Chat OnlineRotary Incremental Encoder 1000 Line
Application: Matrix reading, with high impact resistance, strength capability to error correction high reliability, and installation sizes small, wide range of resolution, do not require the signal conditioning. Assembly requirements are less, and has compensation ability of motor shaft radial and axial shifting, widely used in the DC motor, with a multi-aperture for selection.
17HS5005-20BM Nema17 48mm stepper motor for mounting of this Rotary Encoder is available in stock.
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voltage |
Output signal |
Current consumption |
Output waveform |
Rise time Tr |
Fall time Tf |
Response frequency |
Insulation Resistance |
|
|
5V |
High level |
Low level |
<65mA no-load |
Square |
200ns |
50ns |
0-10kHz |
>100Ω |
|
≥85%Vcc |
≤0.3 |
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Mechanical spec:
|
Max speed r/min |
Starting torque |
Axis maximum load |
Impact |
Anti-vibration |
|
2400 |
<0.05Nm |
Radial 25 N Axial 15N |
50G/11ms |
10G 10-2000Hz |
|
Moment inertia |
Work Temperature |
Storage Temperature |
Protection Degree |
Weight |
|
4 x 10.-8kgm² |
-40~85ºC |
-40~85ºC |
IP50 |
50g |
Output phase shift
Connections:
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Shielded cable wiring definition |
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Signal |
A |
A/ |
B |
B/ |
Z |
Z/ |
Vcc |
0V |
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|
L circuits |
Green |
Brown |
White |
Grey |
Yellow |
Orange |
Red |
Black |
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T/C circuits |
Green |
|
White |
|
Yellow |
|
Red |
Black |
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Output channels |
Flat cable connection definition |
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|
A 、B |
0V A Vcc B |
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A、B、Z |
0V Z A Vcc B |
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|
A、B、Z、A/、B/、Z/ |
0V Vcc A A/ B/ B Z Z/ |
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Note: The red defined as 0V.
Incremental Encoder wiring
