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Pogo Pines
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Pogo Pines

This pogo pin has passed a lifespan test of 20,000 cycles and a 48-hour salt spray test. It has a rated voltage of DC 12V, a maximum current of 2A, and a maximum single-pin contact resistance of 50 milliohms. It can operate stably in temperatures ranging from -25℃ to +60℃, and the raw materials and coatings used comply with RoHS and REACH environmental standards. Daily production capacity reaches 10,000 pieces, with a lead time of 7-25 days.
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Product Introduction

Dongguan Xinteng Electronics Co., Ltd. is one of the most reliable manufacturers and suppliers of pogo pines in China, featured by quality products and good service. Welcome to wholesale bulk durable pogo pines in stock here from our factory. Also, customized service and OEM&ODM service are available.

 

Pogo Pines

 

This pin has undergone rigorous 20,000-cycle insertion and removal testing, demonstrating an exceptionally long lifespan through lifespan test data. The change in contact resistance during each insertion and removal is extremely small, ensuring contact stability over long-term use. The lifespan test simulates repeated connection and disconnection in real-world applications through prolonged insertion and removal, verifying the stability of the pogo pin under high-frequency operation.

The salt spray test assesses the product's corrosion resistance in a corrosive environment. The pogo pins successfully passed the standard corrosive environment test in a 48-hour salt spray test, demonstrating excellent corrosion resistance. Corrosion resistance is particularly important for equipment operating in high-humidity, high-salt environments, such as coastal areas and damp workshops. Therefore, passing the salt spray test means that the Pogo pin can maintain reliable electrical performance in these extreme environments over a long period.

 

Product Parameters

 

Product model

RT-1301

Mechanical

Contact force

70g±20g at 1.0mm working storke Full storke 1.3mm

Life test

20,000 cycles

Electrical

Rated voltage

DC 12V

Rated current

2A Max

Contact resistance of spring pin

50 milliohm Max

Environmental performance

Operation Temperature

-25℃ to +60℃

Salt Spray

48H

Packing

PE bag / reel packing

Material and coating conform to ROHS and REACH standards

 

Product Details

 

These Pogo Pins are rated for 12V, meeting the needs of most industrial and consumer electronics products, and are particularly suitable for applications such as small detection equipment, sensors, and smart home devices.

The maximum current carrying capacity is 2A. This current carrying capacity allows it to transmit power while ensuring low contact resistance, preventing overheating or poor contact due to excessive current.

Each Pogo Pin has a maximum contact impedance of 50 milliohms, ensuring good electrical connection and efficient signal transmission. Lower contact impedance means less current loss and higher signal transmission quality, which is crucial, especially in applications requiring high precision, such as medical instruments and precision measuring equipment.

12

 

Precautions For Using Pogo Pin

 

  • In the design, the compression amount is typically 2/3 inch of the total stroke; insufficient pressure or thrust will lead to unstable impedance; conversely, excessive pressure will damage the tube opening, causing pin jamming.
  • During assembly, care should be taken to avoid excessive force on the tube opening to prevent impact that could deform it and cause pin jamming.
  • Battery contacts mating with the POGOPIN or FPC gold fingers should be free of dirt, oxidation, etc.

 

Precautions For Using Pogo Pin

 

Our Strength

 

With over 15 years of experience in the connector industry, Xinteng Electronics has built a strong reputation for delivering high-performance, reliable, and customized interconnect solutions to global clients, particularly in North America, Europe, Japan, and South Korea. Our products are widely used in consumer electronics, medical devices, smart wearables, industrial automation, and communication equipment.we are committed to quality, innovation, and long-term partnerships, helping clients achieve seamless electronic connections in an ever-evolving technological landscape.

 

 

How to improve the oxidation resistance of DIP Pogo Pins

 

Pogo Pins are exposed to air while handling current, making them prone to oxidation over time. This increases contact resistance and affects performance. To improve oxidation resistance, we generally optimize the plating process and sealing design.

Gold Plating: The most common way to improve oxidation resistance is through gold plating. Gold not only has good conductivity but also extremely strong oxidation resistance. To enhance the durability and stability of the plating, we choose a gold plating thickness of 0.025µm or more, which effectively prevents oxide formation.

Nickel Underlayer: Under the gold layer, we usually plate a layer of nickel as a protective underlayer. Because the nickel layer effectively isolates oxygen and moisture, plating a nickel layer before the gold layer allows the gold layer to adhere more firmly to the metal.

Hermetically Sealed Design: For some high-end products or applications with extremely high requirements, we can also design hermetically sealed structures for Pogo Pins to seal the contact surfaces and further prevent the intrusion of oxides or other harmful gases.

 

FAQ

 

Q: Why choose DIP Pogo Pins instead of SMT Pogo Pins?

A: DIP Pogo Pins are better suited for applications requiring higher insertion and removal stability and current carrying capacity compared to SMT Pogo Pins. Because DIP pins have longer leads and higher current carrying capacity, they can withstand higher current loads and are easier to hand-solder or connect via sockets, making them suitable for devices that are not suitable for SMT mounting.

Q: What is the relationship between needle diameter and contact resistance?

A: Needle diameter directly affects contact resistance. A thicker needle (e.g., a diameter greater than 2mm) typically provides a larger contact area, thus reducing contact resistance. This not only helps improve current transmission efficiency but also reduces overheating or malfunctions caused by poor contact.

Q: How to reduce the performance degradation of pogo pins at high temperatures?

A: High temperatures accelerate the aging and oxidation of the metal materials used in pogo pins. Therefore, selecting high-temperature resistant materials, such as nickel alloys, and employing precise heat treatment processes can effectively reduce the performance degradation of the spring pins at high temperatures. In addition, appropriate plating can provide extra protection.

Q: How to avoid cold solder joints at DIP Pogo Pins during soldering?

A: To avoid cold solder joints at DIP Pogo Pins, first identify the cause. Cold solder joints are usually caused by uneven soldering temperature or insufficient solder. To avoid cold solder joints, ensure precise control of soldering temperature and time. Using appropriate soldering tools and avoiding excessive soldering time can effectively reduce the risk of cold solder joints. Additionally, ensuring the soldering surface is clean, such as free of oil or oxides on the pads, will also ensure soldering quality.

Q: If I customize magnetic Pogo connectors and need to export them, can you provide the relevant customs declaration documents?

A: Yes, we can provide a commercial invoice, packing list, and product manual. If any special certification documents are required, please inform our sales team in advance.

 

 

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