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7 Simple Inverter Circuits you can Build at Home

Last Updated on June 20, 2024 by Swagatam 248 Comments

These 7 inverter circuits might look simple with their designs, but are able to produce a reasonably high power output and an efficiency of around 75%. Learn how to build this cheap mini inverter and power small 220V or 120V appliances such drill machines, LED lamps, CFL lamps, hair dryer, mobile chargers, etc through a 12V 7 Ah battery.

Table of Contents
  • What is a Simple Inverter
  • 1) Simple Inverter Circuit using Cross Coupled Transistors
    • 12v to 230v inverter circuit diagram
  • Construction Procedure
    • Complete Wiring Layout
    • Parts List
    • Video Test Proof
    • How to Test it?
    • Circuit Operation
      • PCB Design for the above explained simple 2N3055 Inverter Circuit (Track Side Layout)
    • Cross Coupled MOSFET Inverter
  • 2) Using IC 4047
    • Video Test Results
    • 3) Using IC 4049
  • 4) Using IC 4093
  • 5) Another Simple NAND gate Inverter using MOSFETs
    • Introduction
    • Using IC 4093 NAND Gates for the Oscillator Circuit
    • Mosfet Switching
      • Parts List for the above explained 150 watt inverter circuit diagram:
  • 6) Using IC 4060
  • 7) Simplest 100 Watt Inverter for the Newcomers
    • Introduction
    • Using an Transistor Astable as the 50Hz Oscillator
    • 2N3055 Transistors as the Power Stage
      • Parts List for the above explained simple 100 watt inverter circuit
    • Heatsink for the T3/T4, and T5/T6
      • How to Calculate the Resistors and Capacitors for 50 Hz or 60 Hz Frequencies
      • Another Simple Transistorized DC to AC Inverter Circuit
    • Universal Push-Pull Module
    • Advantages of Simple Push-Pull Inverter
    • SCR Inverter
    • For the Advanced Users

What is a Simple Inverter

An inverter which uses minimum number of components for converting a 12 V DC to 230 V AC is called a simple inverter. A 12 V lead acid battery is the most standard form of battery which is used for operating such inverters.

Let's begin with the most simplest in the list which utilizes a couple of 2N3055 transistors and some resistors.

1) Simple Inverter Circuit using Cross Coupled Transistors

The article deals with the construction details of a mini inverter. Read to know regrading the construction procedure of a basic inverter which can provide reasonably good power output and yet is very affordable and sleek.

There may be a huge number of inverter circuits available over the internet and electronic magazines. But these circuits are often very complicated and hi-end type of inverters.

Thus we are left with no choice but just to wonder how to build power inverters that can be not only easy to build but also low cost and highly efficient in its working.

12v to 230v inverter circuit diagram

simple cross coupled inverter circuit 60 watt

Well your search for such a circuit ends here. The circuit of an inverter described here is perhaps the smallest as far its component count goes yet is powerful enough to fulfill most of your requirements.

Construction Procedure

To begin with, first make sure to have proper heatsinks for the two 2N3055 transistors. It can be fabricated in the following manner:

  • Cut two sheets of aluminum of 6/4 inches each.
aluminum heatsink
  • Bend one end of the sheet as shown in the diagram. Drill appropriate sized holes on to the bends so that it can be clamped firmly to the metal cabinet.
  • If you find it difficult to make this heatsink you can simply purchase from your local electronic shop  shown below:
TO3 transistor heaksink
  • Also drill holes for fitting of the power transistors. The holes are 3mm in diameter, TO-3 type of package size.
  • Fix the transistors tightly on to the heatsinks with the help of nuts and bolts.
  • Connect the resistors in a cross-coupled manner directly to the leads of the transistors as per the circuit diagram.
  • Now join the heatsink, transistor, resistor assembly to the secondary winding of the transformer.
  • Fix the whole circuit assembly along with the transformer inside a sturdy, well ventilated metal enclosure.
  • Fit the output and input sockets, fuse holder etc. externally to the cabinet and connect them appropriately to the circuit assembly.

Once the above heatsink installation is over, you simply need to interconnect a few high watt resistors and the 2N3055 (on heatsink) with the selected transformer as given in the following diagram.

Complete Wiring Layout

simple inverter circuit wiring with transformer, 12V battery 7Ah, and transistors

After the above wiring is completed, it's time to hook it up with a 12V 7Ah battery, with a 60 watt lamp attached at the transformer secondary. When switched ON the result would be an instant illumination of the load with an astonishing brightness.

Here the key element is the transformer, make sure the transformer is genuinely rated at 5 amp, otherwise you may find the output power a lot lesser than the expectation.

I can tell this from my experience, I built this unit twice, once when I was in college, and the second time recently in the year 2015. Although I was more experienced during the recent venture I could not get the awesome power that I had acquired from my previous unit. The reason was simple, the previous transformer was a robust custom built 9-0-9V 5 amp transformer, compared to the new one in which I had used probably a falsely rated 5 amp, which was actually only 3 amp with its output.

prototype working model image for 2N3055 simple inverter

Parts List

You will require just the following few components for the construction:

  • R1, R2= 100 OHMS./ 10 WATTS WIRE WOUND
  • R3, R4= 15 OHMS/ 10 WATTS WIRE WOUND
  • T1, T2 = 2N3055 POWER TRANSISTORS (MOTOROLA).
  • TRANSFORMER= 9- 0- 9 VOLTS / 8 AMPS or 5 amps.
  • AUTOMOBILE BATTERY= 12 VOLTS/ 10Ah
  • ALUMINUM HEATSINK= CUT AS PER THE REQUIRED SIZE.
  • VENTILATED METAL CABINET= AS PER THE SIZE OF THE WHOLE ASSEMBLY

Video Test Proof

How to Test it?

  • The testing of this mini inverter is done in the following method:
  • For testing purpose connect a 60 watt incandescent bulb to the output socket of the inverter.
  • Next, connect a fully charged 12 V automobile battery to its supply terminals.
  • The 60 watt bulb should immediately light up brightly, indicating that the inverter is functioning properly.
  • This concludes the construction and the testing of the inverter circuit.
  • I hope from the above discussions you must have clearly understood how to build an inverter which is not only simple to construct but also very affordable to each of you.
  • It can be used to power small electrical appliances like soldering iron, CFL lights, small portable fans etc. The output power will lie in the vicinity of 70 watts and is load dependent.
  • The efficiency of this inverter is around 75%. The unit may be connected to your vehicles battery itself when outdoors so that the trouble of carrying an extra battery is eliminated.

Circuit Operation

The functioning of this mini inverter circuit is rather unique and different from the normal inverters which involve discrete oscillator stage for powering the transistors.

However here the two sections or the two arms of the circuit operate in a regenerative manner. Its very simple and may be understood through the following points:

The two halves of the circuit no matter how much they are matched will always consist a slight imbalance in the parameters surrounding them, like the resistors, Hfe, transformer winding turns etc.

Due to this, both the halves are not able to conduct together at one instant.

Assume that the upper half transistors conduct first, obviously they will be getting their biasing voltage through the lower half winding of the transformer via R2.

However the moment they saturate and conduct fully, the entire battery voltage is pulled through their collectors to the ground.

This sucks-out dry any voltage through R2 to their base and they immediately stop conducting.

This gives an opportunity for the lower transistors to conduct and the cycle repeats.

The whole circuit thus starts to oscillate.

The base Emitter resistors are used to fix a particular threshold for their conduction to break, they help to fix a base biasing reference level.

The above circuit was inspired from the following design by Motorola:


UPDATE: You may also want to try this: 50 watt Mini Inverter Circuit


Simple Motorola Approved Cross Coupled Inverter

Output Waveform better than square wave (Reasonably suitable for all electronic appliances))

PCB Design for the above explained simple 2N3055 Inverter Circuit (Track Side Layout)

simple inverter PCB layout

Cross Coupled MOSFET Inverter

The next design is a cross coupled simple MOSFET inverter circuit will be able to supply 220V/120V AC mains voltage or DC volts (with a rectifier and filter). The circuit is an easy to build inverter that will boost 12 or 14 volts to any level depending on the transformer secondary rating.

In this circuit, the primary and secondary of transformer T1 is a 12.6 V to 220 V step down transformer, connected in the reverse format.

MOSFETs Q1 and Q2 can be any high power Nchannel FETs. Do not forget to apply heat sink to the MOSFETs Q1 and Q2. Capacitors C1 and C2 are positioned in order to suppress high voltage reverse spikes from the transformer. You can use any nearby value for the resistors R1-R4 having a tolerance of ± 20% to the shown values in the diagram.

The circuit is perfect to power a tube circuit, or it could be coupled with a step-up transformer to generate a spark gap, a Jacob's Ladder, or, by adjusting the frequency, it could be accustomed to energize a Tesla coil.

2) Using IC 4047

The transformer T can be a 9-0-9V / 10 amp transformer, for a 12V/10 Ah Battery

As shown above a simple yet useful little inverter can be built using just a single IC 4047. The IC 4047 is a versatile single IC oscillator, which will produce precise ON/OFF periods across its output pin#10 and pin#11. The frequency here could be determined by accurately calculating the resistor R1 and capacitor C1. These components determine the oscillation frequency at the output of the IC which in turn sets the output 220V AC frequency of this inverter circuit. It may set at 50Hz or 60Hz as per individual preference.

The battery, mosfet and the transformer can be modified or upgraded as per the required output power specification of the inverter.

For calculating the RC values, and the output frequency please refer to the datasheet of the IC

Video Test Results

3) Using IC 4049

IC 4049 pinout details
IC 4049 pin details
simple inverter circuit using IC 4049

In this simple inverter circuit we use a single IC 4049 which includes 6 NOT gates or 6 inverters inside. In the diagram above N1----N6 signify the 6 gates which are configured as oscillator and buffer stages. The NOT gates N1 and N2 are basically used for the oscillator stage, the C and R can be selected and fixed for determining the 50Hz or 60 Hz frequency as per country specs

The remaining gates N3 to N6 are adjusted and configured as buffers and inverters so that the ultimate output results in producing alternating switching pulses for the power transistors. The configuration also ensures that no gates are left unused and idle, which may otherwise require their inputs to be terminated separately across a supply line.

The transformer and battery may be selected as per the power requirement or the load wattage specifications.

The output will be purely a square wave output.

