433MHz (Ra-02)
Description:
The LoRa Radio Node V2.0 based on the ATmega328P and Ra-02 433MHz radio module.
The main chip ATmega328P clocked at 8 MHz and at 3.3V logic, which use the Arduino pro mini 8MHz 3.3V bootloader, usage same as the Arduino pro mini. This chip has 32K of flash and 2K of RAM.
On board with a 3.7V 14500 battery holder, so it can use anywhere you like. In this LoRa Radio Node, we break out 2 IIC ports, 2 analog port (A0 A1) and 2 digital port (D3 D4) with 4 pin and 3 pin 2510-I type header.
The LoRa Radio Node V2.0 based on the ATmega328P and Ra-02 433MHz radio module.
The main chip ATmega328P clocked at 8 MHz and at 3.3V logic, which use the Arduino pro mini 8MHz 3.3V bootloader, usage same as the Arduino pro mini. This chip has 32K of flash and 2K of RAM.
On board with a 3.7V 14500 battery holder, so it can use anywhere you like. In this LoRa Radio Node, we break out 2 IIC ports, 2 analog port (A0 A1) and 2 digital port (D3 D4) with 4 pin and 3 pin 2510-I type header.
Feature:
• Power supply: 3.7V 14500 Lipo battery Or 3.7-12V DC power(VCC GND: 2PIN 2510-I Type connect)
• Size: 40mm x 60mm
• ATmega328P @ 8MHz with 3.3V logic/power
• 3.3V regulator with 500mA peak current output
• Hardware Serial, hardware I2C, hardware SPI support
• 1 x PWM pins: D3
• 12 x analog inputs: A0 A1
• Pin #13 BLUE LED for general purpose blinking
• 2 mounting holes
• Reset button
• Power supply: 3.7V 14500 Lipo battery Or 3.7-12V DC power(VCC GND: 2PIN 2510-I Type connect)
• Size: 40mm x 60mm
• ATmega328P @ 8MHz with 3.3V logic/power
• 3.3V regulator with 500mA peak current output
• Hardware Serial, hardware I2C, hardware SPI support
• 1 x PWM pins: D3
• 12 x analog inputs: A0 A1
• Pin #13 BLUE LED for general purpose blinking
• 2 mounting holes
• Reset button
These radios are not good for transmitting audio or video, but they do work quite well for small data packet transmission when you need more range than 2.4 GHz (BT, BLE, WiFi, ZigBee).
• SX1278 LoRa® based module with SPI interface
• Packet radio with ready-to-go Arduino libraries
• Max transmit power:18±1dBm
• Working current: TX-93mA Rx-12.15mA Standy-1.6mA
• IPEX connector
• SX1278 LoRa® based module with SPI interface
• Packet radio with ready-to-go Arduino libraries
• Max transmit power:18±1dBm
• Working current: TX-93mA Rx-12.15mA Standy-1.6mA
• IPEX connector
Package Included:
1 x LoRa Radio Node V2.0 433MHz (Not include the 14500 Lipo battery)
1 x IPEX interface Spring Antenna
433MHz
Feature:
• Power supply: 3.7V 14500 Lipo battery Or 3.7-12V DC power(VCC GND: 2PIN 2510-I Type connect)
• Size: 40mm x 60mm
• ATmega328P @ 8MHz with 3.3V logic/power
• 3.3V regulator with 500mA peak current output
• Hardware Serial, hardware I2C, hardware SPI support
• 1 x PWM pins: D3
• 12 x analog inputs: A0 A1
• Pin #13 BLUE LED for general purpose blinking
• 2 mounting holes
• Reset button
This LoRa Radio Node uses the extra space left over to add an RFM9x LoRa 433 MHz radio module. These radios are not good for transmitting audio or video, but they do work quite well for small data packet transmission when you need more range than 2.4 GHz (BT, BLE, WiFi, ZigBee).
• SX1278 LoRa® based module with SPI interface
• Packet radio with ready-to-go Arduino libraries
• Uses the amateur or license-free ISM band: ITU "Europe" license-free ISM or ITU "American" amateur (with amateur band limitations)
• +5 to +20 dBm up to 100 mW Power Output Capability (power output selectable in software)
• ~300uA during full sleep, ~120mA peak during +20dBm transmit, ~40mA during active radio listening.
