Product Introduction

The Compact Push-Pull Self-Locking Connector is engineered for electronic systems where space optimization and interface density are key design priorities. As modern devices continue to shrink while functionality expands, connection interfaces must deliver reliable performance without occupying excessive space or complicating internal layouts.

This connector adopts a miniaturized push-pull self-locking structure, allowing secure engagement within a reduced envelope. By eliminating threaded coupling and oversized housings, it supports tighter component placement and cleaner system architecture while maintaining dependable electrical contact.

Developed as part of the connector solution platform of YFS Technology (SZ) Co., Ltd., this product focuses on efficient space utilization, layout flexibility, and integration convenience, making it suitable for compact and multi-interface electronic systems.

Product Features

Miniaturized Connector Profile

Reduced outer diameter supports compact system layouts

Optimized internal structure balances size and mechanical strength

Enables higher connector density on panels or PCBs

Push-Pull Self-Locking Interface

Simple axial push ensures secure engagement

Self-locking mechanism eliminates the need for rotation

Supports fast connection in confined installation spaces

High-Density Contact Arrangement

Designed to accommodate multiple contacts within a small footprint

Maintains stable electrical separation between contacts

Supports mixed signal or low-to-moderate power transmission

Clean Cable Management Compatibility

Compact rear termination supports tight cable routing

Helps reduce internal congestion in small enclosures

Improves overall system organization and airflow

Integration-Oriented Design

Suitable for embedded and modular system architectures

Compatible with panel-mounted and cable-mounted configurations

Supports scalable interface planning during system design

Product Advantages

Maximized Space Efficiency

By minimizing connector size without sacrificing locking reliability, this product allows engineers to allocate more space to functional components.

Improved Interface Density

Compact geometry supports higher numbers of connection points, helping designers meet growing interface demands within limited space.

Simplified Mechanical Layout

The axial push-pull mechanism avoids clearance requirements associated with threaded connectors, enabling cleaner mechanical designs.

Faster Assembly in Confined Areas

Quick engagement reduces installation complexity, especially in enclosed or hard-to-reach locations.

Flexible System Design

Engineers can adapt connector placement more freely, supporting iterative design and modular expansion.

Product Applications

The Compact Push-Pull Self-Locking Connector is ideal for systems where space-saving and interface density are essential, such as:

Portable electronic equipment

Compact medical devices

Embedded industrial controllers

Multi-interface communication modules

Measurement and sensing instruments

Lightweight electronic platforms

Its design supports environments where every millimeter of space matters while still requiring reliable connection performance.

Design Considerations

When selecting compact push-pull connectors, engineers often focus on:

Connector footprint versus contact capacity

Clearance requirements during installation

Cable routing and strain relief within small enclosures

Mechanical reliability under frequent handling

Electrical stability in dense layouts

This connector addresses these concerns by combining miniaturization with controlled locking behavior.

Frequently Asked Questions (FAQ)

Q1: How does a compact push-pull connector differ from standard-sized versions?
It offers a reduced physical size while maintaining self-locking functionality, enabling higher interface density.

Q2: Does smaller size affect locking reliability?
No. The locking structure is optimized to provide secure engagement despite the compact form factor.

Q3: Is this connector suitable for dense panel layouts?
Yes. Its small footprint allows closer spacing between adjacent connectors.

Q4: Can it be used in enclosed or hard-to-access areas?
The push-pull mechanism is especially suitable for confined spaces where rotation is not practical.

Q5: What should be evaluated before selection?
Space constraints, contact requirements, installation access, and system layout should all be considered.