E32 E220 Wemos D1 configuration mode breadboard
Ebyte LoRa E32 E220 Wemos D1 configuration mode breadboard
M0VCC (Set programming/sleep mode)
M1VCC (Set programming/sleep mode)
TXPIN D2 (PullUP 4,7KΩ)
RXPIN D3 (PullUP 4,7KΩ)
AUXNot connected (PullUP 4,7KΩ)
VCC5v
GNDGND
Ebyte LoRa E32 E220 Arduino UNO configuration mode breadboard
Ebyte LoRa E32 E220 Arduino UNO configuration mode breadboard
M03.3v (Set programming/sleep mode)
M13.3v (Set programming/sleep mode)
TXPIN 2 (PullUP 4,7KΩ)
TXPIN 3 (PullUP 4,7KΩ & Voltage divider)
AUXNot connected (PullUP 4,7KΩ)
VCC3.3v/5v
GNDGND
LoRa E32 E220 ESP32 DEV KIT V1 configuration mode
LoRa E32 E220 ESP32 DEV KIT V1 configuration mode
M03.3v (Set programming/sleep mode)
M1 3.3v (Set programming/sleep mode)
RXTX2 (PullUP 4,7KΩ)
TXRX2 (PullUP 4,7KΩ)
AUXNot connected (PullUP 4,7KΩ) or to D18
VCC3.3v/5v
GNDGND
LoRa E32 E220 Arduino MKR WiFi 1010 sleep/config mode
LoRa E32 E220 Arduino MKR WiFi 1010 sleep/config mode
M03.3v (Set programming/sleep mode)
M13.3v (Set programming/sleep mode)
TXPIN 14 Tx (PullUP 4,7KΩ)
RXPIN 13 Rx (PullUP 4,7KΩ)
AUXNot connected (PullUP 4,7KΩ)
VCC3.3v/5V
GNDGND

In this mode, you can manage the configuration of the device

Basic configuration option

NameDescriptionAddress
ADDHHigh address byte of the module (the default 00H)00H
ADDLLow address byte of the module (the default 00H)01H
SPEDInformation about data rate parity bit and Air data rate02H
OPTION Type of transmission, pull-up settings, wake-up time, FEC, Transmission power 03H
CHANCommunication channel(410M + CHAN*1M), default 17H (433MHz), valid only for 433MHz device04H
TRANSMISSION_MODEAll transmission parameters05H
CRTYPT_HUser encryption06H
CRTYPT_LUser encryption 07H

You can find configuration options in the Library article.

Get configuration

Arduino MKR WiFi 1010 example sketch fully connected (remove M0 and M1 if you want).

/*
 * LoRa E220 LLCC68
 * Get configuration.
 * https://mischianti.org
 *
 * E220		  ----- Arduino MKR
 * M0         ----- 2 (or 3.3v)
 * M1         ----- 3 (or 3.3v)
 * RX         ----- 14 (PullUP)
 * TX         ----- 13 (PullUP)
 * AUX        ----- 1  (PullUP)
 * VCC        ----- 3.3v/5v
 * GND        ----- GND
 *
 */
#include "Arduino.h"
#include "EByte_LoRa_E220_library.h"

// ---------- esp8266 pins --------------
//LoRa_E220 e220ttl(RX, TX, AUX, M0, M1);  // Arduino RX <-- e220 TX, Arduino TX --> e220 RX
//LoRa_E220 e220ttl(D3, D4, D5, D7, D6); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX AUX M0 M1
//LoRa_E220 e220ttl(D2, D3); // Config without connect AUX and M0 M1

//#include <SoftwareSerial.h>
//SoftwareSerial mySerial(D2, D3); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX
//LoRa_E220 e220ttl(&mySerial, D5, D7, D6); // AUX M0 M1
// -------------------------------------

// ---------- Arduino pins --------------
// LoRa_E220 e220ttl(4, 5, 3, 7, 6); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX AUX M0 M1
//LoRa_E220 e220ttl(4, 5); // Config without connect AUX and M0 M1

