In this post I have investigated 4 simple 220V Mains Uninterruptible power supply (UPS) designs using 12V battery, which can be understood and constructed by any new enthusiast. These circuits can be used for operating an appropriately selected appliance or load, let's explore the circuits.
Design#1: Simple UPS using a Single IC
A simple idea presented here can be built at home using most ordinary components to produce reasonable outputs. It may be used to power not only the usual electrical appliances but also sophisticated gadgets like computers. Its inverter circuit utilizes a modified sine wave design.
An uninterruptible power supply with elaborate features may not be critically required for the operation of even the sophisticated gadgets. A compromised design of an UPS system presented here may well suffice the needs. It also includes a built-in universal smart battery charger.
Difference Between UPS and an Inverter
What’s the difference between an uninterruptible power supply (UPS) and an inverter? Well, broadly speaking both are intended to perform the fundamental function of converting battery voltage to AC which may be used to operate the various electrical gadgets in the absence of our domestic AC power.
However, in most cases an inverter may not be equipped with many automatic changeover functions and safety measures normally associated with an UPS.
Moreover, inverters mostly don’t carry a built in battery charger whereas all UPSs have a built in automatic battery charger with them to facilitate instant charging of the concerned battery when mains AC is present and revert the battery power in inverter mode the moment input power fails.
Also UPSs are all designed to produce an AC having a sine waveform or at least a modified square wave resembling quite like its sine wave counterpart. This perhaps becomes the most important feature with UPSs.
With so many features in hand, there’s no doubt these amazing devices ought to become expensive and therefore many of us in the middle class category are unable to lay their hands on them.
I have tried to make a UPS design though not comparable with the professional ones but once built, definitely will be able to replace mains failures quite reliably and also since the output is a modified square wave, is suitable for operating all sophisticated electronic gadgets, even computers.
All the designs here are offline type, you may also want to try this simple online UPS circuit
Understanding the circuit Design
The figure alongside shows a simple modified square inverter design, which is easily understandable, yet incorporates crucial features.
The IC SN74LVC1G132 has a single NAND gate (Schmitt Trigger) encapsulated in a small package. It basically forms the heart of the oscillator stage and requires just a single capacitor and a resistor for the required oscillations. The value of these two passive components determines the frequency of the oscillator. Here it’s dimensioned to around 250 Hz.
The above frequency is applied to the next stage consisting of a single Johnson’s decade counter/divider IC 4017. The IC is configured so that its outputs produce and repeat a set of five sequential logic high outputs. Since the input Is a square wave the outputs are also generated as square waves.
Parts list for the UPS Inverter
R1=20K
R2,R3=1K
R4,R5 = 220 Ohms
C1=0.095Uf
C2,C3,C4=10UF/25V
T0 = BC557B
T1,T2=8050
T3,T4=BDY29
IC1= SN74LVC1G132 or a single gate from IC4093
IC2=4017
IC3=7805
TRANSFORMER=12-0-12V/10AMP/230V
Battery Charger Section
The base leads of two sets of Darlington paired high gain, hi-power transistors are configured to the IC such that it receives and conducts to the alternate outputs.
The transistors conduct (in tandem) in response to these switching and a corresponding high current alternating potential is pulled through the two halves of the connected transformer windings.
Since the base voltages to the transistors from the IC are skipped alternately, the resultant square impulse from the transformer carries only half the average value compared to the other ordinary inverters. This dimensioned RMS average value of the generated square waves very much resembles the average value of the mains AC that is normally available at our home power sockets and thus becomes suitable and favorable to most sophisticated electronic gadgets.
The present uninterruptible power supply design is fully automatic and will revert to the inverter mode the moment input power fails. This is done through a couple of relays RL1 and RL2; RL2 has a dual set of contacts for reversing both the output lines.
As explained above an UPS should also incorporate a built-in universal smart battery charger which also should be voltage and current controlled.
The next figure which is an integral part of the system shows a smart little automatic battery charger circuit. The circuit is not only voltage controlled but is also includes an over current protection configuration.
