The 503095-2201 is a Micro-Latch Wire-to-Board Connector manufactured by Molex, LLC. This connector provides a secure and reliable connection in a compact design. It's part of the Micro-Latch series, which is known for its positive locking feature, preventing accidental disconnections in applications subject to vibration or movement. The 503095-2201 is designed for space-constrained applications that require high-density connections.

Applications

• Consumer Electronics
• Industrial Control Systems
• Medical Equipment
• Automotive Electronics
• Robotics
• Lighting Systems

Features

• Micro-Latch Connector System
• 22 Circuits
• Single Row
• Positive Locking
• 2.0mm Pitch
• Surface Mount Technology (SMT)
• Compact Design

Benefits

• Secure and Reliable Connection
• Prevents Accidental Disconnections
• High-Density Connection
• Space-Saving Design
• Easy Assembly
• Suitable for Automated Manufacturing
• Durable Construction

Additional Details

The Molex 503095-2201 Micro-Latch connector features 22 circuits in a single row, providing a high-density connection in a small footprint. The positive locking mechanism ensures a secure mating connection, preventing accidental disconnections due to vibration or other external forces. The 2.0mm pitch allows for a compact design while maintaining adequate spacing for signal integrity. The connector is designed for surface mount technology (SMT), which simplifies assembly and reduces manufacturing costs. The compact design makes it ideal for use in space-constrained applications such as handheld devices and portable equipment. This connector is commonly used in consumer electronics, industrial control systems, medical equipment, automotive electronics, and robotics. Its secure locking feature and compact size make it an excellent choice for demanding applications where reliability is critical. The design is optimized for automated manufacturing processes, ensuring consistent quality and reducing assembly time. This connector is designed to meet industry standards for performance and reliability.