ATSAMR34J17BT-I/7JX LoRa Transceiver Module in 7x7mm QFN Package

ATSAMR34J17BT-I/7JX Overview

The ATSAMR34J17BT-I/7JX is a highly integrated, low-power, sub-GHz transceiver module designed for robust wireless communication in industrial and IoT applications. Combining a high-performance RF front-end with an Arm Cortex-M0+ microcontroller, this module enables efficient data transmission over long distances while maintaining minimal power consumption. Its support for multiple modulation schemes and flexible frequency bands makes it a versatile solution for engineers requiring reliable connectivity in harsh environments. Offered by IC Manufacturer, it is optimized for seamless integration into embedded systems demanding precise wireless control and monitoring.

ATSAMR34J17BT-I/7JX Technical Specifications

ATSAMR34J17BT-I/7JX Key Features

• Integrated Sub-GHz Transceiver and MCU: Combines an Arm Cortex-M0+ core with a low-power RF transceiver to simplify design and reduce BOM costs.
• Multiple Modulation Support: Enables versatile communication protocols including LoRa and FSK, allowing for flexible deployment scenarios based on range and data rate requirements.
• High Receiver Sensitivity: Achieves down to -134 dBm sensitivity in LoRa mode, enhancing long-distance wireless connectivity and reliable data reception in noisy environments.
• Low Power Consumption: Designed for battery-operated applications with an efficient power profile, minimizing current draw in both transmit and receive modes.
• Compact QFN Package: Small 5×5 mm footprint facilitates space-saving designs suitable for embedded industrial and IoT devices.
• Flexible Interface Options: Supports SPI and UART interfaces, enabling straightforward integration with various host processors and systems.
• Wide Supply Voltage Range: Operates reliably over 1.8 V to 3.6 V, accommodating a variety of power sources including batteries and regulated supplies.

ATSAMR34J17BT-I/7JX Advantages vs Typical Alternatives

Compared to typical sub-GHz transceiver modules, this device offers superior receiver sensitivity and integrated MCU functionality, reducing the need for external controllers and enhancing overall system reliability. Its low power consumption supports extended battery life in remote applications. The wide modulation support, including LoRa, provides flexible deployment options for diverse industrial and IoT wireless networks. Additionally, the compact package and robust interface options simplify integration, making it a preferred choice over traditional discrete solutions.

Typical Applications

• Long-range wireless sensor networks requiring low power and high sensitivity for industrial automation and environmental monitoring.
• Smart metering systems where reliable data transmission over sub-GHz bands ensures accurate utility usage reporting.
• Remote control and telemetry devices that benefit from flexible modulation and integrated processing capabilities.
• IoT gateways and edge nodes supporting diverse protocols and extended battery operation in smart city infrastructure.

ATSAMR34J17BT-I/7JX Brand Info

This product is part of a leading semiconductor manufacturer’s portfolio specializing in integrated wireless communication solutions. Designed for demanding industrial and IoT markets, it reflects the brand??s commitment to delivering high-quality, energy-efficient, and compact RF modules. The module leverages advanced RF design and embedded processing technology to support a broad range of wireless applications, emphasizing reliability and ease of use for engineering teams worldwide.

FAQ

What are the supported modulation schemes for this transceiver module?

The device supports multiple modulation schemes including Frequency Shift Keying (FSK), Gaussian FSK (GFSK), On-Off Keying (OOK), and LoRa? modulation. This variety allows users to optimize for range, data rate, and power consumption depending on their specific application requirements.

What is the typical power consumption during transmission and reception?

In receive mode, the current consumption is typically around 2.7 mA, while in transmit mode at maximum output power (+14 dBm), it draws up to 60 mA. These values support efficient battery operation for wireless sensor and control systems.

Which interfaces are available for communication with a host microcontroller?

The module offers standard serial interfaces including SPI and UART, as well as general-purpose input/output (GPIO) pins. This flexibility facilitates easy integration with a wide range of host processors and embedded platforms.

What package type and size does this module come in?

The transceiver is housed in a QFN (Quad Flat No-lead) package with 32 pins, measuring 5 mm by 5 mm. This compact form factor supports space-constrained designs typical in embedded and IoT applications.

Can this device operate over different sub-GHz frequency bands?

Yes, it supports operation across the 868 MHz and 915 MHz sub-GHz ISM bands, allowing deployment in various regional wireless standards and enabling global application flexibility.