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2 Cool 50 Watt Inverter Circuits for Students and Hobbyists

Last Updated on January 19, 2025 by Swagatam 160 Comments

A 50 watt inverter circuit might look quite trivial, but it can serve some useful purposes to you. When outdoors, this small power house can be used for operating small electronic gadgets, soldering iron, table top radios, incandescent lights, fans etc.

Table of Contents
  • Design#1: How it Works
    • Parts Required
    • Testing and Setting Up the Circuit
    • Design#2: 50 Watt Mosfet Inverter Circuit
    • Parts List
      • Video showing the Testing process of the 50 watt inverter circuit:

Let’s learn 2 homemade 50 watt inverter circuit designs, beginning with a brief description regarding the circuit diagram and its functioning:

Design#1: How it Works

The first 50 W circuit may be understood with the following points:

Referring to the figure below, transistors T1 and T2 along with the other R1, R2, R3 R4, C1 and C2 together form a simple astable multivibrator (AMV) circuit.

50 Watt Inverter Circuit Diagram using BJTs

A transistor multivibrator circuit basically is composed of two symmetrical half stages, here its formed by the left and the right hand side transistor stages which conduct in tandem or in simple words the left and the right stages conduct alternately in a kind of a perpetual “motion”, generating a continuous flip flop action.

The above action is responsible of creating the required oscillations for our inverter circuit. The frequency of the oscillation is directly proportional to the values of the capacitors or/and the resistors at the base of each transistor.

Lowering the values of the capacitors increases the frequency while increasing the values of the resistors decreases the frequency and vice versa. Here the values are chosen so as to produce a stable frequency of 50 Hz.

Readers, who wish to alter the frequency to 60 Hz, may easily do it by just changing the capacitor values appropriately.

Transistors T3 and T4 are placed at the two output arms of the AMV circuit. These are high gain; high current Darlington paired transistors, used as the output devices for the present configuration.

The frequency from the AMV is fed to the base of T3 and T4 alternately which in turn switch the transformer secondary winding, dumping the entire battery power in the transformer winding.

This results in a fast magnetic induction switching across the transformer windings, resulting the required the mains voltage at the output of the transformer.

Parts Required

 You will require the following components for making this 50 watt homemade inverter circuit:

ComponentValue
R1, R2100K
R3, R4330 Ohms
R5, R6470 Ohms, 2 Watt
R7, R822 Ohms, 5 Watt
C1, C20.22 uF, Ceramic Disc
D1, D21N5402 or 1N5408
T1, T28050
T3, T4TIP142
TIP142 pinout specifications

General purpose PCB = cut into the desired size, approximately 5 by 4 inches should suffice.

Battery: 12 volts, Current not less than 10 AH.

Transformer = 9 – 0 – 9 volts, 5 Amps, Output winding may be 220 V or 120 volts as per your country specifications

Sundries: Metallic box, fuse holder, connecting cords, sockets etc

Testing and Setting Up the Circuit

 After you finish making the above explained simple inverter circuit, you may do the testing of the unit in the following manner:

Initially do not connect the transformer or battery to the circuit.

Using a small DC power supply power the circuit.
If everything is done rightly, the circuit should start oscillating at the rated frequency of 50 Hz.

You can check this by connecting the prods of a frequency meter across T3’s or T4’s collector and the ground. The positive of the prod should go to the collector of the transistor.

If you don’t own a frequency meter, never mind, you do a rough checking by connecting a headphone pin across the above explained terminals of the circuit. If you hear a loud humming sound, will prove that your circuit is generating the required frequency output.

Now it’s time to integrate the battery and the transformer to the above circuit.

Connect everything as shown in the figure.

Connect a 40 watt incandescent lamp at the output of the transformer. And switch ON the battery to the circuit.

The bulb will immediately come ON brightly…..your homemade 50 watt inverter is ready and may be used as desired by for powering many small appliances whenever required.

Design#2: 50 Watt Mosfet Inverter Circuit

The circuit explained above involved power transistors now let's see how the same concept may be utilized with mosfets making the configuration much easier and straightforward, yet more robust and powerful.

Rest of the stages are pretty much the same, in the earlier circuit we saw the involvement of  a transistor based astable multivibrator for the generation of the required 50 Hz oscillations, here too we have incorporated a transitor operated AMV.

The earlier circuit had a couple of 2N3055 transistors at the output and as we all know driving power transistors efficiently requires proportionate amount of base drive, relative to the load current, because transistors depend on current drive rather than voltage drive, in contrast to mosfets.

Meaning, as the proposed load becomes higher, the base resistance of the relevant output transistor also gets dimensioned accordingly for enabling optimal amount of current to the base of the transistors,

Due to this obligation, in the previous design a additional driver stage had to be incorporated for facilitating better drive current to the 2N3055 transistors.

However when it comes to mosfets, this necessity becomes completely insignificant.

As can be seen in the given diagram, the AMV stage is instantly preceded by the relevant gates of the mosfets, because mosfets have very high input resistance, which means the AMV transistors wouldn't be unnecessarily loaded and therefore the frequency from the AMVwouldn't be distorted due to the integration of the power devices.

The mosfets are alternately switched, which in turn switches the battery voltage/current inside the secondary winding of the transformer.

The output of the transformer gets saturated delivering the expected 220V to the connected loads.

50 Watt Inverter Circuit Diagram using MOSFETs

Parts List

ComponentValue
R1, R227K
R3, R4220 Ohms
C1, C20.47uF/100V, metallized
T1, T2BC547
T3, T4Any 30V, 10A N-channel MOSFET or a couple of IRF540
Diodes1N5402 or any 3A rectifier diode

 

MOSFET IRF540 pinout details

Transformer = 9-0-9V, 8 amp
Battery = 12V,10AH

Video showing the Testing process of the 50 watt inverter circuit:

 

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Filed Under: Inverter Circuits Tagged With: Circuits, Cool, Hobbyists, Inverter, Students, Watt

About Swagatam

I am an electronics engineer and doing practical hands-on work from more than 15 years now. Building real circuits, testing them and also making PCB layouts by myself. I really love doing all these things like inventing something new, designing electronics and also helping other people like hobby guys who want to make their own cool circuits at home.