Formula for calculating frequency is given as:

f = 1 /1.2RC,

where R will be in Ohms and F in Farads

4) Using IC 4093

pinout number and working details of IC 4093
IC 4093 pin details
IC 4093 simple inverter circuit

Quite similar to the previous NOT gate inveter, the NAND gate based simple inverter shown above can be built using a single 4093 IC. The gates N1 to N4 signify the 4 gates inside the IC 4093.

N1, is wired as an oscillator circuit, for generating the required 50 or 60Hz pulses. These are appropriately inverted and buffered using the remaining gates N2, N3, N4 in order to finally deliver the alternately switching frequency across the bases of the power BJTs, which in turn switch the power transformer at the supplied rate for generating the required 220V or 120V AC at the output.

Although any NAND gate IC would work here, using the IC 4093 is recommended since it features  Schmidt trigger facility, which ensures a slight lag in switching and helps creating a kind of dead-time across the switching outputs, making sure that the power devices are never switched ON together even for a fraction of a second.

5) Another Simple NAND gate Inverter using MOSFETs

Another simple yet powerful inverter circuit design is explained in the following paragraphs which can be built by any electronic enthusiast and used for powering most of the household electrical appliances (resistive and SMPS loads).

The use of a couple of mosfets influences a powerful response from the circuit involving very few components, however the square wave configuration does limit the unit from quite a few useful applications.

Introduction

Calculating MOSFET parameters may seem to involve a few difficult steps, however by following the standard design enforcing these wonderful devices into action is definitely easy.

When we talk about inverter circuits involving power outputs, MOSFETs imperatively become a part of the design and also the main component of the configuration, especially at the driving output ends of the circuit.

Inverter circuits being the favorites with these devices, we would be discussing one such design incorporating MOSFETs for powering the output stage of the circuit.

Referring to the diagram, we see a very basic inverter design involving a square wave oscillator stage, a buffer stage and the power output stage.

The use of a single IC for generating the required square waves and for buffering the pulses particularly makes the design easy to make, especially for the new electronic enthusiast.

Using IC 4093 NAND Gates for the Oscillator Circuit

The IC 4093 is a quad NAND gate Schmidt Trigger IC, a single NAND is wired up as an astable multivibrator for generating the base square pulses. The value of the resistor or the capacitor may be adjusted for acquiring either a 50 Hz or 60 Hz pulses. For 220 V applications 50 Hz option needs to be selected and a 60 Hz for the 120 V versions.

The output from the above oscillator stage is tied with a couple of more NAND gates used as buffers, whose outputs are ultimately terminated with the gate of the respective MOSFETs.

The two NAND gates are connected in series such that the two mosfets receive opposite logic levels alternately from the oscillator stage and switch the MOSFETs alternately for making the desired inductions in the input winding of the transformer.

IC 4093 with mosfet inverter circuit

Mosfet Switching

The above switching of the MOSFETs stuffs the entire battery current inside the relevant windings of the transformer, inducing an instant stepping up of the power at the opposite winding of the transformer where the output to the load is ultimately derived.

The MOSFETs are capable of handling more than 25 Amps of current and the range is pretty huge and therefore becomes suitable driving transformers of different power specs.

It’s just a matter of modifying the transformer and the battery for making inverters of different ranges with different power outputs.

Parts List for the above explained 150 watt inverter circuit diagram:

  • R1 = 220K pot, needs to be set for acquiring the desired frequency output.
  • R2, R3, R4, R5 = 1K,
  • T1, T2 = IRF540
  • N1—N4 = IC 4093
  • C1 = 0.01uF,
  • C3 = 0.1uF

TR1 = 0-12V input winding, current = 15 Amp, output voltage as per the required specs

Formula for calculating frequency will be identical to the one described above for IC 4049.

f = 1 /1.2RC. where R = R1 set value, and C = C1

6) Using IC 4060

IC 4060 based simple inverter circuit

If you have a single 4060 IC in your electronic junk box, along with a transformer and a few power transistors, you are probably all set to create your simple power inverter circuit using these components. The basic design of the proposed IC 4060 based inverter circuit can be visualized in the above diagram. The concept is basically the same, we use the IC 4060 as an oscillator, and set its output to create alternately switching ON OFF pulses through an inverter BC547 transistors stage.

Just like IC 4047, the IC 4060 requires an external RC components for setting up its output frequency, however, the output from the IC 4060 are terminated into 10 individual pinouts in a specific order wherein the output generate frequency at a rate twice that of its preceding pinout.

Although you may find 10 separate outputs with a rate of 2X  frequency rate across the IC output pinouts, we have selected the pin#7  since it delivers the fastest frequency rate among the rest and therefore may fulfil this using standard components for the RC network, which may be easily available to you no matter in which part of the globe you are situated in.

For calculating the RC values for R2 +P1 and C1 and the frequency you can use the formula as described below:

Or another way is through the following formula:

f(osc) = 1 / 2.3 x Rt x Ct

Rt is in Ohms, Ct in Farads

More info can be obtained from this article

Here's yet another cool DIY inverter idea which is extremely reliable and uses ordinary parts for accomplishing a high power inverter  design, and can be upgraded to any desired power level.

I have explained more about this simple design

7) Simplest 100 Watt Inverter for the Newcomers

The circuit of a simple 100 watt inverter discussed in this article can be considered as the most efficient, reliable, easy to build and powerful inverter design. It will convert any 12V to 220V effectively using minimum components

Introduction

The idea was published many years back in one of the elecktor electronics magazines, I present it here so that you all can make and use this circuit for your personal applications. I have explained more.

The proposed simple 100 watt inverter circuit disign was published quite a long time ago in one of the elektor electronics magazines and according to me this circuit is one of the best inverter designs you can get.

I consider it to be the best because the design is well balanced, well calculated, utilizes ordinary parts and if done everything correctly would start working instantly.

The efficiency of this design is in the vicinity of 85% that's good considering the simple format and low costs involved.

Using an Transistor Astable as the 50Hz Oscillator

Basically the whole design is built around an astable multivibrator stage, consisting of two low power general purpose transistors BC547 along with the associated parts consisting of two electrolytic capacitors and some resistors.

This stage is responsible for generating the basic 50 Hz pulses required for initiating the inverter operations.

The above signals are at low current levels and therefore requires to be lifted to some higher orders. This is done by the driver transistors BD680, which are Darlington by nature.

These transistors receive the low power 50 Hz signals from the BC547 transistor stages and lift them at higher current levels so that it can be fed to the output transistors.

The output transistors are a pair of 2N3055 which receive an amplified current drive at their bases from the above driver stage.

2N3055 Transistors as the Power Stage

The 2N3055 transistors thus are also driven at high saturation and high current levels which gets pumped into the relevant transformer windings alternately, and converted into the required 220V AC volts at the secondary of the transformer.

2N3055 inverter 100 watt simple circuit

Parts List for the above explained simple 100 watt inverter circuit

  • R1,R2 = 27K, 1/4 watt 5%
  • R3,R4,R5,R6 = 330 OHMS, 1/4 watt 5%
  • R7,R8 = 22 OHMS, 5 WATT WIRE WOUND TYPE
  • C1,C2 = 470nF
  • T1,T2 = BC547,
  • T3,T4 = BD680, OR TIP127
  • T5,T6 = 2N3055,
  • D1,D2 = 1N5402
  • TRANSFORMER = 9-0-9V, 5 AMP
  • BATTERY = 12V,26AH,

Heatsink for the T3/T4, and T5/T6

Specifications:

  1. Power Output: 100 watts if single 2n3055 transistors are used on each channels.
  2. Frequency: 50 Hz, Square Wave,
  3. Input Voltage: 12V @ 5 Amps for 100 Watts,
  4. Output Volts: 220V or 120V(with some adjustments)

From the above discussion you might be feeling thoroughly enlightened regarding how to build these 7 simple inverter circuits, by configuring a given basic oscillator circuit with a BJT stage and a transformer, and by incorporating very ordinary parts which may be already existing with you or accessible by salvaging an old assembled PC board.

How to Calculate the Resistors and Capacitors for 50 Hz or 60 Hz Frequencies

In this transistor based inverter circuit, the oscillator design is built using a transistorized astable circuit.

Basically the resistors and capacitors associated with the bases of the transistors determine the frequency of the output. Although these are correctly calculated to produce approximately 50 Hz frequency, if you are further interested to tweak the output frequency as per own preference you can easily do so by calculating them through this Transistor Astable Multivibrator Calculator.

Another Simple Transistorized DC to AC Inverter Circuit

Q1 and Q2 can be any small signal PNP transistor such as BC557.

Universal Push-Pull Module

If you are interested to achieve a more compact an efficient design using a simple a 2 wire transformer push pull configuration, then you can try the following couple of concepts

The first one below uses the IC 4047, along with a couple of p channel and n channel MOSFETs:

If you wish to employ some other oscillator stage as per your preference, in that case you can apply the following universal design.

This will allow you to integrate any desired oscillator stage and get the required 220 V push pull output.

Moreover it also has an integrated auto-changeover battery charger stage.

Advantages of Simple Push-Pull Inverter

The main advantages of this universal push-pull inverter design are:

  • It uses a 2 wire transformer, which makes the design highly efficient, in terms of size and power output.
  • It incorporates a changeover with battery charger, which charges the battery when the mains is present, and during a mains failure changes over to inverter mode using the same battery to produce the intended 220 V from the battery.
  • It uses ordinary p-channel and N-channel MOSFETs without any complex circuitry.
  • It is cheaper to build and more efficient than the center tap counterpart.
simple full bridge module with battery charger and auto changeover
UNIVERSAL PUSH PULL MOSFET MODULE WHICH WILL INTERFACE WITH ANY DESIRED OSCILLATOR CIRCUIT

SCR Inverter

The following inverter circuit uses SCRs instead of transistors and thus allows even higher power output with a simple configuration.

The oscillation is triggered by a pair of UJTs, which ensure accurate frequency control , and also facilitates the adjustment of the frequency across the two SCRs

The transformer can be be any ordinary iron core 9-0-9 V to 220 V or 120 V step down transformer, connected in the reverse order.

For the Advanced Users

The above explained were a few straightforward inverter circuit designs, however if you think these are pretty ordinary for you, you can always explore more advanced designs which are included in this website. Here are a few more links for your reference:


More Inverter Projects for You with Full online Help!

