TE Connectivity FASTON 250 Dark Grey Uninsulated Receptacle Spade Connector, Quick Disconnect Receptacle, 5.21 x 0.81mm

Subtotal (1 reel of 5000 units)*

£429.46

(exc. VAT)

£515.35

(inc. VAT)

Add to Basket
Select or type quantity
Temporarily out of stock
  • Shipping from 01 December 2025
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Reel(s)
Per Reel
Per unit*
1 +£429.46£0.086

*price indicative

RS Stock No.:
510-123
Mfr. Part No.:
42234-2
Brand:
TE Connectivity
Find similar products by selecting one or more attributes.
Select all

Brand

TE Connectivity

Type

Quick Disconnect Receptacle

Spade Connector Type

Quick Disconnect

Gender

Receptacle

Series

FASTON 250

Tab Width

5.21mm

Tab Thickness

0.81mm

Tab Size

5.21 x 0.81mm

Insulation

Uninsulated

Colour

Dark Grey

COO (Country of Origin):
US
The TE Connectivity Quick disconnect receptacle is expertly designed to meet the demands of modern connectivity applications. Featuring a robust construction ideal for a variety of wire sizes, it ensures reliable performance in challenging conditions. The receptacle accommodates wire sizes ranging from 20 to 14 AWG, providing versatility for different installations. Its tab width is precisely engineered to facilitate strong connections, while the brass base material guarantees durability and longevity. The inclusion of tin plating further enhances its performance by offering superior resistance against corrosion. Conveniently packaged in strips for easy handling, this product exemplifies quality and efficiency in electrical wiring solutions.

Designed for use with discrete wire for a secure fit
Features a low insertion force for ease of installation
Provides compatibility with a broad range of wire insulation diameters
Meets industry standards, ensuring reliable use in various applications
Contains low halogen content, contributing to environmentally friendly practices
Optimised for operational temperatures between -40 to 110 °C for diverse environments
Offers mechanical retention through an innovative dimple design

Related links