Transistor T1 and T2 basically form an accurate voltage sensor and never allows the charging voltage upper limit to exceed the set limit. This limit is fixed by setting the preset P1 appropriately.
Transistor T3 and T4 together keep an “eye” over the rising current intake by the battery and never allows it to reach levels which may be considered dangerous to battery life. In case the current starts drifting beyond the set level, the voltage across R6 crosses over – 0.6 volts, enough to trigger T3, which in turn chokes the base voltage of T4, thus restricting any further rise in the drawn current. The value of R6 may be found using the formula:
R = 0.6 / I, where I is the charging current rate.
Transistor T5 performs the function of a voltage monitor and switches (deactivates) the relays into action, the moment mains AC fails.
Parts list for the Charger
R1,R2,R3,R4,R7=1K
P1=4K7 PRESET, LINEAR
R6=SEE TEXT
T1,T2,=BC547
T3=8550
T4=TIP32C
T5=8050
RL1=12V/400 OHM, SPDT
RL2=12V/400 OHM, SPDT, D1—D4=1N5408
D5,D6=1N4007
TR1=0-12V, CURRENT 1/10 OF THE BATTERY AH
C1=2200UF/25V
C2 = 1uF/25V
Design#2: Single Transformer UPS for Inverter and Battery Charging
The next article details a simple transistor based UPS circuit with a built-in battery charger circuit, which can be used for getting an uninterruptible mains power output cheaply, in your homes and office, shops etc. The circuit can be upgraded to any desired higher wattage level. The idea was developed by Mr. Syed Xaidi.
The main advantage of this circuit is that it uses a single transformer for charging the battery as well as for operating the inverter. Meaning you don't have to incorporate a separate transformer for charging the battery in this circuit
The following data was provided by Mr. Syed through email:
I saw that people are getting educated by your post. So, i think you should explain people about this schematic.
This circuit has astable mutivibrator based on transistors as you did. The capacitors c1 and c2 are the 0.47 for getting output frequency about 51.xx Hz as i measured but it is not constant in all cases.
The MOSFET has reverse high power diode that is used to charge the battery there is no need to add a special diode to the circuit. I've shown the switching principle with relays in the schematic. RL3 must be used with a cutt off circuit.
This circuit is very simple and i've tested it already. I am going to test another design of mine will share with you as soon as test is done. It controls output voltage and stabilize that using PWM. Also in that design i am using transformer 140v winding for charging and BTA16 for controlling the charging amperes. Lets hope for the Good.
You're doing best. Never Quit, Have a wonderful day.
Design#3: IC 555 Based UPS Circuit
The 3rd design I have explained below is simple UPS circuit using PWM, and therfeore becomes perfectly safe for operating sophisticated electronic equipment like computers, music system etc.
The entire unit will cost you around $3. A built in charger is also included in the design for keeping the battery always in a topped up condition and in a stand by mode. Let’s study the whole concept and the circuit.
The circuit concept is quite basic, it’s all about making the output devices switch according to the applied well optimized PWM pulses, which in turn switches the transformer to generate an equivalent induced AC mains voltage having identical parameters to a standard AC Sine wave-form.
Circuit Operation:
The circuit diagram can be understood with the help of the following points:
The PWM circuit utilizes the very popular IC 555 for the required generation of the PWM pulses.
The presets P1 and P2 can be set precisely as required for feeding the output devices.
The output devices will respond exactly to the applied PWM pulses from the 555 circuit, therefore a carefull optimization of the presets should result in almost an ideal PWM ratio that can be considered quite equivalent to a standard AC waveform.
However since the above discussed pWM pulses are applied to the bases of the both the transistors positioned for switching two separate chennels would mean a total mess, as we will never want to switch both the windings of the transformer together.
Using NOT gates for Inducing the 50Hz Switching
Therefore another stage consisting a few NOT gates from the IC 4049 has been introduced, which ensures that the devices conduct or switch alternately and never all at a time.
The oscillator made from N1 and N2; execute perfect square wave pulses, which are further buffered by N3---N6. The diodes D3 and D4 also plays an important role by making the devices respond only to the negative pulses from the NOT gates.
