5G Converged 915 MHz IoT Antenna

　　5G Converged 915 MHz IoT Antenna: Dual-Band Connectivity for Next-Gen Smart Applications

　　Product Overview

　　Our 5G Converged 915 MHz IoT Antenna redefines multi-scenario connectivity by integrating Sub-6 GHz 5G high-speed transmission and 915 MHz ISM band low-power IoT communication in a single compact unit. This innovative design eliminates the need for separate antennas, reducing deployment costs by 30% while delivering seamless performance across smart agriculture, industrial automation, and smart city applications. Compliant with global certifications (FCC Part 15, CE, RCM), it’s optimized for North American, Australian, and European markets where 915 MHz is widely adopted for IoT, and 5G Sub-6 GHz dominates suburban/rural coverage.

　　Core Advantages: Dual-Band Excellence for IoT

　　1. Dual-Mode Convergence Technology

　　5G Sub-6 GHz Performance: Covers low-band (600 MHz-2.4 GHz) for long-range (up to 5km) 5G connectivity and mid-band (1 GHz-6 GHz) for balanced speed (3.5 Gbps downlink) and capacity—ideal for high-bandwidth tasks like HD video monitoring or real-time industrial control.

　　915 MHz IoT Optimization: Supports LoRa/Sigfox protocols with -142 dBm receiving sensitivity (at 62.5 KHz bandwidth) and ≤0.5 dB signal attenuation, enabling 6km+ transmission for low-power sensors (e.g., soil moisture monitors, smart meters).

　　Simultaneous Dual-Band Operation: No frequency interference between bands (out-of-band rejection >30 dBc) ensures 5G data and IoT signals run independently without performance loss.

　　2. Global Compliance & Market Adaptability

　　North America: FCC Part 15 certified for 915 MHz (ISM band) and 5G bands (n71/n5/n25) used by Verizon/AT&T.

　　Australia/Europe: RCM and CE approved, matching local 915 MHz IoT regulations and 5G Sub-6 GHz deployment standards.

　　Low-Power Compatibility: Works with LoRaWAN modules (e.g., RHF0M0E5) featuring 2.1uA sleep current, extending sensor battery life to 5+ years.

　　3. Industrial-Grade Durability

　　Environmental Resistance: IP67 waterproof/dustproof rating, withstanding -40℃ to +85℃ temperatures and 96-hour salt spray tests (per MIL-STD-810G)—suitable for outdoor farms, mines, and coastal smart cities.

　　Mechanical Stability: Vibration-tested (5-500Hz random vibration) and UV-resistant housing, ensuring 8+ years of service in harsh conditions.

　　Precision Performance: VSWR ≤1.5:1 and 95% radiation efficiency (at 2.4 GHz) guarantee stable signal transmission even in dense industrial environments.

　　4. Easy Integration & Customization

　　Plug-and-Play Design: Lightweight (1.2kg) with pole/ceiling-mount options; compatible with SMA/IPEX connectors for 5G CPE, LoRa gateways, and IoT sensors (e.g., Dragino, RisingHF devices).

　　Tailored Configurations: Customize 5G gain (3-10 dBi), 915 MHz gain (2-8 dBi), and cable length (1-5m) to match specific project needs (e.g., high-gain for rural farms, low-profile for urban streetlights).

　　Target Applications (By Region & Industry)

　　Smart Agriculture (North America/Australia): 915 MHz connects 1000+ soil sensors, while 5G streams high-definition drone crop-monitoring videos—ideal for large-scale remote farms where grid and wired connectivity are limited.

　　Industrial IoT (Europe): 5G enables real-time control of factory machinery and transmission of high-volume production data; 915 MHz powers low-power asset trackers (e.g., for raw materials or finished goods) with minimal energy consumption.

　　Remote Environmental Monitoring (Global): 5G backhauls real-time data from weather stations and air quality monitors to cloud platforms; 915 MHz links wildlife trackers and forest fire detectors in wilderness areas with no 5G coverage gaps.

　　Smart Cities (North America): 5G supports traffic camera networks and real-time public transit updates; 915 MHz connects smart waste-bin sensors (to optimize collection routes) and streetlight controllers—reducing urban infrastructure deployment costs.