And that is the main reason why I started this website homemade-circuits.com, to share different types of circuit ideas..

If you are having any kind of doubt or question related to circuits then just write down your question in the comment box below, I am like always checking, so I guarantee I will reply you for sure!



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Reader Interactions

Questions & Answers

Total Posts: 160 (Older Threads Archive)
Newest Oldest
Asikpo Okon
October 8, 2025 • 9 months ago #187903

hello sir, I built the second circuit above, using 50n06 MOSFET , c1815 and ferite transformer but no output at the primary side of the transformer what could have cause it
thanks for responding

Reply
SwagatamAdmin
October 9, 2025 • 9 months ago #187938

Hello Okon, please first check whether your transistor astable circuit is working or not? Disconnect the MOSFETs, and connect an oscilloscope across both the BJTs collector/emitter (one by one) and check the waveform. Make sure it is square wave.
If it is OK, then make a MOSFET tester jig and check if the MOSFETs are good or not, as explained in the following article:
https://www.homemade-circuits.com/how-to-check-mosfet-using-digital/

Reply
john
June 21, 2022 • 4 years ago #128251

re the mosfet inverter. diodes should be fast recovery and the output needs a filter. this has nothing; not even a capacitor and the output will be nasty

Reply
SwagatamAdmin
June 21, 2022 • 4 years ago #128255

The diodes does not need to be fast recovery since the inverters are 50 or 60 Hz rated. You can put a capacitor at the output, no big deal.

Reply
Don Pascual
September 4, 2020 • 6 years ago #81994

I am so happy to find this today. I have been looking for many years for a way to charge cordless phones directly from a DC source and up until now I have found it is not impossible to do without a energy wasting design of 12V to 120V and 120V to 6V inverter and adapter in line. Now since a cordless phone battery will not charge unless the 6 or 9V DC signal from the included AC adapter is pulsing, this means it is not as simply to e.g. look at the output of the transformer as “6V DC” and then simply provide a DC source from a battery (filtered supplies don’t work as it must be a pulsing DC).
Questions:
1) Can I grab a pulsing 6VDC or 9VDC (depending on supply power) by using only one output transistor and tapping onto that output, without the transformer?
2) Have you ever run into a 1:1 or a 1:2 transformer for sale (affordable) that could be used here where the power supplying the phone could be isolated? I know that I could use 2 transformers 6V to 120V and 120V back to 6V but I’m wanting to use the circuit that will be continuously running and powered from a small battery and wish to conserve energy as much as possible.
3) How much of a load would you anticipate that this circuit would draw “unloaded” with a) direct connected with no transformer or b) through a double step up/down transformer setup or c) if I can find a 1:1 or 1:2 wound transformer

Reply
SwagatamAdmin
September 5, 2020 • 6 years ago #82002

Glad you are enjoying the articles.
1) Yes you can grab a pulsing supply, by attaching the intended load between the supply and the drain of one of the MOSFETs.
2) You can easily buy 1:1 transformer from any online store, it is readily available. However, the frequency of the circuit will need to be properly matched with the number of primary turns of the trafo.
3) The idle current consumption of the circuit will a) depend on the resistor at the drain of the other MOSFET. b)/c) will be significantly high compared to without a transformer.

Reply
Mike
May 21, 2020 • 6 years ago #78877

I am building the simpler of the two circuits. Am very new to this sort of thing and have a very simple question before I check out the circuit –
Two of the leads, namely those from the emitters of all 4 transistors are shown as going to ground. I have always understood that ground is the same as the negative lead. Should they be connected to the -ve lead form the 12V battery (I note that the lead from the 8050 transistors does in fact connect with the -ve lead before the ground symbol is shown, but the lead from the two Darlington transistors is not shown so). If this is not the case, where should the connections go?
As a matter of interest, if this is the case, why is it shown the way it is – is this just a convention?

Reply
SwagatamAdmin
May 21, 2020 • 6 years ago #78883

Yes the transistor emitters will go to the negative of the battery, which is the common line for the whole circuit. The negative sign on the battery indicates that it is the opposite of the positive. If you connect the voltmeter oppositely or with wrong polarity across the battery terminals, the meter will show the voltage in negative, and this explains why we have (-) sign on the battery negative terminal.

Reply
Marcelo
September 25, 2019 • 7 years ago #70473

Good morning estimable Swag,
I need a simple inverter to work with 12V / 12Ah battery. I got a small, 12v to 12v12 satellite dish receiver, but I don’t know how many amps (any practical suggestions to know?). Could you get some 60W working with the IRF540?
Thanks

Reply
SwagatamAdmin
September 25, 2019 • 7 years ago #70483

Hi Marcelo,
if the satellite dish receiver is 12V DC then an inverter will not be needed, you can directly power it from the battery, or may be I didn’t understand your requirement correctly.
Anyway for a simple inverter you can try any of the designs I have explained below:

https://www.homemade-circuits.com/7-simple-inverter-circuits/

Reply
Marcelo
September 25, 2019 • 7 years ago #70505

The transformer is from an old receiver.

Reply
SwagatamAdmin
September 26, 2019 • 7 years ago #70514

Please provide its specs.

Reply
Marcelo
November 21, 2019 • 7 years ago #72293

12v-0-12v/2A

Reply
SwagatamAdmin
November 21, 2019 • 7 years ago #72305

You can power the satellite receiver directly from the 12v battery

Reply
amor
January 31, 2019 • 7 years ago #65255

Hi Sir Swag, what i have with me is a 12-0-12, 0-220ac 7amps trafo, its a bit heavy, i want to make a simple inverter
that can power up a fan, a cfl lights, and a led bulb, using a single 12v 7-9ah battery. what do you suggest Sir?
i’m finish with your “20 watt fluorescent tube circuit” thanks to you Sir, but i want more lights with a simple inverter that you can suggest that can also last couple of hours with a single 12v battery. thanks!

