A two-dimensional MEMS scanner mirror that achieves ultra-compactness and low cost with a substrate-mounted design.
The MEMS scanner mirror achieves higher speed than polygon scanners and is a compact mirror that can be embedded in devices with IC chip sizes while realizing low power consumption. The OP-6111 is a two-dimensional MEMS scanner mirror that can be mounted in a substrate-mounted package (PLCC), achieving ultra-compact size and low cost. We also offer demo units for loan, so please feel free to contact us.
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basic information
■Features - Board-mounted type, ultra-compact, and low-cost - Easy integration into devices with IC chip size (PLCC) - Electrostatic drive method with no heat generation - Resistant to shock - Low jitter - Low power consumption ■Overview Specifications 【Scan Speed】 High-speed axis: 22.0kHz / Low-speed axis: 1.4kHz 【Mirror Size】 φ1.0mm 【Scan Angle】 High-speed axis: ±25° / Low-speed axis: ±18° 【Scan Waveform】 Sine wave 【Jitter Accuracy】 Less than 0.1% 【Drive Method】 Electrostatic 【Power Consumption】 Less than 40mW 【Package Size】 6mm x 8mm 【Package】 PLCC
Price information
The price varies depending on the quantity, so please feel free to contact us.
Delivery Time
※The delivery date may vary depending on the quantity, so please feel free to contact us.
Applications/Examples of results
- Barcode scanner - Laser area sensor - Security sensor - Obstacle sensor
Detailed information
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Optical MEMS Measurement System Our company also sells optical MEMS measurement systems. The optical MEMS measurement system can measure the optical and electrical characteristics of devices at high speed in terms of frequency and amplitude using a new time measurement method. It supports various MEMS types such as electromagnetic, electrostatic, and piezoelectric methods, achieving measurements in under 10 seconds, and can also be used for inline inspection.
Line up(1)
| Model number | overview |
|---|---|
| OP-6111 | 2D MEMS scanner mirror |
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Company information
We are a group of optomechatronics engineers that comprehensively engage in design development and manufacturing, including mechanisms, electronics, and software, based on laser optical application technologies. We will challenge ourselves in the application of laser light, particularly in laser scanning.