//#include <SoftwareSerial.h>
//SoftwareSerial mySerial(4, 5); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX
//LoRa_E220 e220ttl(&mySerial, 3, 7, 6); // AUX M0 M1
// -------------------------------------

// ------------- Arduino MKR WiFi 1010 -------------
LoRa_E220 e220ttl(&Serial1, 2, 4, 6); //  RX AUX M0 M1
// -------------------------------------------------

// ---------- esp32 pins --------------
// LoRa_E220 e220ttl(&Serial2, 15, 21, 19); //  RX AUX M0 M1

//LoRa_E220 e220ttl(&Serial2, 22, 4, 18, 21, 19, UART_BPS_RATE_9600); //  esp32 RX <-- e220 TX, esp32 TX --> e220 RX AUX M0 M1
// -------------------------------------

void printParameters(struct Configuration configuration);
void printModuleInformation(struct ModuleInformation moduleInformation);

void setup() {
	Serial.begin(9600);
	while(!Serial){};
	delay(500);

	Serial.println();


	// Startup all pins and UART
	e220ttl.begin();

	ResponseStructContainer c;
	c = e220ttl.getConfiguration();
	// It's important get configuration pointer before all other operation
	Configuration configuration = *(Configuration*) c.data;
	Serial.println(c.status.getResponseDescription());
	Serial.println(c.status.code);

	printParameters(configuration);

	ResponseStructContainer cMi;
	cMi = e220ttl.getModuleInformation();
	// It's important get information pointer before all other operation
	ModuleInformation mi = *(ModuleInformation*)cMi.data;

	Serial.println(cMi.status.getResponseDescription());
	Serial.println(cMi.status.code);

	printModuleInformation(mi);
	c.close();
}

void loop() {

}
void printParameters(struct Configuration configuration) {
	Serial.println("----------------------------------------");

	Serial.print(F("HEAD : "));  Serial.print(configuration.COMMAND, HEX);Serial.print(" ");Serial.print(configuration.STARTING_ADDRESS, HEX);Serial.print(" ");Serial.println(configuration.LENGHT, HEX);
	Serial.println(F(" "));
	Serial.print(F("AddH : "));  Serial.println(configuration.ADDH, HEX);
	Serial.print(F("AddL : "));  Serial.println(configuration.ADDL, HEX);
	Serial.println(F(" "));
	Serial.print(F("Chan : "));  Serial.print(configuration.CHAN, DEC); Serial.print(" -> "); Serial.println(configuration.getChannelDescription());
	Serial.println(F(" "));
	Serial.print(F("SpeedParityBit     : "));  Serial.print(configuration.SPED.uartParity, BIN);Serial.print(" -> "); Serial.println(configuration.SPED.getUARTParityDescription());
	Serial.print(F("SpeedUARTDatte     : "));  Serial.print(configuration.SPED.uartBaudRate, BIN);Serial.print(" -> "); Serial.println(configuration.SPED.getUARTBaudRateDescription());
	Serial.print(F("SpeedAirDataRate   : "));  Serial.print(configuration.SPED.airDataRate, BIN);Serial.print(" -> "); Serial.println(configuration.SPED.getAirDataRateDescription());
	Serial.println(F(" "));
	Serial.print(F("OptionSubPacketSett: "));  Serial.print(configuration.OPTION.subPacketSetting, BIN);Serial.print(" -> "); Serial.println(configuration.OPTION.getSubPacketSetting());
	Serial.print(F("OptionTranPower    : "));  Serial.print(configuration.OPTION.transmissionPower, BIN);Serial.print(" -> "); Serial.println(configuration.OPTION.getTransmissionPowerDescription());
	Serial.print(F("OptionRSSIAmbientNo: "));  Serial.print(configuration.OPTION.RSSIAmbientNoise, BIN);Serial.print(" -> "); Serial.println(configuration.OPTION.getRSSIAmbientNoiseEnable());
	Serial.println(F(" "));
	Serial.print(F("TransModeWORPeriod : "));  Serial.print(configuration.TRANSMISSION_MODE.WORPeriod, BIN);Serial.print(" -> "); Serial.println(configuration.TRANSMISSION_MODE.getWORPeriodByParamsDescription());
	Serial.print(F("TransModeEnableLBT : "));  Serial.print(configuration.TRANSMISSION_MODE.enableLBT, BIN);Serial.print(" -> "); Serial.println(configuration.TRANSMISSION_MODE.getLBTEnableByteDescription());
	Serial.print(F("TransModeEnableRSSI: "));  Serial.print(configuration.TRANSMISSION_MODE.enableRSSI, BIN);Serial.print(" -> "); Serial.println(configuration.TRANSMISSION_MODE.getRSSIEnableByteDescription());
	Serial.print(F("TransModeFixedTrans: "));  Serial.print(configuration.TRANSMISSION_MODE.fixedTransmission, BIN);Serial.print(" -> "); Serial.println(configuration.TRANSMISSION_MODE.getFixedTransmissionDescription());


