PRODUCT SPOTLIGHT
MCG-TT Linear Encoder - Ultra Low Profile
The MCG-TT linear encoder provides an ultra-low encoder profile for restricted spaces without the need to sacrifice performance or environmental robustness. Having a cylindrical shape the MCG rea...
The MCG-TT linear encoder provides an ultra-low encoder profile for restricted spaces without the need to sacrifice performance or environmental robustness. Having a cylindrical shape the MCG rea...
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APPLICATION STORY
Newall Solves Scale Contamination Problem at Electro Motive
Electro Motive (EMD) is a global provider of diesel power engines for marine propulsion, offshore and land based oil well drilling rigs, and stationary power generation. Electro-Motive is the onl...
Electro Motive (EMD) is a global provider of diesel power engines for marine propulsion, offshore and land based oil well drilling rigs, and stationary power generation. Electro-Motive is the onl...
Incremental Feedback Encoders for CNC/PLC
Newall's incremental linear encoders are compatible with the majority of CNC and PLC controls. A variety of output signals, body styles, and reference marks are available. The encoder selection guide shown below will help with selection of the right encoder for your application.
Encoder Selection Guide - Incremental
|
Output Signal |
Reference Mark |
Model |
Notes |
|
TTL Differential
A Quad B
|
Periodic
|
Accuracy: 10μm/m
Resolutions: From 0.5μm
Travels: 2-462”
Most popular encoder
|
|
|
TTL Differential
A Quad B
|
Periodic
|
Accuracy: 10μm/m
Resolutions: From 0.1μm
Travels: 2-40”
Small MHG body style
|
|
|
TTL Differential
A Quad B
|
Periodic
|
Accuracy: 10μm/m
Resolutions: From 5μm
Designed specifically for press brakes
|
|
|
TTL Differential
A Quad B
|
Single
|
Accuracy: 10μm/m
Resolutions: From 0.5μm
Travels: 2-462”
|
|
|
TTL Differential
A Quad B
|
Single
|
Accuracy: 10μm/m
Resolutions: From 5μm
Designed specifically for press brakes
|
|
|
TTL Differential
A Quad B
|
None
|
Accuracy: 10μm/m
Resolutions: From 5μm
Travels: 2-462”
For manually moved machines and interface
with competitors’ DROs.
|
|
|
TTL Differential
A Quad B
|
None
|
Accuracy: 10μm/m
Resolutions: From 1μm
Travels: 2-40”
For manually moved machines and interface
with competitors’ DROs.
|
|
|
~1vpp
Sine Cosine
|
Periodic
|
Accuracy: 10μm/m
Resolution: 20μm Signal Period
Travels: 2-462”
|
|
|
~1vpp
Sine Cosine
|
Single
|
Accuracy: 10μm/m
Resolution: 20μm Signal Period
Travels: 2-462”
|
|
|
5-28V Differential
Quadrature
|
Periodic
|
Accuracy: 10μm/m
Resolutions: From 0.5μm
Travels: 2-462”
Other: Flexible encoder can accept
5-28VDC power and output 5v or 24V quad
|
|
|
11μA
Sine Cosine
|
None
|
Accuracy: 10μm/m
Resolution: 20um Signal Period
Travels: 2-462”
For manually moved machines and interface
with competitors’ DROs.
|
|
|
11μA
Sine Cosine
|
None
|
Accuracy: 5μm/m
Resolution: 20um Signal Period
Travels: 2-40”
For manually moved machines and interface with competitors’ DROs.
|
|
Quick and Easy Installation
|
|---|
The design of these linear encoders allow installment in almost any position, unlike glass-scale linear encoders, which usually need to be installed with the lip seal facing downwards to prevent contamination. Self-aligning fixing brackets allow virtually effortless scale mounting, needing only a single hole for each set of brackets.
