OEM Customized Auto Female Fakra for GPS Antenna FM Radio Satellite Transmission Fakra Antenna
Technical Details
FAKRA stands for FAchKReis Automobil. FAKRA has become a widely adopted RF connector standard in the automotive industry and is extensively used in the sector.Automotive manufacturers are increasingly designing safety and vehicle connectivity applications based on high frequency data connections. These include cameras, sensors and antennas that require real-time data transmission where safety is the number one priority. Enabling RF performance up to 6 GHz, TE Connectivity’s FAKRA coaxial connectors offer high performance as well as increased levels of robustness for harsh automotive environments. In addition, the portfolio includes simplified stamped and formed terminals that offer lower mating forces and increased automotive robustness as well as readiness for fully automated cable assembly that can significantly increase efficiency of cable processing and reduce production costs. SINRUI Advantage is that the product of our production is upgraded mainly processed through stamping (although some industries also use stretching methods), making it more suitable for fully automated production. So that we have a better lead-time, better cost while keeping its performance and quality;
Product Name: OEM Customized Auto Female Fakra for GPS Antenna FM Radio Satellite Transmission Fakra Antenna
Series of Fakra and Mini Fakra Products of pictures for reference, welcome to contact us for more options:
- Design Objectives and Requirement Analysis
- High-frequency performance: Ensure the connector’s signal transmission stability in high-frequency applications (such as in-vehicle communications, radar, satellite communications, etc.), with low insertion loss and high isolation.
- Vibration and durability: Automotive environments demand high vibration and shock resistance, so the connector must withstand prolonged mechanical stress.
- Locking mechanism: Ensure the connector locks securely after installation, preventing accidental disconnection, while also ensuring ease of operation.
- Environmental adaptability: The connector should withstand extreme temperatures, humidity, ultraviolet radiation, and other environmental conditions, especially when used in automotive external environments.
- Mechanical Design
- Shell material: Use high-strength, corrosion-resistant materials (such as gold-plated alloys or engineering plastics) to ensure long-term mechanical strength and adaptability to complex environmental conditions.
- Insertion/removal cycles: Design the connector to support at least 1000 insertion/removal cycles, particularly in environments with frequent plugging/unplugging, like automobiles.
- Waterproof and dustproof design: Adhere to IP67 or higher standards for waterproofing and dustproofing, ensuring the connector can resist harsh external conditions.
- Connection method: The connector can be designed with a snap-lock or rotary locking mechanism to provide robust mechanical locking, preventing loosening or disconnection during use.
- Electrical Performance Design
- Signal transmission quality: Select suitable transmission media (such as low-loss dielectric materials) to ensure stable transmission of high-frequency signals and reduce signal attenuation.
- Impedance matching: Design versions with standard impedance (50Ω, 75Ω) to ensure signal integrity and avoid reflection losses.
- Shielding: Incorporate shielding to reduce electromagnetic interference (EMI), preventing signal disruption and improving signal clarity.
- Contact reliability: Use highly corrosion-resistant materials for metal contact points (such as gold or silver plating) to improve the stability of electrical contacts.
- Environmental Adaptability
- Temperature range: Design the connector to operate in a temperature range from -40°C to +105°C, meeting the requirements of automotive electronics and other industrial applications.
- UV resistance: Use UV-resistant plastic materials for the shell to ensure the connector does not degrade or become brittle after prolonged exposure to sunlight.
- Chemical corrosion resistance: Materials should be resistant to chemical substances (such as salt mist, acids, etc.) to ensure the connector can withstand harsh environments without damage.
- Size and Specifications
- Compact design: Due to space constraints, the connector should be designed to be as compact as possible, minimizing space usage, and be suitable for automotive or communication devices.
- Modular design: Offer modular solutions to accommodate various needs (e.g., different frequencies or different types of receptacles), making it easier for customers to select the appropriate connector.
- Diverse connection types: Design multiple connection options, such as straight or angled inserts, to meet different wiring requirements.
- Manufacturing and Testing
- Manufacturing processes: Use advanced injection molding, stamping, and assembly processes to ensure the precision and consistency of the connector.
- Quality control: Perform rigorous electrical, mechanical strength, and environmental tests (e.g., salt mist tests, thermal cycling tests) to ensure each connector meets the required standards.
- Application Scenarios
- Automotive applications: In-vehicle wireless communication, radar systems, GPS receivers, in-car cameras, etc.