  • 7 Best Modified Inverter Circuits
  • 5 Best IC 555 Based Inverter Circuits
  • SG3525 Inverter Circuits

You'll also like:

  • driverArduino 3 Phase Inverter Circuit with Code
  • 500 watt500 Watt Inverter Circuit with Battery Charger
  • Sinewave UPS using PIC16F72
  • Homemade 100VA to 1000VA Grid-tie Inverter Circuit

Filed Under: Inverter Circuits Tagged With: Build, Circuits, Home, Inverter, Simple

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: 248 (Older Threads Archive)
Newest Oldest
Rod Ango
June 6, 2026 • 1 month ago #208008

Hello kind sir! Information shall be free (hopefully!)
Would you direct me please, I have 2 sets of 3 x 40volt / 6.0Ah lithium batteries (different battery systems), all new batteries, all from outmoded tool lines.
I would like to make a single inverter for the 6 batteries together, or 2 inverters, one for each set of three batteries. My design should prevent excessive current draw, and warn, then shut off as the lowest battery in the group reaches 15% SoC (state of charge,) to prevent battery damage. Ideally, the inverter could output 120 & 240 VAC, and have surge and over/undercurrent protections on the AC outputs. Ideally, I could also include DC out for USB Type A & C, also with protections as above. The AC outputs need a clean sinusoidal waveform; appropriate filters should be in place on the DC outputs.

That’s not much to ask, right? But seriously, thanks for your help, this page is already a brilliant resource! For my project, which of the designs would be a great place to start?

Reply
SwagatamAdmin
June 7, 2026 • 1 month ago #208034

Hello Rod, I will surely help you with this project, can you please confirm, if your input DC to the inverter would be 40V/18 Ah for one inverter, and the same for the other inverter also? And should the inverter be a sine wave or a square wave…??

Reply
Wisdom
May 31, 2026 • 2 months ago #207762

I wanted an inverter diagram that can produce pure sinusoidal wave at AC not square waves, can you help me with that?

Reply
SwagatamAdmin
May 31, 2026 • 2 months ago #207776

Sure can try the following concepts:
https://www.homemade-circuits.com/arduino-pure-sine-wave-inverter-circuit/
https://www.homemade-circuits.com/sg3525-pure-sinewave-inverter-circuit/

Reply
Md ken
April 23, 2026 • 3 months ago #205636

hi sir…pls apart from generators,turbines or solar panels is there any other way to generate at least 12v power source reliably?

Reply
SwagatamAdmin
April 24, 2026 • 3 months ago #205726

Hi Md, I think you can generate good electricity through road speed breakers…
https://www.homemade-circuits.com/generating-electricity-from-road-speed/

Reply
Asikpo Okon
September 16, 2025 • 10 months ago #185689

pls sir I just the one of the diagram specifically fig 2 using cd4047 one of the transistor is very hot and one is not working although no output
what you is wrong because I use my meter and check there’s voltage flowing through the gate

Reply
SwagatamAdmin
September 17, 2025 • 10 months ago #185882

Okon, I think your MOSFETTs are blown, or maybe not good.
Please remove the MOSFETs and initially try with BJTs, such as TIP122 and check the response…
With BJTs make sure the base resistor is above 1k….

Reply
Paul
May 18, 2025 • 1 year ago #177458

Hi Swagatam
Im looking at building a 200W inverter (12V -> 240VAC).
However, 9-0-9 10A transformers are difficult to get in UK.
I can however get 12-0-12
https://uk.farnell.com/multicomp-pro/mcta250-12/transformer-toroidal-2-x-12v-250va/dp/9530720

Ideally I’d like to include over temperature as well as low battery.

Would it also be possible to arrange a circuit that would allow charging of a 12V 80Ah battery using the same transformer ?

I have emailed you

Reply
SwagatamAdmin
May 19, 2025 • 1 year ago #177520

Hi Paul,
With a 12V transformer, when your battery voltage drops to 11V, the AC output from the transformer could drop to 200V or lower, that is why a 9V transformer is recommended.
Yes, an automatic charger can be included using the same transformer through relays, as discussed in the following article:
https://www.homemade-circuits.com/single-transformer-inverterchargerchang/

Reply
Dhananjay Shah
May 1, 2025 • 1 year ago #175271

Respected Sir
I am refering to the inverter circuit (Using IC 4060). This circuit is decently made using only one output but the query is that can we use all the outputs or maximum outputs using 1 or 2.2 or 10 meg resistance??? Obviously not disturbing it’s oscillation.
Please help.

Reply
SwagatamAdmin
May 1, 2025 • 1 year ago #175281

Dhananjay, All the outputs of the 4060 IC generate different frequencies, so you can select any one of them which matches the frequency of your inverter.

Reply
Tonderai
April 30, 2025 • 1 year ago #175191

l designed a simple power supply using rectifier diodes 1 n4001, 25v 470 uF Cin,7815 voltage regulator,470 uF 16 v Cout, and 220/24 vac transformer to power your simple ups battery charging circuit.
But it failed to power an already made 12 vdc/220 vac 300w ECCO inverter.
the input capacitor burned.
so what can be the problem and solution.

Reply
SwagatamAdmin
May 1, 2025 • 1 year ago #175245

Please comment under the same article which you are referring to and please specify the circuit diagram also, I will try to help!

Reply
Olabisi
March 23, 2025 • 1 year ago #170170

you’re doing great! Could you please help me with the circuit of 4KVA inverter

Reply
SwagatamAdmin
March 23, 2025 • 1 year ago #170173

Please provide the detailed specifications of the inverter, i will try to figure out…

Reply
Daniel
August 20, 2024 • 2 years ago #158548

I tried the one with ic 4047 using irfz3205 but after I while one stopped working and the gate resistor started heating up before this the mosfet what making noise not really audible but when I get close I could hear it and also when only one side was working I only loaded the CRT with 15watt bulb and the second mosfet went of Total what can be the cause??

although I used a 1.2amp 12.0 12 transformer

Reply
SwagatamAdmin
August 21, 2024 • 2 years ago #158642

It seems like the MOSFETs are not good and have some internal defect, or maybe they are not original devices.
You can try using BJTs instead and check the response. Any power BJT such as TIP122 should work.
If BJTs work normally, then the problem is certainly with your MOSFETs.

Reply
Mike
July 19, 2024 • 2 years ago #155226

Hello sir I wish to know you better. You’re a great inspiration to me .

Reply
Arindam
March 27, 2024 • 2 years ago #151025

In the inverter made by using cross-coupled transistors, why the two 2N3055 transistors don’t conduct together? Can you please give a more in-depth and technical explanation?

Reply
SwagatamAdmin
March 27, 2024 • 2 years ago #151031

the two 2N3055 transistors don’t conduct together because the characteristics of no two transistor or inductance of the winding can be 100% identical, therefore one of the stages will start before the other, triggering the oscillating action.

Reply
Arindam
April 3, 2024 • 2 years ago #151329

Thanks for answering, I’ve one more question will it still oscillate and produce ac signal without the base emitter resistors?

Reply
SwagatamAdmin
April 4, 2024 • 2 years ago #151335

It will oscillate even without the base emitter resistors.

Reply
Sejemba Geofrey
March 26, 2024 • 2 years ago #150954

hello buddy, how are you doing today,am asking whether I can use an audio transistor in an inverter?

Reply
SwagatamAdmin
March 27, 2024 • 2 years ago #150990

You can use any type of transistor in an inverter circuit, just make sure the current and voltage ratings match the inverter battery/transformer specifications.

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MORRIS
January 28, 2024 • 2 years ago #148785

Hello Swagatam, if I use any of your inverter circuits here with a 500watts round transformer. Then use 14pcs of mosfets that is 7pcs each on both sides. Then use it on a 200ah 12v battery. Can it work sufficiently or I reduce the number of mosfet?

Thanks.

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SwagatamAdmin
January 28, 2024 • 2 years ago #148792

Hello Morris,
Yes, it will efficiently without any issues. You can use IRF3205 MOSFETs

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Kamil
October 6, 2023 • 3 years ago #145917

good day boss.
can this project power tv and fan

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Kamil
October 6, 2023 • 3 years ago #145943

thank you sir

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SwagatamAdmin
October 6, 2023 • 3 years ago #145925

Yes, the inverter designs can be used to power TVs and fans

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Simon
August 31, 2023 • 3 years ago #144970

Hello Swagatam. For the Cross Coupled MOSFET Inverter, I could not find a value for the capacitor designated as Cf at the output.

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SwagatamAdmin
August 31, 2023 • 3 years ago #144971

Hello Simon, the Cf can be a 100 uF / 400V filter capacitor.

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Simon
August 31, 2023 • 3 years ago #144972

Thank you

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Daniel
June 10, 2023 • 3 years ago #143306

Hello, can I change the 2N3055 transistor to any other transistor like 2sc5200.
Thanks.

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SwagatamAdmin
June 11, 2023 • 3 years ago #143320

You can try 2SC5200, but it won’t be as efficient as 2N3055, because it has a high VCEO of 230V…this should be below 100 V.

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Daniel
June 11, 2023 • 3 years ago #143334

Thanks

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Chidon lite
February 13, 2023 • 3 years ago #140204

In number 3) circuit diagram below
Which number of resistor and capacitor can I use to generate clean 60hz

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SwagatamAdmin
February 13, 2023 • 3 years ago #140205

I think roughly it is 0.01uF and 100K, but you will have to use a frequency meter to adjust it accurately.

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Nook
September 22, 2022 • 4 years ago #133445

On the push pull inverter circuit are the gates on each set of mosfets joined together, the lines appear to be missing on the circuit. Thank you,

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SwagatamAdmin
September 23, 2022 • 4 years ago #133452

Yes all the gates of the mosfets on each group are joined together.

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Jerry
September 18, 2022 • 4 years ago #133333

Am from Nigeria I made the astable multivibrator circuit using transistor, resistor, capacitor and mosfet but the problem is that one mosfet burn and the other mosfet just continue working but what surprised me is the despite one mosfet working and the other burnt the circuit still workes but I don’t know why

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SwagatamAdmin
September 18, 2022 • 4 years ago #133340

Can you please provide the link of the circuit diagram?

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Richard Jide Adeyemi
August 15, 2022 • 4 years ago #132356

I built the cross coupled using 2n3055 power transistors. Working perfectly…handy and reliable it is.