These pulses switch OFF the devices alternately, allowing only one channel to conduct at any particular instant.
The preset associated with N1 and N2 is used to set the output AC frequency of the UPS. For 220 volts, it must be set at 50 Hz and for 120 volts, it must be set at 60 Hz.
Parts List for the UPS
R1, R2, R3 R4, R5 = 1K,
P1, P2 = as per formula,
P3 = 100K preset
D1, D2 = 1N4148,
D3, D4 = 1N4007,
D5, D6 = 1N5402,
D7, D8 = 3v zener diode
C1 = 1uF/ 25V
C2 = 10n,
C3 = 2200uF/25V
T1, T2 = TIP31C,
T3, T4 = BDY29
IC1 = 555,
N1…N6 = IC 4049, please consult the datasheet for the pin out numbers.
Transformer = 12-0-12V, 15 Amps
The Battery charger circuit:
If it’s an UPS, the inclusion of a battery charger circuit becomes imperative.
Keeping the low cost and simplicity of the design in mind, a very simple yet reasonably accurate battery charger design has been incorporated in this uninterruptible power supply circuit.
Looking at the figure we can simple witness how easy the configuration is.
You can get the entire explanation in this battery charger circuit article The two relays RL1 and RL2 are positioned to make the circuit completely automatic.When mains power is available, the relays energize and switch the AC mains directly to the load via there N/O contacts. In the meantime, the battery also gets charged through the charger circuit.The moment AC power fails, the relays revert and disconnect the mains line and replaces it with the inverter transformer so that now the inverter takes charge of supplying the mains voltage to the load, within milliseconds.
Another relay RL4 is introduced to flip its contacts during power failure, so that the battery which was kept in the charging mode is shifted to the inverter mode for the required generation of the back up AC power.
Parts List for the Charger
R1 = 1K,
P1 = 10K
T1 = BC547B,
C1 = 100uF/25V
D1---D4 = 1N5402
D5, 6, 7 = 1N4007,
All relays = 12 volt, 400 Ohm, SPDT
Transformer = 0-12V, 3 Amps
Design#4: 1kva UPS Design
The last design but by far the most powerful discusses a 1000 watt UPS circuit powered with a +/- 220V input, using 40 nos of 12V/4 AH batteries in series. The high voltage operation renders the system relatively less complex and transformerless. The idea was requested by Aquarius.
Technical Specifications
I am your fan & have built many projects for my personal use with success & had a lot of pleasure. God bless you. Now I intend to build a 1000 watt UPS with a different concept (inverter with high voltage input dc).
I will use a battery bank of 18 to 20 sealed batteries in series each 12 volts/ 7 Ah to give a 220+ volts storage as input to a transformerless inverter.
Can you suggest a simplest possible circuit for this concept which should include a battery charger + protection and auto switching by mains failure. Later I will include a solar power input too.
The Design
The proposed 1000 watt UPS circuit can be built by using the following two circuits where the first one is the inverter section with the required automatic changeover relays. The second design provides the automatic battery charger stage.
The first circuit which depicts the 1000 watt inverter consists of three basic stages.
T1, T2 along with the associated components form the input differential amplifier stage which amplifies the input PWM signals from a PWM generator which could be a sine generator.
R5 becomes the current source for providing optimal current to the differential stage and to the subsequent driver stage.
The section after the differential stage is the driver stage which effectively raises the amplified PWM from the differential stage to sufficient levels for triggering the subsequent power mosfet stage.
The mosfets are aligned in a push pull manner across the two 220V battery banks and therefore switch the voltages across their drain/source terminals to produce the required AC 220V output without incorporating a transformer.
The above output is terminated to the load via a relay changeover stage consisting of a 12V 10amp DPDT relay whose triggering input is derived from the utility mains via a 12V ac/DC adapter. This triggering voltage is applied to the coils of all the 12V relays that's used in the circuit for the intended mains to inverter changeover actions.
Parts List for the above 1000 watt UPS circuit
All resistor CFR 2 watt rated unless stated.
