Free delivery on orders above Rs 900 | For Enquiry Call/Whatsapp +91 7276757409

Tag: diode

Reverse Current Protection for Chargers – A Must for DIYers

🔧 The Problem :   Ever connected a battery to a charger and noticed it getting hot or malfunctioning? That’s likely due to reverse current flow, where energy from the battery flows back into the charger circuit—potentially damaging components.   ✅ The Solution :   The fix is simple: use reverse current protection. This can …

Reverse Current Protection for Chargers – A Must for DIYersRead More

Reverse Current Protection in Robotics | India-Made Fix

🧯 The Problem :   In robotics projects, especially those involving motors or multiple power sources (like battery + USB), you may face a common issue: reverse current. When current flows back into your power source, it can damage regulators, batteries, or microcontrollers—sometimes permanently. This is especially risky when using brushed motors or during sudden …

Reverse Current Protection in Robotics | India-Made FixRead More

Reverse Voltage Protection for LEDs – Save Your Circuit!

🧯 The Problem: Reverse Voltage Kills LEDs   LEDs are polarity-sensitive—apply voltage in reverse, and you risk destroying them instantly. This often happens during prototyping or accidental wiring mistakes.   🔧 The Solution: Use a Parallel Diode   The simplest protection method is placing a rectifier diode (e.g., 1N4007) in reverse parallel across the LED. …

Reverse Voltage Protection for LEDs – Save Your Circuit!Read More

Reverse Current Protection in Solar: Keep Your Setup Safe

Solar power systems are becoming a popular DIY and prototyping project in India—but there’s a key issue many beginners overlook: reverse current flow. This happens when current flows back into the solar panel from the battery or load, especially at night. It not only wastes energy but can also damage your panel over time.   …

Reverse Current Protection in Solar: Keep Your Setup SafeRead More

Reverse Protection for 48V Systems: Safeguard Your Electronics

When working with 48V systems, such as solar power systems or electric vehicles, one common problem is reverse polarity. If the power supply is connected incorrectly, it can damage your electronics and components permanently. But don’t worry—reverse protection circuits are simple to implement, and they can save you from costly mistakes!   🔴 The Problem: …

Reverse Protection for 48V Systems: Safeguard Your ElectronicsRead More

Reverse Current Protection in Chargers – Simple, Smart & Safe

When designing or using battery chargers—especially for lithium or lead-acid batteries—reverse current protection is essential. Without it, energy from the battery can flow back into the charger once the power supply is off, risking heat buildup, circuit damage, or battery drain. Fortunately, adding protection is easy, even for beginners.   ⚠️ The Problem: Reverse Current …

Reverse Current Protection in Chargers – Simple, Smart & SafeRead More

Reverse Current Protection for Sensors – DIY Guide

🔌 The Problem: Reverse Current in Sensor Circuits   In many sensor-based projects, especially where microcontrollers or analog circuits are involved, reverse current can be a silent killer. If your sensor’s output is tied to a power source that turns off while the rest of the circuit remains active, current can flow backward through the …

Reverse Current Protection for Sensors – DIY GuideRead More

Reverse Voltage Protection in IoT – Don’t Fry Your Board!

In IoT projects, especially during prototyping, it’s easy to accidentally reverse power connections. This small mistake can permanently damage microcontrollers, sensors, or Wi-Fi modules.   ⚠️ The Problem: Reverse Power Can Destroy Components   Many IoT devices like ESP8266 or NodeMCU boards don’t have built-in reverse voltage protection. If you connect the power supply backward, …

Reverse Voltage Protection in IoT – Don’t Fry Your Board!Read More

MOSFET Avalanche Protection Guide – Stay Safe Under Spikes

🚨 The Problem :   When switching inductive loads (like motors, relays, or transformers), MOSFETs face voltage spikes due to the sudden collapse of magnetic fields. These spikes can exceed the breakdown voltage of the MOSFET, leading to avalanche breakdown—a condition that may permanently damage your device.   🛠️ The Solution :   Use avalanche-rated …

MOSFET Avalanche Protection Guide – Stay Safe Under SpikesRead More

2
224.67
GET DISCOUNT CODE

It will take just few seconds to claim 7% Discount, After Submitting check Email for Coupon code.

    X
    GET DISCOUNT CODE