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SwagatamAdmin
August 15, 2022 • 4 years ago #132362

Thank you for trying this circuit, glad it is working!

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Jonathan Miller
July 24, 2022 • 4 years ago #131805

Hello I built the Cross Coupled 2n3055 inverter with a good result. I am now interested in the Cross Coupled MOSFET Inverter. Do the mosfets inherently run cooler than the BJT’s? Could I also use zeners instead of the mini capacitors to absorb voltage spikes? Really enjoying making these projects thanks!

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SwagatamAdmin
July 24, 2022 • 4 years ago #131815

Thank you, and Glad you could build the cross coupled design successfully. Yes you can try the mosfet version, you can use ordinary rectifier diodes for C1, C2. A 1N4007 might work for low power applications.

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Jonathan Miller
July 24, 2022 • 4 years ago #131826

By rectifier diodes did you mean to say Zener? I am not quite sure what a rectifier diode would do in this case. Also I am wondering if maybe R3 and R4 could be 10k in order to speed up switching/reduce voltage drop from the pulldown resistors on the mosfet gates.

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SwagatamAdmin
July 24, 2022 • 4 years ago #131831

Zener might not work correctly that is why I recommended rectifier diode:
rectifier diode compressed
I think nothing should be changed in the diagram and the parts should be as is.

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David
June 12, 2022 • 4 years ago #125428

Hi pls accept my friend request on Facebook (eniola)

Reply
Jonathan Miller
July 12, 2022 • 4 years ago #131518

I am looking to build a very simple but high frequency version of “Simple Inverter Circuit using Cross Coupled Transistors” I am considering using the transistor TIP35CP and a ferrite core transformer to achieve somewhere around 20kHz. Is this possible? Is there a frequency limit using this type of inverter?

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SwagatamAdmin
July 12, 2022 • 4 years ago #131521

Actually I am not very sure what determines the frequency in the simple cross coupled inverter circuit. Is it the transformer primary turns and the resistors? If yes, then I think the number of turns and the resistors could be experimented to create a high frequency version of the inverter.

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SwagatamAdmin
June 12, 2022 • 4 years ago #125443

Accepted!

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David
June 12, 2022 • 4 years ago #125427

Hi swagatam ..
Pls I want to design a circuit using a boost converter topology

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SwagatamAdmin
June 12, 2022 • 4 years ago #125442

Hi David, you can try the following circuits:

https://www.homemade-circuits.com/high-power-dc-to-dc-converter-circuit-12-v-to-30-v-variable/
https://www.homemade-circuits.com/how-to-make-simple-boost-converter-circuits/
https://www.homemade-circuits.com/12v-car-laptop-charger-circuit-using/

Reply
jayant kumar barik
April 17, 2022 • 4 years ago #118917

Hello
I have mentioned that it is 200watts. But the starting current will be
five to six times than normal current.
My idea is ; can I remove bms which is restricting current?
thanks

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SwagatamAdmin
April 17, 2022 • 4 years ago #118918

I asked about the fridge voltage not wattage? I have already mentioned that you can remove the BMS and try!

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jayant kumar barik
April 17, 2022 • 4 years ago #118909

Hello Swagatam
for my inverter I am using Lithium battery 12.8v/54ah. It is from solar universe India. But I charge it from solar panel with amici contrler. But when I connect to my fridge it trips by low battery. I think it is due to inbuilt BMS restrictions.
Can I remove the bms and use it?
Fridge is 200watt . It will require 15amp cont amp and some 75amp surge current.
54ah/3c will give 18amp .
If not can you suggest suitable lithium battery?

Thanks

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SwagatamAdmin
April 17, 2022 • 4 years ago #118912

Hello Jayant,

The recommended maximum wattage output your battery can provide is 12.8 x 54 = 691 watts, beyond this your battery can slowly get damaged.
So 200 watt is quite fine for your battery….this also means that the BMS may be the reason why your battery isn’t able to deliver the full power to the inverter….you can try removing and check the response.

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SwagatamAdmin
April 17, 2022 • 4 years ago #118914

Also please specify the voltage rating of your fridge,because 75 Amp x V of the fridge will provide the exact wattage of the fridge during surge.

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Ifeanyichukwu Akpara
March 17, 2022 • 4 years ago #116225

Please i need to know the components used for the construction of a 1.5kva 12v solar inverter, most importantly what the rating of the transformer is?
I also want to know what the circuit diagram can look like
Please it is urgent

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SwagatamAdmin
March 17, 2022 • 4 years ago #116266

Solar panel and the transformer will need to be rated at 1500/12 = 125 amps….

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Olufemi
May 26, 2024 • 2 years ago #152515

125 amps will drain your battery quickly.
Are u buying the transformer or u wanted to construct one by winding the coil yourself?
Anyway for a 1.5 kva u can use between 14 and 16 MOSFET to be arranged in each side 7 or 8 but is good to make it 24V instead of 12V for more efficiency.

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Ifeanyichukwu Akpara
March 20, 2022 • 4 years ago #116560

Thank you sir.
Please can you help me with a circuit diagram of the design of a 1.5kva 12v solar inverter showing the IC sg3524 and all other components. I can’t find any place to get such circuit.
Please my e-mail is Ifyakpara@gmail.com
you can send the circuit there
thank you very much
your response will be much appreciated.

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SwagatamAdmin
March 20, 2022 • 4 years ago #116606

Hello Ifeanyichukwu, from where will you get a solar panel and a transformer rated at 125 amps, and a 1000 Ah battery? Please procure them first then I will show you how you to build the inverter.

For a 1.5kva inverter the voltage rating must be in the range of 48 to 60 V.

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Olufemi
May 26, 2024 • 2 years ago #152516

Good of you Sir Swagstam. I am enjoying your wide scope of experiences sir! God bless your intelligence.

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SwagatamAdmin
May 26, 2024 • 2 years ago #152521

Thank you Olufemi!

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Nick
March 31, 2022 • 4 years ago #117580

a question. I made an inverter with 8 transistors irfz44n and oscillator cd4047 with transformer 12.0.12 why without load at the output it pulls 5A?

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SwagatamAdmin
April 1, 2022 • 4 years ago #117669

It means either your IC is shorted or your mosfets are shorted, otherwise this cannot and shouldn’t happen.

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yusuf
February 2, 2022 • 4 years ago #111339

the inverter i want to build that makes use of ic 4047

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SwagatamAdmin
February 2, 2022 • 4 years ago #111344

All the details are provided in the diagram itself, please check it.

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yusuf
February 2, 2022 • 4 years ago #111332

good afternoon sir,my question: if i am connecting the board to the battery,for 70ah,12v battery,where shall i connect the thick and thiny wire and should i connect resistor and capacitor along or across the positive line? I need to get rid of confusion thanks.

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SwagatamAdmin
February 2, 2022 • 4 years ago #111337

Hello yusuf, which circuit are you referring to?

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arthur
October 19, 2021 • 5 years ago #101873

Do you have a schematic of a pure sine pwm for a h bridge boot strapping design.
After messing around with very large transformers hurting my hands winding them, I have decided to go with the transformerless design. The square wave is easy. I would like to incorporate pure sine wave. In this project

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SwagatamAdmin
October 19, 2021 • 5 years ago #101904

I have a related diagram in this blog. You can check the second diagram from the following article:

https://www.homemade-circuits.com/5kva-transformerless-inverter-circuit/

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arthur
October 20, 2021 • 5 years ago #101956

Thank you, I must say you know your stuff, after I sent the message I found what I needed from you very extensive blog/site. I figure I will let the smoke out
At least once but I will get. Thanks again

ART

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Daoud
August 27, 2021 • 5 years ago #95685

Hello sir. In other inverters the output of the core transformer will be its voltage at the output is rectified and filtered which drives yet another assembly of the mosfet transistors mounted in push-pull I do not know why this assembly again I do not understand
Thanks

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SwagatamAdmin
August 27, 2021 • 5 years ago #95697

Hello Daoud, that type of circuits are used in ferrite core inverters. For iron core this is not required

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Daoud
August 27, 2021 • 5 years ago #95700

Good evening sir, thank you for your response.
What is the importance of push-pull assembly consisting of mosfet

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SwagatamAdmin
August 28, 2021 • 5 years ago #95755

Hello Daoud, in a push pull inverter configuration, the current is pushed and pulled alternately through the transformer primary winding, which causes the current to transfer from the primary to the secondary winding through magnetic induction and we get the 220V output from 12V.
Mosfets can be used for delivering larger amounts of current than BJTs.

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Arthur Zacchia
August 26, 2021 • 5 years ago #95539

I got your circuit with the two Moffett irf540 to work thank you. I noticed the transformer has a 12.6v CT so its a
6.3-0-6.3 correct ? Also I didn’t have irf540 i have a few different one but I can’t seem to get it to work for more then a 20 seconds before the mosfets start to smoke. Yes they are on a heating. Thank you

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SwagatamAdmin
August 26, 2021 • 5 years ago #95572

Which circuit did you build? For all the concepts explained above, the transformer must be around 9-0-9V with a 12V battery.

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Arthur Zacchia
August 26, 2021 • 5 years ago #95576

Its the 2 mosfets irf540 the transformer in your circuit is a 12.6 with CT. This circuit has 2 100k and 2 47k resistors

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SwagatamAdmin
August 26, 2021 • 5 years ago #95585

yes, in that circuit the center tap is rated at 6.3V because it is intended to produce a higher voltage than the normal home AC level. For 220V or 120V AC, a 9-0-9 trafo is recommended with a 12V battery.
Make sure that your mosfets are mounted on large heatsinks

Reply
trevor amiss
August 22, 2021 • 5 years ago #95263

hi how’s things trevor’s my name of trevoramiss@mail.com, an Australian
what i am looking for ,it an invertor of 12 volt to 36 volt with 25amp on out put
i would like to make this invertor myself, if any of you have, a detail drawing with a list of parts, that you would like to email to myself, on the above email address, that would be grit, thank you

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SwagatamAdmin
August 22, 2021 • 5 years ago #95268

hi trevor, for 36V output, you just need to have a transformer with a primary side having 12-0-12V winding, and the secondary side having a 36V winding

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Daoud
August 17, 2021 • 5 years ago #94727

Thank you very much for your guide
And for the 100 Ohm resistor is what it is for all 12V batteries as there are 12V batteries of large capacity such as 100AH, 200AH, 150AH.
what is the power of the 100 Ohm resistor that I should choose

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SwagatamAdmin
August 17, 2021 • 5 years ago #94752

Hello Daoud, yes the 100 ohm should work for all 12 V batteries, the Ah rating of the battery does not matter. The 100 ohm can be a 1/4 watt rated.

