RF-pogo-pin,-L7.00~9.99-mm,-Precision-Design,-Stable-Contact

RF-pogo-pin,-L7.00~9.99-mm,-high-efficiency

RF pogo pin, L7.00~9.99 mm, no performance loss

RF Pogo Pin, L:7.00~9.99, Precision, Stable Contact

RF pogo pin is designed for high precision and features gold plating for stable signal transmission and long-term reliability. Commonly uses materials like tungsten and cobalt alloys. With a dual-head design, It adapts flexibly to various connection needs, meeting international standards and suitable for various devices. We provide flawless factory service, creating significant value for you.

Product Features:

High-frequency transmission is lossless and clear.
Dual-head design ensures stable, seamless connections.
Bi-directional conductivity boosts reliable performance.
Precision craftsmanship guarantees lasting durability.
Perfectly fits various applications across different scenarios.
Flexible customization meets diverse needs.

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RF pogo pin, L:7.00~9.99 mm, Description

Product Info: Dual RF Pogo Pins are designed for high-frequency signal transmission and precision testing, featuring a dual-spring structure to ensure signal integrity and transmission stability. Supporting frequencies up to 20GHz, it has been widely used in semiconductor and 5G communication equipment, significantly boosting signal transmission efficiency.
Product Features: The Dual RF Pogo Pins use gold plating, durably resisting corrosion from the environment. The spring structure supports up to 100,000 insertion cycles, with a low contact resistance of 15 milliohms, enhancing signal transmission accuracy, reducing electromagnetic interference, and ensuring stable operation in high-frequency devices.
Problem Solved: The Dual RF Pogo Pins solve the issue of signal loss in high-speed transmissions that is common with traditional connectors. This product’s optimized design reduces signal loss by 90%, making high-frequency transmissions more reliable by minimizing data errors.
Specifications: The Dual RF Pogo Pins operate in a 0-20GHz frequency range, with contact resistance as low as 15 milliohms, a working stroke of 0.5-3.5mm, and a spring force as low as 15gf. Customizable gold plating up to 3μm ensures lossless high-frequency signal transmission, suitable for precision testing and high-speed communication equipment.
Successful Application: In 5G base station antenna systems, the Dual RF Pogo Pins have demonstrated excellent high-frequency performance, reducing signal transmission errors by 85%, significantly improving signal quality and stability, making them a core component in multiple 5G projects.
Target Industries: Dual RF Pogo Pins are widely used in telecommunications, semiconductor testing, aerospace, and medical devices, especially in fields that require high precision and high-frequency performance, such as 5G base stations and semiconductor production testing equipment.
Customer Benefits: The Dual RF Pogo Pins offer unparalleled signal transmission stability and long service life, helping customers enhance product performance, reduce equipment failure rates, and lower annual maintenance costs by 30%, significantly improving production efficiency and product competitiveness.