• spot for uFL connector
Package Included:
1 x LoRa Radio Node V1.0 433MHz (Not include the 14500 Lipo battery)
1 x IPEX interface Spring antenna
868MHz
1 x LoRa Radio Node V2.0 433MHz (Not include the 14500 Lipo battery)
1 x IPEX interface Spring Antenna
433MHz
Description:
The LoRa Radio Node V1.0 based on the ATmega328P and RFM98 433MHz radio module. The main chip ATmega328P clocked at 8 MHz and at 3.3V logic, which use the Arduino pro mini 8MHz 3.3V bootloader, usage same as the Arduino pro mini. This chip has 32K of flash and 2K of RAM.
On board with a 3.7V 14500 battery holder, so it can use anywhere you like. In this LoRa Radio Node, we break out 2 IIC ports, 2 analog port (A0 A1) and 2 digital port (D3 D4) with 4 pin and 3 pin 2510-I type header.
The LoRa Radio Node V1.0 based on the ATmega328P and RFM98 433MHz radio module. The main chip ATmega328P clocked at 8 MHz and at 3.3V logic, which use the Arduino pro mini 8MHz 3.3V bootloader, usage same as the Arduino pro mini. This chip has 32K of flash and 2K of RAM.
On board with a 3.7V 14500 battery holder, so it can use anywhere you like. In this LoRa Radio Node, we break out 2 IIC ports, 2 analog port (A0 A1) and 2 digital port (D3 D4) with 4 pin and 3 pin 2510-I type header.
Feature:
• Power supply: 3.7V 14500 Lipo battery Or 3.7-12V DC power(VCC GND: 2PIN 2510-I Type connect)
• Size: 40mm x 60mm
• ATmega328P @ 8MHz with 3.3V logic/power
• 3.3V regulator with 500mA peak current output
• Hardware Serial, hardware I2C, hardware SPI support
• 1 x PWM pins: D3
• 12 x analog inputs: A0 A1
• Pin #13 BLUE LED for general purpose blinking
• 2 mounting holes
• Reset button
This LoRa Radio Node uses the extra space left over to add an RFM9x LoRa 433 MHz radio module. These radios are not good for transmitting audio or video, but they do work quite well for small data packet transmission when you need more range than 2.4 GHz (BT, BLE, WiFi, ZigBee).
• SX1278 LoRa® based module with SPI interface
• Packet radio with ready-to-go Arduino libraries
• Uses the amateur or license-free ISM band: ITU "Europe" license-free ISM or ITU "American" amateur (with amateur band limitations)
• +5 to +20 dBm up to 100 mW Power Output Capability (power output selectable in software)
• ~300uA during full sleep, ~120mA peak during +20dBm transmit, ~40mA during active radio listening.
• spot for uFL connector
Package Included:
1 x LoRa Radio Node V1.0 433MHz (Not include the 14500 Lipo battery)
1 x IPEX interface Spring antenna
868MHz
Description:
The LoRa Radio Node V1.0 868MHz based on the ATmega328P and RFM95 868MHz radio module. The main chip ATmega328P clocked at 8 MHz and at 3.3V logic, which use the Arduino pro mini 8Mhz 3.3V bootloader, usage same as the Arduino pro mini. This chip has 32K of flash and 2K of RAM.
On board with a 3.7V 14500 battery holder, so it can use anywhere you like. In this LoRa Radio Node, we break out 2 IIC ports, 2 analog port (A0 A1) and 2 digital port (D3 D4) with 4 pin and 3 pin 2510-I type header.
The LoRa Radio Node V1.0 868MHz based on the ATmega328P and RFM95 868MHz radio module. The main chip ATmega328P clocked at 8 MHz and at 3.3V logic, which use the Arduino pro mini 8Mhz 3.3V bootloader, usage same as the Arduino pro mini. This chip has 32K of flash and 2K of RAM.