	Serial.println("----------------------------------------");
}
void printModuleInformation(struct ModuleInformation moduleInformation) {
	Serial.println("----------------------------------------");
	Serial.print(F("HEAD: "));  Serial.print(moduleInformation.COMMAND, HEX);Serial.print(" ");Serial.print(moduleInformation.STARTING_ADDRESS, HEX);Serial.print(" ");Serial.println(moduleInformation.LENGHT, DEC);

	Serial.print(F("Model no.: "));  Serial.println(moduleInformation.model, HEX);
	Serial.print(F("Version  : "));  Serial.println(moduleInformation.version, HEX);
	Serial.print(F("Features : "));  Serial.println(moduleInformation.features, HEX);
	Serial.println("----------------------------------------");

}

Here is the result of the sketch

Success
1
----------------------------------------
HEAD : C1 0 8
 
AddH : 0
AddL : 3
 
Chan : 23 -> 433MHz
 
SpeedParityBit     : 0 -> 8N1 (Default)
SpeedUARTDatte     : 11 -> 9600bps (default)
SpeedAirDataRate   : 10 -> 2.4kbps (default)
 
OptionSubPacketSett: 0 -> 200bytes (default)
OptionTranPower    : 0 -> 22dBm (Default)
OptionRSSIAmbientNo: 0 -> Disabled (default)
 
TransModeWORPeriod : 11 -> 2000ms (default)
TransModeEnableLBT : 0 -> Disabled (default)
TransModeEnableRSSI: 1 -> Enabled
TransModeFixedTrans: 0 -> Transparent transmission (default)
----------------------------------------
Success
1
----------------------------------------
HEAD: C1 8 3
Model no.: 20
Version  : A
Features : 16
----------------------------------------

As you can see, I add a lot of constructors for every device, and if you change the first configuration, you can switch the device with the same code.

LoRa E32 request configuration logic analyzer Arduino
LoRa E220 request configuration logic analyzer Arduino

To get the correct information, I add some #define to change the device type (same #define manage more other devices, I create only one for type for simplicity).

#define E220_22
#define E220_30

You can select only one of them. The parameter changes the Transmission power constant as described in the configuration schema.

In the same manner, you can select one on reference frequences

#define FREQUENCY_433
#define FREQUENCY_170
#define FREQUENCY_470
#define FREQUENCY_868
#define FREQUENCY_915

You can choose only one of them. The parameter changes the reference frequencies only for display purposes,

Set configuration

Naturally, when you have a configuration you want to change for your purpose, I think you can get the configuration from a device, modify what you want and set It.

But in the example sketch, I add a set of configuration comments. You can uncomment the config you want. In the other examples in the library, there is a reference to the relative configuration to apply.

