Phoenix Contact GMSTB Series PCB Connector, 10-Contact, 7.62mm Pitch, Locking Jack, 1-Row, Screw Termination

Subtotal (1 pack of 50 units)*

£1,275.62

(exc. VAT)

£1,530.74

(inc. VAT)

Add to Basket
Select or type quantity
Temporarily out of stock
  • Shipping from 16 December 2025
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Pack(s)
Per Pack
Per unit*
1 +£1,275.62£25.512

*price indicative

RS Stock No.:
521-530
Mfr. Part No.:
1812830
Brand:
Phoenix Contact
Find similar products by selecting one or more attributes.
Select all

Brand

Phoenix Contact

Number of Contacts

10

Pitch

7.62mm

Number of Rows

1

Mounting Type

Locking Jack

Gender

Female

Termination Method

Screw

Series

GMSTB

COO (Country of Origin):
DE
The Phoenix Contact PCB connector offers a robust and efficient solution for connecting electronic circuits. Designed to fit into the GMSTB 2.5 HCV series, it combines high performance with flexibility, making it suitable for a variety of applications. The connector supports a nominal cross-section of 2.5 mm² and facilitates smooth electrical connections with a locking mechanism for reliability. With a focus on safety and operational efficacy, this connector is engineered for user-friendly installation and intuitive disconnection without compromising on performance. Its compact design ensures that it fits seamlessly into tight spaces, while maintaining impeccable standards of electrical integrity. The product is compliant with international standards, ensuring its global usability across different markets.

Designed to accommodate the connection of multiple conductors with ease
Features an automatic locking system for enhanced safety during operation
Constructed with durable materials that comply with environmental standards
Offers intuitive release mechanisms for effortless disconnection
Meets stringent safety standards with UL approvals for peace of mind
Integrated double steel spring for stability under fluctuating conditions
Lightweight construction ensures minimal impact on overall design

Related links