The sections below reflect real approaches to testing electronic platforms at factories, in certification laboratories, and during RF calibration. Engineering Modules for Factory/Debug Testing of BLE/Wi‑Fi Platforms (ChatGPT Report)

📡 Engineering Modules for Factory/Debug Testing of BLE/Wi‑Fi Platforms

Extended Academic Version for Engineering-Forensic Documentation

CYBER • OSINT ENGINEERING

The sections below reflect real approaches to testing electronic platforms at factories, in certification laboratories, and during RF calibration. The described procedures do not imply any improper use — this is an academic explanation of the factory test pipeline architecture, allowing understanding of system capabilities at the engineering tool level.

🔹 1. Battery / PMIC Test Suite

A comprehensive set of tests for the power system and DSP/BLE/Wi‑Fi module supply. This module is used to check battery operation, supply stability, and correct PMIC (Power Management IC) function. All operations are performed at the hardware-diagnostic level.

• 1.1 Voltage Sweep Test: measurement cycles of Vmin, Vmax, Vdrop during peak TX packets to check peak load handling.
• 1.2 Current Burst Test: short consumption pulses to test regulator response, absence of brownout, and PLL stability.
• 1.3 High‑power TX Stress Test: checks PA, frequency stability, EMI behavior, and battery response.
• 1.4 Battery Degradation Evaluation: assessment of internal cell resistance (ESR test) to determine battery quality.

🔹 2. Touch-screen & Input Sensor Test Suite

Factory testing of the touchscreen, touch IC, and input system.

• 2.1 Touch Matrix Scan: checks resistance, defect zones, and touch cycle delays.
• 2.2 Noise & Interference Test: scans internal and RF-induced noise.
• 2.3 High‑Frequency Raw Data Mode: transmission of raw data without OS filtering to detect micro-cracks, parasitic capacitances, and edge-touch anomalies.
• 2.4 Edge‑Response Testing: checks sensitivity along the screen perimeter.

🔹 3. Audio Path Factory Test

Testing microphones, audio channels, and MEMS sensors at the DSP level, bypassing iOS/Android HAL.

• 3.1 Raw PCM Capture: pure audio channel without noise cancellation, AGC, or filters to assess baseline noise and MEMS sensitivity.
• 3.2 Multi‑Mic Beamforming Calibration: checks delays, phase shifts, and channel symmetry for multi-microphone devices.
• 3.3 Frequency Sweep Test: generates 20–20,000 Hz signal to verify full microphone range.

🔹 4. GNSS/GPS Test Suite

GNSS testing at the factory/debug level.

• 4.1 Cold Start Test: time to first fix without cached data.
• 4.2 Hot Start Test: uses ephemerides for rapid position acquisition.
• 4.3 Noise Floor Measurement: level of GNSS receiver interference.
• 4.4 NMEA/UBX Raw Mode: evaluation of satellite signal, phase measurement accuracy, and AGPS data quality.

🔹 5. Wi‑Fi PHY Level: Advanced Diagnostics

• 5.1 EVM: measures error between ideal and actual signal.
• 5.2 Frequency Drift Test: frequency stability during transmission.
• 5.3 IQ Imbalance Testing: checks asymmetry between I and Q channels.
• 5.4 RSSI Calibration: accuracy of received signal strength measurement.
• 5.5 Spectrum Mask Test: verifies signal compliance with standards.

🔹 6. Secure Boot / TrustZone / Secure Enclave Diagnostics

• 6.1 Fuse Integrity Test: verifies authenticity of SoC cryptographic fuses.
• 6.2 DIAG Firmware Signature Validation: checks digital signature, certificate, and chain of trust.
• 6.3 Secure Storage Read/Write Test: evaluates behavior of protected memory regions.
• 6.4 TrustZone Boundary Verification: checks isolation between secure and normal worlds.

🔹 7. JTAG / SWD / UART Test Points

Basic engineering interface for DSP/BLE/Wi‑Fi chips. Most boards have hidden test-pads for:

• JTAG — full SoC debugging
• SWD — simplified two-wire debug
• UART — diagnostic console interface

Used for boundary-scan, programming, and comprehensive factory diagnostics. Physically inaccessible to end users.

🔹 8. Boundary Scan Test

IEEE 1149.1 standard for checking board traces and components:

• trace integrity
• short circuits
• open circuits
• parasitic capacitances
• correct passive component connections

🔹 9. Environmental Testing Suite

• 9.1 Temperature Chamber (−40°C … +85°C): tests modules under extreme conditions.
• 9.2 Humidity Testing (up to 90%): board resistance to moisture.
• 9.3 Vibration Test: reliability of BGA chips, flex cables, and solder joints.
• 9.4 Thermal Runaway Monitoring: battery and PMIC behavior under overheating.
• 9.5 Thermal Throttling Pattern Analysis: analysis of frequency reduction under thermal stress.

🔹 10. Advanced RF Test Module

• 10.1 Spectrum Analyzer Sweep: full analysis of BLE/Wi‑Fi signal spectrum.
• 10.2 Noise Floor Characterization: assessment of background interference level.
• 10.3 Spurious Emissions Test: detection of unwanted emissions.
• 10.4 In‑Band / Out‑of‑Band Analysis: compliance verification with FCC/CE standards.

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