12 V DC to 290 V DC circuit in proteus

12 V DC to 290 V DC circuit in proteus

In this article we will learn how to make 12v DC to 290v DC circuit in proteus.
In the last post we will learn how to Interface Real Time Clock with Alphanumeric LCD breakout in proteus. You can visit our website,
I hope you appreciate my work, let’s discuss about today’s project.

Components:

1. IC (UC352A)
2. Transformer
3. FET
4. Resistors (15k, 1k, 22k, 2.2k, 470k, 10k, 56k)
5. Capacitors (10uF, 2200uF, 1uF, 1000uF, 3.3nF, 22nF, 3nF)
6. Battery (12v)
7. Diod
8. Jumper wires

Construction…

• Connect GND pin of IC (UC3525A) with GND
• Connect RT pin of IC with one side of resistor 15k
• Connect 2^nd side of resistor with GND
• Connect pin 7 of IC with one side of resistor 22
• Connect 2^nd side of resistor with one side of capacitor 3nF through pin 5 of IC
• Connect 2^nd side of capacitor with GND
• Connect pin 2 of IC with one side of resistor 1k
• Connect 2^nd pin of resistor 1k with one side of resistor 2.2k through pin 16
• Connect 2^nd side of resistor 2.2k with GND
• Connect pin 9 of IC with one side of resistor 470k
• Connect –ve side of capacitor 3.3nf with GND
• Connect +ve side of capacitor 3.3nF with one side of capacitor 22nF
• Connect the junction of capacitors and 470k resistor with jumper
• Connect one side of resistor 1k with GND
• Connect 2^nd side of resistor 1k with one side of resistor 56k
• Connect 2^nd side of capacitor 22nF and 2^nd side of resistor 470k and pin 1 of IC with the junction of resistors 1k & 56k
• Connect 2^nd side of resistor 56k with +ve side of capacitor 10uF through one side of transformer 5mH and then give VOUT
• Connect 2^nd side of capacitor 10uF with GND
• Connect –ve side of capacitor 100nF with GND
• Connect +ve side of capacitor 100nF with +ve side of capacitor 1000uF
• Connect –ve side of capacitor 1000uF with GND
• Connect +ve side of capacitor 1000uF with –ve side of diod 4007
• Connect pin 13 and pin 15 of IC with each other and then connect them with the junction of diod and capacitor
• Connect 2^nd side of diod with one side of battery 12v through signal terminal of transformer
• Connect 2^nd side of 12v battery with GND
• Connect signal pin of Transformer with +ve side of capacitor 2200uF
• Connect –ve side of capacitor 2200uF with GND
• Connect pin 11 of IC with one side of resistor 10k
• Connect 2^nd side of resistor 10k with one side of resistor 1k
• Connect 2^nd side of resistor 1k with GND
• Connect signal pin of FET with the junction of resistors 10k and 1k
• Connect ammeter pin of FET with GND
• Connect collector pin of FET with one terminal of Transformer
• Connect pin 14 of IC with one side of 2^nd resistor 10k
• Connect 2^nd side of 2^nd resistor 10k with one side of 2^nd resistor 1k
• Connect 2^nd side of 2^nd resistor 1k with GND
• Connect signal pin of 2^nd FET with the junction of resistors 10k and 1k
• Connect ammeter pin of 2^nd FET with GND
• Connect collector pin of 2^nd FET with one terminal of Transformer
• Connect 3^rd terminal of Transformer with the junction of Diod 1 and 2
• Connect 4^th terminal of transformer with the junction of Diod 3 and 4
• Connect the junction of 1^st and 4^th Diod with GND
• Connect the junction of 2^nd and 3^rd Diod with 2^nd side of transformer 5mH

Working…

Converting a 12V DC voltage to 290V DC voltage is a significant step-up in voltage, and it typically requires a DC-DC boost converter or voltage multiplier circuit

Applications…

1. Battery-Powered Devices
2. LED Lighting
3. Electric Vehicles
4. Power Supplies
5. DC Motor Drives

Advantages…

1. Power Efficiency
2. Compatibility
3. Battery-Powered Systems
4. Compact Design
5. Solar Power Systems