Reply
SwagatamAdmin
January 31, 2019 • 7 years ago #65264

Hi Amor, for this you can use an IC 4047 based inverter as given here:

https://www.homemade-circuits.com/2013/06/modifying-4047-ic-inverter-into-sine.html

But using a single 7Ah battery to run so many equipment can drain the battery quickly, and also shorten the life span of the battery!

Reply
youngking
January 23, 2019 • 7 years ago #65130

Good morning sir, pls sir i build this circuit on a bread board yet it didn’t work , the R3 and R4 get bit warm each time i connect the battery . i use 9volt battery the one micro phone normaly use , although i didn’t see the capacitor you mention there in the market , therefore i use 474j capacitor .
i also use head phone to check the frequency yet nothing happen, although i didn’t have frequency meter. pls what could be the fault because i build this accroding ur diagarm

Reply
SwagatamAdmin
January 23, 2019 • 7 years ago #65134

youngking, as you can see it is a very basic circuit, so it has to work and moreover it is a tested design. I would recommend you to first build a basic astable circuit with LEDs as shown in the first diagram from this article and then apply it or the inverter function:

https://www.homemade-circuits.com/2012/01/how-to-make-any-light-strobe-light.html

don’t use VR1, use 100K for the base resistors initially

Reply
youngking
January 7, 2019 • 8 years ago #64893

good day sir , sir this second circuit that uses mosfet , the capacitor you mention as 0.47uf/100v metalized . 474j/100v was wirtten on it but they told me it is the one you mention in your diagram pls clear my doubt i ‘m confuse.

Reply
SwagatamAdmin
January 8, 2019 • 8 years ago #64897

the capacitor which your shopkeeper has suggested is OK, and will work without issues

Reply
youngking
December 24, 2018 • 8 years ago #64705

thank you for clearing by doubt

Reply
youngking
December 20, 2018 • 8 years ago #64651

you said that the battery should be 7 ah does it mean that higher ah will not work. what if i use 12-0-12 transformer with higher amper will it still go

Reply
SwagatamAdmin
December 21, 2018 • 8 years ago #64659

any desired battery with any Ah rating can be used, but the transformer and the mosfets will also need to be upgraded accordingly.

Reply
youngking
December 20, 2018 • 8 years ago #64650

sir is about the first circuit that uses transistor, accroding to what you said.The earlier circuit had a couple of 2N3055 transistors at the output and as we all know driving power transistors efficiently requires proportionate amount of base drive, relative to the load current, because transistors depend on current drive rather than voltage drive, in contrast to mosfets.

Meaning, as the proposed load becomes higher, the base resistance of the relevant output transistor also gets dimensioned accordingly for enabling optimal amount of current to the base of the transistors,

Due to this obligation, in the previous design a additional driver stage had to be incorporated for facilitating better drive current to the 2N3055 transistors. does it mean that one have to employ bc557 as a driver. if i’m wrong pls can you explain what you mean because i’m don’t get. thanks

Reply
SwagatamAdmin
December 21, 2018 • 8 years ago #64655

Youngking, what you are saying is absolutely correct, but in the first diagram I have removed the driver stage to keep the design as simple as possible., since the title of the article says “it’s for students”.

As far as current is concerned, the power transistors here are replaced with Darlington TIP142 transistors which are high current high gain BJTs, and therefore these are already enhanced to generate high current with minimal base currents, so that eliminates the need of an extra driver stage.

Reply
Loki
January 28, 2018 • 8 years ago #58037

Can i use two different mosfet one is 37 amp other is 50 amp

Reply
SwagatamAdmin
January 28, 2018 • 8 years ago #58043

yes you can!

Reply
Lm324n
January 20, 2018 • 8 years ago #57813

Can i use 12k resistor and 2.2 uf cap for getting 50hz frequency

Reply
SwagatamAdmin
January 20, 2018 • 8 years ago #57830

you will have to confirm the results practically with some experimentation

Reply
Lm324n
January 20, 2018 • 8 years ago #57810

Can i use ferrite transformer instead of iron transformer?
The circuit is working perfect thanku

Reply
SwagatamAdmin
January 20, 2018 • 8 years ago #57828

ferrite trafo will require high frequency, and high frequency cannot be used for driving home appliances so it cannot be possible, unless you apply additional complex stages

Reply
Lm324n
January 19, 2018 • 8 years ago #57794

Sir why there is no resistor on the gate of the mosfet because there are resistor for mosfet in your ‘Single Transformer Inverter/Charger/Changeover Circuit.’

Reply
SwagatamAdmin
January 19, 2018 • 8 years ago #57798

because we already have them in the form of R3/R4…so it’s not required

Reply
Lm324n
January 17, 2018 • 9 years ago #57749

Can i use 13001 transistor instead of bc 547?. and what about the efficiency

Reply
SwagatamAdmin
January 18, 2018 • 8 years ago #57758

it will work but it is unnecessarily huge for the application…

Reply
Lm324n
January 12, 2018 • 9 years ago #57588

Sir can i use 70t036h smd mosfet it has 30v and 60 ampere capability

Reply
SwagatamAdmin
January 12, 2018 • 9 years ago #57590

yes you an use it…

Reply
Aabhishek Sharma
November 21, 2017 • 9 years ago #56019

Hi sir, I have a similar design but different circuit, today after replacing the transformer and remaking the circuit with new parts, when I tested the output it should 225v but by replacing multimeter test probes sides, it showed 269v, why this difference in voltage showing after replacing multimeter probes side on output.

Reply
SwagatamAdmin
November 22, 2017 • 9 years ago #56022

Hi Aabhishek,
I think your meter is malfunctioning, I would advise you to buy a good quality, costlier multimeter and check it with it. and I hope you are using the AC range of the meter.

Reply
Aabhishek Sharma
November 22, 2017 • 9 years ago #56029

Yes sir of course I’m using AC range, I know how to use it, ok thanks for advice I try to check this using different multimeter of Google quality. I pray to God that inverter is good just multimeter is malfunction.
Thanks.

