Fiber Sensor, Ultra-thin Flat Type
Brand :
MISUMI
Caution
Product Description
This is an economy item, The price is cheaper than the MISUMI standard product.
Product Overview
The optical fiber consists of a central core and an outer cladding made of metal with a lower refractive index.
If light enters the core, it will travel while repeatedly undergoing total internal reflection at the interface with the cladding metal. The light emitted from the end face inside the optical fiber
spreads at an angle of approximately 60°, illuminating the object to be detected.

If light enters the core, it will travel while repeatedly undergoing total internal reflection at the interface with the cladding metal. The light emitted from the end face inside the optical fiber
spreads at an angle of approximately 60°, illuminating the object to be detected.

Dimensional Drawing
■ The wire length of this product can be cut as needed. Please prepare your own cutting tools.


Specification Overview
| Part number | Specifications | Detection Direction | Shape (mm) | Operating Temperature | Bending radius (mm) | Shaft Diameter (mm) | Cable Length | Material | Detection Distance (mm) | |||
| Wire Material | Body Material | When using the Fiber Optic Amplifier E-MSMFA11/41 Series | ||||||||||
| High-speed Mode | Standard Mode | Long Distance Mode | ||||||||||
| E-MSMD15XR | Retroreflective Type | Top View | ![]() | -40 to 70°C | R15 | 2-⌀0.5 | 2 m | Polyethylene | SUS303 | 30 | 45 | 70 |
| E-MSM41TZ | Horizontal View | ![]() | 2-⌀0.5 | 10 | 20 | 35 | ||||||
| E-MSMD15ZR | ![]() | R25 | 2-⌀1.0 | 15 | 25 | 50 | ||||||
| E-MSMD15YR | Side View | ![]() | 2-⌀0.5 | 20 | 30 | 50 | ||||||
| E-MSMT15ZR | Through-beam Type | Horizontal View | ![]() | ⌀1.0 | 90 | 160 | 270 | |||||
| E-MSMT15YR | Side View | ![]() | 40 | 70 | 120 | |||||||
| E-MSMT15XR | Top View | ![]() | 350 | 600 | 1300 | |||||||
Product Features
Fiber Optic Type Structure: Since there are no electrical components in the detection unit (fiber optic), it offers excellent resistance to interference and environmental conditions.

Material





