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    Picture of Shaft Type Optical Incremental Rotary Encoder, 5000 ppr Picture of Shaft Type Optical Incremental Rotary Encoder, 5000 ppr

    Shaft Type Optical Incremental Rotary Encoder, 5000 ppr

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    SKU: SUCH-IRE-5000PS
    $299.95
    ● Resolution 5000 ppr ● Maximum shaft speed 5000 r/min ● Operating temperature -30~+85℃ ● Storage temperature -35~+95℃
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    🚚 Free shipping
    🕒 Delivery date: 6-12 days
    🔁 30-day Returns
    Overview

    The low cost incremental encoder uses an 8mm diameter stainless steel shaft and a 58mm diameter housing. The SUCH shaft-type optical incremental rotary encoder operates in a temperature range of -30~+85℃ (-22~+185℉), offers multiple output modes, and features high reliability, high resolution, and high quality. The 5000 ppr incremental rotary encoder is shock and vibration-resistant, ensuring stable operation in complex industrial environments.

    Feature

    • Wide Temperature Range Adaptability: Operating temperature -30~+85℃, storage temperature -35~+95℃, strong adaptability to high and low temperature environments.
    • Stable Shaft Load Capacity: Can withstand radial 50 N and axial 20 N shaft loads, reliable mechanical structure, suitable for various installation conditions.
    • Robust and Durable: The incremental rotary encoder adopts a metal housing and stainless steel shaft, ensuring a long service life and meeting the needs of long-term high-speed industrial applications.

    Dimension (Unit:mm)

    Incremental rotary shaft encoder dimension

    Wiring

    Color Signal
    Red Vcc
    Black GND
    Green A
    White B
    Yellow Z
    Brown A-
    Gray B-
    Orange Z-
    Specs
    Maximum Shaft Speed 5000 r/min
    Starting Torque <0.03Nm (25℃)
    Maximum Shaft Load Radial load: 50N, axial load: 20N
    Shock Resistance 50G/11ms
    Anti-vibration 10G (10~2000Hz)
    Rotational Inertia 4*10-8kgm2
    Operating Temperature -30~+85℃ (-22~+185℉)
    Storage Temperature -35~+95℃ (-31~+203℉)
    Protection Level IP51
    Weight 100g


    Electrical Parameters

    Output Circuit Open-collector Voltage
    Supply Voltage Vcc DC 5V±0.2 DC 5~24V DC 5V±0.2/DC 5~24V
    Current Consumption ≤60mA ≤60mA
    Output High Level ≥3.5V ≥Vcc-2.5V -
    Output Low Level ≤0.5V ≤0.5V -
    Rise Time Tr ≤500ns ≤1500ns -
    Fall Time Tf ≤100ns ≤300ns -
    Maximum Frequency Response 0 ~ 100kHz

     

    Output Circuit Push-pull Line Driver
    Supply Voltage Vcc DC 5V±0.2/DC 5~24V DC 5V±0.2 DC 5~24V
    Current Consumption ≤60mA ≤100mA
    Output High Level - ≥2.5V ≥Vcc-2.5V
    Output Low Level - ≤0.5V ≤1.0V
    Rise Time Tr - ≤200ns ≤500ns
    Fall Time Tf - ≤200ns ≤200ns
    Maximum Frequency Response 0 ~ 100kHz


    Model Selection

    Shaft Type S: Shaft
    Diameter of Shell 58: 58mm
    Diameter of Shaft 08: 8mm
    Connection Type G: Cable edge output
    Cable Length* 1: 1m
    2: 2m
    3: 3m
    4: 4m
    Resolution 5000: 5000 ppr
    Production Identifier B
    Z Signal M: Output 1 if receiving Z signal
    Z Signal Wavelength Default: 1T
    Output Mode * C: Open-collector NPN
    CP: Open-collector PNP
    T: Voltage output NPN+R
    P: Push-pull output NPN+PNP
    L: Line driver 26LS31
    K: Line driver 7272
    Voltage * 5: +5VDC
    830: +8~30VDC

    Note: * indicates optional parameters. You can select parameters from the drop-down list. Some custom parameters cannot be selected directly from the list. Please contact us for assistance.

    Application
    Incremental rotary encoder for cnc machine tool



    CNC Machine Tool

    Incremental rotary encoder for robot



    Robot

    Incremental rotary encoder for printing machine



    Printing Machine

    FAQ

    When installing a rotary encoder, ensure shaft concentricity and avoid radial and axial forces. Do not strike the shaft end; use a flexible coupling to reduce mechanical stress. Securely fix the encoder to prevent vibration; ensure proper shielding and grounding during wiring to avoid electromagnetic interference.

    Without a Z-phase (Index), the system typically uses a mechanical limit switch or an external origin sensor for zeroing. Alternatively, the encoder can be moved to a set reference position after power-on as the zero point.

    Select the rotary encoder based on the required positioning accuracy and system speed. Higher PPR results in higher resolution but also requires greater controller processing power. A general calculation method is: Required minimum angle or linear resolution = 360° ÷ (PPR × decoding multiple).

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