173112-0036
FCT High Power Contact, Male, Straight, Crimp, 0.10µm Gold over Nickel Phosphorus Plating, 8-10 AWG
Part Aliases: Molex 1731120036 Molex FMP004P204
Experience enhanced power connectivity with our FCT High Power Contact. Designed for high-performance applications, this male contact features a straight orientation and secure crimp termination method, ensuring reliable connections. With 0.10µm Gold over Nickel Phosphorus plating, it offers optimal conductivity and durability. Suitable for use with 8-10 AWG wires, this contact can handle up to 40A of current, making it ideal for power-intensive systems. Operating seamlessly in temperatures ranging from -55 to 155 °C, it guarantees consistent performance in diverse environments. Boasting a mating cycle of 200, this contact is built to last. Part of our FCT Products line, it complies with RoHS standards, meeting environmental requirements without compromising on quality. Upgrade your connectivity solutions with this high-power contact for unparalleled performance.
Product Category: | |
Manufacturer: | Molex |
Manufacturer Part Number: | Molex 173112-0036 |
Series: | 173112 |
Amperage: | 40 A |
Gender: | Male |
Termination Method: | Crimp |
Contact Material: | Copper Alloy |
Contact Plating: | Gold over Nickel Phosphorus |
Contact Type: | High Power |
Orientation: | Straight |
Operating Temperature Range: | -55 - 155 °C |
Contact Mating Area Plating Thickness: | .1 µm |
Mating Cycles: | 200 |
Type: | Mixed Layout |
Contact Termination Plating Thickness: | .2 µm |
Wire Size: | 10 AWG, 8 AWG |
Retainer Clip Material: | Copper Alloy |
Product Name: | FCT Products |
Part Aliases: | 1731120036 FMP004P204 |
SKU: | MOL173112-0036 |
Environmental Initiative Details
Environmental Initiative: | RoHS |
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Compliant: | Unknown |
Date of this Information: | Unknown |
Notes: |
Product Change Notice
Effective Date | Description of Change | Download |
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07/15/2023 | 513774 - Packaging Method/Quantity Changing. The purpose of the change is to align , commanise and make the MLQ and DU global. As a result there is DU change, however the Fit, Form and Function remains the same. The Reason for the change is a corrective action, in that to reduce the incoherence caused between DU and MLQ. The Change is implemented by standardizing the MLQ and DU. | Download |