The Hirose Electric Co Ltd W.FL2-R-SMT-1(74) is an ultra-small coaxial connector designed for surface mounting. This connector is part of the W.FL series known for its compact size and reliable performance in wireless communication applications. The (74) likely refers to a specific packaging or specification detail.

Applications

• Wireless LAN (WLAN) devices
• Bluetooth modules
• GPS receivers
• Mobile phones
• IoT (Internet of Things) devices
• Wireless communication modules

Features

• Ultra-small size for space-saving designs
• Surface mount technology (SMT) for automated assembly
• High-frequency performance for reliable signal transmission
• Secure connection for preventing signal loss
• RoHS compliant for environmental friendliness
• Durable construction for long-term reliability
• Halogen-free

Benefits

• Enables miniaturization of wireless devices
• Facilitates efficient assembly process
• Ensures reliable wireless communication
• Provides a secure and stable connection
• Reduces environmental impact
• Extends the lifespan of the device
• Compliant with industry standards

Additional Details

The W.FL2-R-SMT-1(74) connector typically features a gold-plated center contact and a robust outer shell to ensure optimal signal integrity and durability. It is designed to mate with Hirose's W.FL series cable assemblies. The surface mount design allows for easy integration into PCB layouts using standard SMT soldering techniques. The connector's compact size makes it suitable for applications where space is a premium. It is crucial to follow Hirose's recommended soldering profile and handling guidelines to ensure proper assembly and prevent damage to the connector. Detailed specifications, including frequency range, impedance, and VSWR (Voltage Standing Wave Ratio), can be found in the Hirose Electric Co Ltd datasheet for the W.FL2-R-SMT-1(74).

The mating height is very low, generally less than 3mm, allowing for use in very compact devices. The connectors are designed to withstand multiple mating cycles, ensuring a reliable connection over the lifespan of the product. Shielding is implemented to minimize EMI (electromagnetic interference) and RFI (radio frequency interference).