RF pogo pin, L:7.00~9.99 mm, Datasheet

No.#	Categories	Specification Range	Unit	Purpose	Benefits	Applications
1	Barrel OD	≥0.80, custom	mm	*	*	*
2	Plunger OD	≥0.45, custom	mm	*	*	*
3	Shape	Same OD dual heads, Different OD dual heads, custom	*	*	*	*
4	Length	7.00~9.99	mm	*	*	*
5	Stroke	≥0.55, custom	mm	*	*	*
8	Voltage Rating	≥3.0, custom	V	*	*	*
9	Current Rating	≥0.5, custom	A	*	*	*
10	Spring Force	≥30,custom	gf	*	*	*
11	1. Material	Brass	*	Stable mechanical performance, strong corrosion resistance, good electrical conductivity.	Relatively low cost, suitable for precision machining, easy to shape into complex forms.	Manufacturing precision electronic components like RF connectors and electronic contacts.
12	2. Material	Copper	*	Excellent oxidation resistance, high electrical conductivity, good thermal conductivity.	Ideal for high-frequency electronic components, enhances signal transmission stability.	RF antennas, electrical connectors in communication equipment.
13	3. Material	Stainless Steel	*	Strong corrosion resistance, high mechanical strength, heat-resistant.	Suitable for applications requiring long-term stability and durability.	High-demand fields such as medical instruments and automotive electronic connectors.
14	4. Material	Phosphor Bronze	*	Excellent electrical conductivity, superior elasticity, high wear resistance.	Suitable for environments requiring frequent connections and disconnections, excellent electrical performance.	High-frequency connectors like chip test fixtures and electronic test sockets.
15	5. Material	Nickel Alloy	*	High temperature resistance, strong corrosion resistance, stable mechanical performance.	Ideal for extreme environments like aerospace and military electronic devices.	High-reliability applications such as high-frequency communication equipment and radar receivers.
16	1. Plating	Silver Tin Plating	*	High purity, good conductivity, and corrosion resistance.	Excellent welding performance, stable electrical properties, and high temperature resistance.	Used in high-frequency connectors, RF devices, antennas, etc., to enhance signal transmission efficiency and stability.
17	2. Plating	Nickel Gold Plating	*	High hardness, wear resistance, and corrosion resistance.	Increases product lifespan, improves surface smoothness, and protects against oxidation.	Suitable for medical equipment, aerospace components, enhancing durability of connectors and contacts.
18	3. Plating	Silver Palladium Plating	*	Outstanding oxidation resistance and wear resistance.	Enhances connection stability and reliability, reduces signal transmission loss.	Used in communication equipment, industrial control systems for high-precision and stable connections.
19	4. Plating	Gold Rhodium Plating	*	High hardness, strong corrosion resistance.	Improves electrical conductivity of connectors, oxidation resistance, and high temperature resistance.	Used in high-end communication devices, military equipment for high-frequency connectors and test probes requiring high stability and long-term performance.
20	5. Plating	Tin Platinum Plating	*	Extremely low resistance, strong high temperature stability.	Suitable for high-frequency signal transmission, strong corrosion resistance, long lifespan.	Used in precision instruments, medical devices requiring extremely stable signal integrity, enhancing signal accuracy and reliability.

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Products Categories

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Threaded Pogo Pins

Pogo Pin Connector

Magnetic Connector

2 Pin Connector

3 Pin Connector

4 Pin Connector

5 Pin Connector

6 Pin Connector

7 Pin Connector

8 Pin Connector

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12 Pin Connector

Pogo Pin Connectors

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RF pogo pin, L:7.00~9.99 mm, Applications

Wireless Communication Module Testing
In the rapidly advancing era of 5G and IoT, testing the stability of wireless communication modules is crucial for signal transmission reliability. High-frequency signal testing demands reliable contact points to ensure data accuracy. Dual-head RF pogo pin excels in high-frequency signal transmission, ideal for complex testing environments. Optimized contact designs and precise manufacturing ensure stable signal transmission, enhancing testing efficiency and reducing error rates, compelling customers to make immediate procurement decisions.
Medical Device Circuit Board Connections
Medical devices demand highly stable and durable circuit board connections for safety and performance. In medical settings, these connections endure frequent disinfection and prolonged operation tests. RF pogo pin, through precise material selection and controlled processes, ensures long-term connection stability. Designed to meet medical device certification requirements, these connections guarantee safety and reliability, enhancing device longevity while reducing maintenance costs and risks.
Automotive Electronic Module Testing
Modern automotive electronic modules require rigorous testing and validation processes. In high-frequency and high-temperature environments, testing contact points must exhibit durability and stability. RF pogo pin, with special metal alloys and surface treatment technologies, adapts to complex automotive environments. Optimized contact point designs ensure stable signal transmission and electrical performance under various conditions, improving testing efficiency, accuracy, and reducing failure rates and repair costs.
Aerospace Electronic Equipment Connections
The aerospace industry demands extremely reliable electronic equipment connections with high immunity to interference. In extreme environments such as high altitude and low temperatures, these connections must remain stable to ensure aircraft safety and operational efficiency. Through precise design and testing, RF pogo pin maintains excellent connection performance in various extreme conditions. Using high-strength materials and high-temperature coatings enhances durability and interference resistance, significantly reducing aerospace equipment failure rates, improving flight safety, and ensuring stable data transmission.
Industrial Automation Control Systems
Industrial automation requires precise control and efficient operation of control systems. Signal transmission in automation equipment must be stable and reliable to ensure production accuracy and safety. RF pogo pin provides reliable signal connection solutions through high-precision manufacturing and optimized contact designs. Extensive stability testing in industrial environments verifies reliability under complex conditions, enhancing production efficiency, product quality, and reducing maintenance costs and downtime.
Consumer Electronics Product Development
Consumer electronics demand ongoing miniaturization and high performance, emphasizing the reliability and stability of electronic connections. RF pogo pin achieves high-performance, high-stability high-frequency electronic connections through compact and high-density designs. Customized design and manufacturing in collaboration with consumer electronics brands meet specific product requirements and performance standards, driving innovation, market competitiveness, user experience, and brand recognition.
New Energy Vehicle Battery Management Systems
The rise of new energy vehicles requires battery management systems that offer high efficiency and long life. In high-power and complex environments, these systems demand stable data transmission and efficient power consumption control. RF pogo pin optimizes battery connection solutions through high-power transmission and low-resistance design, ensuring stability and reliability under rigorous testing conditions such as high temperatures and high-frequency environments. Enhancing efficiency and performance of new energy vehicle battery management systems extends battery life and safety.
Smart Home Device Integration
The smart home market demands increasingly reliable and convenient device integration. Stable data and power transmission are essential for overall system stability. RF pogo pin facilitates efficient connection and integration of smart home devices through high-density and multifunctional contact point designs. Customized design and testing in collaboration with smart home manufacturers ensure compliance with technical standards and safety requirements for device interconnection, enhancing user experience, system stability, market share growth, and brand reputation.

