Phone

    00852-6915 1330

PC817 Optocoupler: Pinout, Schematic, Equivalent

  • Contents

PC817 Description

PC817 Features

PC817 Applications

PC817 Pinout

PC817 Equivalents

PC817 Alternatives

PC817 Parameters

PC817 Circuit

PC817 Manufacturer

Where to use PC817

How to use PC817

How to Safely Long Run PC817 in Circuit

PC817 Package

PC817 Description

PC817 consists of an LED emitting a diode and a phototransistor. They are optically coupled to each other. The electrical signal is transmitted optically between the input and output sides with no physical connection between the two sides. The IR circuit can be designed by hand, but we have a fully pre-engineered and small built-in IC circuit known as the PC817 optocoupler. The PC817 optocoupler is small and comes in several packages.

 

PC817 Features

  • Input Diode Forward Voltage: 1.25V

  • Collector-Emitter Voltage: 80V (max)

  • Collector Current: 50mA (max)

  • Cut-off frequency: 80 kHz

  • Rise Time: 18us

  • Fall Time: 18us

  • Available as 4-pin DIP through the hole and also as an SMT package.

 

PC817 Applications

  • Electrical Isolation circuits

  • Microcontroller I/O switching circuits

  • Signal isolation

  • Noise coupling circuits

  • Isolation digital from analog circuits

  • Ac/DC Power control

 

PC817 Pinout

Pinout.jpg

Pin Number Pin Name Description
1 Anode Anode pin of the IR LED. Connected to the logic input
2 Cathode Cathode pin of the IR LED. Connected to ground
3 Emitter Emitter pin of the transistor. Connected to Ground
4 Collector Collector pin of the Transistor. Provides logical output

 

 

PC817 Equivalents

 

The replacement and equivalent of PC817 optocoupler are PC816PC123TLP621TLP321TLP421PC17K1H11A817SFH615APS2501-1PS2561-1PS2571-1, LTV-816, LTV-817(-V), LTV123, LTV-610 K1010, K817P, SFH615A

 

 

PC817 Alternatives

 

MOC3021 (Zero Cross TRIAC) , MOC3041 (Non-Zero Cross TRIAC), FOD3180 (High-Speed MOSFET), MCT2E, 4N25

 

 

PC817 Parameters

 

Manufacturer: Sharp Microelectronics
Product Category: Transistor Output Optocouplers
Mounting Style: Through Hole
Number of Channels: 1 Channel
Isolation Voltage: 5000 Vrms
Output Type: Phototransistor
Current Transfer Ratio - Min: 50%
Current Transfer Ratio - Max: 600%
If - Forward Current: 50 mA
Vf - Forward Voltage: 1.4 V
Maximum Collector Emitter Voltage: 80 V
Maximum Collector Current: 20 mA
Maximum Collector Emitter Saturation Voltage: 200 mV
Rise Time: 18 us
Fall Time: 18 us
Vr - Reverse Voltage: 6 V
Pd - Power Dissipation: 200 mW
Minimum Operating Temperature: - 30 C
Maximum Operating Temperature: + 100 C
Packaging: Sleeve
Brand: Sharp Microelectronics
Current Transfer Ratio: 50%
Product Type: Transistor Output Optocouplers

PC817 Circuit

 

  • Circuit Diagram

   The circuit design is given below.

 

circuit.jpg

The circuit is totally simple but the resistance will give it protection at the input in HIGH voltages. The Optocoupler is just a small-sized circuit of the infrared receiver and sender but the case of making it externally by using an IR sender and receiver causes many problems.

1. First manually made circuit comes in a larger size, then in the case of IR receiving devices the circuit IR sender of auto coupler or receiver could be affected by other IR signals.

2. closed communication protects it from many things especially temperature too.

3. The manually made Optocoupler has a low voltage operating voltage level as compared to this PC817.

 

  • Test Circuit for Response Time

circuit2.jpg

  • Test Circuit for Frequency Response

circuit3.jpg

PC817 Manufacturer

 

Sharp Microelectronics of the Americas (SMA) drives innovative LCD, optoelectronics, memory, imager, and RF components to market. The world's leading manufacturers of consumer and business technologies look to SMA for the products, expertise, and worldwide support they need to make their visions a reality. SMA, in Camas, Washington, is the microelectronics sales and marketing division of Sharp Electronics Corporation, a wholly-owned subsidiary of Sharp Corporation.

