A practical electronics engineering resource focused on tested circuit projects, clear theory explanations, design calculations and real world troubleshooting support for students, hobbyists, and professionals.
Questions Answered with Practical Working Solutions
Backed by more than two decades of hands on circuit design experience, reader questions posted in the comments are reviewed and answered personally. Wherever necessary, circuit corrections, design improvements, and verified working solutions are provided to ensure accuracy and reliability.
How To Use This Website
- Start with the Electronics Tutorials section if you are new to circuit design.
- Explore application based projects to find ready to use circuits.
- Read the comments for practical tips, corrections, and reader discussions.
- Post your questions to get guidance and improvements where needed.
Learn Electronics Step By Step
Electronics Tutorials

Foundational tutorials explaining electronic concepts, calculations, and working principles in a simple and practical way.
Semiconductor Theory

Detailed explanations of semiconductor devices and circuit theory with practical examples and applications.
Arduino and Microcontrollers

Arduino programming tutorials and microcontroller based automation projects with complete circuit details.
IC 555 Timer Circuits

Classic and modern IC 555 timer circuits explained with calculations, diagrams, and application ideas.
Power Electronics and Energy Systems
Inverter Circuits

Designs that convert DC power into 220V AC with explanations ranging from basic to advanced sine wave systems.
Battery Charger Circuits

Controlled battery charging circuits covering lead acid, lithium, and industrial battery systems.
Power Supply Circuits

Fixed and variable voltage power supply projects for workbench testing and embedded applications.
Solar Controllers

Solar charge controllers and renewable energy projects using PWM, MPPT, and microcontroller techniques.
Application Based Electronic Projects
Home Electrical Projects

Electronic circuits designed to enhance safety, automation, and efficiency in home electrical systems.
Industrial Electronics

Control and automation circuits used in industrial machinery and process systems.
Automobile Electronics

Automotive electronic projects for lighting, safety, and performance enhancements.
Motor Control Projects

Speed and torque control circuits for DC and AC motors used in home and industrial applications.
LED and Lighting Projects

Decorative and functional LED lighting circuits including dimmers, chasers, and drivers.
Remote Control Circuits

Wireless and IR remote control circuits for convenient device operation from a distance.
Specialized and Utility Circuits
Wireless and GSM Projects

Wireless control and GSM based communication projects for monitoring and automation.
Meters and Testers

Hand-built electronic meters and testers useful for diagnostics and troubleshooting.
Timer and Relay Circuits

Delay timers and relay switching circuits for automation and protection applications.
Learning Through Discussion
A lot of the circuits here slowly get better through questions and discussions in the comments. Readers point out real world problems, ask for small changes, or request clarifications, and over time this back and forth helps turn the designs into more reliable and practical working circuits.
Try and Test Circuits Online
To help readers better understand how circuits behave, this website also includes a simple online circuit simulator. It can be used to visualize basic circuit operation, test component changes and explore circuit behavior before building it practically.