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Advantages of RF pogo pin, L:7.00~9.99 mm

1. High-Frequency Transmission Advantage: This dual-head RF pogo pin maintains minimal insertion loss (less than 0.2 dB) at frequencies up to 10 GHz, ensuring efficient data transmission and stable signals.

2. Precision Alignment: Through precise manufacturing, RF pogo pin achieves alignment accuracy within 5 µm, enabling reliable connections in high-frequency applications to prevent signal distortion.

3. Durability Verified: Tested with 10,000 insertion cycles, the RF pogo pin shows minimal contact resistance variation (less than 5%), ensuring outstanding performance over long-term use.

4. Material Excellence: Using high-purity copper alloy as the conductor material with a resistivity of just 1.2 µΩ·cm optimizes signal transmission efficiency and reduces energy loss.

5. Environmental Adaptability: Withstanding temperatures up to 200°C and passing 72 or 96 hours of salt spray corrosion testing, the RF Pogo Pis is suitable for challenging industrial environments and harsh weather conditions.

6. Size Optimization: Compared to competitors, the compact design of RF pogo pin minimizes space usage in small devices, offering greater design flexibility and layout freedom.

7. Reliability Assurance: Each RF pogo pin undergoes 100% electrical testing and visual inspection to ensure defect-free quality, meeting reliability standards for monthly shipments in the millions.

8. Customization Support: Offering various surface treatment options and customized services including gold plating, silver plating, palladium-nickel plating, platinum plating, rhodium-ruthenium plating, and PVD coatings to meet diverse application needs and specific customer requirements.

FAQ:

1. Does the RF pogo pin have special electrical performance?
Our RF pogo pin uses advanced electrical design to make sure RF pogo pin keeps signals stable and reduces socket loss during high-frequency and high-speed transmissions. Each RF pogo pin is rigorously tested and simulated for great interference resistance and reliability, perfect for all sorts of tough situations.

2. How does Johoty ensure high consistency and quality control in manufacturing RF pogo pin?
We use top-notch automated production lines and precision gear, plus strict quality checks to finished RF pogo pin from material purchase. Built on an ISO 9001 quality management base, every RF pogo pin meets your high demands for stable quality and performance.

3. How well does the RF pogo pin perform with temperature changes and long-term use?
Crafted for stability across a wide range of temperatures, our RF pogo pin is also super durable with a long lifespan. Whether it’s extreme conditions or long hours of use, count on RF pogo pin to keep performing reliably and keep your gear running smoothly.

4. How do you handle custom orders effectively?
We’re experts in customizing RF pogo pin to fit your needs in size, shape, and electrical features. We work closely with you and our tech support team to ensure your customized RF pogo pin matchs your exact application requirements, giving you top-notch performance and cost-effectiveness.

5. What environmental efforts does Johoty take?
We’re committed to sustainable, eco-friendly production. By optimizing our various production processes and just using eco-friendly materials, we cut down on resource use and waste. Our production meets international eco standards, aligning with global environmental goals, offering you eco-friendly, high-performance RF pogo pin at competitive prices.

6. What after-sales support does Johoty offer after ordering RF pogo pin?
We’ve got you covered with comprehensive after-sales support, including tech advice, RF pogo pin training, and quick response services. Whether it’s setup, rapid troubleshooting, or maintenance, Our CFT team is here to make sure your gear stays efficient and effective.