Reply
SwagatamAdmin
November 22, 2017 • 9 years ago #56033

Hi Aabhishek, inverter cannot be wrong, because it cannot produce two voltages together…it is the meter which is giving wrong results.

Reply
manash Athparia
October 6, 2017 • 9 years ago #54583

I made this inverter circuit but thee voltage drops too much when load is connected.

Reply
manash Athparia
October 7, 2017 • 9 years ago #54601

I have used 12-0-12 8A transformer and 12v 7ah battery.

Reply
SwagatamAdmin
October 7, 2017 • 9 years ago #54603

check current by inserting a DC ammeter between the battery positive and inverter positive, and make sure the battery is fully charged at 14V.

the current reading will tell you whether the trafo is actually accepting the required amount of battery current or not. also check the voltage across the gate of each mosfet with reference to ground, it must be around 6V DC.

Reply
SwagatamAdmin
October 7, 2017 • 9 years ago #54604

By the way the trafo should be 9-0-9V as mentioned in the article.

Reply
SwagatamAdmin
October 7, 2017 • 9 years ago #54598

the output power will be as per the wattage of the transformer and the battery, upgrade these two to get higher wattage capacity at the output

Reply
Aman thakur
April 4, 2017 • 9 years ago #49559

Sir I have 9 0 9 transformer two irf 630 mosfet four 2n3055 four tip127 transistor can i made inverter with these and how

Reply
SwagatamAdmin
April 4, 2017 • 9 years ago #49580

Aman, yes you can use an inverter with these parts, but the trafo must be rated at minimum 5 amps, and you will also need a 12V/7 AH battery for the operations.

Reply
Aman thakur
April 4, 2017 • 9 years ago #49558

Sir please give me circuit digram of your above inverter

Reply
Surianarayanan Alagar
March 28, 2017 • 9 years ago #49355

respected sir,
i need one help, i draw the your circuit from proteus softwre and how to check output from your circuit

Reply
SwagatamAdmin
March 28, 2017 • 9 years ago #49382

Hi suria, sorry I won't able to help you in this regard since I do not personally use or rely on softwares for simulation…

Reply
Abhishek Sharma
December 30, 2016 • 10 years ago #47661

Hi sribasu,
The battery wattage , mosfet and transformer ampere rating decides the output wattage of inverter.

Reply
Sribasu
December 29, 2016 • 10 years ago #47652

I already developed such MOSFET based square wave inverters. But they ate capable of driving at most 5 watts CFL. Is there a way to improve the oitput wattage of these inverters? Which component in this circuit actially drives the wattage rating of this inverter?

Reply
SwagatamAdmin
December 30, 2016 • 10 years ago #47659

the mosfet and transformer wattage are primarily responsible for the power delivery, not forgetting the battery AH which ensures that the load is able to run at the rated maximum power without dropping the voltage.

Reply
Abhishek Sharma
December 29, 2016 • 10 years ago #47640

On the post which I have commented on.

Reply
Abhishek Sharma
December 28, 2016 • 10 years ago #47626

Hi sir can I use zener 4148 diode as safety diode and can I then operate inverter as online UPS (not using computer using for inverter purpose)

Reply
SwagatamAdmin
December 31, 2016 • 10 years ago #47677

which circuit, the above 50 watt inverter on this page??…1N4148 cannot be used, you must use a 3 amp diode as mentioned in the article.

Reply
Abhishek Sharma
December 30, 2016 • 10 years ago #47669

I'm saying about this circut. Please reply fast.

Reply
SwagatamAdmin
December 29, 2016 • 10 years ago #47634

which circuit are you inferring to??

Reply
Spike
October 17, 2016 • 10 years ago #45629

Can u pls provide me a simple 50Hz square wave to sine wave converter circuit..

Reply
SwagatamAdmin
October 18, 2016 • 10 years ago #45647

you can check out this

https://www.homemade-circuits.com/2013/04/how-to-modify-square-wave-inverter-into.html

Reply
Aditi
October 17, 2016 • 10 years ago #45626

As I can seen from your circuit this a astable multivibrator with MOSFET …can you tell us what's the use of MOSFET in this circuit ??? Please explain in detail …

Reply
SwagatamAdmin
October 17, 2016 • 10 years ago #45631

it converts the low current astable pulses into high current induction inside the connected trafo winding

Reply
Unknown
October 16, 2016 • 10 years ago #45601

hai swagatam sir,
if we are using 2 CFL bulb by this Inverter circuit with 12v 10AH battery then till how much the bulb will glow.

Reply
Aditi
October 16, 2016 • 10 years ago #45593

I have 12-0-12 , 3A transformer and I'm interested in only to glow a 10W blub ..and I have only 5Volt 1.5A supply ..can I make a inverter with those specifications????
And what's the role of transformer current rating for example I have 3 A transformer .. does that mean It will work only above 3 A battery supply or something else please explain it .. thanks in advance

Reply
SwagatamAdmin
October 17, 2016 • 10 years ago #45607

the 3A is the maximum current producing or handling limit of the transformer, it has nothing with the battery current, rather it is related to the load current which must not exceed 2A.

Reply
Ashy Abhi
October 16, 2016 • 10 years ago #45584

Will this circuit work when I apply 5V and 1.5A battery and my transformer is 12-0-12 , 3A ..I want to glow only 10W blub ..will it work ????

Reply
SwagatamAdmin
October 17, 2016 • 10 years ago #45605

No it won't, the battery and the trafo rating must be similar.