- Communication devices: Base stations, satellite receiving devices, wireless network equipment, etc.
- Industrial equipment: Industrial control systems, automation equipment, testing instruments, etc.
- Innovative Features
- Smart locking system: Design an integrated smart locking mechanism that supports quick connection and provides electrical feedback on the locking status for added security.
- Quick-installation design: To simplify the installation process, design a tool-free, quick-plug connector.
This is a conceptual design for a Fakra connector solution, and specific implementation will need to be adjusted and optimized based on actual application requirements. If you have specific needs or directions, further details can be fine-tuned.
Custom OEM Service: We have standard products, but also provide OEM service for size, shape, structure, material type, electronic parameter request, etc. Factory was equipped with a complete set of necessary testers, including but not limited: network analyzer, contact resistance tester, high voltage withstanding tester, insulation resistance tester, etc. Let us know your OEM requirement, and we will provide you solution and offer within 48 Hours.
Minimum Order Quantity: We did not have any MOQ request, even if you only order 1pcs sample for test or evaluation, we can also provide the products. For high volumn order, our facilities can afford monthly 1000K products.
Quality Assurance: 1. All parts are machined by automatic lathes machining, its production is standard with high consistency. 2. All assemblies are with <Procedure Follow Chart>, and every work station will have IPQC. Finally tested by FQC. 3. We are a direct factory with ISO9001:2015 Quality Management Standard Certificate, and we implement the standard; 4. All goods will be 100% tested by electronics test and visual test before out-going shipment. With the above operation, we will try our best to make sure the goods delivered to customer are qualified and per Data sheet.
Samples Request: We normally provide free samples 2~5 pcs of standard products in stock, and the Buyer will only need to cover the international freight. For OEM products we also provide the sampling service while the Buyer pay for necessary & reasonable sampling cost. We normally use DHL, FeDEx, and UPS to ship samples which will take within 3~7 days(detailed per Buyer location address).
Leadtime: Our leadtime is normally 3 weeks. If OEM product, it will be 4 weeks. For high volume order, if there is forecast communication and agreement, we will prepare material so that leadtime can be 1 week.
How to Pay: We accept PayPal, Bank transfer, Pingpong, etc.
Additional Informations
Gallery
Technical Details
FAKRA stands for FAchKReis Automobil. FAKRA has become a widely adopted RF connector standard in the automotive industry and is extensively used in the sector.Automotive manufacturers are increasingly designing safety and vehicle connectivity applications based on high frequency data connections. These include cameras, sensors and antennas that require real-time data transmission where safety is the number one priority. Enabling RF performance up to 6 GHz, TE Connectivity’s FAKRA coaxial connectors offer high performance as well as increased levels of robustness for harsh automotive environments. In addition, the portfolio includes simplified stamped and formed terminals that offer lower mating forces and increased automotive robustness as well as readiness for fully automated cable assembly that can significantly increase efficiency of cable processing and reduce production costs. SINRUI Advantage is that the product of our production is upgraded mainly processed through stamping (although some industries also use stretching methods), making it more suitable for fully automated production. So that we have a better lead-time, better cost while keeping its performance and quality;
Product Name: OEM Customized Auto Female Fakra for GPS Antenna FM Radio Satellite Transmission Fakra Antenna
Series of Fakra and Mini Fakra Products of pictures for reference, welcome to contact us for more options:
- Design Objectives and Requirement Analysis
- High-frequency performance: Ensure the connector’s signal transmission stability in high-frequency applications (such as in-vehicle communications, radar, satellite communications, etc.), with low insertion loss and high isolation.
- Vibration and durability: Automotive environments demand high vibration and shock resistance, so the connector must withstand prolonged mechanical stress.
- Locking mechanism: Ensure the connector locks securely after installation, preventing accidental disconnection, while also ensuring ease of operation.
- Environmental adaptability: The connector should withstand extreme temperatures, humidity, ultraviolet radiation, and other environmental conditions, especially when used in automotive external environments.
- Mechanical Design
- Shell material: Use high-strength, corrosion-resistant materials (such as gold-plated alloys or engineering plastics) to ensure long-term mechanical strength and adaptability to complex environmental conditions.
- Insertion/removal cycles: Design the connector to support at least 1000 insertion/removal cycles, particularly in environments with frequent plugging/unplugging, like automobiles.
