Orange 2500 PPR ABZ 3-Phase Incremental Optical Rotary Encoder

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User Manual

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Dimensional Drawing

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Model No.

3806-OPTI-2500-ABZ-OC

Encoder Type

Incremental

Operating Voltage (VDC):

5 ~ 24

Current Consumption (mA)

≤40

Maximum Speed

3000 RPM

Pulse Per Revolution (PPR)

2500

Counts Per Revolution (CPR)

10000

Operating Temperature (°C)

-24 to 84

Output Phase

A-B-Z

Protection Standard

IP54

Shaft Type

D Type, Solid

Shaft Length (mm)

12

Shaft Diameter (mm)

6

Mounting Hole(mm)

M3

Weight (g):

160

Body Dimensions (Dia. x Length) mm

40 x 38.40

Cable Length (m):

2

Shipping Weight 0.19 kg
Shipping Dimensions 10 × 8 × 6 cm

If you want to build a project where the machine can Sense the speed of the conveyer belt as well as the direction of movement, a rotary encoder is a must-have component. Keeping this in mind, Robu.in introducing the brand new orange 2500 PPR 3-Phase Incremental Optical Rotary Encoder at a competitive price.

A rotary encoder is a type of position sensor which is used for determining the angular position of a rotating shaft. It generates an electrical signal, either analog or digital, according to the rotational movement.

Orange 2500 PPR Incremental Optical Rotary Encoder is a hi-resolution optical encoder with quadrature outputs for increment counting. It will give 10000 transitions per rotation between outputs A and B. whereas the Z phase will produce one transition per rotation. A quadrature decoder is required to convert the pulses to an up count. The Encoder is built to Industrial grade.

The Encoder comes with a Standard 2-meter long cable which can be extended with extra cable if needed.

Consider Adding Pull up resistor to All A-B-Z phases of the encoder output to avoid the effect of interference in output and get the precise logical output value from the encoder. Also adding a pull-up resistor to all phase output lines protects the open collector output-triode from damage due to direct Vcc supply short circuit.

Note: A sample tutorial code has been given in the Description.


Power and Input Terminal Assignments:

Terminal Name
Wire Color
Description

Phase A
White
Quadrature encoded output A

Phase B
Green
Quadrature encoded output B

Phase Z
Yellow
Quadrature encoded output Z

VCC
Red
VCC should be connected to +ve 5V of supply

GND
Black
The ground should be connected to negative the supply

Shield
Golden
The shield should be connected to GND

Shielding is important. At a minimum, the cable should be protected either by a foil jacket with a drain wire or by a braided-wire shield that is grounded. For very sensitive applications or high-EMI environments, foil jacketed wires in combination with an overall braided-wire shield around the cable should be used to avoid interference and precise encoder output.

To Explore More Rotary Encoders, Click here


Features :

  1. High cost-efficient advantages.
  2. Incremental rotary encoder internal adopts ASIC devices
  3. High reliability, long life
  4. Anti-jamming performance
  5. Small size, lightweight, compact structure
  6. Easy installation
  7. Stainless steel shaft, High resolution, High quality, line interface with waterproof protection

Useful Link:

How to connect optical rotary encoder with Arduino


Tutorial Code:

//these pins can not be changed 2/3 are special pins
int encoderPin1 = 2;
int encoderPin2 = 3;

volatile int lastEncoded = 0;
volatile long encoderValue = 0;

long lastencoderValue = 0;

int lastMSB = 0;
int lastLSB = 0;

void setup() {
Serial.begin (9600);

pinMode(encoderPin1, INPUT);
pinMode(encoderPin2, INPUT);

digitalWrite(encoderPin1, HIGH); //turn pullup resistor on
digitalWrite(encoderPin2, HIGH); //turn pullup resistor on

//call updateEncoder() when any high/low changed seen
//on interrupt 0 (pin 2), or interrupt 1 (pin 3)
attachInterrupt(0, updateEncoder, CHANGE);
attachInterrupt(1, updateEncoder, CHANGE);

}

void loop(){
//Do stuff here

Serial.println(encoderValue);
delay(1000); //just here to slow down the output, and show it will work even during a delay
}

void updateEncoder(){
int MSB = digitalRead(encoderPin1); //MSB = most significant bit
int LSB = digitalRead(encoderPin2); //LSB = least significant bit

int encoded = (MSB << 1) |LSB; //converting the 2 pin value to single number
int sum = (lastEncoded << 2) | encoded; //adding it to the previous encoded value

if(sum == 0b1101 || sum == 0b0100 || sum == 0b0010 || sum == 0b1011) encoderValue ++;
if(sum == 0b1110 || sum == 0b0111 || sum == 0b0001 || sum == 0b1000) encoderValue –;

lastEncoded = encoded; //store this value for next time
}


Package Includes :

1 x Orange 2500 PPR ABZ 3-Phase Incremental Optical Rotary Encoder

4 x 4.7KΩ Resistors for pull-ups

1 x Mounting Screw Set

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