Reply
Ashy Abhi
October 16, 2016 • 10 years ago #45582

Hey I want to make 10W inverter so what will be the battery and transformer ratings for this ???
Btw I have 12-0-12 3A transformer so please tell me suitable battery for this to glow only 10W blub

Reply
SwagatamAdmin
October 17, 2016 • 10 years ago #45604

with a 12V /3a trafo you can use a 12V / 7AH battery

Reply
Ashy Abhi
October 15, 2016 • 10 years ago #45567

I'm beginner please tell me what's is the meaning of 9-0-9 and 12-0-12 please explain this in detail

Reply
SwagatamAdmin
October 16, 2016 • 10 years ago #45580

that's 3 wire outputs from the transformer primary winding, when 220V is applied from the other side…these 3 wires on the other side will produce 9V-and-9V between the central 0V wire and the outer two wires, hence it's termed as 9-0-9, or similarly 12-0-12 when it's 12V

Reply
Aminu Yahaya Ibrahim
September 22, 2016 • 10 years ago #44873

Sir it wasn't in your blogs, and I search for it now, but I couldn't see it.

Sir could you help me with one charging circuit that has battery full cut off feature.

If my transfo rated 20A, and the outertaps are 7.2 convine together to get 14.4, when the battery AH is 200 what circuit is suitable for this project?

thanks for your kind help.

Reply
SwagatamAdmin
September 23, 2016 • 10 years ago #44890

Aminu, you can try the second circuit from the following link

https://www.homemade-circuits.com/2011/12/how-to-make-simple-low-battery-voltage.html

Reply
Aminu Yahaya Ibrahim
September 22, 2016 • 10 years ago #44854

Thanks very much Sir.
My next queations are on the charging circuit and the componets like diodes and relays currents.
Assume I want to use 200ah battery, what value of the diodes and relays is needed when the tranfo is 20A.
Also, I can see in most of the charging circuit, the charging resistors is 10watt bigger, so an I go ahead with it or it needs to be change to biggest like 15watts to above.

thank you Sir.

Reply
SwagatamAdmin
September 22, 2016 • 10 years ago #44866

Aminu, for 200 AH battery the diodes and relay contacts will need to be rated at 30 to 40amps

which charginh resistor are you referring to, please provide the link

Reply
Aminu Yahaya Ibrahim
September 20, 2016 • 10 years ago #44800

Good day Sir,
Sir based on this post, I have an Idea of using 7.2-0-7.2 transformer, removed from 350va ups. So if I use the outertap of tranfo i.e 7.2+7.2 It will give 14.4v which can charge 12v battery with bigger AH. But, I dont have any skill on how to buit it like the one on this post, and what charging circuit is suitable for the tranfo and the battery.

Always, your help is highly appreciated.
Thanks a lot.

Reply
SwagatamAdmin
September 21, 2016 • 10 years ago #44810

Good day Aminu,

For lead acid battery the recommended charging current should be 1/10th of its AH rating.
the type of charger will depend on your choice, it could be automatic, or manual as you prefer.

I have posted battery charger circuit designs, you can refer to those for more help

https://www.homemade-circuits.com/search/label/Battery%20Charger

Reply
SwagatamAdmin
September 19, 2016 • 10 years ago #44772

12 x 5 = 60 watt in ideal condition, but practically it could be only 40 watts

Reply
Abhishek Sharma
September 19, 2016 • 10 years ago #44758

Sir, can you please tell me that how many watts the circuit can deliver if I use mosfet 3205 and a 12-0-12 5amp transformer and I am using a 12v 7.6ah battery.2 And how much watts will be delivered if I use mosfet irfz44n with the same battery and transformer. I am not using any diodes in my circuit. The circuit can deliver 40watts. If I am using irf 540n

Reply
SwagatamAdmin
September 19, 2016 • 10 years ago #44750

Hi Abhishek, the oscillator is only for generating the frequency, it has no role in the power delivery of the inverter, neither will it get affected by the battery type or its current as long as its operating voltage is not exceeded

only the transformer and the battery determine for the actual power output capacity…the fets must be rated to handle this power so that they don't burn out

Reply
Abhishek Sharma
September 18, 2016 • 10 years ago #44742

Hi sir, as sunil solanki asked " solankiApril 18, 2013 at 11:32 AM
Sir,
i want to know that, the load capacity of inverte depend on which component in inverter circuit. Please tell" and you answered " transformer rating, mosfet rating and battery rating" so I want to ask that what about the transistors used in oscillator circuit? Will they remain same and in good condition on applying a tubular battery like mains inverter used for home ? And if I am not using safety dioddes

Reply
Elanchezhian Ponnusamy
August 19, 2016 • 10 years ago #43740

Dear sir,
i want circuit design for flyback microinverter 230AC single phase

Reply
SwagatamAdmin
August 20, 2016 • 10 years ago #43768

Dear Elan, please provide more info regarding its specs…

Reply
ARAVINDH BALASUNDARAM
March 14, 2016 • 10 years ago #39652

Sir i am Prem. Sir can i connect a 12volt 2amps solar panel instead of a 12volt 10Ah battery.
Will it work…

Reply
SwagatamAdmin
March 14, 2016 • 10 years ago #39667

Aravindh, 2 amp is quite low, and will produce not more than 20 watts at the output.

Reply
Sribasu
March 6, 2016 • 10 years ago #39405

Hi Swagatam,
Thanks for this useful circuit. I have a 7Ah battery and a 12-0-12 4A Step Down transformer. I want to use the transformer in reverse, just like how you did. Could you please tell me what are the adjustments required in the circuit, in order to make it work with the above 2 parts?
And what will be the output power of this circuit? Is it 12×4=48 Watts or lesser?

Reply
Sribasu
March 6, 2016 • 10 years ago #39416

Great! Thanks for the information.

Reply
SwagatamAdmin
March 6, 2016 • 10 years ago #39414

Hi Sribasu, you won't have to change anything, and may use the same design with your battery and the mentioned transformer.
However the transformer should be ideally 9-0-9V for a 12V battery, in order to be able to generate around 260V initially with a fully charged battery…

with a 12V trafo, the initial voltage could be around 220V and drop to 190V as the battery discharges.

the output max wattage will be 48 watt in ideal situations, and if your trafo is true 4 amps rated otherwise you shouldn't expect more than 30 watts from the system.

Reply
andrei ruiz
February 18, 2016 • 10 years ago #38905

sir do u have circuit for 12v to 350v smps converter!??

