Essential details
Quantity(pieces):100
MOQ:100
G.W:0.03 kg
Lead time:10 days
Size:L(25)*W(20)*H(15) cm
N.W:0.025 kg
Shipping:Express Delivery
Specification Number:4-1564407-1
Package Description:OPP+cardbox
Product Introduction
Proper usage part Item No:4-1564407-1
PINS and Sokets: 16 positions.
Few colors options are available
4-1564407-1 Auto Wire Harness Waterproof Male Female Plug 16 Pin Automotive Cable Connector.
Metrial:PBT/PA66 High-temperature resistance,chemical resistance,long term stability.
Protection against Water immersion: PI67.
Testing Certificate: ROHS
PINS and Sokets: 16 positions.
Few colors options are available
4-1564407-1 Auto Wire Harness Waterproof Male Female Plug 16 Pin Automotive Cable Connector.
Metrial:PBT/PA66 High-temperature resistance,chemical resistance,long term stability.
Protection against Water immersion: PI67.
Testing Certificate: ROHS
Q1: What is an automotive electrical connector?
A:An automotive electrical connector is a modular device designed to join electrical circuits together. It typically consists of a plug (male) and a socket (female) that house terminals (pins and sockets) which make the electrical contact. They are essential for transmitting power, signals, and data throughout the vehicle.
A:An automotive electrical connector is a modular device designed to join electrical circuits together. It typically consists of a plug (male) and a socket (female) that house terminals (pins and sockets) which make the electrical contact. They are essential for transmitting power, signals, and data throughout the vehicle.
Q2: Why are connectors so important in a modern vehicle?
A:Modern vehicles rely on complex electrical systems for everything from engine management and safety features (like ABS and airbags) to infotainment and comfort systems. Connectors ensure reliable, secure, and often sealed connections between thousands of components, allowing for modular assembly, easier servicing, and diagnostics.
A:Modern vehicles rely on complex electrical systems for everything from engine management and safety features (like ABS and airbags) to infotainment and comfort systems. Connectors ensure reliable, secure, and often sealed connections between thousands of components, allowing for modular assembly, easier servicing, and diagnostics.
Q3: What are the most common causes of connector failure?
A:The most frequent issues include:
A:The most frequent issues include:
• Corrosion: Moisture intrusion leads to oxidized terminals, increasing resistance and causing voltage drops or open circuits.
• Vibration: Constant shaking can loosen terminals, damage locking mechanisms, or cause fretting corrosion (micro-movements that wear out the contact surface).
• Thermal Cycling: Repeated expansion and contraction from heat and cold can stress the connector housing and terminals, leading to cracks or loose connections.
• Pin Fit Issues: Worn-out or bent pins/sockets result in poor electrical contact.
• Chemical Contamination: Exposure to oils, fuels, or cleaning solvents can degrade plastic housings or seals.
• Vibration: Constant shaking can loosen terminals, damage locking mechanisms, or cause fretting corrosion (micro-movements that wear out the contact surface).
• Thermal Cycling: Repeated expansion and contraction from heat and cold can stress the connector housing and terminals, leading to cracks or loose connections.
• Pin Fit Issues: Worn-out or bent pins/sockets result in poor electrical contact.
• Chemical Contamination: Exposure to oils, fuels, or cleaning solvents can degrade plastic housings or seals.
Q4: How can I identify a faulty connector?
A:Look for these signs:
A:Look for these signs:
• Visual Signs: Corrosion (green/white powder), melted or cracked plastic housing, damaged seals, or bent pins.
• Performance Issues: Intermittent operation of a component (e.g., a sensor that works only when a wire is wiggled), flickering lights, or complete failure of a system.
• Diagnostic Clues: Unexplained diagnostic trouble codes (DTCs) related to a specific component can often point to a connector problem.
• Performance Issues: Intermittent operation of a component (e.g., a sensor that works only when a wire is wiggled), flickering lights, or complete failure of a system.
• Diagnostic Clues: Unexplained diagnostic trouble codes (DTCs) related to a specific component can often point to a connector problem.
Q5: What does "CPA," "TPA," and "Secondary Lock" mean?
A:These are critical features for connector integrity:
A:These are critical features for connector integrity:
• CPA (Connector Position Assurance): A small clip or latch that provides an audible "click" to confirm that the plug and socket are fully mated and locked together. It prevents accidental disconnection.
• TPA (Terminal Position Assurance): A separate component inside the connector that locks the individual wire terminals into their correct cavities. It ensures terminals cannot back out during mating or from vibration.
• TPA (Terminal Position Assurance): A separate component inside the connector that locks the individual wire terminals into their correct cavities. It ensures terminals cannot back out during mating or from vibration.
Q6: What is the difference between a sealed and an unsealed connector?
A:Sealed connectors have rubber grommets, seals, or gel-filled cavities to prevent moisture and contaminants from entering the electrical connection. They are used in exterior or under-hood applications (e.g., for lights, sensors). Unsealed connectors are typically used in the protected interior cabin environment.
A:Sealed connectors have rubber grommets, seals, or gel-filled cavities to prevent moisture and contaminants from entering the electrical connection. They are used in exterior or under-hood applications (e.g., for lights, sensors). Unsealed connectors are typically used in the protected interior cabin environment.
Q7: How do I properly disconnect a connector?
A:Never pull on the wires! Follow these steps:
A:Never pull on the wires! Follow these steps:
1. Release the CPA (if equipped) by moving its small lever or tab.
2. Press the primary locking tab on the connector housing. You should feel it release.
3. Pull the connector halves apart by gripping the housings firmly.
2. Press the primary locking tab on the connector housing. You should feel it release.
3. Pull the connector halves apart by gripping the housings firmly.
Q8: Can I repair a damaged automotive connector?
A:Yes, in many cases. Repairs fall into two categories:
A:Yes, in many cases. Repairs fall into two categories:
• Terminal Repair: Using the correct OEM-style crimping tool, you can depin a damaged terminal, cut the wire, and attach a new terminal with a new seal (if applicable). The terminal can then be re-inserted into the connector housing.
• Pigtail Repair: If the connector housing is destroyed, the best practice is to solder and seal (using heat-shrink tubing with adhesive) a new "pigtail" (a short wire lead with a new connector already attached) to the vehicle's existing wiring.
• Pigtail Repair: If the connector housing is destroyed, the best practice is to solder and seal (using heat-shrink tubing with adhesive) a new "pigtail" (a short wire lead with a new connector already attached) to the vehicle's existing wiring.
Q9: What tools do I need for working with connectors?
• Depinning Tool: A small, precise tool to release the terminal's locking tangs inside the housing for removal.
• Quality Crimping Tool: A ratcheting crimper designed for the specific terminal type to ensure a perfect gas-tight crimp every time.
• Multimeter: For testing for continuity, voltage, and resistance at the connector.
• Electrical Contact Cleaner & Dielectric Grease: For cleaning corrosion and protecting connections fro
• Quality Crimping Tool: A ratcheting crimper designed for the specific terminal type to ensure a perfect gas-tight crimp every time.
• Multimeter: For testing for continuity, voltage, and resistance at the connector.
• Electrical Contact Cleaner & Dielectric Grease: For cleaning corrosion and protecting connections fro