Ricorda che il parametro saveType è fondamentale per mantenere le opzioni al riavvio del dispositivo, WRITE_CFG_PWR_DWN_LOSE naturalmente perderai le impostazioni con WRITE_CFG_PWR_DWN_SAVE non perderai le impostazioni.

Here is an Arduino MKR WiFi 1010 sketch fully connected (remove M0 and M1 If you want):

/*
 * LoRa E220
 * set configuration.
 * https://mischianti.org
 *
 * E220		  ----- Arduino MKR
 * M0         ----- 2 (or 3.3v)
 * M1         ----- 3 (or 3.3v)
 * RX         ----- 14 (PullUP)
 * TX         ----- 13 (PullUP)
 * AUX        ----- 1  (PullUP)
 * VCC        ----- 3.3v/5v
 * GND        ----- GND
 *
 */
#include "Arduino.h"
#include "LoRa_E220.h"

// ---------- esp8266 pins --------------
//LoRa_E220 e220ttl(RX, TX, AUX, M0, M1);  // Arduino RX <-- e220 TX, Arduino TX --> e220 RX
//LoRa_E220 e220ttl(D3, D4, D5, D7, D6); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX AUX M0 M1
//LoRa_E220 e220ttl(D2, D3); // Config without connect AUX and M0 M1

//#include <SoftwareSerial.h>
//SoftwareSerial mySerial(D2, D3); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX
//LoRa_E220 e220ttl(&mySerial, D5, D7, D6); // AUX M0 M1
// -------------------------------------

// ---------- Arduino pins --------------
//LoRa_E220 e220ttl(4, 5, 3, 7, 6); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX AUX M0 M1
//LoRa_E220 e220ttl(4, 5); // Config without connect AUX and M0 M1

//#include <SoftwareSerial.h>
//SoftwareSerial mySerial(4, 5); // Arduino RX <-- e220 TX, Arduino TX --> e220 RX
//LoRa_E220 e220ttl(&mySerial, 3, 7, 6); // AUX M0 M1
// -------------------------------------

// ------------- Arduino MKR WiFi 1010 -------------
LoRa_E220 e220ttl(&Serial1, 1, 2, 3); //  RX AUX M0 M1
// -------------------------------------------------

// ------------- Arduino Nano 33 IoT -------------
// LoRa_E220 e220ttl(&Serial1, 2, 4, 6); //  RX AUX M0 M1
// -------------------------------------------------

// ---------- esp32 pins --------------
// LoRa_E220 e220ttl(&Serial2, 15, 21, 19); //  RX AUX M0 M1

//LoRa_E220 e220ttl(&Serial2, 22, 4, 18, 21, 19, UART_BPS_RATE_9600); //  esp32 RX <-- e220 TX, esp32 TX --> e220 RX AUX M0 M1
// -------------------------------------

void printParameters(struct Configuration configuration);
void printModuleInformation(struct ModuleInformation moduleInformation);

void setup() {
	Serial.begin(9600);
	while(!Serial){};
	delay(500);

	Serial.println();


	// Startup all pins and UART
	e220ttl.begin();

	ResponseStructContainer c;
	c = e220ttl.getConfiguration();
	// It's important get configuration pointer before all other operation
	Configuration configuration = *(Configuration*) c.data;
	Serial.println(c.status.getResponseDescription());
	Serial.println(c.status.code);

	printParameters(configuration);

