The programmed temperature is accurate on the display but too aggressive for the chip, causing scorched boards or melted components, often due to improper PID settings or thermocouple placement. 2. Diagnosing Why Your IR6500 Runs Too Hot
Peak temp should not exceed 245°C - 250°C. 3. Faulty Thermocouple (Omega Sensor)
Now set your “hot” alarm:
The phrase "software hot" often refers to the or the PC software used to monitor real-time heat data. achi ir6500 software hot
Downgrade or install the specific, older driver version (often version 3.2.0.0 for clones) provided by the manufacturer to prevent mid-profile software freezes. Step 2: Configure the Maximum Temperature Limits
What (Windows 10, 11, etc.) are you running?
on your PC and supports more complex profiles with more than 8 steps. Real-Time Monitoring The programmed temperature is accurate on the display
Success with the ACHI IR6500 depends entirely on your temperature slope management. Below is the industry-standard four-stage thermal roadmap used for most lead-free modern BGA chips:
To ensure your machine works flawlessly, you need the correct driver and software version for your Windows OS (Windows 7/10/11).
The software shows no temperature data (only rainbow colors). Solution: Ensure you saved the image in radiometric JPEG format (default on IR6500). Non-radiometric screenshots are just pictures—they contain no temperature data. Step 2: Configure the Maximum Temperature Limits What
Look for archived manufacturer pages or dedicated BGA rework software repositories.
Temperature (°C) 220-240°C | /-----\ (Reflow / Peak) | / \ 150-180°C | /---------------/ \ | / (Soak / Flux Activation) \ | /------------/ \ | / (Preheating) \ |_/_______________________________________________\___ Time 1. Preheating Stage 100°C to 120°C Purpose: Drives moisture out of the PCB substrate gently.
: It features an intuitive, English-localized user interface, features framework-dependent optimization using .NET, and functions completely without clunky device drivers .