A high-performance encoder that can be used in small spaces that were previously unusable.
**Features** - All-in-one structure that integrates the light source, detection element, and amplification circuit into a super compact module (7x11mm) - Easy installation and maintenance-free - Supports both rotary and linear applications with a single sensor - Cost performance that allows for mass production - High resolution and high-quality signal output **Main Specifications** - Resolution: Linear up to 1μm, Rotary up to 163,000 CPR - Scales: Five types for rotary - R1206CE (12mmφ), R1910CE (19mmφ), R3213CE (31.75φ), R5725CE (57.15mmφ), R10851CE (108mmφ); Linear from 13mm to 2,025mm (2m) - Accuracy grade: Linear system ±1μm (up to 100mm), ±3μm (up to 130mm), ±5μm; Rotary system ±13 to ±2.1 arc seconds - Sensor size: 7mm x 11mm x 3.1mm, weight < 1g - Temperature environment: Operating temperature 0 to 70℃, storage temperature -20 to 100℃
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【Features】 - All-in-one structure with light source, detection element, and amplification circuit integrated into a super compact module (7x11mm) - Easy installation, maintenance-free - Supports both rotary and linear applications with a single sensor - Cost performance that allows for mass production - High-resolution, high-quality signal output 【Main Specifications】 - Resolution: Linear up to 1μm, Rotary up to 163,000 CPR - Scales: Five types for rotary - R1206CE (12mmφ), R1910CE (19mmφ), R3213CE (31.75φ), R5725CE (57.15mmφ), R10851CE (108mmφ), Linear from 13mm to 2,025mm (2m) - Accuracy grade: Linear system ±1μm (up to 100mm), ±3μm (up to 130mm), ±5μm; Rotary system ±13 to ±2.1 arc seconds - Sensor size: 7mm x 11mm x 3.1mm, weight < 1g - Temperature environment: Operating temperature 0 to 70℃, storage temperature -20 to 100℃
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Applications/Examples of results
Main applications: Corresponds to the most extensive range of uses from medical devices and analytical instruments to semiconductor devices and assembly machines. Ideal for applications in small spaces where conventional encoders could not be used. A high-performance encoder despite its small size.
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Novanta Japan Co., Ltd. is the Japanese subsidiary of Novanta Inc. (USA), which provides some of the world's leading laser technologies. Just eight years after Dr. Maiman's groundbreaking invention of the first ruby laser, our predecessor, General Scanning Inc., was established. During the early days of lasers, General Scanning Inc. developed the galvanometer scanner, a device for laser positioning, while Lumonics Inc. was the first in the world to commercialize TEA CO2 lasers for industrial use. Since its founding in 1968 by engineers from MIT, the Novanta Group has provided various laser application process systems across a wide range of fields, including semiconductors, electronics, precision machinery manufacturing, and telecommunications. Furthermore, based on years of experience, we offer a wide range of products, including laser-related optical components, along with innovative technologies to the world.