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Daoud
August 17, 2021 • 5 years ago #94754

Merci beaucoup Monsieur. Tous mes respects

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Daoud
August 16, 2021 • 5 years ago #94655

Good evening Sir
There was a time I wanted to make a 12V DC to 200V AC inverter, with a 12V 40AH battery. I used the cd4047 as an oscillator circuit and with 2 irf740 mosfets but as soon as I started the cd4047 to burnt and defective. I do not understand why. You can help me

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SwagatamAdmin
August 17, 2021 • 5 years ago #94707

Hello Daoud, It may be due to transformer back EMF spikes. Did you connect protection diodes across the MOSFET drain.source….although these are already present inside the mosfets, still it is better to connect additional diodes externally.

Also make sure to supply the DC to the IC 4047 through a 100 ohm resistor, and connect a 12V zener diode right across the Vcc and Vss pins of the IC. You must also connect a 100uF/25V capacitor right across these supply pins of the IC. All these together will make sure the IC remains safe from the transformer back EMF spikes.

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Chidera
July 16, 2021 • 5 years ago #92563

Thank you so much sir but the 300mH transformer oky. But the power transistor is in different number I hope it work.
Thank you so much for ur time

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SwagatamAdmin
July 17, 2021 • 5 years ago #92574

Chidera, 300mA is very small, it will produce no more than a few watts of output.

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Chidera
July 15, 2021 • 5 years ago #92542

I have 9,0,9v 300mA transformer will it work. One power transistor c4111 and 1k resistor

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SwagatamAdmin
July 16, 2021 • 5 years ago #92555

you will need two power transistors.

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Qosim
June 20, 2021 • 5 years ago #91275

Please I need more detailed explanation on circuit 3,5 and 6

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SwagatamAdmin
June 20, 2021 • 5 years ago #91290

You can read this article to understand more:

https://www.homemade-circuits.com/how-to-design-inverter-basic-circuit/

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P.Augustin Dhana sekaran .
May 14, 2021 • 5 years ago #89395

After gone through 7 simple inverter circuits I got very much clear idea and knowledge.These are very simple and economical ,very useful. Really I got enlightened . you’ve explained different components like ICs, power transistors ,transistors and mosfets.
Awesome .Thanks a lot. हेलो ठंक्यौ .गॉड ब्लेस यू .कीप इट अप .
रीगार्ड्स

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SwagatamAdmin
May 14, 2021 • 5 years ago #89399

Thank you very much, I am glad the post helped you to understand the parameters related to inverters. God bless you too!

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Luke
April 29, 2021 • 5 years ago #88862

Hi Swagatam

If I have a 400VDC input to a half bridge inverter, I get 141.4V rms out. If I want to step up that voltage to 220V rms out, do I need a center-tapped transformer to step up the voltage or can I just use a non-isolated step up transformer (no center tap). Basically, when do I need a center-tapped transformer, and when do I not for a half-bridge inverter?

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SwagatamAdmin
April 29, 2021 • 5 years ago #88866

Hi Luke, You can compare the half bridge circuit like any other oscillator circuit, say for example like a IC 555 oscillator. So with such an oscillator you can simply add transistor stages and then configure your center tap transformer to get the full output.

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Daniel
February 20, 2021 • 5 years ago #87204

These are relevant information for young electronic engineers,thanks very much.

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SwagatamAdmin
February 20, 2021 • 5 years ago #87209

Glad it helped, and thanks for your feedback!

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Klaas Nel
February 19, 2021 • 5 years ago #87174

Is there a circuit for a transformer that only got 0-12v. All this circuits use a 0-12-0. This is not to use for any appliances but mere as testing . I have got a few of this transformers.

Regards

Klaas

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SwagatamAdmin
February 19, 2021 • 5 years ago #87181

You can try the following concept:

https://www.homemade-circuits.com/easy-h-bridge-mosfet-driver-circuit-for-inverters-and-motors/

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Les
February 15, 2021 • 5 years ago #87069

I am from the old school. I went to electronic school in 1974-76. I am seeing some abbreviations I don’t recognize. For instance R1=10 R2 and R1,R2,R3=33E. Can you please explain what these mean?

Les

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SwagatamAdmin
February 16, 2021 • 5 years ago #87092

The letter “E” or sometimes R”” is equivalent to the symbol Ω, and when there’s no E, that again indicates the presence of the Ω

so only “10” means 10 Ω, and 33 E also means 33 Ω

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Les
February 17, 2021 • 5 years ago #87113

Thanks. All of this when a simple “ohm” would suffice? Oh well, I’m one of those guys who hates abbreviations. Abbreviations are supposed to save time, but when the reader has to spend several minutes searching for what the abbreviation means, it is no longer a time saver.

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SwagatamAdmin
February 17, 2021 • 5 years ago #87128

You are right! thanks for the feedback!

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Eric Schuh
January 18, 2021 • 5 years ago #86207

Do you do any paid consulting? If so please contact me offline.

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sabri
December 26, 2020 • 6 years ago #85633

Hi.
I want to make an inverter that can output 2000 watt -220v AC, which circuit do you recommend and what changes I need to make on the circuit.

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SwagatamAdmin
December 26, 2020 • 6 years ago #85636

What should be the output waveform, square wave or sine wave??

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Marc
October 17, 2020 • 6 years ago #83648

About 40 years ago, I made my first (square-wave) 600W inverter using a 4060 and a 4027. But instead of a RC oscillator, I used the 4060 with a 3.2768 MHz crystal so that I had a very precise 50 Hz at the outputs of the 4027. Now there are a lot of inverters available commercially, but almost all, including expensive sine-wave inverters, have only poor frequency stability. Some use a 555 ic wich frequency vary a lot with temperature. They cannot be used for sound recording equipment, like open-reel tape recorders, not even for a turntable. I later had to reuse my old circuit to make a 60Hz to 50Hz frequency converter, so that my old 50Hz turntable turns at the correct speed in Canada. The ideal would be to use two switchable crystals, one for for 60Hz, the other for both 50Hz and 400Hz avionic system.

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Emmanuel
October 14, 2020 • 6 years ago #83458

Please I can’t view the schematic diagram

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SwagatamAdmin
October 14, 2020 • 6 years ago #83471

which schematic?

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Emmanuel
October 18, 2020 • 6 years ago #83670

I only see your write up but i don’t see any diagram please help to fiquer out the problem

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SwagatamAdmin
October 18, 2020 • 6 years ago #83675

images will appear slightly late, but it cannot disappear entirely, please refresh the page, or check yuor internet connection speed.

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Benson
September 16, 2020 • 6 years ago #82292

Sir the first inverter circuit digram that was shown, had only four resistors but in your video I saw more than four resistors,is this a scam.Please help me out.

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SwagatamAdmin
September 16, 2020 • 6 years ago #82299

The extra resistors were used for adjusting the values, since the exact 100 ohm and 15 ohm were not found.

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Benson
September 23, 2020 • 6 years ago #82497

Thank you sir your project is a success I built it and it works, I am so happy your not like the others.

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SwagatamAdmin
September 23, 2020 • 6 years ago #82504

Glad it worked, and congrats to you!

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suat kaleli
September 14, 2020 • 6 years ago #82253

Hi master Swagatam;
to generate A.C. voltage from D.C. I made an simple curcuit consisting of 555 timer/osiloscope. There are tip127 and tip122 connected to pin 3 of 555 IC. Always I measure one side (at the side of tip127) 0 Volt (while base not triggered) and +8.80 Volts at the emitter (while base triggered) whereas I measure at the side of tip122 the voltage is either + 2 volts (while not triggered between 1 and 2 Volts) or 8.40 Volts (while triggered). I mean there is always plus voltage / tip122 is always active (may be we call a leakage current) although base not triggered. Tets is done on Proteus. Now please explain whether that is true when real circuit and how we can eliminate the situation.-Many Thanks

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SwagatamAdmin
September 16, 2020 • 6 years ago #82309

Hi Suat, you can eliminate it by adding diodes at pin3, as shown in the following example image

555 inverter circuit 1

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suat kaleli
September 12, 2020 • 6 years ago #82179

Hi Mr Swagatam;
Please advise maximum how many times we can trigger a mosfet and / or a relay in a second. For instance in case we trigger a relay 50 times in one second does relay reply each time properly. Thanks.

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SwagatamAdmin
September 12, 2020 • 6 years ago #82184

Hi Suat, for MOSFET there’s virtually no limit, for a relay it may be 0.5 Hz at the max but it may slowly get degraded with time.

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suat kaleli
August 11, 2020 • 6 years ago #81218

Hi Mr Swag;
I am mechanical. I removed an transformer from ups and there are 2 inputs (12 volts – black and + red) and also 3 outputs (220 volts black-yellow-blue). However all circuits I saw all their inputs like 12-0-12. In that case how I can proceed. Regards

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SwagatamAdmin
August 11, 2020 • 6 years ago #81242

Hi Suat, you can try applying the following bridge circuit:

full bridge p channel 1

connect the transformer primary across the points shown as 220V.

For the oscillator you can use the following circuit

simplest modified inverter

ignore the transistor stage and the transformer, and the use the 1K ends from the 4017 outputs to connect with the above bridge oscillator inputs

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suat kaleli
August 11, 2020 • 6 years ago #81252

Hi Mr. Swagatam, thanks for your kind reply. However I need your confirmation to check that whether my understanding is correct? as far as I understand it is possible to gain both 220 V AC and 310 V DC on the output by mixing 2 circuits you offered. Meanwhile I found another simplest circuit by means 555 and ifrz44 my output is allright about 228 AC but not able to light 40W bulb. How dou you think the problem is about hz (sin wave) or weak amper source? (my source transformer power shows 10 V not under load and it may be around 1 A) meanwhile I will use that on my car battery 12 V 60 A-Kind Regards

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SwagatamAdmin
August 12, 2020 • 6 years ago #81264

Hi Suat, No, please ignore the 310 V in the first diagram. It is to be used if no transformer is used with the bridge. When 310 V Dc is used as the input supply, then the output will be 220 V AC without any transformer..

