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Incoterm:EXW
Min. Order:5000 Piece/Pieces
Transportation:Ocean,Land,Air,Express
$0.99≥5000Piece/Pieces
Place Of Origin: China
Transportation: Ocean,Land,Air,Express
Payment Type: L/C,T/T,D/P,D/A,Paypal
Incoterm: EXW
Versatile Dual-row Female PIN Connections In Electronics
2.0mm Pitch Female Connector-2.0x4.3 Dual Row Centipede Pin
Specification Description:
Product Model:Pitch 2.0mm Row mother 2.0x4.3 Double row centipede feet
Plastic height: 4.3mm
pin position: 2*2P~2*40P
Material:
Terminal material: phosphorus copper
Plating of terminal: gold plated on nickel base
Plastic material: PA6T,UL94V-0
Plastic colour: black
Electrical Characteristics:
Rated current: 2.0 Amp
Contact impedance: 20mΩ Max
Insulation Resistance: 3000MΩ Min @ 500V DC
Withstanding Voltage: 500V AC/1min
Mechanical Characteristics:
Operating temperature: -40°C to +105°C
Soldering temperature: 260+/-5°C, time: 5+/-0.5 sec
Solderability: More than 90% of soldered area @ Temperature: 230+/-5°C, Time: 3+/-0.5sec
The 2.0mm Pitch Female Connector, specifically the 2.0x4.3 Dual Row Centipede Pin, is a versatile component in electronics and PCB (Printed Circuit Board) design. This connector features a 2.0mm pitch, indicating the distance between the pins, which is ideal for applications where precision and compactness are crucial. The "2.0x4.3" specification signifies that it has a width of 2.0mm and a height of 4.3mm. The Dual Row Centipede Pin design consists of two parallel rows of pins, which allows for a higher density of connections. This makes it suitable for complex electronic devices and PCBs where multiple signals or power connections are needed. These Connectors are commonly used in various electronics, including computer motherboards, expansion cards, and industrial control systems. They provide a reliable and secure means of connecting various components and circuits within electronic systems. The dual-row design significantly increases the connector's versatility and capacity, making it an essential component for modern electronics, where space efficiency and signal integrity are paramount.