Ir Receiver Circuit Diagram Using Tsop1738

The TSOP1738 is a miniaturized receiver for infrared remote control systems. A PIN diode and a preamplifier are assembled on a lead frame while the epoxy package acts as an IR filter. The demodulated output signal can be directly decoded by a microprocessor. The TSOP1738 is compatible with all common IR remote control data formats. 2: Pin Diagram of TSOP1738 IR Receiver Give power supply to pin 2 with the help of resistor and ground pin 1. Set your multimeter in voltage range at 20V. Now put positive terminal of your multimeter on pin 3 of TSOP1738 and ground the another end of multimeter. First line: rf encoder and decoder circuit diagram for simple IR receiver circuit diagram for simple RF transmitter circuit diagram for simple IR transmitter RF. They claim a 1.4km range with a stable 10Mbps full duplex data rate, the system uses either IR or visible.

Hello Engineers. Most of the time controlling Lights, Fans, and other electrical devices are cool and very helpful. Especially, when you are tired or busy at some other work. It feels like having a remote control for everything to be controlled with the same remote. So, today I am going to discuss a Long-distance Infrared remote control switch circuit. This circuit is employing an IC4017 and a TSOP1738 IR receiver that can be controlled using any TV remote control. So, let’s get started wit our Infrared remote control switch using the TSOP1738 IR receiver. An infrared remote control switch circuit for controlling AC domestic appliances by your TV remote.

TSOP1738

TSOP 1738 IR RECEIVER is a 3-terminal infrared receiver sensor. PIN diode and preamplifier are assembled on the lead frame.

CircuitIr Receiver Circuit Diagram Using Tsop1738

This IR sensor module is consisting of a PIN diode and a preamplifier that is embedded into a single package. The output of TSOP is active low and it gives +5V in the off state. TSOP1738 is used in a variety of applications like TVs, music systems, car stereos, DVD players, etc. When IR waves, from a source, with a center frequency of 38 kHz incident on it, its output goes low.

Ir Receiver Circuit

Circuit Diagram

Tsop1738 Circuit

Components

Ir Receiver Circuit Diagram Using Tsop1738
  • C1 0.33uf – 1pcs
  • C2 0.1uf – 1pc
  • U1 IC 4017
  • U2 LM7805
  • R1 10K
  • R2,R3 1K – 2pcS
  • Relay 12v
  • Q1 2N2222A -1pc
  • Q2 BC548 -1pc
  • D3(diode across relay) 1N4007 -1pc
  • PCB

The circuit shown above is quite similar to simple IC cd4017 IR remote control that I have posted here earlier. The difference with this circuit is the TSOP1738 IR sensor and its long-distance range. The older circuit was capable only till a range of 2-3 feets distance and that’s not at all much useful. But this circuit shown above can be used for longer distances up to 20 feet. It can be controlled using any TV remote as most of the tv remotes have a matching frequency of 38khz.

To understand how to use IC CD4017 here in detail, refer to the article click here. The output of the IR Receiver is a decoded output of the signal from Remote control. Whenever a button is pressed on the remote, it transmits modulated Infrared Signals. When the IR light signal is detected by the IR Receiver TSOP 1738 it gives demodulated output via the output pin, pin(3) connected to the R3. The transistor output goes to the IC’s pin 14 i.e clock pin

This output is connected to the Transistor BC548 transistor’s base making it turn ON. When the remote button is pressed&released again, then the clock is high for a moment and pin2(Q1) latch is ON. This time the Pin 2 (Q1) is giving latch output to the relay and relay connects 220v device to the mains supply.

Next time again button pressed and released, the clock pin receives the high signal for once and then Q2 which is on pin4 goes ON. But the pin 4 is connected to pin 15 which is reset and counter restart on Q0. So, the device is turned off as Q1 is off. Each time button pressed and released, the same process is repeated.

I hope you guys liked this circuit and for any kind of queries, you can ask me in comments.

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