1000 PPR 2-Phase Incremental Optical Rotary Encoder 5-24V
1000 PPR 2-Phase Incremental Optical Rotary Encoder 5-24V
SKU:CR6201
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The 1000 PPR 2-Phase Incremental Optical Rotary Encoder is a high-resolution encoder with quadrature outputs for increment counting. It provides 1000 transitions per rotation between outputs A and B, and a quadrature decoder is required to convert the pulses to an up count. The encoder is built to industrial-grade standards and is suitable for projects requiring precise speed and direction control of conveyer belts or other rotating machinery.
Features:
- Cost-efficient advantages.
- Internal ASIC devices for high reliability and long life.
- Anti-jamming performance.
- Small size, lightweight, and compact structure.
- Easy installation.
- Stainless steel shaft with high resolution and quality.
- Line interface with waterproof protection.
Specifications:
- Encoder Type: NPN
- Operating Voltage (VDC): 5-24V
- Current Consumption (mA): <80ma
- Maximum Speed: 6000r/min
- Pulse Per Revolution (PPR): 1000
- Counts Per Revolution (CPR): 1000
- Operating Temperature Range (°C): -10~+70°C
- Output Phase: NPN
- Protection Standard: Load short circuit protection, power reverse connection protection
- Shaft Type: D-type
- Shaft Length (mm): 10
- Shaft Diameter (mm): 6
- Mounting Hole(mm): M3*6
- Weight (gm): 100g
- Body Dimensions (Dia. x Length) mm: 38*34
- Cable Length (Meter): 1 meter
Power and Input Terminal Assignments:
- VCC: Red (connect to +ve of supply)
- GND: Black (connect to negative of the supply)
- Phase A: Yellow (Quadrature encoded output A)
- Phase B: Green (Quadrature encoded output B)
- Shield: Silver (connect to GND)
Package Includes:
- 1 x 1000 PPR 2-Phase Incremental Optical Rotary Encoder 5-24V
Note: Adding pull-up resistors to both A and B phases of the encoder output is recommended to avoid interference and ensure precise logical output values. Adding a pull-up resistor to all phase output lines also protects the open collector output-triode from damage due to direct Vcc supply short circuit.