Overview
FPC flexure tester is a professional equipment used to test and evaluate the bending resistance of flexible circuit boards. It is mainly used to simulate and evaluate the physical performance and functional performance of flexible circuit boards under repeated bending or folding conditions. This machine is mainly used for flexure-resistant circuit boards (commonly known as flexible circuit boards) for flexure testing, such as mobile phones, PDAs, electronic dictionaries, laptops and other electronic products FPC soft boards for flexure resistance and flexure life testing tests.
Features
1. This machine adopts stepper motor drive, High Accuracy Positioning Accuracy, Low Noise, Can be used for a long time
2. Programmed origin reset, no need to put the fixture in place by hand
3. This machine uses a touch screen display controller for program input
4. The test angle, speed, test number and motor return to the origin can be set, automatically counted, and the operation can be automatically stopped when the product is bent until the disconnection cannot be powered on.
Principle
High Accuracy Positioning and Low Noise Operation are realized by stepper motor drive, simulating the force of flexible circuit board under repeated bending or folding conditions, and the device automatically stops operation when the product is bent until the broken line cannot be powered on to evaluate its bending resistance performance.
Applications
Mobile phones, PDAs, electronic dictionaries, laptops and other electronic products FPC soft boards
Steps
1. Set test angle, speed, test times and other parameters through the touch screen
2. Start the device for flexing test
3. The device automatically counts and stops automatically when the set number of times is reached or the product is broken
Notice
• Ensure that the working power supply is AC220V, 50HZ
• The test stroke can be manually adjusted within the range of 45~ 100mm
• The maximum width and opening width of the test fixture are 100mm
• The folding speed needs to be set according to the motor type (60 times the limit speed of the stepper motor, and the maximum 120 times the limit speed of the servo motor)