- Waterproof and dustproof design: Adhere to IP67 or higher standards for waterproofing and dustproofing, ensuring the connector can resist harsh external conditions.
- Connection method: The connector can be designed with a snap-lock or rotary locking mechanism to provide robust mechanical locking, preventing loosening or disconnection during use.
- Electrical Performance Design
- Signal transmission quality: Select suitable transmission media (such as low-loss dielectric materials) to ensure stable transmission of high-frequency signals and reduce signal attenuation.
- Impedance matching: Design versions with standard impedance (50Ω, 75Ω) to ensure signal integrity and avoid reflection losses.
- Shielding: Incorporate shielding to reduce electromagnetic interference (EMI), preventing signal disruption and improving signal clarity.
- Contact reliability: Use highly corrosion-resistant materials for metal contact points (such as gold or silver plating) to improve the stability of electrical contacts.
- Environmental Adaptability
- Temperature range: Design the connector to operate in a temperature range from -40°C to +105°C, meeting the requirements of automotive electronics and other industrial applications.
- UV resistance: Use UV-resistant plastic materials for the shell to ensure the connector does not degrade or become brittle after prolonged exposure to sunlight.
- Chemical corrosion resistance: Materials should be resistant to chemical substances (such as salt mist, acids, etc.) to ensure the connector can withstand harsh environments without damage.
- Size and Specifications
- Compact design: Due to space constraints, the connector should be designed to be as compact as possible, minimizing space usage, and be suitable for automotive or communication devices.
- Modular design: Offer modular solutions to accommodate various needs (e.g., different frequencies or different types of receptacles), making it easier for customers to select the appropriate connector.
- Diverse connection types: Design multiple connection options, such as straight or angled inserts, to meet different wiring requirements.
- Manufacturing and Testing
- Manufacturing processes: Use advanced injection molding, stamping, and assembly processes to ensure the precision and consistency of the connector.
- Quality control: Perform rigorous electrical, mechanical strength, and environmental tests (e.g., salt mist tests, thermal cycling tests) to ensure each connector meets the required standards.
- Application Scenarios
- Automotive applications: In-vehicle wireless communication, radar systems, GPS receivers, in-car cameras, etc.
- Communication devices: Base stations, satellite receiving devices, wireless network equipment, etc.
- Industrial equipment: Industrial control systems, automation equipment, testing instruments, etc.
- Innovative Features
- Smart locking system: Design an integrated smart locking mechanism that supports quick connection and provides electrical feedback on the locking status for added security.
- Quick-installation design: To simplify the installation process, design a tool-free, quick-plug connector.
This is a conceptual design for a Fakra connector solution, and specific implementation will need to be adjusted and optimized based on actual application requirements. If you have specific needs or directions, further details can be fine-tuned.
Custom OEM Service: We have standard products, but also provide OEM service for size, shape, structure, material type, electronic parameter request, etc. Factory was equipped with a complete set of necessary testers, including but not limited: network analyzer, contact resistance tester, high voltage withstanding tester, insulation resistance tester, etc. Let us know your OEM requirement, and we will provide you solution and offer within 48 Hours.
Minimum Order Quantity: We did not have any MOQ request, even if you only order 1pcs sample for test or evaluation, we can also provide the products. For high volumn order, our facilities can afford monthly 1000K products.
Quality Assurance: 1. All parts are machined by automatic lathes machining, its production is standard with high consistency. 2. All assemblies are with <Procedure Follow Chart>, and every work station will have IPQC. Finally tested by FQC. 3. We are a direct factory with ISO9001:2015 Quality Management Standard Certificate, and we implement the standard; 4. All goods will be 100% tested by electronics test and visual test before out-going shipment. With the above operation, we will try our best to make sure the goods delivered to customer are qualified and per Data sheet.
Samples Request: We normally provide free samples 2~5 pcs of standard products in stock, and the Buyer will only need to cover the international freight. For OEM products we also provide the sampling service while the Buyer pay for necessary & reasonable sampling cost. We normally use DHL, FeDEx, and UPS to ship samples which will take within 3~7 days(detailed per Buyer location address).
Leadtime: Our leadtime is normally 3 weeks. If OEM product, it will be 4 weeks. For high volume order, if there is forecast communication and agreement, we will prepare material so that leadtime can be 1 week.
How to Pay: We accept PayPal, Bank transfer, Pingpong, etc.