R1, R3,R10,R11,R8 = 4k7
R2,R4, R5= 68k
R6, R7 = 4k7
R9 = 10k
R13, R14 = 0.22 ohms 2 watt
R12,R15 = 1K, 5 watt
C1 = 470pF
C2 = 47uF/100V
C3 = 0.1uF/100V
C4, C5 = 100pF
D1, D2 = 1N4148
T1, T2 = BC556
T5, T6 = MJE350
T3, T4 = MJE340
Q1 = IRF840
Q2 = FQP3P50
relay = DPDT, 12V/10amp contacts, 400 ohm coil
Battery charger circuit for charging the 220V DC battery banks.
Although ideally the involved 12V batteries should be charged individually via a 14V supply, keeping simplicity into account a universal single 220V charger was finally found to be more desirable and easy to build.
As shown in the diagram below, since the required charging voltage is within the vicinity of 260V, the mains 220V output could be seen directly used for the purpose.
However applying the mains directly could be dangerous for the batteries due to the massive amount of current it involves, a simple solution using a 200 watt series bulb is included in the design.
The mains input is applied via a single 1N4007 diode and through a 200 watt incandescent bulb which passes through a switching relay contacts.
Initially the half wave rectified voltage is unable to reach the batteries due to the relay being in the switched OFF mode.
On pressing the PB1, the supply is momentarily allowed to reach the batteries.
This prompts a corresponding level of voltage to be generated across the 200 watt bulb and is sensed by the opto LED.
The opto instantly responds and triggers the accompanied relay which instantly activates and latches ON and sustains it even after PB1 is released.
The 200 watt bulb could be seen glowing slightly whose intensity would depend on the charged condition of the battery bank.
As the batteries begin charging, the voltage across the 200 watt bulb begins dropping until the relay is switched OFF as soon as the battery full charge level is reached. This could be adjusted by setting up the 4k7 preset.
WARNING: The above circuit is not isolated from mains AC and therefore is extremely dangerous to touch in uncovered and switched ON condition. Extreme caution is advised while testing this circuit.
The output from the above charger is fed to the battery bank through a couple of SPDT relays as shown in the following diagram.
The relays make sure that the batteries are put into the charging mode as long as the mains input is available and is reverted to inverter mode when mains input fails.
With over 50,000 comments answered so far, this is the only electronics website dedicated to solving all your circuit-related problems. If you’re stuck on a circuit, please leave your question in the comment box, and I will try to solve it ASAP!
First time I see your Designs. I will try to repair the broken Inverter. Thank you creator. Thank you.
You are welcome Le…
Dear Colleague,
In design 2 (circuit diagram), transistors Q3 and Q4 must have gate-to-source resistors of at least 10 Kohm or the static loading of the gates will cause a steering error and damage them. Greeting.
Radosh
Thanks Radosh,
You are absolutely correct, the circuit was actually contributed by an external author.
Sir, I have this V guard VG 50 model stabilizer using for 3 years and recently repaired with relay fault. found Input volt 227V AC output voltage 247V AC.
how to fix this. Thanks
Hello MK, It is difficult to trace the fault without seeing the circuit diagram of the unit.
hello,
I am a beginner in electronics and looking to fix this online ups mains 220VAC high cut – low cut PCB, from below uploaded picture. Please guide on this.
Thank
Hello,
Without a schematic diagram it can impossible to fix the fault that you are facing in this UPS board. If possible please provide the schematic diagram.
Thanks for reply, I will try search for schematics. Cheers!
Sir, how to find schematics of a specific PCB ?
Sorry MK, I have no idea from where the schematic of your UPS board can be obtained. You can perhaps try inquiring with your shop dealer from whom you purchased the unit.
Thanks for your reply.
Hi Swagatam, very interesting designs above. However, I’m trying to find a reliable external battery to internal battery UPS & charge controller. I can’t seem to find anything worthwhile already commercially available
Thank you Jose,
It seems you are looking for a DC to DC UPS circuit, right?
Can you provide the battery specifications (internal/external), I will try to help!
