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HJ-P3060_LD-P500

HJ-P3060_LD-P500

HJSIP
802.15.4, General ISM < 1GHz LoRa™, LoRaWAN, LPWAN Transceiver Module Surface Mount
Active1,000 in stock
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Overview

The HJ-P3060_LD-P500 is a compact LPWAN transceiver module based on the PAN3060 core chip, designed for the 470 MHz to 535 MHz frequency range. It supports LoRa modulation for long-range communication and is optimized for low-power consumption with a sleep current of only 1 microampere. The module features a stamp-hole (castellated) design for easy surface-mount integration into industrial and commercial IoT hardware.

Why Choose This Part

This module offers a high power output of 20dBm for robust link budgets while maintaining an extremely low 1uA sleep current for battery-operated devices. Its small 11.6mm x 11.5mm footprint and 1.27mm pitch postal stamp holes allow for high-density PCB layouts and automated SMT assembly. The wide operating voltage range of 2.0V to 3.6V supports direct operation from various lithium battery chemistries.

Applications

Smart Utility Metering
Ideal for remote reading of water and gas meters in the 470-535 MHz band where long-range propagation is required.
Agricultural Sensor Networks
Used in soil moisture and environment monitoring across large farms where cellular coverage is unavailable.
Industrial Telemetry
Provides reliable wireless data links for equipment monitoring in complex industrial environments.

Key Specifications

Protocol LoRa, LoRaWAN, LPWAN
Data Rate 57.6kbps
Frequency 470MHz ~ 535MHz
Modulation BPSK, FSK, GFSK, GMSK, LoRa, MSK
Sensitivity -144dBm
Antenna Type Antenna Not Included
Mounting Type Surface Mount
Package / Case LGA Module
Power - Output 20dBm
Voltage - Supply 2V ~ 3.6V
Serial Interfaces GPIO, SPI
RF Family/Standard 802.15.4, General ISM < 1GHz
Utilized IC / Part PAN3060
Current - Receiving 4.1mA
Operating Temperature -45degC ~ 85degC
Current - Transmitting 13mA ~ 100mA

Getting Started

The module is controlled via a standard SPI interface, requiring a host MCU to manage the LoRaWAN stack or proprietary RF protocol. Developers should ensure the host firmware is configured for the 470-535 MHz frequency range and utilize the SPI bus for register configuration and FIFO data handling. Proper RF layout techniques, including a 50-ohm trace to the antenna, are essential for maintaining the 20dBm transmit performance.

Also Consider

RFM95W HopeRF - A widely supported LoRa module with extensive community libraries, though it operates in the 868MHz band.

Categories

Wireless & Connectivity > LoRa & LPWAN