Recent Community Discussions
Latest questions, answers, and circuit improvements discussed by readers and the author.
Hi, thanks for your updating the results, in that case please try increasing the R2 value to 1k and check…
Yes, 16.6V is still a bit high. It should be near half the supply. If the bias is low on…
Hi, Thanks for this. I have the circuit with 3V coin cell assembled and it works fine. However, the coin…
Ok, supply is now at 16.6v (dirty multimeter probes), still too high right? Bias is low on output transistors AND…
Sorry, that may not be possible, due to my busy schedule...
Common Problems Addressed
- Circuits that do not work as expected after assembly.
- Confusion about component values and calculations.
- Improper power supply or overload issues.
- Noise, heating, and instability in practical circuits.
- Modification of existing circuits for custom requirements.
Note: All circuits are provided for educational and experimental purposes. Readers are advised to follow proper safety precautions while working with mains voltage and high power circuits.
Discussion & Solutions
please let me join and get your projects
I would like to know the values of R 45 and R 49 in Microtek VO 3.32 UPS board. In one circuit diagram it is 100K ohm both. Installed resistors in my board are 47 ohm each.Thank you.
Sorry, I do not have sufficient information regarding your question at this moment.
Thank you very much!
Good morning, I’m Carlos Velazquez. I hope you are in good health.
I’m trying to make a circuit that illuminates a painting at night for 14 hours. Starting at 6:00 p.m. and turning off at 8:00 hrs. The lighting is with LED, it must be activated with LDR when capturing the darkness outside and sending a signal with RF 433mhz and turned off when capturing the light by sending a signal to the receiver.
The transmitter must be outside the house powered by a solar cell that recharges a battery that does not consume much current and inside the receiver with a rechargeable battery, this process is daily.
For your attention, I thank you for your time and support.
Good Morning Carlos,
I will design the circuit and post it as a new article. Once it is done I will let you know.
Hi, how is LED lamp powered? Is it through a chargeable battery or from an AC outlet indoors. If AC outlet is available indoors then the receiver battery can be also charged through this AC source.
Yes, it is a rechargeable battery that is inside the house, could you suggest which battery to use? Thank you for your time
The battery voltage and Ah specifications will depend on the LED specifications. If you tell me the LED specifications, I can figure out the battery specifications.
How would you charge this battery, is it through the home AC outlet or through a solar panel?
Disculpe, no encuentro mi comentario donde lo podre encontrar y verificar el favor que le pedí.
The comment might have disappeared for you maybe due to the automatic clearing of the site cache, but no worries, I have received your comment and will try to design it soon.
I’m Chibueze Nwakpuda from Nigeria, a regular follower of your blog. Please sir, I am experiencing difficulty in building electric stove using plaster of Paris (poo) as my element base. The pop cracks when heated. Kindly advise me on the substance I can place my heating spring coil element on that cannot crack.
Thank you.
Hi Chibueze, Sorry, I have no idea how the Pop cracking problem can be solved, it is beyond the scope of my expertise.
Good afternoon, regarding the LEDs, I did a test with 6 LEDs but I need more light, so I ask your suggestion which would be the ideal one and regarding the battery, as you told me, it can be either solar or AC rechargeable.
I thank you for your attention and support of this important project for me. Thank you.
It will be difficult for me to know how much light you need for the painting. It will depend on the size of the painting, and the number of paintings.
If 6 LEDs are not enough, you can try 10 LEDs.
I will also need to know the specifications of the LEDs you are using (Voltage and current rating)
The LEDs are 3.4 v, 20 mA white, it is only 1 square of 44 x 60 cm. Thank you.
OK, I have designed the circuit, you can find the post in the following link:
https://www.homemade-circuits.com/automatic-night-activated-wireless-light-circuit-for-paintings/
I have simple mosfet wire loop security device but there is an issue the thieves can can joint the loop before the protected gadget thus making the system normal and steal the protected gadget can you design a wire loop circuit such that it activates alarm on both cutting and jointing the loop
Please i will be very thankful
Hi Swasti,
If the intruder already knows the location of the trip wire and manually fixes it then there’s nothing we can do. The trip wire or the loop wire is supposed to be hidden from the intruder, if it is visible or known to the intruder then it is impossible for it to work effectively. In that case better to install a simple PIR based alarm circuit or a motion detector alarm circuit.
Thank you sir
Yes sir i have considered pir based alarm and think but In my case there in the protected area sometimes animals like dogs and cats are walking so it is possible that most of the times my PIR based alarm will give false alarms therefore it is failed
Kindly if you have another idea or circuit then please guide me i need your support please
Hi Swasti,
Yes, PIR sensor or any other motion sensor will detect animals also and give false alarm, which cannot be avoided.
I think a vibration sensor can be the best option in that case, which will detect strong vibrations if an attempt is made to remove the solar panels from their installations.
Let me know your thoughts on this.
Sir you are the expert if you consider it helpful then i will be waiting for the circuit diagram of vibration sensor please make i perfect diagram so that i make the device soon
I appreciate ?
Thank you Swasti,
According to me the first circuit from the following article will be most suitable for you:
https://www.homemade-circuits.com/simplest-sound-activated-relay-switch/
You can reduce the sensitivity of the MIC simply by increasing the value of R1 to 10k or 22k or 33k.
You can enclose the whole circuit in a plastic box and clamp it with your solar panels. If anybody tries to remove the solar panels or tries to tamper with the circuit box, the relay will be instantly activated causing the alarm to sound.
If you want more information about the circuit details or the construction you can comment under the above linked article post, I will try to sort it out for you.
I find this site very educational, thank you Swagatam and everyone.
I have the a need for the following device. Would be grateful for your help in building it.
—————————-
Light trap for Insects : the device turns on LED light automatically at dusk for 2-4 hours and attracts harmful insects in a crop field.
Device should not overcharge the battery, nor allow it to be depleted below a certain level to extend battery life.
Device should have a switch to manually turn the lights on and off.
The device should use low cost components since I need to deploy many of these devices.
The device should be essentially weather proof as it will be deployed in open field.
Thank you in advance for your help!
Thank you OP,
I will try to design the circuit soon, and let you know once it is done.
Thank you Swagatam, truly appreciate your help in this regard.
Thank you OP, I have published the article, you can find it under the following link:
https://www.homemade-circuits.com/insect-light-trap-circuit-for-protecting-crops/
Pls can I see some of this components to buy in Nigeria
Hi boss, thanks for the circuit diagram. But I have some issues. 1, I don’t understand what kind of dieyot is D3 and I can find 48volt relay, is there any resistor I can use to convert it to either 12or 24volt relay. 2, which of the virable resistors is responsible for setting the low voltage level. Like if I want the relay to come or at either 50,40 or 30 percent. Thanks for all your response.
Hi Jolly, which circuit are you referring to? Please reply under the same comment so that I can refer to the circuit diagram.
The 48volts monitoring relay circuit
Sorry I cant find the original post where you posted you previous question.
Hi, I can’t find it either. But I received a circuit diagram for the 48volts battery monitoring relay. The idea was that the system is a 48volts system. The device was to monitor the 48volts when the voltage get low to like 30 or 40 percent a relay on the monitoring device should switch on and when the battery goes to full level the relay should switch off. I got a circuit diagram from you today about it but there are some things I’ll want to to look into on the drawing.
Your initial question was posted under the following article. Please ask it under the same thread, I will try to help:
https://www.homemade-circuits.com/3-step-dc-voltage-level-monitor/
I have a relatively high impedance voltage source that puts out +/- 200 mV depending on the pH of the solution it is exposed to. I would like to have a simple op-amp based circuit that would apply a opposing voltage to this device such that net zero current flows. I would be monitoring the opposing voltage. The overall impedance is of the order of 1 MOhm, so the short circuit current otherwise will be in nanoamps. So the need is for a zero current, constant current circuit…
Your thoughts are most appreciated…
As per my understanding, you want another 200mV DC source through an opamp that could be connected with your existing 200mV?
Please let me know if I understood it correctly.
Yes basically so. It will end up applying exactly negative of the voltage the exiting probe is generating, in the extreme +/- 450 mV.
Sorry, I am still having problems understanding the configuration.
Do you want to sink the existing 200mV source to GROUND?
This can be done by shunting the source to ground with a jumper, what is the role of the op amp supposed to be here?
HI
is there a component tester for intergrated ccts eg LM386 ?
Hi, the easiest way to test the IC is by building its basic configuration as shown below:

The pot is not required. Simply touching the pin#3 directly should cause the speaker to generate a loud buzzing sound, indicating a good IC.
Hi, I’m Albrecht.
I’m looking around for a low noise amplifier for very tiny amounts of charge. For low low noise reasons I consider to use an Agilent ATF-55143, Although this device is made for rather high frequency applications in my case the required frequency band is more like “DC”, i.e. 10kHz up to 3MHz. Are there somewhere advices how to bias in an optimal way the pHEMT in order to get the maximum S/B ratio?
Hello Albrecht,
Did you check its datasheet, I can see some related information being available at the bottom section of the datasheet.
https://www.farnell.com/datasheets/33952.pdf
lm386 is running very hot very hot to touch is this normal?
It is not normal, how much supply voltage did you use? Try with 5V first then try 9V.
Hi sir..I want to build a personal website filled with my personal electronics design interests and wish to build my skills with a dedicated storage space organized neatly.So please help me on how to create website like yours.
Hi Girish,
You can create and manage a website cheaply on a WordPress platform.
Learning WordPress is a comprehensive process and can take many months to master. However as far the initial setup is concerned, you don’t have to worry at all, since it will be done by your hosting provider. You can also take their help to further learn regarding how to optimize your WordPress site. Go for hosting provider who offer the best SSD storage with litespeed cache, compare the plans and select which you find the most economical.
Hi All,
I am needing a small circuit that runs a motor for exactly 3 rotations.
Wondering the best way to achieve this? The start needs to be triggered by a random input from a light that will go on and then off and the rotations are independent of the light being on – so there is a separate power source for the motor which supplies the motor.
I am thinking if possible, the light triggers the closure of the motor circuit starting the motor. An optical interrupter then closes three separate transistor switched circuits. When the 3rd circuit is closed, this then opens the motor circuit. This should also ignore any subsequent trigger events while operating so I am guessing the circuit from the trigger source (light) needs to be open between the motor being triggered and stopping.
Hope this makes some sense. Getting back in to all this so pardon any odd explanations. Thanks
Michael
Hi, thanks for the question.
I guess the light needs to remain ON until the 3 rotations are completed by the motor, otherwise, in the absence of light the opto-interrupter might not be able to sustain the triggers for the 3 transistor switches?
Please Let me know if I am correct.
Thanks for the prompt response. I should clarify that the light is external to this design. It is a merely an intermittent light that I need to use as a trigger only. It is intended that the motor will have a disc with a “tag” which passes through the opto-interrupter with each rotation. So each time the opto is opened/closed it needs to do something so that on the third rotation it shuts off the motor. Hopefully that helps.
Seems like my last reply didn’t make it to the thread.
Thanks for the prompt reply. The light is essentially the trigger to start the motor. Its circuit provides the input to the motor circuit. So when the light flashes the motor needs to turn 3 times even though the light circuit is off. So the motor has its own power and its circuit is closed when the light flashes and opens after three rotations. The motor has a disc with a small plate that passes through the opto. I am thinking that this could be used to eventually open the motor power circuit on the 3rd rotation. Hopefully this makes it a little clearer.