Yes, thank you! The batteries output about 14.8V … 14A. The end goal is (obviously ?) to seamlessly swap between either Int. or Ext. without power loss
OK, thanks, got it, but from where will the batteries get the charging input, is it from an 220V AC outlet through a charger controller?
So while one battery is charging the other one is powering the load and vice versa??
The input voltage for both Int. & Ext. batteries is 14.8V as the existing charge controller’s output is 14.8V. This circuit is meant for a mobile application where the internal battery only sees a load (and maintains un-interrupted output) while I swap the exhausted external battery for a fresh one & then the internal battery gets replenished by the new external battery. Thank you!
From your explanation the application resembles a power bank application.
The battery swapping is done manually. And the charging for the external battery is done at home by a 220v to 14v battery charger.
However a 14v battery cannot be used to charge another 14v battery.
Can you please specify what circuit are you looking for and what should be its role in this application?
sir , i have my 10 KVA 3/1 online UPS with ISOLATION Transformer in output. now was facing issue in heating up choke inside the UPS. please suggest the route cost for this issue.
Hello Ramesh, Without knowing the exact location of the choke in the circuit it can be difficult for me to understand the fault.
hi sir, it was connected in UPS output for current limiting of load. i have 36A max load of single phase connected on that choke transformer.
Hi Ramesh, you will have to make sure the choke transformer is able to handle and control 36 amps by using very thick wires, otherwise it will heat up.
Hi Swagatam
I am in South Africa and would like to introduce this innovation and it can be a great business for you and relief for a lot of south africans who cannot afford invertor tech.
My enquiry is to find out if you have developed these UPS’s and manufactured and ready to export?
Thank you Nkcubeko,
I appreciate your kind proposal, however currently it may not be possible for me to manufactures these units. Nevertheless if you wish to manufacture them you can definitely try it, I will be most happy to help you with the the step by step construction.
Long back I had made a prototype of this circuit and tested it, it worked fine.
Thank wonderful love your innovations very simple to follow.
Thanks alot
Plz sir, i hav 2 questions: (1)how do i set up the p1 and p2 in the inverter ckt and the p1 in the battery Charger ckt ;(2) After modifying it to a 500w inverter using irf3205 mosfets do i still need T1 and T2 stage in the inverter ckt again ? ALL THESE QUESTIONS ARE FOR THE THIRD DESIGN
Nimel, You can set P1 P2 by checking the output AC voltage and by adjusting the presets until you get the correct level of output RMS voltage.
The mosfets can be connected directly with the R4, R4 resistors, but make sure these resistor are at least 100 ohms and not more than 220 ohms.
Thanks alot i really appriciate
specifically 500w @ 12v input battery
for 500 watt you can replace the power transistors with IRf3205 mosfets, and upgrade the transformer with a 500 watt transformer, that’s all.
You may require 2 mosfets in parallel on each channel.
Good day sir,pls how can i modify the 3rd design for higher wattage
Hello Nimel, how much wattage output do you intend to have?
Have you any 12 kW/kVA UPS design circuit diagram ?
if you have any circuit please seen me by email
Wow.. Love the design of the 1Kva UPS. Having no bulky transformer, the maximum output is only limited by the size of the MOSFETS .. Can these circuits be re-configured for an output / input of 120V 60Hz instead of 220V 50Hz to be used in Canada?? What components need to be altered to accomplish this. Thanks for your valued contribution..
Mike Carlson
Glad you liked the concept…It can be adapted for 120 V AC also without any changes in the components.
Hi,
For the first circuit if i using battery 12V/25AH what is my R6 and TR1?
And can i replace 8050 transistor into TIP122 and BDY29 into TIP 35?
Many Thank
Sorry is 12V/7AH battery
R6 = 0.6 / 1 = 0.6 ohms 1 watt
Hi, Yes you can do that!
for both transformer, what is their power rating ?
It will depend on your load power requirement.
Hi,
May I know the first circuit is it workable?
If yes, can you provide the R6 , TR1 and the battery Volt and amp?
Because I just want to build this Simple UPS for my project.
hello, have you been able to design the ups?