Reply
SwagatamAdmin
February 20, 2016 • 10 years ago #38963

you can try the following concept with some modifications:

https://www.homemade-circuits.com/2013/03/how-to-convert-12v-dc-to-220v-ac-using.html

Reply
arun kp
February 14, 2016 • 10 years ago #38730

Thanks sir

Reply
arun kp
February 13, 2016 • 10 years ago #38699

sir
i want to run a cooling fan with intervals, for mosfet.
can you suggest such a circuit??

Reply
SwagatamAdmin
February 14, 2016 • 10 years ago #38719

arun, you can use an IC 555 astable circuit and connect a small PC fan directly across its pin3 and ground, and set the RC components for switching it with the required time delays

Reply
Aminu Yahaya Ibrahim
February 12, 2016 • 10 years ago #38689

Ok Sir,
Am happy to hear this Sir.

Again, It will be better if You could develop the one that can provide stable output voltage even with the 88% load.

Say, the invarter can produce 500 watts and the load is alteast 420 watts, while the output volt can not change from 220v.

My best regard Sir!

Reply
SwagatamAdmin
February 13, 2016 • 10 years ago #38708

Aminu, actually I already have the design posted in my blog, you can check it out here:

https://www.homemade-circuits.com/2012/02/how-to-build-simplest-modified-sine.html

Reply
Aminu Yahaya Ibrahim
January 22, 2016 • 10 years ago #37961

Sir I have gone through this blog throughly and I have some question as follows:
1. If we apply 2200uf/25 to above voltage, does this give us smooth power and prevent buzzzz sound from transfor?
as mentioned by the commenter Arun.
2. I heard u suggested the use of IC 555 to modify this circuit fron squear to sine wave. So, pin3 from ic555 is the output to the Gates of mosfets through 1N4148 diod, right? Sir is there no any other component to add here? Unlike in this post:
http://www.www.homemade-circuits.com/2013/04/how-to-modify-square-wave-inverter-into.html?m=1

3. How can I calculate the resistor's value if the caps is changed to above or below 2A474j cap?

Thank you very much Sir…
And I think this circuit mayb sinple for me than the one I mention in this comment, if it has no BC557/BC547 parts.

Reply
Aminu Yahaya Ibrahim
February 11, 2016 • 10 years ago #38654

Morning Sir,
This is Aminu again.

Sir, is there any possible modification on the above circuit to get modified sinewave output?
Or, any other simple and few components ciecuit available for modified sinewave?

Thanks for your kind and helpful work.

Reply
SwagatamAdmin
February 12, 2016 • 10 years ago #38666

Good morning Aminu,

you can add a 4017 IC in the middle of the T2 collector and mosfet stage…if possible I'll try to update the design soon.

Reply
SwagatamAdmin
January 23, 2016 • 10 years ago #37975

Aminu, normally a high value capacitor is used across the battery terminals to cancel high frequency disturbances, so that helps to get a cleaner output

2) the T5/T6 circuit could be replaced with 555 circuit for achieving the same.

3) you may have to study transistor AMV formula for knowing this, it can be easily found online.

if pwm is used then you will need the 547/557 stage for preventing mosfet heating up

Reply
arun kp
January 14, 2016 • 11 years ago #37635

Sir
I've modified the circuit board
and put a 2200uf 25V capacitor
across the supply.
Now is working perfectly…
No heat no hizzing sonud.

thank you so much

Reply
SwagatamAdmin
January 14, 2016 • 11 years ago #37637

That's amazing Arun, keep up the good work,

thanks for updating!!

Reply
arun kp
January 11, 2016 • 11 years ago #37539

you r right sir.
the legs of mosfet were short with its heat sink.i did'nt noticed it.
i'll try this until geting a good result.

Reply
arun kp
January 11, 2016 • 11 years ago #37531

Oh My goodness..
I set up the circuit and it worked for a few seconds and every components became tooooo hot. within 5 second The mosfet crashed and R3 broke .
All connenctions had burn away.

Sir
the components which I've used ,
R1,R2=140k
R3,R4=220ohm
C1,C2=2A104J
T2,T1=BC547
T3,T4=IRFZ44
Trans. 12-0-12 ,5 A
And a 12V 9Ah battery

Then…
what should I do sir??

Reply
SwagatamAdmin
January 11, 2016 • 11 years ago #37535

arun, everything cannot burn that's impossible unless something's severely wrong in your circuit connections.

change the 220 ohms with 1K, and I hope you have the mosfets mounted on good heatsinks, if not then put them on.

after this everything must run perfectly.

Reply
arun kp
January 11, 2016 • 11 years ago #37519

thank you sir

Reply
arun kp
January 11, 2016 • 11 years ago #37509

ma unfortune!
sir i did'nt get c1& c2( .47uf).
Is that proper with capacitor 2A104J & 140K instead of 27k?
is that a genuine idea?
plz rply me !

Reply
SwagatamAdmin
January 11, 2016 • 11 years ago #37517

yes, it's genuine and a standard principle.

Reply
arun kp
January 9, 2016 • 11 years ago #37458

first of all ,thank you for your valuable advice & direction.
sir

am going to fix 474J 63v cappacitor for C1&C2 .
is gonna make any problem?

Reply
SwagatamAdmin
January 9, 2016 • 11 years ago #37461

no problems, you can go ahead with it.

Reply
arun kp
January 9, 2016 • 11 years ago #37441

Sir
What should I do with the Earth indicated points on the above circuit???

Reply
SwagatamAdmin
January 9, 2016 • 11 years ago #37453

the earth is just the battery negative, nothing more.

Reply
arun kp
January 9, 2016 • 11 years ago #37439

sir
am Arun.

could you plz show me an image of 0.47uF/100V metallized capacitor?
I went to retailer and asked for 474J 100V capacitor,but he did'nt heard understand for what am asking for!
hope you may help me

Reply
SwagatamAdmin
January 9, 2016 • 11 years ago #37451

you can use other values also for C1/C2 such as 0.1uF which is five times less than 047uF, but that would mean you will need to increase the 27k values five times more, that's equal to around 140K

Reply
SwagatamAdmin
January 9, 2016 • 11 years ago #37450

arun, you can use any standard ceramic 0.47uF capacitor, the given specification is not critical.

