TE Connectivity, AMP-LATCH, 1-111494-8 20 Way Horizontal Male, Plug FPC Connector, IDC

Subtotal (1 tray of 7 units)*

£149.63

(exc. VAT)

£179.56

(inc. VAT)

Add to Basket
Select or type quantity
Temporarily out of stock
  • Shipping from 10 November 2025
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Tray(s)
Per Tray
Per unit*
1 +£149.63£21.376

*price indicative

RS Stock No.:
498-326
Mfr. Part No.:
1-111494-8
Brand:
TE Connectivity
Find similar products by selecting one or more attributes.
Select all

Brand

TE Connectivity

Number of Contacts

20

Contact Material

Phosphor Bronze

Mounting Type

Panel Mount

Gender

Male, Plug

Termination Type

IDC

Body Orientation

Horizontal

Series

AMP-LATCH

Series Number

1-111494-8

COO (Country of Origin):
CN
The TE Connectivity wire-to-wire connector is designed to meet the demanding needs of various applications such as signal transmission, panel mounting, and more. This connector features 20 positions arranged in a low-profile, two-row configuration, boasting a compact design that efficiently utilizes space without compromising performance. Its 2.54 mm centerline pitch simplifies wiring tasks while ensuring reliability and ease of use, making it an ideal choice for professionals seeking a robust and efficient interconnect solution. With its durable thermoplastic housing, compatible insulation diameter range, and advanced contact features, this connector assures impressive electrical characteristics suitable for high-performance applications. Furthermore, it complies with essential industry standards, providing peace of mind and confidence in its reliability and integrity.

Connector assembly for wire-to-wire applications
Low profile design enhances space efficiency
Shrouded header type offers extra contact protection
Keyed mating alignment ensures secure connections
Terminated to wire and cable for versatility in applications
Mounting ears facilitate easy panel installation
Operating temperature range suitable for diverse environments
High insulation resistance for optimal performance

Related links