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Arduino-Based Wireless Doorbell: Design and Implementation, Slides of Power Electronics

Indus University Power Electronics

easily explain to presentation its is helpful to explain this presentation and some information of power subject

Typology: Slides

2019/2020

Uploaded on 10/16/2020

zainab-ather 🇵🇰

13 documents

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WIRELESS DOORBELL

Prepared By:

Zainab Ather

Partial preview of the text

Download Arduino-Based Wireless Doorbell: Design and Implementation and more Slides Power Electronics in PDF only on Docsity!

WIRELESS DOORBELL

Prepared By: Zainab Ather

(^) TABLE OF CONTENTS
(^) INTRODUCTION
(^) COMPONENTS
- (^) FOR TRANSMITTER
- FOR RECEIVER
(^) CIRCUIT DIAGRAM
- WIRELESS DOORBELL TRANSMITTER CIRCUIT DIAGRAM
- (^) WIRELESS DOORBELL RECEIVER CIRCUIT DIAGRAM
(^) COMPONENT DESCRIPTION
(^) CIRCUIT DESIGN
- (^) DESIGN OF TRANSMITTER CIRCUIT
- DESIGN OF RECEIVER CIRCUIT
(^) WORKING OF THE PROJECT
(^) CODE
(^) ADVANTAGES
(^) LIMITATION
(^) APPLICATIONS

• COMPONENTS

• FOR TRANSMITTER

• 434 MHZ RF TRANSMITTER MODULE

• HT – 12E ENCODER IC

• 750 KΩ RESISTOR

• PUSH BUTTON

• POWER SUPPLY

• CONNECTING WIRES

• PROTOTYPING BOARD (BREADBOARD)

• FOR RECEIVER

• ARDUINO UNO

• 434 MHZ RF RECEIVER MODULE

• HT – 12D DECODER IC

• 33 KΩ RESISTOR

• SMALL BUZZER

• POWER SUPPLY

• CONNECTING WIRES

• PROTOTYPING BOARD (BREADBOARD)

• WIRELESS DOORBELL RECEIVER CIRCUIT DIAGRAM

• COMPONENT DESCRIPTION

• RF TRANSMITTER – RECEIVER MODULE: THE WIRELESS COMMUNICATION IN THIS

PROJECT IS IMPLEMENTED USING RF TRANSMITTER – RECEIVER PAIR. A 434 MHZ RF

TRANSMITTER – RECEIVER MODULE IS USED IN THIS PROJECT. UP TO 500 FEET OR 150

METERS OF DISTANCE CAN BE POSSIBLE WITH THIS MODULE.

(^) CIRCUIT DESIGN
(^) DESIGN OF TRANSMITTER CIRCUIT
(^) THE TRANSMITTER CONSISTS OF A 434 MHZ RF TRANSMITTER MODULE, HT – 12E ENCODER IC, 750 KΩ RESISTOR AND A PUSH BUTTON. THE DESIGN OF THE TRANSMITTER CIRCUIT IS VERY SIMPLE. PINS 18 AND 9 ARE CONNECTED TO SUPPLY AND GROUND TERMINALS RESPECTIVELY.
(^) THE DATA OUT PIN (PIN 17) OF HT – 12E IS CONNECTED TO DATA PIN OF THE RF TRANSMITTER MODULE. A 750 KΩ IS CONNECTED BETWEEN THE OSCILLATOR PINS (PINS 15 AND 16) OF THE HT – 12E. THE TRANSMISSION ENABLE PIN (PIN 14) IS CONNECTED TO GROUND. A PUSH BUTTON IS CONNECTED BETWEEN AD8 (PIN 10) AND GROUND. OTHER CONNECTIONS ARE SHOWN IN THE CIRCUIT DIAGRAM.
(^) DESIGN OF RECEIVER CIRCUIT
(^) THE RECEIVER PART OF THE PROJECT CONSISTS OF 434 MHZ RF RECEIVER MODULE, HT – 12D DECODER IC, 33 KΩ RESISTOR, ARDUINO UNO AND A SMALL BUZZER.
(^) PINS 18 AND 9 I.E. VDD AND VSS PINS ARE CONNECTED TO SUPPLY AND GROUND TERMINALS RESPECTIVELY. THE DATA IN PIN (PIN 14) OF THE DECODER IC IS CONNECTED TO THE DATA PIN OF THE RF RECEIVER MODULE. A 33 KΩ RESISTOR IS CONNECTED BETWEEN THE OSCILLATOR PINS (PINS 15 AND 16) OF THE DECODER IC.
(^) THE D8 PIN (PIN 10) IS CONNECTED TO PIN 2 (OR ANY DIGITAL I/O PIN) OF ARDUINO UNO. A SMALL BUZZER IS CONNECTED BETWEEN PIN 11 OF ARDUINO AND GROUND.