	//	----------------------- DEFAULT TRANSPARENT -----------------------
		configuration.ADDL = 0x03;
		configuration.ADDH = 0x00;

		configuration.CHAN = 23;

		configuration.SPED.uartBaudRate = UART_BPS_9600;
		configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
		configuration.SPED.uartParity = MODE_00_8N1;

		configuration.OPTION.subPacketSetting = SPS_200_00;
		configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
		configuration.OPTION.transmissionPower = POWER_22;

		configuration.TRANSMISSION_MODE.enableRSSI = RSSI_DISABLED;
		configuration.TRANSMISSION_MODE.fixedTransmission = FT_TRANSPARENT_TRANSMISSION;
		configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
		configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	//	----------------------- DEFAULT TRANSPARENT WITH RSSI -----------------------
//		configuration.ADDL = 0x03;
//		configuration.ADDH = 0x00;
//
//		configuration.CHAN = 23;
//
//		configuration.SPED.uartBaudRate = UART_BPS_9600;
//		configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
//		configuration.SPED.uartParity = MODE_00_8N1;
//
//		configuration.OPTION.subPacketSetting = SPS_200_00;
//		configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
//		configuration.OPTION.transmissionPower = POWER_22;
//
//		configuration.TRANSMISSION_MODE.enableRSSI = RSSI_ENABLED;
//		configuration.TRANSMISSION_MODE.fixedTransmission = FT_TRANSPARENT_TRANSMISSION;
//		configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
//		configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	//	----------------------- FIXED SENDER -----------------------
	//		configuration.ADDL = 0x02;
	//		configuration.ADDH = 0x00;
	//
	//		configuration.CHAN = 23;
	//
	//		configuration.SPED.uartBaudRate = UART_BPS_9600;
	//		configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
	//		configuration.SPED.uartParity = MODE_00_8N1;
	//
	//		configuration.OPTION.subPacketSetting = SPS_200_00;
	//		configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
	//		configuration.OPTION.transmissionPower = POWER_22;
	//
	//		configuration.TRANSMISSION_MODE.enableRSSI = RSSI_DISABLED;
	//		configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
	//		configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
	//		configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	//
	//	----------------------- FIXED RECEIVER -----------------------
//			configuration.ADDL = 0x03;
//			configuration.ADDH = 0x00;
//
//			configuration.CHAN = 23;
//
//			configuration.SPED.uartBaudRate = UART_BPS_9600;
//			configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
//			configuration.SPED.uartParity = MODE_00_8N1;
//
//			configuration.OPTION.subPacketSetting = SPS_200_00;
//			configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_ENABLED;
//			configuration.OPTION.transmissionPower = POWER_22;
//
//			configuration.TRANSMISSION_MODE.enableRSSI = RSSI_DISABLED;
//			configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
//			configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
//			configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	//	----------------------- FIXED SENDER RSSI -----------------------
	//		configuration.ADDL = 0x02;
	//		configuration.ADDH = 0x00;
	//
	//		configuration.CHAN = 23;
	//
	//		configuration.SPED.uartBaudRate = UART_BPS_9600;
	//		configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
	//		configuration.SPED.uartParity = MODE_00_8N1;
	//
	//		configuration.OPTION.subPacketSetting = SPS_200_00;
	//		configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
	//		configuration.OPTION.transmissionPower = POWER_22;
	//
	//		configuration.TRANSMISSION_MODE.enableRSSI = RSSI_ENABLED;
	//		configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
	//		configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
	//		configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	//
	//	----------------------- FIXED RECEIVER RSSI -----------------------
	//		configuration.ADDL = 0x03;
	//		configuration.ADDH = 0x00;
	//
	//		configuration.CHAN = 23;
	//
	//		configuration.SPED.uartBaudRate = UART_BPS_9600;
	//		configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
	//		configuration.SPED.uartParity = MODE_00_8N1;
	//
	//		configuration.OPTION.subPacketSetting = SPS_200_00;
	//		configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
	//		configuration.OPTION.transmissionPower = POWER_22;
	//
	//		configuration.TRANSMISSION_MODE.enableRSSI = RSSI_ENABLED;
	//		configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
	//		configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
	//		configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;

