Smart Stage: Embedded controller, no separate electronics  Operate directly using I2C or SPI ASCII commands -or-  Evaluate with Pathway™ PC Software and USB adapter  Cost-effective, long-life: For high-volume production  Small size: 32 x 32 x 10 mm  High resolution: 0.5 μm with absolute encoding  High speed: 35 mm/s  Long stroke: 8 mm  Power: 5 V DC input, ~ 3.2 W peak when moving  High repeatability: (± 2 μm typical)

Piezo stages with continuous 360° rotary motion  Mounted mirrors, laser and two-axis base  Each rotary stage only 11.75 x 21.9 x 16 mm  Closed-loop controller embedded in each stage  No separate electronics needed  3.3 VDC input  Direct digital input of motion commands ( I2C, SPI, or UART)  Angular resolution ~21.9727 mdeg closed loop  Built-in absolute position sensor  Millisecond step and settle times  0.5 deg in 16 ms closed loop  0.5 deg in 1.2 ms open loop  Holds position with zero power and no jitter

Tiny “all-in-one” solution: no external control board needed  Superior image quality: sub-micron lens movement with very low tilt. Now with higher dynamic stability  Low voltage & power: 3.3 VDC input, zero power position hold  Simple system integration: accepts high-level motion commands over standard serial interface (I2C or SPI)  Flexible, production-ready system: compatible with M8 to M16 lenses and with typical image formats from 1/3” to 1/1.8”  Lowest cost, fastest time to market: Fully-engineered “plug and play” solution

Small  Complete, closed-loop system with embedded controls in less than 28 x 13.2 x 7.5 mm  Precise  0.5 µm resolution  6 mm of travel  Simple system integration  High-level motion commands over standard serial interface (I2C or SPI)  Flexible system, fast to market  Rapidly configurable for push or pull motion  Low voltage / low power use  3.3 V input, <500 mW power use  Holds position when power is off

All-in-one smart module: no separate electronics  Runs directly from USB adapter  USB, I2C or SPI interface  Small size: less than 29 x 20 x 10 mm  High resolution: 0.5 μm Absolute encoding: no homing  Long stroke: 6 mm  Low power use: 3.3 V DC input, < 0.75 W when moving  High repeatability and low runout

All-in-one microstage - no separate controller  Direct high-level command interface (I2C or SPI)  USB adapter enables direct connection to PC  Small: < 32x32x11 mm including controller  Absolute encoding: high repeatability, no homing  Low power: 6 VDC, ~5 W (only when moving)  For integration into battery powered devices  Long stroke: 15 mm  High force: 1 N (~100g load vertical, ~200g horizontal)  High stiffness with crossed roller bearing design

Smallest rotary stage: 11.75 x 21.9 x 16 mm  Embedded closed-loop controller  No separate electronics needed  3.3 VDC input  Accepts direct motion commands (I2C, SPI, or UART)  Continuous 360° rotary motion  Angular resolution ~21.9727 mdeg closed loop  Built-in absolute position sensor  Millisecond step and settle times  0.5 deg in 16 ms closed loop  0.5 deg in 1.2 ms open loop  Holds position with zero power and no jitter

Simulator to reproduce various transient surge phenomena which are generated in a vehicle and required in the international standard ISO-7637-2 (2004) Standard, and evaluate the immune resistibility of the equipped electronics devices against the surge. 

The Broadband sleeve antenna was developed to efficiently perform proximity radiation immunity testing. The international standards ISO11451-3/ISO11452-9 stipulate proximity radiation immunity testing methods that assume electromagnetic interference when wireless transmitters such as smartphones and Wi-Fi devices are placed in close proximity to other electronic devices. This product is a small, lightweight, high-gain antenna used in these standards that covers a wide bandwidth and has good radiation characteristics. Since it can be used in the wide band from 5GHz to 8GHz, it can be used to perform proximity radiation immunity testing assuming wireless LAN in the 6GHz band (up to 7.125GHz).

A real-time diagnostic tool supports EMC/EMI debugging.  Fast visualize EMC/EMI problems.  Enables easy comparison of countermeasures before and after.  Capable of measurement from entire products to single components.  Factor-editor function provides correction of antenna characteristics, cable loss and preamplifier.  User friendly compact design.  Customer supplied spectrum and probes acceptable (Please consult)

EMC test equipment to evaluate the resistibility of electronic devices and components when energy charged on a human body or object is discharged to the electronic devices and components. NoiseKen brand ESD simulator is available to see malfunctions or function declines of electronic equipment for appropriate evaluations compliant with IEC 61000-4-2 Ed.2 Test Standard, ISO 10605 Ed.2 Test Standard & ISO 10605 Ed.3 Test Standard. 

The ESD voltage meter MODEL: 18-00086B is a device that can measure the voltageholding time (holding voltage after 5 seconds) and output specifications during the air discharge test in IEC 61000-4-2.The measured voltage is displayed on a 7-segment LED with peak and holding voltage values. Easily measure the Hold Time, the tester specification for air-discharge testing. Measure the output voltage from ±2kV to 30kV. Monitor the measured voltage waveform by connecting to an oscilloscope. Compact, lightweight and easy to carry.