• WORKING OF THE PROJECT

• THE AIM OF THIS PROJECT IS TO DESIGN A SIMPLE WIRELESS DOORBELL. THE WORKING OF

THE PROJECT IS EXPLAINED HERE. FOR EXPLAINING THE WORKING OF THE PROJECT, ALL

THE CONNECTIONS ARE MADE AS PER THE CIRCUIT DIAGRAM.

• NOTE : MAKE SURE THAT THE TRANSMITTER PART OF THE PROJECT IS SWITCHED ON

BEFORE THE RECEIVER PART. THIS IS TO ENSURE THAT THE RF TRANSMITTER AND

RECEIVER MODULES ARE PROPERLY PAIRED.

• IN ORDER TO RING THE BELL (OR BUZZER IN THIS CASE), WE NEED TO PUSH THE BUTTON

ON THE TRANSMITTER SIDE OF THE CIRCUIT. WHEN THE BUTTON IS PUSHED ON THE

TRANSMITTER SIDE, A LOGIC ‘0’ WILL BE DETECTED BY THE ENCODER IC. THE ENCODER IC

WILL TRANSMIT THIS DATA SERIALLY THROUGH THE RF TRANSMITTER MODULE.

• THE TRANSMITTED DATA WILL BE RECEIVED BY THE RF RECEIVER MODULE AND IS GIVEN

TO THE DECODER IC. THE DECODER IC, THEN DECODES THE SERIAL DATA TO PARALLEL

DATA AND TRANSMITS THE LOGIC ‘0’ TO ARDUINO.

• IN THE ARDUINO UNO’S, IT IS PROGRAMMED SUCH THAT, WHENEVER A LOGIC ‘0’ IS

DETECTED BY THE ARDUINO, THE BUZZER IS TURNED ON. HENCE, WHENEVER THE BUTTON

IS PRESSED, THE BUZZER IS TURNED ON WIRELESSLY.

 ADVANTAGES:

 (^) The advantage of using RF Transmitter – Receiver based Wireless Doorbell is that it is very easy to design the circuit and implement.  (^) The range of the transmission is fairly large. Hence, it is suitable for large homes.  (^) Another advantage over Bluetooth based data transmission is it doesn’t require any smart phone or Bluetooth enabled phone or any other Bluetooth device.  (^) In case the system is implemented using a Wi-Fi network, we need to make sure that both the transmitter and receiver are connected to the Wi-Fi network.  (^) Another wireless technology which can be used for Wireless Doorbell is IR. But the problem is that its range is less and also it is a Line of Sight Communication.

Arduino-Based Wireless Doorbell: Design and Implementation, Slides of Power Electronics

Related documents

Partial preview of the text

Download Arduino-Based Wireless Doorbell: Design and Implementation and more Slides Power Electronics in PDF only on Docsity!