On board with a 3.7V 14500 battery holder, so it can use anywhere you like. In this LoRa Radio Node, we break out 2 IIC ports, 2 analog port (A0 A1) and 2 digital port (D3 D4) with 4 pin and 3 pin 2510-I type header.
Feature:
• Power supply: 3.7V 14500 Lipo battery or 3.7-12V DC power(VCC GND: 2PIN 2510-I Type connect)
• Size: 40mm x 60mm
• ATmega328P @ 8MHz with 3.3V logic/power
• 3.3V regulator with 500mA peak current output
• Hardware Serial, hardware I2C, hardware SPI support
• 1 x PWM pins: D3
• 12 x analog inputs: A0 A1
• Pin #13 BLUE LED for general purpose blinking
• 2 mounting holes
• Reset button
• Power supply: 3.7V 14500 Lipo battery or 3.7-12V DC power(VCC GND: 2PIN 2510-I Type connect)
• Size: 40mm x 60mm
• ATmega328P @ 8MHz with 3.3V logic/power
• 3.3V regulator with 500mA peak current output
• Hardware Serial, hardware I2C, hardware SPI support
• 1 x PWM pins: D3
• 12 x analog inputs: A0 A1
• Pin #13 BLUE LED for general purpose blinking
• 2 mounting holes
• Reset button
This LoRa Radio Node uses the extra space left over to add an RFM95 LoRa 868MHz radio module. These radios are not good for transmitting audio or video, but they do work quite well for small data packet transmission when you need more range than 2.4 GHz (BT, BLE, WiFi, ZigBee).
• SX1276 LoRa® based module with SPI interface
• Packet radio with ready-to-go Arduino libraries
• Uses the amateur or license-free ISM band: ITU "Europe" license-free ISM or ITU "American" amateur (with amateur band limitations)
• +5 to +20 dBm up to 100 mW Power Output Capability (power output selectable in software)
• ~300uA during full sleep, ~120mA peak during +20dBm transmit, ~40mA during active radio listening.
• uFL connector
• SX1276 LoRa® based module with SPI interface
• Packet radio with ready-to-go Arduino libraries
• Uses the amateur or license-free ISM band: ITU "Europe" license-free ISM or ITU "American" amateur (with amateur band limitations)
• +5 to +20 dBm up to 100 mW Power Output Capability (power output selectable in software)
• ~300uA during full sleep, ~120mA peak during +20dBm transmit, ~40mA during active radio listening.
• uFL connector
Package Included:
1 x LoRa Radio Node V1.0 868MHz (Not include the 14500 Lipo battery)
1 x IPEX interface Spring antenna
915MHz
Package Included:
1 x LoRa Radio Node V1.0 915MHz (Not include the 14500 Lipo battery)
1 x IPEX interface Spring antenna
2.4G Antenna
1 x LoRa Radio Node V1.0 868MHz (Not include the 14500 Lipo battery)
1 x IPEX interface Spring antenna
915MHz
Description:
The LoRa Radio Node V1.0 915MHz based on the ATmega328P and RFM95 915Mhz radio module. The main chip ATmega328P clocked at 8 MHz and at 3.3V logic, which use the Arduino pro mini 8Mhz 3.3V bootloader, usage same as the Arduino pro mini. This chip has 32K of flash and 2K of RAM.
On board with a 3.7V 14500 battery holder, so it can use anywhere you like. In this LoRa Radio Node, we break out 2 IIC ports, 2 analog port (A0 A1) and 2 digital port (D3 D4) with 4 pin and 3 pin 2510-I type header.
The LoRa Radio Node V1.0 915MHz based on the ATmega328P and RFM95 915Mhz radio module. The main chip ATmega328P clocked at 8 MHz and at 3.3V logic, which use the Arduino pro mini 8Mhz 3.3V bootloader, usage same as the Arduino pro mini. This chip has 32K of flash and 2K of RAM.
On board with a 3.7V 14500 battery holder, so it can use anywhere you like. In this LoRa Radio Node, we break out 2 IIC ports, 2 analog port (A0 A1) and 2 digital port (D3 D4) with 4 pin and 3 pin 2510-I type header.