For a transformer based design its wattage must be higher than the load wattage. so for a 40 watt load the transformer must be rated at 50 watts or 60 watts. A 10 V 1 amp transformer will be able to handle only a maximum of 8 watt load

Reply
suat kaleli
August 13, 2020 • 6 years ago #81299

Hi Mr Swagatam;
I really appreciate your remote and valuable support. I found the original USB PCB of the transformer (2 inputs 850 VA / 480 W max 5,5 A UPS pressed circuit board).
So, its input may be not 12 Volt as I mentioned before I think its original battery should be 6 Volt 7Ah. I am not sure and confused (when I imposed 12 volt AC the output was above 320 Volt AC) So if I would made a circuit regulating step down 12 Volt to 6 Volt.
(By either step up 7805 or step down 7808 and current capacity is important) Then I think I can connect my UPS to my car battery (Car Battery 12 V 60 A). So please advise whether that runs and is effective. Meanwhile I will use the equipment like 400 watt drill or grinder-cutter. In case I would add the dimmer before equipments and by decreasing their rotate speed that may gain less ampere. Please advise whether that can defect my car battery while car runs. One more time many thanks-Best Regards

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SwagatamAdmin
August 13, 2020 • 6 years ago #81306

Hi Suat, I have already suggested you a very good IC 555/IC 4017 circuit which can be adapted for any transformer and battery combination. The circuit will support a 6 v transformer with a 12 V battery supply and produce the required 240 output

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Joseph
August 4, 2020 • 6 years ago #81002

Hi! Mr swag, I will like to ask a favour of you. I have a circuit I am trying to repair it has a top232gn( HV offline switcher) ic at the power supply stage but its simple transformerless power supply stage. I will like you to help check up the ic and explain to me how it operates. I really dont understand it. Thanks a lot

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SwagatamAdmin
August 5, 2020 • 6 years ago #81010

Hi Joseph, please refer to the datasheet of the IC, you will be able to get a detailed explanation regarding the each pinout of the iC and its circuit functioning.

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Jan
June 21, 2020 • 6 years ago #79690

Hi Swagatam,
The transformer used in “UNIVERSAL PUSH PULL MOSFET MODULE WHICH WILL INTERFACE WITH ANY DESIRED OSCILLATOR CIRCUIT” is it a 12V/220V transformer?
Regards
Jan

Reply
SwagatamAdmin
June 21, 2020 • 6 years ago #79700

Hi Jan, if a square wave output is required then battery and transformer can be of similar voltage rating, but if the input is PWM then the transformer voltage will need to be proportionately lower than the battery voltage

Reply
Jan
June 22, 2020 • 6 years ago #79729

Hi Swagatam,
I will be using PWM from the Arduino. My situation is that I have a few 12/220v 5VA transformers in stock which I would like to use for this project. Could I perhaps overcome this problem by using a DC to DC 12V – 30V converter to step up the voltage to the transformer. Will this work?
Your advice will be much appreciated.
Regards
Jan

Reply
Jan
August 7, 2020 • 6 years ago #81088

Hi Swagatam,
Please assist me with the following.
Please refer to your All P-Channel IRF9540 diagram. I have connected the mosfet’s as per your diagram but both the IRF9540 and the IRF540 gets extremely hot. I have replaced them with new ones but still getting hot. I also check the mosfet’s as per your instructions on how to check with a multimeter and yes I have blown some of them already, but replaced them.
According to your diagram the IRF9540 source-3 goes to +12V. The IRF9540 drain-2 goes to the drain on the IRF540 and the gate-1 goes to both the 9540 & 540. The source-3 of the 540 goes to -12V.
On both mosfet’s PIN 1=G, 2=D, 3=S
Is this correct because I have checked this configuration now numerous times.

Then please tell me which code I should use for the Arduino Pure Sine Wave Inverter. Your code or Mr. Anton.
I have now almost completed this project and all the modules works very nicely. This was a very interesting project for me.
Your assistance will be much appreciated.
Regards
Jan

Reply
Jamilu A Musbahu
June 6, 2022 • 4 years ago #123862

Hello sir
Am tried to design the second circuit which is using CD4047 IC, am test the oscillator first it work and am conducted another test using 30w, 4ohms speaker and it’s ok also.
But the problem is that when am connected the MOSFET and transformer. The MOSFET got hot some times it’s burnt. I want to use this oscillator to design dc to dc converter of power inverter using 500wtt ferite core transformer, am used IRF540 MOSFET. And also am tried to calculate the frequency of the circuit but am found 16.7khz
E.g
Ur R= 68kohms = 68000ohms
C= 01.uF =( 0.1*10^-6)F
Using f= 1/(8.8*RC)
f= 1/(8.8*68000*0.1*10^-6)
f=16.7khz. is this correct?
If yes sir may I use 22.7kohms and 0.1uf to find 50khz?
Pls sir I need ur correction base on my calculation and problem.

Reply
SwagatamAdmin
June 6, 2022 • 4 years ago #123867

Hello Jamilu, I have tested the 4047 based inverter and it worked nicely for me, you can see it in the video. You can build a ferrite core based inverter using the IC 4047 and IRF540 mosfets provided the ferrite transformer winding is calculated correctly.
The result of the calculation seems to be incorrect. The -6 should be -7 according to me, and the result will be in Ohms not in kHz.
I think we should not depend on the calculations instead check the frequency directly across the IC output pins using a frequency meter that would provide us the precise reading for the frequency.

Reply
Jamilu A musbahu
June 6, 2022 • 4 years ago #123895

Thank you sir.
Am understood, I will try to check my work and correct it.

Reply
SwagatamAdmin
June 6, 2022 • 4 years ago #123896

No problem Jamilu!

Reply
SwagatamAdmin
August 7, 2020 • 6 years ago #81089

Hi Jan, yes the indicated pinout assignment is correct for both the MOSFETs. The MOSFET woking is actually very straightforward. At any instant only one particular diagonal set of MOSFET must conduct, due to the presence of alternate logic at the input of the bridge… since there is alternate logic at the input side all 4 MOSFETs can never conduct.
You can confirm the above by adding a bulb across the “transformer” points, and then manually apply logic high and logic low across the inputs of the bridge alternately. You should find the MOSFETs working perfectly and the bulb should illuminate during both the alternate pulsing. After this you can use an oscillator circuit such as a transistor oscillator, or IC 4047 oscillator with very low frequency and check th eresponse, agaiin you shoul fid the bulb illuminate continuously without any heating.

After this slowing increase the freqeucy and confirm the proper working of the MOSFETs. I have checked the configuration using IC 555 and IC 4017, and it had worked perfectly for me.

Also make sure to add protection diodes across the drain/source of each MOSFEts. Once the results are 100% confirmed then you can go for the Arduino integration.

Reply
Jan
August 9, 2020 • 6 years ago #81162

Hi Swagatam,
I have noticed that the mosfets do have an internal protection diode between the S & D terminals. Is it then still necessary to have another protection diode externally.
Regards
Jan

Reply
SwagatamAdmin
August 10, 2020 • 6 years ago #81175

Hi Jan, yes for guaranteed safety against strong reverse EMFs separate external diodes across the drain source leads is recommended.

Reply
Jan
August 7, 2020 • 6 years ago #81091

Thank you Swagatam,
I used Mr. Anton’s code on the Arduino. Could that not maybe be the cause of the problem?

Reply
SwagatamAdmin
August 7, 2020 • 6 years ago #81092

Hi Jan, if the test procedure suggested by me in the earlier comments does not create any issues on the MOSFETs then it could be the Arduino code problem.

Reply
SwagatamAdmin
June 22, 2020 • 6 years ago #79731

Hi Jan, that may be possible but might result in a significant power loss. Also, 30 V looks too high, it should not be more than 20 V with regards to the Arduino code that I have used in my sine wave inverter concept

Reply
Jan
June 22, 2020 • 6 years ago #79738

Hi Swagatam,
How much power loss can I expect?
Regards
Jan

Reply
Jan
June 23, 2020 • 6 years ago #79757

Hi Swagatam,
Thank you for your reply. That is quite a lot. However, I still think it worth a try. All I want to do is to run my TV & Computer during loadshedding which lasts for 3 Hrs max. per 24Hrs.
Kind Regards
Jan

Reply
SwagatamAdmin
June 23, 2020 • 6 years ago #79758

Thank you Jan, Wish you all the best with the project!

Reply
SwagatamAdmin
June 23, 2020 • 6 years ago #79746

Hi Jan, the converter may dissipate 10% power and the inverter may dissipate 20%, so in all it can be around 30% loss

Reply
Claude
May 21, 2020 • 6 years ago #78887

Many thanks, sir for your blessing !
Claude

Reply
Claude Boulle
May 20, 2020 • 6 years ago #78855

Bonjour Monsieur,
I read with great interest your “7 very simple inverters”. I need such a simple inverter for modelism with the following requirement : going from 12 Vdc to 12Vac no more than 1A. I got a 6-0-6/12 transformer. What will be your recommendation in term of choice between your 7 solutions ?

Best regards
Claude

Reply
SwagatamAdmin
May 20, 2020 • 6 years ago #78867

Thank you Claude, you can get 12V ac across the 0-12V winding of the transformer. So you can build any one of these inverters and get the 12v ac from the primary side of the transformer

Reply
shankar
June 16, 2020 • 6 years ago #79557

sir, i have try to modify existing 12-0-12/ 220v transformer from old amplifier board. the steel bars are very rusty, i m tring to rewind secondary with this voltage 12-6-0-6-12 /220 for inverter. but i forget turn while re-winding .i get this voltage at secondary output 12-6-0-5.5-12 /220 . i want to use that 6-0-6/220v for inverter.
my question is that will inverter work in this 6.0-5.5 windings.

Reply
SwagatamAdmin
June 17, 2020 • 6 years ago #79570

Shankar, yes it work but the output AC waveform will proportionately uneven across the positive/negative half cycles.

Reply
shankar
June 22, 2020 • 6 years ago #79719

sir , how i can send you my circuits for conformation of working and errors.
this is a circuit from old dvd power supply https://drive.google.com/file/d/1-CJJvCDKoe8oHlkO9eRVo7vO_9ZPcRI0/view?usp=sharing
i want to make it 5v 2amp usb charger circuit from this ic.(switching buck regulator)
it uses la5752 ic and input 12v supply and output +12v ,-12v ,and 5v .

