Introduction: How to Make an Inverter at Home With MOSFET
Hi, there friends today we will make an inverter at home with Mosfet transistor and a special oscillator board.
A power inverter, or inverter, is an electronic device or circuitry that changes direct current (DC) to alternating current (AC).
Step 1: 12v to 220v Inverter
A typical power inverter device or circuit requires a relatively stable DC power source
capable of supplying enough current for the intended power demands of the system. The input voltage depends on the design and purpose of the inverter. Examples include:
12 V DC, for smaller consumer and commercial inverters that typically run from a rechargeable 12 V lead acid battery or automotive electrical outlet.24, 36 and 48 V DC, which are common standards for home energy systems.200 to 400 V DC, when power is from photovoltaic solar panels.300 to 450 V DC, when power is from electric vehicle battery packs in vehicle-to-grid systems.Hundreds of thousands of volts, where the inverter is part of a high-voltage direct current power transmission system.
Step 2: Homemade Inverter With Mosfet
The main advantage of a MOSFET is that it requires almost no input
current to control the load current, when compared with bipolar transistors. In an "enhancement mode" MOSFET, voltage applied to the gate terminal increases the conductivity of the device. In "depletion mode" transistors, voltage applied at the gate reduces the conductivity.
Step 3: Inverter Oscillator
An electronic oscillator is an electronic circuit that produces a periodic, oscillating electronic signal, often a sine wave or a square wave. Oscillators convert direct current (DC) from a power supply to an alternating current (AC) signal. They are widely used in many electronic devices.
With that being said let's proceed to assemble the homemade inverter.
Step 4: Make an Inverter Parts Required
In order to make this homemade inverter 12v to 220v we will need the following parts:
The oscillator board
The mosfet transistor: IRFZ44N
An electrical transformer no center tap(from old radio, car charger)
And a dc power supply(battery,battery pack from 18650,car auto battery)
Step 5: More About This Board
This is the most important part of the inverter,in a proper inverter, this is replaced with an syn wave oscillator.
This board it has 3 pins: VCC.GND.Out As you see in the picture above we have to supply power separately to this board,and i just need 4v to make it run.So the + terminal from the battery goes to vccand the - terminal to GND,and out output will be the + and a common ground(-) .Now the out(+) terminal we will connect to the G terminal of the mosfet(the one on the left side) and GND to the right terminal of mosfet(S).
Step 6: The Transformer
A transformer is an electrical device that transfers electrical energy between two or more circuits through electromagnetic induction. A varying current in one coil of the transformer produces a varying magnetic field, which in turn induces a voltage
in a second coil. Power can be transferred between the two coils through the magnetic field, without a metallic connection between the two circuits. Faraday's law of induction discovered in 1831 described this effect.
In our case, we will use the transformer in reverse,meaning we will supply power to its normal output and we will gain voltage 220v(or close) to its normal input terminals,just look for thick wires that will be the normal output(in this case our input).We will connect the input terminals between the + of the power supply and the D (middle pin of mosfet)
Step 7: We Have Light From Batteries
Now if all the connection are made and exactly to the description we should hear a humming noise and that's the
a sign that our mosfet is working beeing switch by the oscillator board and is stepping up the voltage from 12v to 220v with the help of transformer.
If you want to see the video representation of this project Click here
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10 Comments
3 years ago
Can the inverter work without the oscillator?
Reply 3 years ago
No. Transformers only work this way with AC power. The oscillator is the wave form source for the transistor.
It looks like this is only providing half of the normal AC wave. Just the top half. It won't work for most things. If you were to look at the output on an oscilloscope, it would look something like the attached image.
He does say it at 9:40 in the video. Screen shot of the CC below. I hadn't listened to his whole video until I started writing this comment. :)
Light bulbs are not a good test for these things. It most likely has a rectifier and capacitor inside, which is letting the light look normal. An incandescent bulb would just be half the normal brightness. They can tolerate all kinds of wrong power conditions. That way, they work regardless what market they're sold in.
Testing with something more complex would probably damage the device.
3 years ago on Step 7
No circuit diagram include?
Question 4 years ago on Introduction
how to make two mosfet ctc 1351 heavy inverter with four pest left side and two pest righ side
5 years ago
How to make an inverter at home
Reply 5 years ago
Does this output square wave or sine wave ac?
Reply 5 years ago
It seems to be based on a 555 timer chip, and only outputs a square wave. The pots are for adjusting the frequency and duty cycle. Google YL-107, and you will get a little more info on the board itself.
Reply 5 years ago
square wave but i don't have an oscilloscope the board is got 2 pots and 2 settings so it might output sin wave as well
5 years ago
MOSFETs are always the better choice when designing such switching inverters. They have such a very low on resistance that they don't soak up the current from the circuit . And they run cooler as well. Did you measure the frequency of the circuit?
Reply 5 years ago
The circuit is very permissive got some setting and it might output sine wave as well.My previous project was based on the old and trusted 2n3055 power transistor,but the mosfet is something else.All the best