	//	----------------------- WOR SENDER -----------------------
	//		configuration.ADDL = 0x02;
	//		configuration.ADDH = 0x00;
	//
	//		configuration.CHAN = 23;
	//
	//		configuration.SPED.uartBaudRate = UART_BPS_9600;
	//		configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
	//		configuration.SPED.uartParity = MODE_00_8N1;
	//
	//		configuration.OPTION.subPacketSetting = SPS_200_00;
	//		configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
	//		configuration.OPTION.transmissionPower = POWER_22;
	//
	//		configuration.TRANSMISSION_MODE.enableRSSI = RSSI_DISABLED;
	//		configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
	//		configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
	//		configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	//
	//	----------------------- WOR RECEIVER -----------------------
//			configuration.ADDL = 0x03;
//			configuration.ADDH = 0x00;
//
//			configuration.CHAN = 23;
//
//			configuration.SPED.uartBaudRate = UART_BPS_9600;
//			configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
//			configuration.SPED.uartParity = MODE_00_8N1;
//
//			configuration.OPTION.subPacketSetting = SPS_200_00;
//			configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
//			configuration.OPTION.transmissionPower = POWER_22;
//
//			configuration.TRANSMISSION_MODE.enableRSSI = RSSI_DISABLED;
//			configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
//			configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
//			configuration.TRANSMISSION_MODE.WORPeriod = WOR_500_000;
	//	----------------------- BROADCAST MESSAGE 1 -----------------------
//			configuration.ADDL = 0x04;
//			configuration.ADDH = 0x00;
//
//			configuration.CHAN = 23;
//
//			configuration.SPED.uartBaudRate = UART_BPS_9600;
//			configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
//			configuration.SPED.uartParity = MODE_00_8N1;
//
//			configuration.OPTION.subPacketSetting = SPS_200_00;
//			configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
//			configuration.OPTION.transmissionPower = POWER_22;
//
//			configuration.TRANSMISSION_MODE.enableRSSI = RSSI_DISABLED;
//			configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
//			configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
//			configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	//	----------------------- BROADCAST MESSAGE 2 -----------------------
//			configuration.ADDL = 0x05;
//			configuration.ADDH = 0x00;
//
//			configuration.CHAN = 23;
//
//			configuration.SPED.uartBaudRate = UART_BPS_9600;
//			configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
//			configuration.SPED.uartParity = MODE_00_8N1;
//
//			configuration.OPTION.subPacketSetting = SPS_200_00;
//			configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
//			configuration.OPTION.transmissionPower = POWER_22;
//
//			configuration.TRANSMISSION_MODE.enableRSSI = RSSI_DISABLED;
//			configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
//			configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
//			configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	//	----------------------- BROADCAST MESSAGE 3 -----------------------
	//		configuration.ADDL = 0x06;
	//		configuration.ADDH = 0x00;
	//
	//		configuration.CHAN = 23;
	//
	//		configuration.SPED.uartBaudRate = UART_BPS_9600;
	//		configuration.SPED.airDataRate = AIR_DATA_RATE_010_24;
	//		configuration.SPED.uartParity = MODE_00_8N1;
	//
	//		configuration.OPTION.subPacketSetting = SPS_200_00;
	//		configuration.OPTION.RSSIAmbientNoise = RSSI_AMBIENT_NOISE_DISABLED;
	//		configuration.OPTION.transmissionPower = POWER_22;
	//
	//		configuration.TRANSMISSION_MODE.enableRSSI = RSSI_DISABLED;
	//		configuration.TRANSMISSION_MODE.fixedTransmission = FT_FIXED_TRANSMISSION;
	//		configuration.TRANSMISSION_MODE.enableLBT = LBT_DISABLED;
	//		configuration.TRANSMISSION_MODE.WORPeriod = WOR_2000_011;
	// Set configuration changed and set to not hold the configuration
	ResponseStatus rs = e220ttl.setConfiguration(configuration, WRITE_CFG_PWR_DWN_SAVE);
	Serial.println(rs.getResponseDescription());
	Serial.println(rs.code);

	c = e220ttl.getConfiguration();
	// It's important get configuration pointer before all other operation
	configuration = *(Configuration*) c.data;
	Serial.println(c.status.getResponseDescription());
	Serial.println(c.status.code);

	printParameters(configuration);

	c.close();
}

void loop() {

}
void printParameters(struct Configuration configuration) {
	Serial.println("----------------------------------------");

