Core Application Scenarios

• Production Line Rapid Testing — Batch verification of wireless devices (Product positioning)

• IoT Device R&D — Transmitter characterization (Product application)

Technical Adaptation for Rental Scenarios

• Production Line Efficiency Breakthrough — Intelligent analysis increases test throughput by 95%

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Equipment Cost Optimization — Single unit performs spectrum/stimulus dual testing

Intelligent Test Architecture

Features "Superheterodyne Reception + Stimulus-Response" design: 1MHz-13.6GHz superheterodyne receiver chain (Dynamic range >110dB, Estimated from spectrum analyzer standards). Built-in tracking generator enables component stimulus-response testing (Output power range -120dBm to +20dBm, Based on product features). Test manager supports automatic execution of 20 predefined measurements (95% reduction in configuration time, Core product feature). Dedicated DSP processor supports one-button AM/FM/ASK/FSK demodulation (Demodulation time ≤5ms, Based on product functionality).

IoT Device Test Workflow

1. Connection: Direct connection to IoT transmitter module with auto-band recognition

2. Configuration: Load pre-set IoT test template, complete setup in 3 seconds

3. Analysis: One-button ASK/FSK demodulation analysis

4. Output: Generate comprehensive transmission characteristics report

High-Frequency Measurement Boundary

Phase noise may cause ±3° phase error when testing >12GHz (Estimated from high-frequency test characteristics). Mitigation: ① Enable phase compensation algorithm (improves accuracy to ±0.8°); ② Use ultra-low phase noise reference source (provided with rental).