Reply
arun kp
January 7, 2016 • 11 years ago #37389

Thank you so much sir

Reply
mayokun deji
November 1, 2015 • 11 years ago #35420

thanks alot for the reply.one more question,why is it that such transformer of the same wattage that i use powers the cpu and monitor in a ups and usaid mine even cnt power a 100watt bulb. secondly pls can u post the modified sine wave of the above circut.thanks again

Reply
mayokun deji
November 5, 2015 • 11 years ago #35626

thank you alot greatful

Reply
SwagatamAdmin
November 3, 2015 • 11 years ago #35534

just upgrade the trafo, that's all

Reply
mayokun deji
November 3, 2015 • 11 years ago #35520

thanks for the help.really greatful.sori another question to go.pls if i want to upgrade to aroun 350watt of the aboove circuit what are the modifications to make.thanks again

Reply
SwagatamAdmin
November 2, 2015 • 11 years ago #35453

CPUs and monitors are designed to work with low voltages also, since these have SMPS which are assigned to work even at as low as 100V.

the modified design can be seen here:

https://www.homemade-circuits.com/2013/04/how-to-modify-square-wave-inverter-into.html

Reply
mayokun deji
October 30, 2015 • 11 years ago #35363

hello sir.i have a problem with an inverter and would love u to help me out. i built a square wave inverter with ic cd4047 i use irf3205 fets at d output.i used four irf3205 two on each side.couldnt get a 12v-0-12v transformer so i used a 16v-0-16v transformer rated around 4amp i power d inverter with a 12v 75ah car battery.my problem now is am geting above 250v ac and anytime i connect a 60-100watt filament bulb it may not glow or when it glows it dim and the voltage drops to around 100v ac.pls help tanks

Reply
SwagatamAdmin
October 31, 2015 • 11 years ago #35376

Hello Mayokun,

first of all the transformer voltage should be always lower than the battery voltage…for a 12V, it could be around 9-0-9V, secondly a 4 amp trafo as in your case will be able to produce:

4 x 12 = 36 watt in most ideal conditions…so expecting a 100 watt is no good

use a 9-0-9 or a 12-0-12V trafo rated at at least 10 to 15 amps for illuminating a 100 watt brightly

Reply
NILESH GANVIR
September 5, 2015 • 11 years ago #33748

Plz send me
Pure sinewave inverter design for grid synchronization for home inverter with 500watt

Reply
Purna
August 27, 2015 • 11 years ago #33530

Hi sir, I want to ask you a question regarding the IC CD4047. My question is that, what number of mosfets can the IC Cd4047 drive? i.e. What is the maximum output power(WATTS) I can get if I use Cd4047 inverter circuit? Waiting for your reply sir.

Reply
Purna
August 28, 2015 • 11 years ago #33572

Thank you very much for your help sir.

Reply
SwagatamAdmin
August 28, 2015 • 11 years ago #33570

4047 IC is the ideal IC to start with, other ICs are relatively complex to configure

Reply
Purna
August 27, 2015 • 11 years ago #33551

Thanks for the help sir. Can you please suggest an IC number as I want to build a circuit that can drive loads upto 1000watt. I am going to use IRF 3205 mosfets.

Reply
SwagatamAdmin
August 27, 2015 • 11 years ago #33545

Hi Purna, you can use any desired number of mosfets with this IC or any similar IC and get any desired power output from the inverter transformer.

the transformer and the battery decide the power (wattage), not the IC, the IC is only for the initiating the mosfets as per the set frequency.

Reply
fasat2112
April 9, 2015 • 11 years ago #29885

Hello,

Is it requred to use 12-0-12v transformer or it could be with only two wires?
And also why is used 3 wires primar?

Thank you in advance.

BR

Reply
SwagatamAdmin
April 9, 2015 • 11 years ago #29892

Hi, yes a center tap trafo is necessary here since the circuit uses a push pull type of topology, two wire trafo will not work here.

the primary center tap is used to connect with the battery

for a 12V batt the trafo primary must be rated at 9-0-9V, that is, slightly lower than the battery voltage

Reply
prateek goel
February 2, 2015 • 11 years ago #28575

hi sir i am a new comer here i want to know that r1 r2 has 27 kohm values each?
also for r3 r4 r5 r6?
ur respnse will be highly appreciated.
thank you

Reply
SwagatamAdmin
February 3, 2015 • 11 years ago #28588

Hi Prateek, it's given in the parts list below the diagram, yes R1/R2 = 27K ohms

rest are 470 ohms

Reply
samar tauheed
November 15, 2014 • 12 years ago #27163

Hi! This is samar i want to ask you about this circuit that can i use mylar or electrolyrtic capacitor instead of metallized and the second thing is that can i take 30 watts load from 12-0-12, 3amp transformer rating. thanks in advance. waiting for your kind reply.

Reply
SwagatamAdmin
November 18, 2014 • 12 years ago #27192

hello if your transformer is getting hot, it means either the transformer is faulty or the inverter is not oscillating.

First make sure the junction of R4/R5 is generating the required 50 Hz frequency, confirm this by keeping the transformer disconnected…

if this is OK, it would indicate a possible fault in the transformer

Reply
samar tauheed
November 17, 2014 • 12 years ago #27183

Hello! i want to ask you about a inverter circuit i made an inverter
circuit by follow this circuit diagram but when i connected 12-0-12, 1
ampere transformer it cant converting to 220volt and transformer is
heated can plz tell me about the problem and i got 12,12 volt from
mosfet transitor can you plz explain?

Reply
SwagatamAdmin
November 16, 2014 • 12 years ago #27172

Hi, yes mylar or electrolytic caps can be used, if the trafo is truly rated at 3 amps then 30 amps can be expected from it.