	Serial.print(F("HEAD : "));  Serial.print(configuration.COMMAND, HEX);Serial.print(" ");Serial.print(configuration.STARTING_ADDRESS, HEX);Serial.print(" ");Serial.println(configuration.LENGHT, HEX);
	Serial.println(F(" "));
	Serial.print(F("AddH : "));  Serial.println(configuration.ADDH, HEX);
	Serial.print(F("AddL : "));  Serial.println(configuration.ADDL, HEX);
	Serial.println(F(" "));
	Serial.print(F("Chan : "));  Serial.print(configuration.CHAN, DEC); Serial.print(" -> "); Serial.println(configuration.getChannelDescription());
	Serial.println(F(" "));
	Serial.print(F("SpeedParityBit     : "));  Serial.print(configuration.SPED.uartParity, BIN);Serial.print(" -> "); Serial.println(configuration.SPED.getUARTParityDescription());
	Serial.print(F("SpeedUARTDatte     : "));  Serial.print(configuration.SPED.uartBaudRate, BIN);Serial.print(" -> "); Serial.println(configuration.SPED.getUARTBaudRateDescription());
	Serial.print(F("SpeedAirDataRate   : "));  Serial.print(configuration.SPED.airDataRate, BIN);Serial.print(" -> "); Serial.println(configuration.SPED.getAirDataRateDescription());
	Serial.println(F(" "));
	Serial.print(F("OptionSubPacketSett: "));  Serial.print(configuration.OPTION.subPacketSetting, BIN);Serial.print(" -> "); Serial.println(configuration.OPTION.getSubPacketSetting());
	Serial.print(F("OptionTranPower    : "));  Serial.print(configuration.OPTION.transmissionPower, BIN);Serial.print(" -> "); Serial.println(configuration.OPTION.getTransmissionPowerDescription());
	Serial.print(F("OptionRSSIAmbientNo: "));  Serial.print(configuration.OPTION.RSSIAmbientNoise, BIN);Serial.print(" -> "); Serial.println(configuration.OPTION.getRSSIAmbientNoiseEnable());
	Serial.println(F(" "));
	Serial.print(F("TransModeWORPeriod : "));  Serial.print(configuration.TRANSMISSION_MODE.WORPeriod, BIN);Serial.print(" -> "); Serial.println(configuration.TRANSMISSION_MODE.getWORPeriodByParamsDescription());
	Serial.print(F("TransModeEnableLBT : "));  Serial.print(configuration.TRANSMISSION_MODE.enableLBT, BIN);Serial.print(" -> "); Serial.println(configuration.TRANSMISSION_MODE.getLBTEnableByteDescription());
	Serial.print(F("TransModeEnableRSSI: "));  Serial.print(configuration.TRANSMISSION_MODE.enableRSSI, BIN);Serial.print(" -> "); Serial.println(configuration.TRANSMISSION_MODE.getRSSIEnableByteDescription());
	Serial.print(F("TransModeFixedTrans: "));  Serial.print(configuration.TRANSMISSION_MODE.fixedTransmission, BIN);Serial.print(" -> "); Serial.println(configuration.TRANSMISSION_MODE.getFixedTransmissionDescription());


	Serial.println("----------------------------------------");
}
void printModuleInformation(struct ModuleInformation moduleInformation) {
	Serial.println("----------------------------------------");
	Serial.print(F("HEAD: "));  Serial.print(moduleInformation.COMMAND, HEX);Serial.print(" ");Serial.print(moduleInformation.STARTING_ADDRESS, HEX);Serial.print(" ");Serial.println(moduleInformation.LENGHT, DEC);

