- Easy operation
- Peak hold function
- Comparator function
- Memory function
- Automatic power off
- Local Newton value input
We provide custom-designed and precision-fabricated jigs and fixtures tailored for the semiconductor, electronics, and automotive industries, where accuracy, repeatability, and reliability are non-negotiable.
Our jigs and fixtures are engineered to improve production efficiency, ensure dimensional consistency, and reduce operator variability across inspection, assembly, machining, and testing processes. Each solution is built based on your actual application requirements, machine interface, tolerances, and workflow, ensuring seamless integration into your existing production line.
Key Capabilities & Benefits:
Precision-built jigs and fixtures for inspection, measurement, alignment, and assembly
Designed for CMM, vision systems, laser systems, and automated equipment
Supports high-mix, high-precision manufacturing environments
Improves repeatability, cycle time, and measurement accuracy
Durable materials suitable for cleanroom, ESD-sensitive, and production-floor use
Fully customized—from concept, design, fabrication, to on-site fitting and validation
Whether for semiconductor packages, PCB assemblies, automotive components, or precision parts, our solutions are built to hold parts exactly where they should be—every time. Old-school precision, modern execution. Built right the first time. 🔧✨
–>LIQUID CRYSTAL DISPLAY TOUCH-PANEL
Loaded with a LCD display with backlight. The hardness tester secures very clear and high visibility
–>AUTO START
After setting the reference load, the test load is applied automatically . (Manual start is also possible)
–>EASY SETTING
Reference load can be easily set with a bar graph display on the bright screen and electronic sound. More over, an error-preventing device is also mounted.
–>PLASTIC MEASURING SYSTEM
Specific measuring method for plastic in compliance with ASTM and JIS is activated by one-touch easy operation. Time for reading the value after unloading the test load can be set freely
–>VARIOUS DATA PROCESSING FUNCTIONS
It makes acceptance and rejection judgement, conversion to other scales, and tabulation and computing for data memory (256 data), maximum value, minimum value, variation, average, standard deviation etc.
–>TRADITIONAL DIAL CHANGE-OVER SYSTEM
Dial changeover systems make change the test load easily by turning the dial.
Accordingly the design is dust-proof including the weights for test load.
–>APPLICABLE TO CE AND SAFETY
Safety design applicable to EU low voltage command, EMC command and machine command. In addition to high-rigidity body , overturn-preventive metal fittings are attached as standard to prevent overturning by earthquakes etc.
We specialize in the custom design and fabrication of precision clamps and inserts engineered specifically for the stringent requirements of the semiconductor industry, where accuracy, cleanliness, and repeatability are critical.
Our clamps and inserts are designed to secure delicate components without inducing stress, deformation, or contamination, making them ideal for inspection, metrology, assembly, testing, laser processing, and automation applications. Each solution is tailored to the exact geometry, material, tolerance, and process conditions of the customer’s application.
Key Capabilities & Benefits:
Custom clamps and inserts for wafers, leadframes, packages, substrates, and precision parts
Designed for vision systems, CMMs, laser systems, and automated equipment
High-precision machining to support tight tolerances and repeatable positioning
Materials compatible with cleanroom, ESD-sensitive, and chemical-resistant environments
Minimizes part movement, vibration, and measurement error
Reduces setup time and improves process consistency
Built for high-volume and high-mix semiconductor manufacturing
From concept and design to fabrication and validation, our clamps and inserts are built to protect critical parts while maximizing process accuracy and throughput. Classic precision, modern execution—because in semicon, microns matter. 🔬✨