Hi Sir,
Do you have prototype hardware for the first schematic?
Don’t you mind share the image to me
Thank
Hi Desmond, Sorry, presently I do not have it!
I need to understand the circuit of a v-guard make UPS (SESTO DX 600). there is no ac o/p as well as dc o/p to battery. pl help.thank you.
It is difficult, because all brands have their unique design and cannot be diagnosed without knowing the schematic.
Hi sir mosfet or igbt which is the best for inverter . Could you explaine me?
IGBT is best but its more expensive…so I will recommend mosfets
Sir, You have mentioned the transformer specification as TRANSFORMER=12-0-12V/10AMP/230V. The current rating is for the secondary winding I understand. Am I right? Sincerely V.K.Guptan
[email protected]
Hi Guptan, the 10 amp is for the DC side or the battery operated side…which is the primary in this case. The input side always becomes the primary for transformers, and the output becomes the secondary.
I am confused in Design#1 RL2 Connection please simplify it.
Point B and Point C is connected to RL2 N/C. it means both are shorted at relay2 N/C terminal??
RL2 has two sets of contacts, meaning it is a DPDT relay, one will go to point B, and the other to point C. I hope now you have understood the working!
yes I can. thanks
will this circuit be able to use for 5mins on 300watt load
yes it will be capable of doing it, just make sure the battery is appropriately rated
Sir mujhe ap se ye maloom karna hay k led k negative pe resistor lagta hay ya positive pe q k mene kahin pe negative pe daikha hay or kahin pe positive pe please help me?
Syed, resistor LED ke series mein aana chayiye, that's all
woh negative pe hai ya positive pe isse koi fark nahi padta hai…
i want to know that software that you have used for making Circuit daigram
Hi, A UPS will already have a self charging feature while mains supply is present, that's why it's called an uninterruptible power supply
Charging section me kitne ampere ka transformer lagay ga? Sir mere paas 1 transformer hay step down 220 to 18, 2 ampere wo is me use kar saktain hain? And what is ic1?
divide the battery AH value with 10….that will be the ampere of the charging transformer.
for a 12V battery the output from the transformer should be 14.4V approximately….not above this.
Sir is circuit me 6-0-6 ka transformer use hoga ya 12-0-12 ka?
Syed, if the battery is 12V then the transformer should be a 9v-0-9V for best performance….
Hello sir,I am Abdus, you didn't tell ,In which diagram I have to connect 1k resistor across c1,upper or below?Also tell me about the ups circuit in which single transformer can be used?
C1 of the lower circuit.
you can include the charger winding inside the inverter transformer and convert it into a single transformer
Hiii sir ….
Am using 12-0-12v/5amp transformer ….can u pls hlpme how much current rating battery would be use? ??
Hi Surya, it will depend on how much backup and how much load you are planing to use….typically you can work with a 12V 10AH battery.
I am Abdus, ppz tell me about the ups circuit diagram using single transformer?will this prevent to be suddenly shutdown pc?
Abdus, yes it will be able to prevent sudden shut down just connect 1K resistor across C1 for enabling a quicker switching of the relays.
Enter your comment…hi sir,
Plz help me how we can desigan and make the auto on and off generator circuit when electrity available the generator off and when electricit has gone so the generator should be on autometicly in three slaf of trying for starting.thank u.
Basheer, please use the search box given at the top of the page and search for "ATS" you will be able to find the required designs as per your specifications.
sir im a diploma final year student plz suggest me which type of project is best at low cost
you can try a small inverter circuit as given here:
https://www.homemade-circuits.com/2012/02/how-to-make-simplest-inverter-circuit.html
sir how much cost this ups if i make at home
Rs.3000/- with battery
Hello sir,
I want make a 60watt UPS. So, what is reading of input side transformer and Battery.
Hello Milan, the transformer should be 9-0-9V @ 5amps and the battery 12V, 25AH
hello, have you been able to design the ups?