Feature:
• Power supply: 3.7V 14500 Lipo battery or 3.7-12V DC power(VCC GND: 2PIN 2510-I Type connect)
• Size: 40mm x 60mm
• ATmega328P @ 8MHz with 3.3V logic/power
• 3.3V regulator with 500mA peak current output
• Hardware Serial, hardware I2C, hardware SPI support
• 1 x PWM pins: D3
• 12 x analog inputs: A0 A1
• Pin #13 BLUE LED for general purpose blinking
• 2 mounting holes
• Reset button
• Power supply: 3.7V 14500 Lipo battery or 3.7-12V DC power(VCC GND: 2PIN 2510-I Type connect)
• Size: 40mm x 60mm
• ATmega328P @ 8MHz with 3.3V logic/power
• 3.3V regulator with 500mA peak current output
• Hardware Serial, hardware I2C, hardware SPI support
• 1 x PWM pins: D3
• 12 x analog inputs: A0 A1
• Pin #13 BLUE LED for general purpose blinking
• 2 mounting holes
• Reset button
This LoRa Radio Node uses the extra space left over to add an RFM95 LoRa 915MHz radio module. These radios are not good for transmitting audio or video, but they do work quite well for small data packet transmission when you need more range than 2.4 GHz (BT, BLE, WiFi, ZigBee).
• SX1276 LoRa® based module with SPI interface
• Packet radio with ready-to-go Arduino libraries
• Uses the amateur or license-free ISM band: ITU "Europe" license-free ISM or ITU "American" amateur (with amateur band limitations)
• +5 to +20 dBm up to 100 mW Power Output Capability (power output selectable in software)
• ~300uA during full sleep, ~120mA peak during +20dBm transmit, ~40mA during active radio listening.
• Spot for uFL connector
• SX1276 LoRa® based module with SPI interface
• Packet radio with ready-to-go Arduino libraries
• Uses the amateur or license-free ISM band: ITU "Europe" license-free ISM or ITU "American" amateur (with amateur band limitations)
• +5 to +20 dBm up to 100 mW Power Output Capability (power output selectable in software)
• ~300uA during full sleep, ~120mA peak during +20dBm transmit, ~40mA during active radio listening.
• Spot for uFL connector
Package Included:
1 x LoRa Radio Node V1.0 915MHz (Not include the 14500 Lipo battery)
1 x IPEX interface Spring antenna
2.4G Antenna
Descriptions:
Frequency 2400 ~ 2500 MHz
S.W.R. <= 2.0
Antenna Gain 3.0 ± 0.7dBi
Polarization Linear
Impedance 50 Ohm
Material & Mechanical Characteristics:
Frequency 2400 ~ 2500 MHz
S.W.R. <= 2.0
Antenna Gain 3.0 ± 0.7dBi
Polarization Linear
Impedance 50 Ohm
Material & Mechanical Characteristics:
Material of Radiator PCB
Cable Type O.D. 1.13 mm // 100 mm
Connector Type Mini Connector
Pull Test >= 1.0 Kg
Environmental:
Operation Temperature - 40°C ~ + 65 °C
Storage Temperature - 40°C ~ + 80 °C
Cable Type O.D. 1.13 mm // 100 mm
Connector Type Mini Connector
Pull Test >= 1.0 Kg
Environmental:
Operation Temperature - 40°C ~ + 65 °C
Storage Temperature - 40°C ~ + 80 °C
APPLICATION:
1. IEEE 802.11 b/g/n WLAN System
2. Wireless Communication System
3. Wi-Fi / WiMAX / MIMO System
4. Laptop/Bluetooth/Zigbee Antenna
Package Included:
1. IEEE 802.11 b/g/n WLAN System
2. Wireless Communication System
3. Wi-Fi / WiMAX / MIMO System
4. Laptop/Bluetooth/Zigbee Antenna
Package Included:
1 x 2.4G WIFI 3dbi PCB Antenna IPX IPEX WLAN Laptop Bluetooth Zigbee Wireless Module
Am 30.06.21 hat der Verkäufer die folgenden Angaben hinzugefügt: