2-5332070-1

AMP2-5332070-1
Heilind Number:AMP2-5332070-1
Manufacturer:TE Connectivity
Manufacturer Number:2-5332070-1
Datasheet:Datasheet
ECAD Model:
3D Model

Description:

SOCKET,MIN-SPR SN-AU SER-4

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Specifications

AttributeValue
Product Category:
Transistor & Discrete Component Sockets Discrete Sockets
Manufacturer:TE Connectivity
Manufacturer Part Number:TE Connectivity 2-5332070-1
Termination Method:Through Hole - Press-Fit
Contact Material:Beryllium Copper
Contact Type:Socket
Socket Type:Discrete
Hole Size:.072 in, 1.83 mm
Cable Type:Discrete Wire
Contact Amperage:7.5 A
GPL:377
Profile:Zero
Packaging:Bag, Loose Piece
Operating Temperature Range:-65 - 125 °C, -85 - 257 °F
Circuit Application:Power & Signal
PCB Thickness (Recommended):.031 - .125 in, .79 - 3.18 mm
Sealable:No
GPL Description:Data and Devices
Connector and Contact Terminate To:Printed Circuit Board
Product Code:3076
Wire Size:19 - 20 AWG, .518 - .653 mm²
Contact Transmits:Signal/Power
Pin Diameter Accepted:.034 - .037 in, .86 - .94 mm
Connector System:Cable-to-Board
ECCN:EAR99
Spring Material:Beryllium Copper
Socket Length:.143 in, 3.63 mm
Sleeve Material:Copper
Sleeve Plating:Tin
Sealant:No
Contact Spring Plating Material:Gold
Sleeve Style:Closed Bottom
Insertion Method:Hand/Semi-Automatic
Part Aliases:2-5332070-1
SKU:AMP2-5332070-1

Detailed Description

Introducing the 2-5332070-1, a high-performance SOCKET designed for demanding applications in Power & Signal circuitry. This rugged through-hole Press-Fit termination socket features a durable Beryllium Copper contact for reliable conductivity. With a contact amperage rating of 7.5 A, it is suitable for use with 19-20 AWG Discrete Wire cables. The Gold-plated contact spring ensures excellent signal and power transmission, while the Tin-plated Copper sleeve offers added durability. Operating in a wide temperature range from -65 to 125 °C, this RoHS-compliant socket is perfect for industrial and commercial use. Trust in the 2-5332070-1 for secure and efficient cable-to-board connections in your electronic systems.