Can we merge the supply circuit with the charging circuit?
it has to be merged by joining the shown relay contact points….
thanks
hello, if i use 12v,7ah bettery, then what will the changes occure in above circuits.like transformer rating e.t.c……………………………………..,
thanks
ZEESHAN
Also tell me whether it is possible to replace the 8550 transistor in the battery charger section by another pnp transistor such as BC557 and 8050 by BC547 ??????
Arun, 2N2907 could be used but the above battery charger circuit could be difficult to set and monitor for you, I would recommend a tested circuit using an opamp as given in the following link (see second diagram).
https://www.homemade-circuits.com/2011/12/how-to-make-simple-low-battery-voltage.html
Sir,
I asked you to how to measure AC current, not the voltage…
I want to find the power consumption of the TV when it is switched on by P= V*I
sorry, current can be measured by putting the meter prods in series with any one of the load wires.
Select AC range and 10Amp range in your meter….in some meters it's 10amps in some it could be 20amp, both will work.
Sir,
Could you plz tell me how to measure an ac current using an ordinary digital multimeter ???
I have never faced such a situation of measuring the ac current, was only concentrated in measuring dc current… so at the first, trying to measure connecting the +ve lead of the meter to ac live and the negative lead to one of the plug lead of a table fan, keeping the neutral connected as usual gave a result which tends to have an up and down values 1.7 and -0.5 something at the 200 mA range of the meter
Arun,
select AC range in your digital meter (220V) and simply touch the prods across the source terminals, don't bother about the polarity since AC has an alternating polarity and can be checked anyway round.
But please remember that in your inverter AC will be available at the output of the trafo only.
At the gates of the mosfets it will pulsed DC, not AC, so here you will need to use the DC range for the measurements.
Sir,
First of all let me say thanks for all the valuable supports and suggestions that were made from your side in doing the current UPS design….
Now i want to know few things about thz…;
1). What will be the value of frequency shown at the gate terminals of the MOSFETs if the output stage is gonna completed using MOSFETs ? Will this be the same 50 Hz that is really expected to be, or more than that ( say few Khz, 666 Hz ) ?
2). How does the developed ac resembles to the real AC, helpful to be used for sophisticated components ??
Thanks Arun,
1)gate frequencies must be around 50Hz.
2)In the above design, the output will not resemble a real AC, you can modify it digitally for the same by employing a PWM input
I have also an another doubt sir…
1). What is the main difference between a normal MOSFET inverter and an H bridge MOSFET Inverte ?
2). Will the former one have more efficiency than the other
3). Does the H bridge means the config. in which 4 MOSFETS are used with each pair of mosfets connected in parallel ??
H bridge will require a transformer with no center tap which allows the use of smaller trafos and thus efficiency increases.
H-bridge can be made using sophisticated driver ICs which are specifically designed for such applications thus faults could be rare with this topology.
you may refer to one good design here:
easy-electronic-circuits.blogspot.in/2014/05/100-watt-to-1000-watt-pure-sinewave.html
Sir,
Will the voltage be stable at the output…
I mean,, will there be any problem in connecting more than one instruments at the output.
I want to connect maximum of 4 instruments ( A Notebook charger of 13.5 W, A mobile charger of 5W, A Table fan of 80 W, )
Will they get burned ???
And if this connection is not possible, how to make the AC Voltage stable independent of different loads in this circuit???
Arun according to me there won't be any problem with the mentioned gadgets since all these employ SMPS regulated power supplies except the fan which is not so vulnerable anyway..
To make things stable the PWM feature is essential.
By the way how did you proceed with the above circuit, what components did you use?
Please send me the built units picture for reference.
i CAN'T SEE ANY PWM DIODES IN THIS CIRCUIT SIR…….
i have send you mail… could you plz check it SIR
I was referring to the previous 400 watt design, I was trying to troubleshoot that circuit.
Sir, another doubt too
Can i really use sophisticated equipments such as laptops, mobile phone chager etc. with this UPS circuit ??
yes, it will support all those gadgets.
