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CCHN Industry

CCHN is a trusted U.S. registered company in industrial automation & controls, CCHN's goal is helping saving your money by bypassing all kinds of local dealers/agents in buying industrial automation products from Chinese manufacturers directly. You will be enjoyed to get free tech support on how to choose, how to wire, how to commissioning with CCHN professional engineers. Shopping for your automation systems on CCHN one-stop online store now. The price on the website only for sample reference. for Mass order,please send the enquiry to us.

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Foam cutting is a device for processing materials in the chemical industry such as foam and sponges. It mainly uses the high

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CCHN Industry
 
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CCHN Industry

CCHN is a trusted U.S. registered company in industrial automation & controls, CCHN's goal is helping saving your money by bypassing all kinds of local dealers/agents in buying industrial automation products from Chinese manufacturers directly. You will be enjoyed to get free tech support on how to choose, how to wire, how to commissioning with CCHN professional engineers. Shopping for your automation systems on CCHN one-stop online store now. The price on the website only for sample reference. for Mass order,please send the enquiry to us.

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Foam cutting is a device for processing materials in the chemical industry such as foam and sponges. It mainly uses the high

...
Incremental Rotary Encoder, Hollow Shaft, 5400 ppr
 
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Incremental Rotary Encoder, Hollow Shaft, 5400 ppr


$491.43
Favourable price optical incremental encoder adopts Φ30mm hollow shaft and Φ100mm shell, can sleeve-jointed on motor output s
SKU: CHN-IRE-5400PH
Free Shipping Worldwide
Delivery date: 6-12 days

Incremental rotary encoders with 5400 ppr can be used for robots, workbenches, injection molding machines, electronic equipment, printing and packaging machinery, non-standard equipment and CNC machine, a variety of office automation systems, industrial automation control and measurement fields.

Features:

  • Incremental rotary encoder internal adopts ASIC devices
  • High reliability, long life
  • Anti-jamming performance
  • Small size, light weight, compact structure
  • High pulse
  • Easy installation

Specification:

BasicsModelCHN-K10030G-5400BM
Weight100 g
WiringColorRedBlackGreenWhiteYellowBrownGrayOrange
SignalVccGNDABZA-B-Z-
Mechanical propertiesMaximum shaft speed (r/min)5000
Starting torque<0.03Nm (25℃)
Maximum shaft loadRadial load: 20N, axial load: 10N
Shock resistance50G/11ms
Anti-vibration10G (10~2000Hz)
Rotational inertia4X10-8kgm2
Operating temperature-30~+85℃ (-22~+185℉)
Storage temperature-35~+95℃ (-31~+203℉)
Protection LevelIP51
Electrical characteristicsOutput circuitOpen-collector outputVoltage outputPush-pull outputLine driver output
Supply voltage VccDC 5V±0.2DC 5~24VDC 5V±0.2DC 5~24VDC 5V±0.2DC 5~24VDC5V±0.2DC 5~24V
Current consumption≤60mA≤60mA≤60mA≤100mA
Output high level≥3.5V≥Vcc-2.5V--≥2.5V≥Vcc-2.5V
Output low level≤0.5V≤0.5V--≤0.5V≤1.0V
Rise time Tr≤500ns≤1500ns--≤200ns≤500ns
Fall time Tf≤100ns≤300ns--≤200ns≤200ns
Maximum frequency response0~150kHz0~150kHz0~150kHz0~150kHz0~150kHz0~150kHz

Model selection:

Shaft typeDiameter of shellDiameter of shaftConnection typeCable length *ResolutionProduction identifierZ signalZ signal wavelengthOutput mode *Voltage *
K: Hollow shaft100: 100mm30: 30mmG: Cable edge output1: 1m
2: 2m
3: 3m
4: 4m
5400: 5400 pprBM: Output 1 if receiving Z signalDefault: 1TC: Open-collector NPN
CP: Open-collector PNP
T: Voltage ouput NPN+R
P: Push-pull output NPN+PNP
L: Line driver 26LS31
K: Line driver 7272
5: +5VDC
830: +8~30VDC

Note: * denotes optional parameters, you can select parameters in drop-down lists to finish your order. Some customizable parameters can't be selected from the lists directly, please contact customer service staff for further communication.

Tips: How to determine whether the rotary encoder is interfered and fails?

  1. Exclude the sources of interference (remove, close, isolate).
  2. Determinate whether the mechanical gap cumulative error.
  3. Determine whether the control system matches with the encoder circuit interface (encoder selection error).

Try all the three methods and then trouble are eliminated, the reason can be initially determined. If not, then it needs to be further analyzed.