ASMT-UWB1-NX3G2 Overview
The ASMT-UWB1-NX3G2 is a high-performance ultra-wideband (UWB) transceiver module designed for precision ranging and secure wireless communication applications. This device integrates advanced signal processing capabilities with robust hardware architecture to deliver reliable, low-latency data transmission and accurate distance measurement. With its compact footprint and optimized power consumption, it is ideal for industrial, automotive, and IoT systems requiring precise spatial awareness. The module supports multi-path mitigation and interference resistance, ensuring stable operation in complex environments. Developed by a trusted IC Manufacturer, this solution accelerates product development cycles through seamless integration and comprehensive technical support.
ASMT-UWB1-NX3G2 Technical Specifications
| Parameter | Specification |
|---|---|
| Operating Frequency Range | 3.1 GHz to 10.6 GHz |
| Data Rate | Up to 27 Mbps |
| Transmit Power | Max +14 dBm |
| Receive Sensitivity | -90 dBm |
| Supply Voltage | 3.3 V ?? 5% |
| Current Consumption (Transmit) | 65 mA typical |
| Current Consumption (Receive) | 30 mA typical |
| Package Dimensions | 15 mm ?? 15 mm ?? 2.5 mm |
| Temperature Range | -40??C to +85??C |
| Interface | SPI / UART |
ASMT-UWB1-NX3G2 Key Features
- Wideband Frequency Operation: Supports 3.1 GHz to 10.6 GHz, enabling precise time-of-flight measurements for accurate ranging and localization.
- High Data Rate Transmission: Delivers up to 27 Mbps allowing fast communication suitable for real-time applications.
- Low Power Consumption: Optimized transmit and receive current draw reduces energy usage, extending battery life in portable and embedded systems.
- Compact Package Size: Small form factor simplifies integration into space-constrained designs without compromising performance.
- Robust Interface Options: SPI and UART interfaces provide flexibility for system integration and ease of communication with host controllers.
- Wide Temperature Range: Operates reliably from -40??C to +85??C, ensuring durability in harsh industrial environments.
- High Sensitivity Receiver: Enables detection of weak signals, improving communication range and accuracy in complex multipath environments.
ASMT-UWB1-NX3G2 Advantages vs Typical Alternatives
This module offers superior sensitivity and a wide operational frequency range compared to conventional narrowband transceivers. Its low power consumption and compact size enhance system efficiency and integration flexibility. Additionally, the robust multi-interface support and extended temperature tolerance make it more reliable and versatile for demanding industrial and automotive applications.
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Typical Applications
- Precision indoor positioning systems requiring accurate distance measurement and low latency communication for asset tracking and navigation.
- Industrial automation for machine-to-machine communication and spatial awareness in manufacturing environments.
- Automotive applications including collision avoidance systems and vehicle localization in advanced driver assistance systems (ADAS).
- Internet of Things (IoT) devices needing secure short-range communication with minimal power consumption and compact design.
ASMT-UWB1-NX3G2 Brand Info
Manufactured by a leading IC Manufacturer, this module represents a cutting-edge solution in ultra-wideband technology. The product combines advanced RF design with integrated digital processing to meet the stringent demands of modern wireless communication and positioning systems. It is backed by comprehensive technical documentation and support, facilitating rapid development and deployment across various industrial sectors.
FAQ
What frequency bands does this UWB module support?
The device operates over a broad frequency range from 3.1 GHz up to 10.6 GHz. This wideband capability enables precise time-of-flight measurements and robust wireless communication by utilizing multiple channels within the ultra-wideband spectrum.
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How does the module??s power consumption impact system design?
With typical current consumption of 65 mA during transmission and 30 mA in receive mode, this module is optimized for energy efficiency. This allows longer battery life in portable devices and reduces thermal management requirements in embedded systems.
What interfaces are available for integrating the module with host processors?
Integration is flexible through SPI and UART interfaces, both commonly supported by microcontrollers and processors. This facilitates straightforward communication and control in diverse system architectures.
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Can this module operate reliably in harsh environments?
Yes, it supports an industrial temperature range from -40??C to +85??C, ensuring consistent performance under extreme temperature conditions commonly encountered in automotive and industrial applications.
What advantages does ultra-wideband technology provide in positioning applications?
Ultra-wideband technology offers high time resolution and multipath resistance, resulting in accurate distance measurements and enhanced spatial resolution. This improves location precision and reliability compared to narrowband systems.