Reply
SwagatamAdmin
June 22, 2020 • 6 years ago #79725

Hi Shankar, please check the datasheet of the IC, you will find a suitable circuit diagram in it which you can probably use for constructing the 5 V charger

Reply
patson zulu
May 2, 2020 • 6 years ago #78376

I’m building an inverter using a 555 time ic but the problem is that when I try to step up the voltage I can’t get any voltage at the secondary coil…what could be wrong. .?

Reply
Travis
April 9, 2020 • 6 years ago #77782

What about running your home with two darling transistors at 600v 80amp near 12000kw to 17000kw at 120/240v with an input from some solar high voltage source 600v combined with a a few 9 amp solar cells.

Reply
B.K.Navinon
February 27, 2020 • 6 years ago #76928

Thanks very much
Fully informative
100% sharing with no gaps

Reply
Carrie
February 24, 2020 • 6 years ago #76878

Hello! I am trying to make my own 240v inverter to power solar panels for residential use. what size charge controller and inverter I do I need and I also need a wiring diagram to make the inverter itself. please if you could help. Thank you!!!

Reply
SwagatamAdmin
February 24, 2020 • 6 years ago #76885

Hi, You can get all the details in the following post

https://www.homemade-circuits.com/how-to-calculate-and-match-solar-panel/

Reply
Reza
January 14, 2020 • 7 years ago #74545

Hi , your program site is very useful and didactic.

Reply
SwagatamAdmin
January 14, 2020 • 7 years ago #74564

Thank you!

Reply
Saeed Abdullah
January 9, 2020 • 7 years ago #74234

Hi sir, please can you help me with post me your powerful inverter 2000w integrated battery charger circuit diagram. Thank you

Reply
SwagatamAdmin
January 9, 2020 • 7 years ago #74246

Hi Saeed, you can try applying the last concept in the above article….

Reply
shyamali gayen
November 1, 2019 • 7 years ago #71636

plz tell me the cost of project. if possible individual cost of the components also attach with the components name.

Reply
SwagatamAdmin
November 1, 2019 • 7 years ago #71644

Each of the projects will cost around 700/-INR to 800/-INR without cabinet and battery. The transformer is the costliest part and will cost around 500/-INR (9-0-9 / 5amp). The battery may also cost around 1000/- INR

Reply
Kaan kasım
September 29, 2019 • 7 years ago #70579

hi, would you do a 10 kw three phase full sinus inverter ? I’d appreciate it if you could share the circuit diagram.

Reply
mathieu
August 18, 2019 • 7 years ago #69423

Hello Swag,i would like tu use an external clock on the CD4060 to produce a 200KHZ output the only problem is that my 4060 is unstable with a quartz of 4mhz or 12 mhz (i have repected the pf capacitor value!
thank you

Reply
SwagatamAdmin
August 19, 2019 • 7 years ago #69433

Hello Mathieu, please refer to the last diagram from this article, and connect the crystal in the shown manner:

https://www.homemade-circuits.com/how-to-understand-ic-4060-pin-outs/

Reply
Engr Abdur-Razzaq Crown
August 5, 2019 • 7 years ago #69019

Hi sir swag,please i how can i recharge the battery used for the inverter without removing it?

Reply
SwagatamAdmin
August 6, 2019 • 7 years ago #69025

Hi Abdur, you can try the following concept:

https://www.homemade-circuits.com/single-transformer-inverterchargerchang/

Reply
Rikseng
July 30, 2019 • 7 years ago #68876

Sir, i have a 1080p mini wifi camera which operates on battery, can this wifi camera be operated on ac, if this is possible can you help me..

Reply
Rikseng
July 31, 2019 • 7 years ago #68892

Yes it has dc input socket and one usb cable is included with it.

Reply
SwagatamAdmin
July 31, 2019 • 7 years ago #68896

Then you can use apply 5V to the socked through a readymade mains AC to 5 DC adapter, and operate wi-fi with an AC input

Reply
SwagatamAdmin
July 31, 2019 • 7 years ago #68890

Hi Rikseng, does it have a DC input socket, for an USB port? Otherwise it can be a little complex to implement an AC based operation.

Reply
Deepu
July 21, 2019 • 7 years ago #68610

Sir can you provide a simple inverter circuit using hf transformer that can be found in mobile chargers…

Reply
SwagatamAdmin
July 21, 2019 • 7 years ago #68616

Deepu, it is difficult to make inverter from a mobile charger transformer, even we if succeed in making the output power will be very less.

Reply
Binus
March 4, 2019 • 7 years ago #65739

Hi sir, can you help.
(a) With the aid of diagram explain how a magnetic hysteresis loop can be developed.
(b) Draw the hysterisis loop and label on it.

(c) Explain on these terms.
(i) magnetic saturation or saturation flux density.
(ii) reminant flux density.
(iii) coercive force.

Reply
SwagatamAdmin
March 4, 2019 • 7 years ago #65741

Hi Binus, this explanation is already available online from other websites, with diagrams. You can easily check them out.

Reply
Apurva deepak
February 17, 2019 • 7 years ago #65518

Hello sir.. How are u.. Sir one question about your second cricuit diagram where cd4047 ic used.. Problem coming from my cricuit is that when i connect the 7-0-7 5amp transformer to the two terminal of cricuit then my mosfet (irfz44n) is heated and i connect load to like 100w bulb then the mosfet will excess heat and bulb is not glow… What behind reason for this i cant understand.. So please help me sir..

Reply
SwagatamAdmin
February 17, 2019 • 7 years ago #65521

Apurva, if your mosfet is heating up without load then either your IC is faulty or mosfets are faulty, or there could be some other connection fault.

first make sure the mosfets do not heat up without load. And If on load it is heating up then you must attach a heatsiink with the mosfets

Reply
Apurva deepak
February 17, 2019 • 7 years ago #65522

Hello sir one problem is also occur. the ic will be damaged now when we give the load on transformer then mosfet will heat after that the ic will be damaged.. I check it now.. I purchased new ic it is also damaged… All connection will be correct i used 104 16v ceramic capictor, 100ohm 1/2watt resistance. All components connected properly sir..why it occurred i cant understand..

Reply
SwagatamAdmin
February 17, 2019 • 7 years ago #65524

Did you connect D1, D2 across the mosfets?

Reply
Apurva deepak
February 17, 2019 • 7 years ago #65525

Yes sir i used in4007diode on both side mosfet..

Reply
Apurva deepak
February 18, 2019 • 7 years ago #65530

Sir i made this transformer by own hand i used 18swg wire in secondary side means (7-0-7) side and 25 swg in primary side.. Can i used correct wire gauge for this transformer winding..??

Reply
SwagatamAdmin
February 18, 2019 • 7 years ago #65531

Sorry, in that case I can’t help. Please buy a good quality readymade transformer for getting the expected results!

Reply
Apurva deepak
February 17, 2019 • 7 years ago #65527

Yes Sir…. But when i connect 100w bulb then the sound will be stop and mosfet will now heating start..

Reply
SwagatamAdmin
February 17, 2019 • 7 years ago #65528

solder the transformer wire directly to the bulb ends. Do this first then touch the battery positive with the inverter positive and see what happens.

You can also do this with a 40 watt bulb first and check the results

Reply
SwagatamAdmin
February 17, 2019 • 7 years ago #65526

Then there could be some other fault in your circuit, or may be the mosfets are itself faulty. Is your transformer making slow buzzing sound when switched ON?

Reply
amor
February 16, 2019 • 7 years ago #65509

my load was just a 2w LED bulb

Reply
SwagatamAdmin
February 16, 2019 • 7 years ago #65510

then I think your circuit has some problems, cut the base of 2N3055 and check if it still gets hot or not?

Reply
amor
February 16, 2019 • 7 years ago #65511

Sir, after disconnecting both base of two 2n3055 then both remain cool nothing happen, battery stays at 13v
do you thinks there is a wrong connection or grounded even i made to lit a bulb?

Reply
SwagatamAdmin
February 16, 2019 • 7 years ago #65512

Hi Amor, I think there could be problem with your transformer. Check the current by keeping ammeter in series with the battery positive, with load and without load.

Reply
amor
February 26, 2019 • 7 years ago #65643

Thank you Sir, i just thought step up and step down trafo is somehow different in windings of primary and secondary coil. anyways Sir what i’m building is your last circuit above using 2n3055 and TIP127 not the one using IC and mosfet Thanks.

Reply
SwagatamAdmin
February 26, 2019 • 7 years ago #65646

Thanks Amor, in that case disconnect the base of the 2N3055 and connect them to ground for the mentioned verification

Reply
amor
February 26, 2019 • 7 years ago #65639

Hi Sir Swag, do you think my trafo is causing why its consuming too much current even without load? because i’m using a step-down trafo instead of a step-up? i already replace the entire circuit and the result is the same. should i use a step-up trafo?

Reply
SwagatamAdmin
February 26, 2019 • 7 years ago #65642

Hi amor, step up, and step down transformers are one and the same. When you use it with a AC mains it becomes step down and when you use it with an inverter the same trafo becomes step up.

you can perform one more check. Remove the mosfet gate connections from the IC, and connect them to the ground line. Now check the current consumption, If it’s zero then the culprit is the transformer, not the mosfets.

In that case you may have to replace the transformer with a new one.

Reply
amor
February 17, 2019 • 7 years ago #65517

Hi Sir Swag, the current in series with battery positive is 2.57amp stable without load and 2.33amp with a 1.5w led bulb and its dropping every minute. my trafo is a 9-0-9/0-210-220 6amp.

Reply
SwagatamAdmin
February 17, 2019 • 7 years ago #65523

Hi Amor, that looks too high. It means even without a load your inverter is wasting 2 x 12 = 24 watts? There’s certainly something wrong. Make sure your IC is generating the required frequency and the mosfets are actually good.

Reply
amor
February 16, 2019 • 7 years ago #65507

Hi Sir Swag, i’ve built the last circuit above successfully but in less down an hour my new fully charged 12v 7Ah battery drops to 10v so fast and the 2n3055 getting too hot to touch, my heatsink is 4inch L and 1.5inch W is this too small?

Reply
SwagatamAdmin
February 16, 2019 • 7 years ago #65508

Hi Amor, what is the load that your using, how much is its rating in watts?

