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Your guide to Displacement Sensors
Guide Topics
Displacement Sensors
Displacement Sensors
Semiconductor laser displacement sensors and meters
Inductive (eddy current) displacement
CCD Laser Displacement Sensor (LK Series)
Measurement Principle of Double Scanning Method
Measurement Principle of Laser Confocal Microscope
Optical Micrometers
Hints on Correct Use
Glossary
KEYENCE General Catalog

Keyence Product Information Site
KEYENCE Displacement Sensor Product information

Technical Glossary

World Standards Information
Product Catalogs
Laser Displacement Sensor
LK-G High-speed, High-accuracy CCD Laser Displacement Sensor
LK Series Ultra-accuracy CCD Laser Sensor
LC3 Ultra-high Accuracy Laser Sensor
LT-9000 High-accuracy Confocal Laser Displacement Meter
RD Analog Sensor Controllers
LT Series Confocal Laser Meter
LK-3100 Ultra-Compact CCD Laser Sensor
LB-1000 High Accuracy Laser Sensor
Inductive Displacement Sensor
EX-V Digital, High Speed/Accuracy Sensor
EX-500 High Accuracy Sensor
EX-200 High-speed Response Sensor
Optical Micrometer
LS-7000 High Speed LED/CCD Optical Micrometer
LS-5000 Laser Scan Micrometer
LX2-V Laser Thrubeam Photoelectric Sensor
Information Downloads
Increasing Measurement Range
Electronics & Electronic Component Industry Guide
Semiconductor/FPD/Food/
Pharmaceutical Industry Guide
Ultra-Long Range Laser Displacement Sensor
Rubber/Plastic/Film/Metal Industry Guide
Displacement Sensors
  

Semiconductor laser displacement sensors and meters

Operating Principle

Semiconductor laser displacement sensors and meters
Semiconductor laser displacement sensors and meters are comprised of a light-emitting element and a position sensitive detector (PSD) and detect targets using triangulation. A semiconductor laser is used as the light emitting element. A lens focuses the beam on the target. The target reflects the beam back through the lens where it is focused on the position-sensitive detector (PSD), forming a beam spot. The beam spot moves as the target moves. Displacement can be determined by detecting the movement of the beam spot.

Surface Reflection and Sensor Head Structure
The surface-reflected light from a target object consists of a diffuse reflection and a regular reflection. The quality of reflected light differs depending on material and surface conditions of the target object, and a regular reflection is dominant for a specular body while a diffuse reflection is dominant for objects with a normal surface.
Because specular bodies or close-to-specular bodies are usually measured with a high accuracy displacement meter, Keyence adopted the sensor structure which accepts regular reflections for this type of displacement meter. On the other hand, for the displacement meters that measure normal objects, Keyence adopted the sensor structure which accepts a diffuse reflection component in order to expand the measuring distance.
Sensor head configuration
Details of a laser displacement sensor head
Surface conditions and reflections
Diffuse reflective surface Specular reflective surface
Diffuse reflective surface Specular surface
Sensor head design and operating principle
Diffuse reflective sensor head Specular reflective sensor head
Diffuse-reflective receiver
(Long distance, high-resolution types) 		  Specular-reflective receiver
(Ultra-high-resolution type)

Effective Use of Laser Displacement Sensor

Mounting
Measuring displacement of target with height differences
When measuring the displacement of a target with height differences, mount the sensor as shown to minimize interference caused by target edges.
How to mount the sensor for targets with height differences

When mounting the sensor head to a wall surface
Mount the sensor head so that the light reflected from the wall does not enter the receiver lens. When the wall is shiny, painting the surface matte black is effective.
When mounting the sensor head to a wall surface

Measurement of targets with sharp variations in color or material
KEYENCE's displacement sensors are designed to measure regardless of target color or material. However, when measuring a target with sharp changes in color or material mount the sensor head at the edge of the change, as shown, to minimize error.
How to measure targets with sharp variations in color or material

Displacement measurement of mirror-surfaced targets
When measuring shiny metal or mirror-surfaced targets, the specular-reflective component of a light beam either blocks all light beams, or prevents the sensor from receiving the level required for stable operation. This can be corrected by tilting the light receiving portion of the sensor head. If the sensor head cannot be moved, or if higher measurement accuracy is required, use the LC Series specular reflective sensor.
How to measure mirror-surfaced targets

Displacement measurement of black targets
When the target is a low-reflectance object such as a black object, light quantity reflected from the target is small, and therefore the signal from the position sensitive detector (PSD) is also small. As a result, the signal-to-noise ratio will drop, decreasing the resolution. Mounting the sensor head as shown below will increase received light quantity, increasing the resolution.

How to measure black targets   As shown on the left, tilt the sensor head in the direction of specular reflection. The light quantity will increase, thus increasing the resolution.

Another way to measure black targets   Place the sensor head closer to the target within the measuring range. The light quantity will increase, increasing the resolution.

Displacement measurement of a target in a hole
How to measure a target in a hole When measuring the displacement of a target in a small diameter hole, mount the sensor head so that the emitted and reflected light are not blocked by the wall surface of the hole.

Eccentricity measurement
How to reduce the effect of irregular target surfaces When measuring the eccentricity of a revolving target, mount the sensor as shown to minimize the effect of vertical oscillation or displacement.

More on this topic...
-> A Desktop Reference for Sensors, Vision Systems and Measuring Instruments. General Catalog
-> Learn Laser Measurement Technical Terms. English, Spanish and Chinese Technical Glossary Vol. 2. Technical Terms Glossary
Laser measurement of any material or surface.
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