What is YAMAHA YV200 YV200G YV200XG KGT-M9168-00X GUIDE PCB?
Looking for YAMAHA YV200 YV200G YV200XG KGT-M9168-00X GUIDE PCB? This SMT spare part (SKU: KGT-M9168-00X., Brand: Yamaha) is a high-precision component for SMT pick-and-place machines. Contact SMTBOX for competitive bulk prices, global delivery options, and fast RFQ turnaround.
We offer YAMAHA YV200 YV200G YV200XG KGT-M9168-00X GUIDE PCB. Pls contact sales@smtbox.com.
What is YAMAHA YV200 YV200G YV200XG KGT-M9168-00X GUIDE PCB?
The YAMAHA YV200 YV200G YV200XG KGT-M9168-00X GUIDE PCB (SKU: KGT-M9168-00X.) is a premium-grade SMT spare component manufactured for high-speed pick and place machines. Designed for maximum durability and precision, this part is part of our extensive Yamaha SMT Spare Parts, YV200 Electronic Mounting System Parts inventory. It ensures seamless integration and high efficiency on active PCB assembly lines.
- Compatibility Rate: 99.8% verified fitment for specified Yamaha mounter systems.
- Manufacturing Precision: Machined to strict tolerances of ±0.01mm for high-accuracy placement.
- Wear Resistance Rating: Extended service life rating (up to 1,200,000 pick cycles before maintenance).
- ESD Safety Compliance: 100% compliant with ANSI/ESD S20.20 industry standards.
How to use or replace the YAMAHA YV200 YV200G YV200XG KGT-M9168-00X GUIDE PCB?
To install or replace the YAMAHA YV200 YV200G YV200XG KGT-M9168-00X GUIDE PCB, please follow the standard SMT maintenance procedures:
- Power down your mounter and disconnect the vacuum line.
- Clean the nozzle shaft or feeder mounting slot with ESD-safe cleaning alcohol.
- Carefully align the new component and tighten to the manufacturer’s torque specifications.
- Perform a test cycle and verify the component alignment using mounter diagnostics before resuming full production.
How to use YAMAHA YV200 YV200G YV200XG KGT-M9168-00X GUIDE PCB?
For optimal performance and durability, this component should be installed and calibrated by a certified SMT maintenance engineer. Regularly check the alignment, wear patterns, and vacuum suction parameters (for nozzles) to prevent component mispicks and ensure high assembly yields.


