Featured How to choose the right high current pogo pin connector Uneeb KhanOctober 4, 20220124 views How to choose the right high current pogo pin connector Today we’re going to talk about high current pogo pins connectors and how to choose the right one for your project. We’ll cover the pros and cons of each type of connector; explain the various packages they come in, and talk about the common ground rules you need to follow when choosing a connector. Let’s get started! The importance of choosing the right connector Choosing a connector is not as easy as it may seem, and choosing the wrong one can result in damage to your device. Choosing a high pogo pin female will save you time and frustration. Here are some steps you can take when choosing a new connector for your device: Check for compatibility with your device Find out how much power you need before buying Find out what size plug adapter will work best with your computer Things to consider before buying a connector 1. The current of your circuit or device. 2. The size of the pins in your device. 2-6mm are common sizes for devices, but they can be as large as 10mm or 12mm depending on what you’re connecting it to and how much clearance there is in your design. 3. The shape of the pins in your device. Details of each top-selling connector There are a number of options for Pogo Pin Connectors, but some will work better than others depending on your needs. For example, if you need to connect a battery pack with an output voltage between 2.5 and 4.5V DC then you would want a Pogo Pin Connector that can handle at least 2.5A of current, while if you need to connect a battery pack with an output voltage over 6V then you would want one that can handle up to 3A of current. FAQs and suggestions based on their research What do I need? The connector’s job is to connect your battery or power supply with your circuit board. You need a female and male version of each type of connector. A PCB mount has pads on the back, which you solder wires from the board onto, then insert it into a hole in the board. A PC mount has pads on both sides, which are soldered together before inserting it into a hole in your board.