Reply
amor
February 2, 2019 • 7 years ago #65303

Hi Sir Swag, can i use a rechargeable 12v9ah silicon gel type battery on the above last circuit, my load is a 20w LED bulb and/or a small fan (during power outage in my place)?

Reply
SwagatamAdmin
February 2, 2019 • 7 years ago #65304

Hi Amor, yes no problem, you can use it.

Reply
Snote
February 1, 2019 • 7 years ago #65288

Can I use a 12v 30A car fuse for my solar panels?
I have 8 panels a 250W with 34V each.
I would connect 2 strings of 4 panels in series.
So I got 136V and 2000W = 14A.
Is this right?

Reply
SwagatamAdmin
February 1, 2019 • 7 years ago #65290

When you connect the panels in series the watt will remain the same as for a single panel. So the total current will be 7 amp (@136V). The fuse should be also rated at this same value

Reply
Snote
January 30, 2019 • 7 years ago #65246

Thanks for your reply. Apprechiate a lot.
But this looks like too much for me. I will stay with the
SMPS and the phone and computer. For the fridge I have to search for another solution…
Snote

Reply
SwagatamAdmin
January 30, 2019 • 7 years ago #65248

Sure, no problems!

Reply
Snote
January 29, 2019 • 7 years ago #65235

Is it somehow possible to achieve with easy means, to get out of my 4 solar panels (4×34=136VDC)
the same Voltage but AC, to power my fridge (100W)?
I only find circuits with transformation from lower Voltage.
Snote

Reply
SwagatamAdmin
January 30, 2019 • 7 years ago #65238

You will need an inverter circuit for this, probably a sinewave inverter since a refrigerator is involved. You may need one of these:

https://www.homemade-circuits.com/2017/10/5kva-transformerless-inverter-circuit.html

I am sorry there’s no easy way of implementing it.

Reply
Binus
January 23, 2019 • 7 years ago #65128

Thanks sir I understand now

Reply
Binus
January 22, 2019 • 7 years ago #65126

Helo sir, help me on how a capacitor is said to be a dc blocker and ac bypass whilst it is found in some dc powered circuits

Reply
SwagatamAdmin
January 23, 2019 • 7 years ago #65127

Binus, all capacitors have this property. They block DC because DC forces a capacitor to charge in one direction only, and with no return path to discharge the capacitor blocks any further entry of the DC. Whereas an AC being alternating current provides the capacitor a discharge path on each cycle or pulse, thus enabling its continued passage for the subsequent cycles.

Reply
Binus
January 22, 2019 • 7 years ago #65101

Hie sir I’m new in electronics . Can you help me on the difference between square wave and sine wave

Reply
SwagatamAdmin
January 22, 2019 • 7 years ago #65114

Hi Binus, if you switch ON and OFF a 12V supply the output will be in the form of a square wave because the output suddenly rises to 12V and then suddenly drops 0V, but if you do the same in such a way that the output slowly rises from 0V to 12V and then slowly drops from 12V to 0V then it will be in the form of a sine wave.

Reply
Akinbi Oluwadamilare
August 28, 2018 • 8 years ago #62718

Helo sir, pls I need more light on inverter transformer winding…
Am just confused…
I want to know how to wind inverters transformer of different capacities.
But my concern now is how to choose or know the :
=> swg for any inverter transformer capacity.
=>size of lamination core ,
=>related calculation for each capacity before winding…
=> how to know or determine the required voltage at the primary like 230,220 volt etc
I want to do inverter of different capacities and I don’t want to make mistakes with the transformer winding…

Reply
SwagatamAdmin
August 29, 2018 • 8 years ago #62724

Hello Akinbi,

you can refer to the following article:

https://www.homemade-circuits.com/how-to-design-your-own-inverter/

although the max capacity will be 10 amps only.

Reply
Jindro
August 7, 2018 • 8 years ago #62193

Sir good morning!! can i use 1 amp trafo and smaller transistor like tip 31? ill use it with 3 to 7 watt bulb.

Reply
SwagatamAdmin
August 7, 2018 • 8 years ago #62204

Hi Jindro, yes you can do that…

Reply
Paaker
August 6, 2018 • 8 years ago #62179

Hi Swag,

aim looking for a 12v to 19.5 3.5A DC Dc inverter. do you have it any such in inverter circuit?

Regards.

Reply
SwagatamAdmin
August 7, 2018 • 8 years ago #62218

Hi Paaker, you can try the following concept

https://www.homemade-circuits.com/12v-car-laptop-charger-circuit-using/

Reply
Paaker
August 7, 2018 • 8 years ago #62219

Thanks Swag. this is what aim looking for.
by the way this circuit aim going to power up a LCD TV not for charger. it can be use as power supply TV right?

Regards.

Reply
SwagatamAdmin
August 7, 2018 • 8 years ago #62241

Hi Paker, yes it can be used for the said purpose, but the coil and the switching frequency will need to optimized correctly for getting the intended results.

The coil wire dimensions could be modified for achieving higher current outputs.

Reply
Mark
August 6, 2018 • 8 years ago #62163

Mr swagatam. Good day.. let me ask you again. I have inverter refrigerator but the board is dead. Can I direct it by using a simple circuit design? The main supply is 230 single phase AC mains and the output is 330 dc 3 phase. Thanks mr Swagatam.

Reply
SwagatamAdmin
August 6, 2018 • 8 years ago #62169

Hello mark, do you want to discard the existing board and replace it with a new circuit? In that case you can specify the remaining things from the inverter which you want to include in the system, and specify their specifications, I may try to help!

Reply
Nkwenti
July 29, 2018 • 8 years ago #62007

Sir can i replace the 2n3055 with TIP142?

Reply
SwagatamAdmin
July 30, 2018 • 8 years ago #62020

TIP142 is a Darlington transistor so I am not sure how it might react, but there’s no harm in trying. I would recommend TIP35 instead

Reply
nkwenti
July 30, 2018 • 8 years ago #62041

ok sir… i will try TIP35 and also the darlington and give you my feedback… thanks for your help and guide… youre truly a teacher.

Reply
SwagatamAdmin
July 31, 2018 • 8 years ago #62049

you are welcome nkwenti!

Reply
Nkwenti
July 31, 2018 • 8 years ago #62076

you also sir…. well the reason why i ask if i can use TIP35 was because i came accros this circuit from a website which had your labels so is this a good working circuit? then i was wondering why 3kva will run only with 12vdc instead of at least 24vdc.
here is the link.

2.bp.blogspot.com/-OV6ZWLz_JW0/UmjW3hdGB6I/AAAAAAAAFjk/AQTrzhS3gGE/s1600/3kva+inverter+circuit.png

Reply
SwagatamAdmin
August 1, 2018 • 8 years ago #62081

This circuit was copied by many other websites. You can find this circuit and even better ones under this category:

https://www.homemade-circuits.com/category/dc-to-ac-power-converters/

it is a good circuit but won’t produce perfect sine wave, to get perfect sinewave you will SPWM instead of normal PWM.

output wattage depends on the battery specs, transformer specs and mosfet specs…..which can be easily modified and upgraded as per user preference.

Reply
Nkwenti
July 23, 2018 • 8 years ago #61864

Sir.
Those are good and interesting projects and i must say that i appreciate it and all of your circuits have been working well with me and also improving on my studies…
but i must say i am sorry for asking this favor here….
Sir do you have any project for car theft?? i dont mean car alarm, if i set the gadget on, the car works on a timer, if someone takes off with the car, at certain distance the car automatically stop moving such like engine gets stoped or battery cutts off, if also a schematic that can work like GSM will also be appreciated…
thanks for understanding and i will be looking forward to be reading from you again.
Nkwenti.

Reply
SwagatamAdmin
July 24, 2018 • 8 years ago #61876

Hi Nkwenti, GSM may not be required for this simple application, it can be done with a small timer circuit integrated with the ignition system. However how do you expect the theft to happen, is it by manipulating the ignition wires or by stealing the ignition keys or through duplicating the keys..because the circuit design will depend on how it is triggered.

Reply
nkwenti
July 30, 2018 • 8 years ago #62040

Sir all i wanted was a simple schematic that can be adjusted to indicate car speed step by step and then from that step by step i can do additions to it to stop or quench the car engine… where i am i do not fine audinor’s so a schematic that is not that complicated is what i am seeking for.
thanks for your reply sir.

Reply
SwagatamAdmin
July 31, 2018 • 8 years ago #62050

nkwenti, please type tachometer in the search box on top right you will be able to find the required design.

Reply
Carlos
July 11, 2018 • 8 years ago #61613

Thank you very much for your quick reply. That’s what I wanted to know. Thank you very much, you are a genius. Greetings from Buenos Aires, Argentina

Reply
SwagatamAdmin
July 11, 2018 • 8 years ago #61615

You are most welcome Carlos!

Reply
Carlos
July 10, 2018 • 8 years ago #61609

Thank you very much for your quick reply. My question is for the type of wave … I just wanted to know if they are safe for last generation devices … Thank you very much from Buenos Aires Argentina.

Reply
SwagatamAdmin
July 11, 2018 • 8 years ago #61611

Any sinewave or modified sinewave inverter will be be good. But any 250V square wave inverter will also work because all the mentioned appliances are SMPS based and therefore will ultimately convert the AC into DC regardless of the waveform.

Reply
Carlos
July 10, 2018 • 8 years ago #61607

Hello, sir, thanks for the reply, but which one of all …

Reply
SwagatamAdmin
July 10, 2018 • 8 years ago #61608

All of them can be used.

Reply
Carlos
July 10, 2018 • 8 years ago #61578

Hello I want to know which of all the inverters published on this site is better for devices such as smart tv, led tv, pc, and notebook .. Thank you very much. From Buenos Aires Argentina.

Reply
SwagatamAdmin
July 10, 2018 • 8 years ago #61587

yes it can be used for all SMPS based appliances.

Reply
olupot
July 8, 2018 • 8 years ago #61539

hello sir how can I intergrate Ics sg3524 and using ir2110 as a MOSFET driver thanks

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SwagatamAdmin
July 8, 2018 • 8 years ago #61546

yes that’s possible

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olupot
July 9, 2018 • 8 years ago #61564

please help me with its circuit I want to setup one thanks

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Isa Ahmad Zubair
February 22, 2022 • 4 years ago #113732

I am just too interested in inverter making but I don’t have any knowledge in electronics or electricals. Please how can you help me.

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