This circuit utilizes the RF Module(Tx/Rx) for making a wireless remote, which could be used to drive an output from a distant place. RF module, as the name suggests, uses radio frequency to send signals. These signals are
transmitted at a particular frequency and a baud
rate. A receiver can receive these signals only if it is
configured for that frequency.
A four channel encoder/decoder pair has also been used in this system. The input signals, at the transmitter
side, are taken
through four switches while the outputs are monitored on a set of four Leds corresponding to each
input switch. The circuit can be used for designing Remote Appliance Control system. The outputs from the
receiver
can drive corresponding relays connected to any household appliance.
Circuit Diagram:
Encoder IC (HT12E) receives parallel data in the form of address bits and control bits. The control signals from remote switc hes along with 8 address bits constitute a set of 12
parallel signals. The encoder HT12E encodes these parallel signals into serial bits. Transmission is enabled by providing ground to pin14 which is active low. The control
signals
are given at pins 10 -13 of HT12E. The serial data is fed to the
RF
transmitter through pin17 of HT12E.
When no signal is received at data
pin
of HT12D, it remains in standby
mode and consumes very less current (less than 1ยตA) for a voltage of 5V. When signal is received by receiver, it is given to DIN pin (pin14) of HT12D. On reception of signal, oscillator of HT12D gets activated. IC HT12D then decodes the serial data and checks the address
bits three times. If these bits match with the local address pins (pins 1-8) of HT12D, then it puts the data bits on its data
pins (pins 10-13) and makes the VT pin high. An LED is connected to VT pin (pin17) of the decoder.
This LED works as an indicator to indicate a valid transmission. The corresponding output is
thus
generated at the data pins of decoder IC.
A signal is sent by lowering any or all the pins 10-13 of HT12E and corresponding signal is received at receiver’s end (at HT12D). Address bits are configured by
using the by using the first 8 pins of both encoder and decoder ICs. To send a particular signal, address bits must be same at encoder and decoder ICs. By configuring the address bits properly, a single RF transmitter can also
be used to control different RF receivers of same frequency.
Description: This
radio frequency
(RF) transmission system employs Amplitude Shift Keying (ASK) with transmitter/receiver (Tx/Rx) pair operating at 434 MHz. The transmitter module takes serial input and transmits these signals through RF. The transmitted signals are received by
the receiver module placed
away
from the source of transmission.
The system allows one way communication between two nodes, namely, transmission and reception. The RF Module has been used in conjunction with a set of four channel encoder/decoder ICs. Here HT12E and HT12D have been used as encoder and decoder respectively. The encoder converts the parallel inputs (from the remote switches) into serial set of signals. These signals are serially transferred through RF to the reception point. The decoder is used after the RF receiver to decode the serial format and retrieve the original signals as outputs. These
outputs can be observed on corresponding Leds.
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Transmitter, upon receiving serial data from encoder IC (HT12E), transmits it wirelessly
to the RF receiver. The receiver, up on receiving these signals, sends them to the decoder IC (HT12D) through pin2. The serial data is received at th e data pin (DIN, pin14)
of
HT12D. The decoder then retrieves the
original parallel format from the received serial data.
To summarize, on each transmission, 12 bits of data is transmitted consisting of 8 address bits and 4 data bits. The signal is received
at
receiver’s end which is then fed into decoder IC. If address bits get matched, decoder converts it into
parallel data
and the corresponding data bits get lowered which could be then used to drive the LEDs. The outputs from this system can either be used in negative logic or NOT gates can be incorporated at data
pins.
*** For more details contact to Nazish Shahab.
Price in Jaipur Rs-2200
Price in other cities Rs-2500
Designed By: Nazish Shahab
Near JNU Main Campus
Jagatpura, Jaipur, Rajasthan
302025
Contact: 7877698634/7665409048
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