WIRELESS DOORBELL

• COMPONENTS

• FOR TRANSMITTER

• 434 MHZ RF TRANSMITTER MODULE

• HT – 12E ENCODER IC

• 750 KΩ RESISTOR

• PUSH BUTTON

• POWER SUPPLY

• CONNECTING WIRES

• PROTOTYPING BOARD (BREADBOARD)

• FOR RECEIVER

• ARDUINO UNO

• 434 MHZ RF RECEIVER MODULE

• HT – 12D DECODER IC

• 33 KΩ RESISTOR

• SMALL BUZZER

• POWER SUPPLY

• CONNECTING WIRES

• PROTOTYPING BOARD (BREADBOARD)

• WIRELESS DOORBELL RECEIVER CIRCUIT DIAGRAM

• COMPONENT DESCRIPTION

• RF TRANSMITTER – RECEIVER MODULE: THE WIRELESS COMMUNICATION IN THIS

PROJECT IS IMPLEMENTED USING RF TRANSMITTER – RECEIVER PAIR. A 434 MHZ RF

TRANSMITTER – RECEIVER MODULE IS USED IN THIS PROJECT. UP TO 500 FEET OR 150

METERS OF DISTANCE CAN BE POSSIBLE WITH THIS MODULE.

• WORKING OF THE PROJECT

• THE AIM OF THIS PROJECT IS TO DESIGN A SIMPLE WIRELESS DOORBELL. THE WORKING OF

THE PROJECT IS EXPLAINED HERE. FOR EXPLAINING THE WORKING OF THE PROJECT, ALL

THE CONNECTIONS ARE MADE AS PER THE CIRCUIT DIAGRAM.

• NOTE : MAKE SURE THAT THE TRANSMITTER PART OF THE PROJECT IS SWITCHED ON

BEFORE THE RECEIVER PART. THIS IS TO ENSURE THAT THE RF TRANSMITTER AND

RECEIVER MODULES ARE PROPERLY PAIRED.

• IN ORDER TO RING THE BELL (OR BUZZER IN THIS CASE), WE NEED TO PUSH THE BUTTON

ON THE TRANSMITTER SIDE OF THE CIRCUIT. WHEN THE BUTTON IS PUSHED ON THE

TRANSMITTER SIDE, A LOGIC ‘0’ WILL BE DETECTED BY THE ENCODER IC. THE ENCODER IC

WILL TRANSMIT THIS DATA SERIALLY THROUGH THE RF TRANSMITTER MODULE.

• THE TRANSMITTED DATA WILL BE RECEIVED BY THE RF RECEIVER MODULE AND IS GIVEN

TO THE DECODER IC. THE DECODER IC, THEN DECODES THE SERIAL DATA TO PARALLEL

DATA AND TRANSMITS THE LOGIC ‘0’ TO ARDUINO.

• IN THE ARDUINO UNO’S, IT IS PROGRAMMED SUCH THAT, WHENEVER A LOGIC ‘0’ IS

DETECTED BY THE ARDUINO, THE BUZZER IS TURNED ON. HENCE, WHENEVER THE BUTTON

IS PRESSED, THE BUZZER IS TURNED ON WIRELESSLY.

 ADVANTAGES:

• LIMITATION

• BOTH THE TRANSMITTER AND RECEIVER PARTS OF THE CIRCUIT MUST BE ALWAYS TURNED

ON I.E. THERE SHOULD ALWAYS BE POWER.

• NO ADDITIONAL SECURITY LIKE CAMERA INTEGRATION AND HENCE, THE RINGER OF THE

BELL CAN’T BE DETERMINED.

• APPLICATIONS

• THE WIRELESS DOORBELL IMPLEMENTED IN THIS PROJECT IS JUST A DEMONSTRATION OF

THE IDEA. BUT THE IDEA CAN BE EXTENDED TO ACTUAL, REAL TIME WIRELESS DOORBELL

SYSTEM.

• SINCE THE MODE OF COMMUNICATION IS RF, THE RANGE IS CONSIDERABLY LARGE THAT

OTHER WIRELESS TECHNOLOGIES.

• THE PROJECT IS SUITABLE FOR HOMES, SHOPS, GARAGES, HOSPITALS, OFFICES ETC.