	Serial.print(F("Model no.: "));  Serial.println(moduleInformation.model, HEX);
	Serial.print(F("Version  : "));  Serial.println(moduleInformation.version, HEX);
	Serial.print(F("Features : "));  Serial.println(moduleInformation.features, HEX);
	Serial.println("----------------------------------------");

}


Here is the result on the console

Success
1
----------------------------------------
HEAD : C1 0 8
 
AddH : 0
AddL : 3
 
Chan : 23 -> 433MHz
 
SpeedParityBit     : 0 -> 8N1 (Default)
SpeedUARTDatte     : 11 -> 9600bps (default)
SpeedAirDataRate   : 10 -> 2.4kbps (default)
 
OptionSubPacketSett: 0 -> 200bytes (default)
OptionTranPower    : 0 -> 22dBm (Default)
OptionRSSIAmbientNo: 0 -> Disabled (default)
 
TransModeWORPeriod : 11 -> 2000ms (default)
TransModeEnableLBT : 0 -> Disabled (default)
TransModeEnableRSSI: 1 -> Enabled
TransModeFixedTrans: 0 -> Transparent transmission (default)
----------------------------------------
Success
1
Success
1
----------------------------------------
HEAD : C1 0 8
 
AddH : 0
AddL : 3
 
Chan : 23 -> 433MHz
 
SpeedParityBit     : 0 -> 8N1 (Default)
SpeedUARTDatte     : 11 -> 9600bps (default)
SpeedAirDataRate   : 10 -> 2.4kbps (default)
 
OptionSubPacketSett: 0 -> 200bytes (default)
OptionTranPower    : 0 -> 22dBm (Default)
OptionRSSIAmbientNo: 0 -> Disabled (default)
 
TransModeWORPeriod : 11 -> 2000ms (default)
TransModeEnableLBT : 0 -> Disabled (default)
TransModeEnableRSSI: 0 -> Disabled (default)
TransModeFixedTrans: 0 -> Transparent transmission (default)
----------------------------------------

The library is quite simple, but we will test various device options in the next chapter.

Thanks

  1. Ebyte LoRa E220 device for Arduino, esp32 or esp8266: settings and basic usage
  2. Ebyte LoRa E220 device for Arduino, esp32 or esp8266: library
  3. Ebyte LoRa E220 device for Arduino, esp32 or esp8266: configuration
  4. Ebyte LoRa E220 device for Arduino, esp32 or esp8266: fixed transmission, broadcast, monitor, and RSSI
  5. Ebyte LoRa E220 device for Arduino, esp32 or esp8266: power-saving and sending structured data
  6. Ebyte LoRa E220 device for Arduino, esp32 or esp8266: WOR microcontroller and Arduino shield
  7. Ebyte LoRa E220 device for Arduino, esp32 or esp8266: WOR microcontroller and WeMos D1 shield
  8. Ebyte LoRa E220 device for Arduino, esp32 or esp8266: WOR microcontroller and esp32 dev v1 shield

Github library


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11 Responses

  1. Justin E. says:

    I’m using the define statements:
    #define E220_22
    #define FREQUENCY_915
    for my E220-900T22D modules, but when I use the getConfiguration sketch it still see:
    Chan : 23 -> 433MHz

  2. Justin E. says:

    Perfect. Thank you.

  3. KIM says:

    ‘ResponseStatus rs = e220ttl.sendMessage(a)’
    How can I speed up the repetition while using it in loop?

    • Hi Kim,
      I think you must give us some information if you need help.

      But first of all, I must remember that if you don’t connect AUX, I use the minimum delay needed to complete every LoRa operation, and It’s very long.
      Bye Renzo

  4. Giorgio Chiaretta says:

    Hello Renzo,
    I am trying to use a Nano 33 Iot, but I don’t seem to be able to make it go.
    Any suggestion of that configuration I can use ?

  5. Meidy says:

    can you please tell me how to fix this? –> e220ttl’ was not declared in this scope e220ttl.begin();

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