Sir what much wattage to be expected by two 12V 20Ah batteries in series ?…. The Transformer is rated at 12V,300W
sir i failed in executing the below design for my need
https://www.homemade-circuits.com/2012/09/make-400-watt-mosfet-sine-wave-inverter.html#comment-form
Again i have decided to go on with the current UPS design…. Now as a whole saying i got AC out…. But a 100 W bulb didn't give a single glow on connecting it at the output of the transformer… On measuring the amount of current passing to the centre secondary winding of the inverter transformer , i came to know that only 0.77A current is flowing, thereby it seemed to produce a power of only 18.48 W ( 24.5 * 0.77 ) at the output.. That is why the bulb didn't glow…
SO Tell me sir, how the amount of current ( that to be drawn from the battery ) could be increased to a minimum level of 7A, so that inverter output reaches a minimum of 175W….
NOTE:::: SIR, I HAVE TESTED THE BATTERIES USING A CAR HEADLIGHT LAMP ( 12V, 60 W )……. THE AMMETER SHOWED A READING OF ABOUT 5A AT FULLY CHARGED CONDITION OF THE BATTERY.
I have used 2 no.s of 20Ah batteries in series……
Eventhough the expected wattage couldn't be achieved by this config., the current drawn from the 40 Ah config ( Series config. of two battery banks, each banks are the parallel config. of separate batteries ) was also seen to be so low, so that the 100 W bulb couldn't start glowing…
YOUR HELP IS THE ONE AND ONLY EXPECTED SOLUTION AT THIS POINT
Arun, What is the rating of the transformer that you have used? If it's a 5amp transformer it should weigh about 4 to 5kgs, if it's much lighter than this would indicate a lower rated transformer which won't produce the intended results.
the voltage rating of the trafo must be lower than the battery voltage, for 24V it must be 18-0-18V
check the gate voltages, the peak voltage should be 12V since it's supply is 12V and the average voltage should be 6V since it's operating at 50% duty cycle.
please check all this and correct them accordingly.
12-0-12V will also do, 300watt must weight at least 12kgs.
initially keep the PWM diodes disconnected and check the results.
Sir, it z very interesting to implement your ideas…. Thank you so much sir for providing us such various ideas.
Now i am in the middle of making a small 150 W UPS system …. I have a 15 V 5A Old Thoshiba laptop charger, four no.s of 12 V 20Ah sealed lead accid batteries taken from an old electric scooter, and some necessary components to make out the UPS……
The main intention behind this is : i want to charge my mobile phone, laptop, even a torch during power failure.. The inverter should also support a table fan….so a maximum rating of 150 W is necessary….
Since i want to operate such sophisticated components , could u plz suggest me the most appropriate version satisfying all ma needs..n
Also i want to know that, if the UPS is based on PWM, what battery voltage to be selected…12 or 24 ??…
I have only a 15 V charger with me… So if i have to use 24 V confih. (series combination of two parallel configuurations each 12V 20 Ah batteriea = 24 V 40 Ah ), how it be possible to break all these config. and forming a complete parallel config. ( 12 V 60 Ah ) for charging7 ????
Thanks Arun!
Here fan is the only gadget that will require 220V rest of the items (cell phone, laptop, torch) can be actually charged directly from the battery, so an inverter won't be necessary for those items.
anyway if you want to charge them from the same inverter you may do so and it won't be necessary to employ a sine wave inverter since all these items work on DC and any AC whatsoever will be ultimately converted to DC, so even a square wave inverter would work for the application.
you can try the desin that's shown in the above article or you can try the one that's shown in the following link
https://www.homemade-circuits.com/2012/09/mini-50-watt-mosfet-inverter-circuit.html
both can handle upto 200 watts
for charging a 12V 20ah battery you would require a 14V/3amp battery, so your smps will need to be 14V at least, 12V will not work.
Hi mr.Swagatam,
I am Jayasuriya from Sri Lanka.While appriciating your valued replies,Kindly explain how to measure power output(wattage) of a locally made power inverter
Hi Hapu,
thanks!
the easiest way to test it is by loading the output of the inverter gradually until the voltage begins dropping. The total value of the load wattage during that instant will provide the wattage capacity of the inverter.
Sir what is the output of this ups circuit?????????
220v ac