 

 

Where to use PC817

 

The PC817 optocoupler has a transistor that is controlled based on light (photon). So this IC basically has an IR (infrared) LED and a phototransistor in it. When the IR LED is powered, the light from it falls on the transistor and it conducts. The layout and pinout of the IR LED and phototransistor is shown below.

where to use.jpg

This IC is used to provide electrical isolation between two circuits, one part of the circuit is connected to the IR LED and the other part is connected to the phototransistor. The digital signal given to the IR LED will be reflected on the transistor, but there will be no hard electrical connection between the two. This comes in handy when trying to isolate a noisy signal from your digital electronics. So if you are looking for an IC to provide optical isolation in your circuit design, this IC might be the right choice for you.

How to use PC817

 

Using the PC817 IC is fairly easy, we just need to connect the anode pin of the IR LED (pin 1) to the logic input, which needs to be isolated, and connect the cathode (pin 2) of the IR to the ground. Then pull up the collector pin of the transistor with a resistor (here I used 1K) and connect the collector pin to the output of your desired logic circuit. The emitter (pin 4) is grounded.

circuit.jpg

Now when the logic input is low, the IR LED does not conduct and therefore the transistor is also in the off state. Therefore the logic output stays high, this high voltage can be set arbitrarily up to 30V (collector-emitter voltage), here I used +5V. Your 1K pull-up resistor acts as a load resistor. But when the logic input is made high, that high voltage should be at least 1.25V (diode forward voltage), the IR LED will conduct and thus the phototransistor will also turn on. This shorts the collector and emitter and thus the logic output voltage becomes zero.

In this way, the logical input is reflected in the logical output while still providing isolation between the two. The full work can also be understood from the above GIF file. Another important parameter to consider when using an optocoupler is the rise time (tr) and fall time (tf). The output will not go high once the input logic is made low and vice versa.

The waveform below shows the time it takes for the output to transition from one state to another. For PC817 the rise time (TPDHL) and fall time (TPDLH) are 18 µs.

 

 

How to Safely Long Run PC817 in Circuit

 

To safely long-run PC817 optocoupler in your circuit is recommended to always stay below the absolute maximum ratings. Do not drive load more than 50mA, The internal IR LED can be derived the same as you drive any other normal LED with a current limiting resistor therefore always use a current limiting resistor at the pin1 of the optocoupler which is the IR LED anode or positive pin. Do not operate the device at temperatures below -30 centigrade and above 100 centigrade and always store it in temperatures above -55 centigrade and below 125 centigrade.

 

 

PC817 Package

Through-Hole [ex.PC817X]

 

package1.jpg

SMT Gullwing Lead-Form [ex.PC817XI]

 

package2.jpg

Wide Through-Hole Lead-Form [ex.PC817XF]

 

package3.jpg

Wide SMT Gullwing Lead-Form [ex.PC817XFP]

package4.jpg

 

 

 

 

Kynix

Kynix was founded in 2008, specializing in the electronic components distribution business. We adhere to honesty and ethics as our business philosophy and have gradually established an excellent reputation and credibility in our international business. With the accurate quotation, excellent credit, reasonable price, reliable quality, fast delivery, and authentic service, we have won the praise of the majority of customers.

Join our mailing list!

Be the first to know about new products, special offers, and more.

Leave a Reply

We'd love to hear from you! Feel free to share your thoughts and comments below. Rest assured, your email address will remain private.

Name *
Email *
Captcha *
Rating:

Kynix

  • How to purchase

  • Order
  • Search & Inquiry
  • Shipping & Tracking
  • Payment Methods
  • Contact Us

  • Tel: 00852-6915 1330
  • Email: info@kynix.com
  • Follow Us

authentication

Kynix

© 2008-2026 kynix.com all rights reserved.