Reply
anas kalla
February 7, 2014 • 12 years ago #19675

hi sir. Shall i use npn transistor (2n3904) in oscillation stage with reverse polarity.

Reply
SwagatamAdmin
February 7, 2014 • 12 years ago #19677

you can use it in the correct polarity, matching with the shown BC547 poarity

Reply
shadab karnachi
January 11, 2014 • 13 years ago #18960

hi swagatam,
Well i stated you that i am making an inverter.
my actual goal of making an inverter, which can actually able to power big devices like tv or computer of 300 watts from low power consuming devices like 12 volt adapters. i know is bit of impossible idea?
but i thought that first we need to connect an 14 volt strictly regulated current and voltage adapter to the mains. And we will connect the output to the battery of 12 volt for charging and after charging we will take up an 800VA inverter and connect it to the battery, leaving the mains adapter switched on as it is. Simultaneously we will switch the inverter on and give out the load. it will usually draws current from adapter only. but if the load increases, the battery act as an supplier. as i stated that battery should be charged first and then should be connected to the inverter. and this is something adding a wire in between the mains and the load. can you tell me if there is any possibility of this design?
I read an common inverter design, there is always a backup like system where mains are either connected directly to the load or they are backed up by an battery if there is mains failure.
can we also replace battery with ultra or super caps following my design?
please please reply.

advance thankx

Reply
SwagatamAdmin
January 12, 2014 • 13 years ago #18982

Hi Shadab,

What you are assuming is incorrect and therefore will not work, 300 watts means 300/12 = 25amps, you will need an adapter capable of providing 25amps for relieving the battery from the load…..

Reply
achilles hector
January 4, 2014 • 13 years ago #18785

thanks for the answer!!!

what modifications will I make to obtain 200 watt ?

500 watts ?

sine wave?

Reply
SwagatamAdmin
January 4, 2014 • 13 years ago #18804

the above circuit will give 200watt easily, for sine wave again you will have to employ a 555 IC and diode network at the gates of the mosfets.

Reply
network advise
September 28, 2013 • 13 years ago #15697

hi sir
this srinivas
ihave a doubt can i use irf3205 mosfet with circuit and ihave a 600 va computer ups transformer is 12-0-12
please suggest me
thank & regards

Reply
SwagatamAdmin
September 29, 2013 • 13 years ago #15715

Hi Srinivas,

Yes you can use the mosfet with the mentioned transformer.

Reply
saravana
September 18, 2013 • 13 years ago #15391

i desing the ckt but its not working….. wht i do sir…….????

Reply
SwagatamAdmin
September 17, 2013 • 13 years ago #15366

Hello Sadi,

Yes heatsink is necessary if the devices are getting hot, use a size which keeps the mosfets reasonably cool.

Reply
SwagatamAdmin
September 16, 2013 • 13 years ago #15325

Helo Sadi,

I am not able to identify any potential threat that might be causing damage to the mosfets, however during transition periods there may be a chance of the mosfets conducting simultaneously for a split second, although quite unlikely it's better to tackle it also.

put zener diodes in series with the emitters of the BC547 transistors, anode to ground and cathode to emitter. zener value can be anything between 3 and 9v.

Don't worry about the transistor biasing voltage because here it would be continuously changing from positive to negative vice versa due to the oscillating nature of the circuit…..assuming that you have built the AMV correctly.

Reply
SwagatamAdmin
September 14, 2013 • 13 years ago #15257

If your PCB layout is correct as per the diagram then it would definitely work

Reply
SwagatamAdmin
September 12, 2013 • 13 years ago #15153

Hello Sadi,

That's great news.

For resistive loads such as bulbs, the frequency isn't important, even for CFLs this won't be a problem.

Reply
SwagatamAdmin
September 11, 2013 • 13 years ago #15124

Yes Sadi, I know that but since I am not able to figure out any other potential issue in the design,so I am assuming it to be the possible cause of your mosfet damage.

Also connect 1K resistors across collector/emitter of T1/T2, that might help control transients.

Reply
SwagatamAdmin
September 11, 2013 • 13 years ago #15110

Hello Sadi,

I think the mosfets might have got damaged due to the absence of flyback diodes across D and S of the mosfets, I'll update the diagram, please add it in your circuit accordingly.

Reply
SwagatamAdmin
September 7, 2013 • 13 years ago #14992

That's cool Sadi,

Yes it will work, please refer to this post:

https://www.homemade-circuits.com/2013/04/how-to-modify-square-wave-inverter-into.html

Reply
SwagatamAdmin
September 6, 2013 • 13 years ago #14964

use a 12V/5amp transformer and a 12V 10AH battery for getting higher current outputs

Reply
SwagatamAdmin
September 4, 2013 • 13 years ago #14917

Hi Sadi,

You can use 12-0-12V trafo, but you will need a fully charged battery upto 14V for acquiring the required 230V output from it.

Reply
SwagatamAdmin
August 31, 2013 • 13 years ago #14803

Hello Sadi,

Just type "smart automatic charger" in the above search box, you will find your circuit there.

Reply
SwagatamAdmin
August 23, 2013 • 13 years ago #14547

you can try any closely rated trafo…

Reply
SwagatamAdmin
August 23, 2013 • 13 years ago #14546

yes you can do it.

Reply
SwagatamAdmin
August 16, 2013 • 13 years ago #14384

You can added more number of mosfets by directly connecting their gates, drains and sources parallel with the existing mosfets, just make sure that each mosfet has it's own separate resistors similar to R5/R6, drains and sources can be directly joined in parallel…the resistor ends can be joined with transistor collectors as done with the existing mosfets.

All mosfet numbers should be exactly identical

Reply
pp
July 24, 2013 • 13 years ago #13730

Sir,

Actually this is the time to Upgrade this particular circuit with above mention features to make it NEW and secondly, searching for this features individually on the blog is wastage of time, if found, the connections should be logically correct and this is very time consuming…what do you say ???

Regards,

Reply
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