Discover the SMP-JYD5 Ultra-Small RF Connector: Ideal for High-Density Installations

The SMP-JYD5 Ultra-Small Blind-Mating RF Connector redefines connectivity in a compact package. Whether you’re in the world of wireless technology, military applications, or aerospace, this connector packs a punch. Its high-frequency performance—ranging from 0~40 GHz (semi-rigid) to 0~12.4 GHz (flexible cable)—ensures reliable signal transmission. But that’s not all. The SMP-JYD5 thrives in harsh environments, resisting vibrations and maintaining a secure connection. Plus, it’s forgiving when it comes to slight misalignments between printed boards, chassis, and cabinets—perfect for high-density installations. With 500 mating cycles under its belt, this connector is built to last.
Picture this: The SMP-JYD5 effortlessly bridges the gap between precision and ruggedness. Its impedance of 50 Ω ensures optimal signal integrity, while the VSWR (Voltage Standing Wave Ratio) remains impressively low. Whether you’re designing phased array radar systems or pushing the boundaries in civil communications, the SMP-JYD5 is your go-to connector. And when potential customers search the web, they’ll find our enticing meta description: “Compact SMP-JYD5 RF connector: High-frequency, rugged design. Explore now!” So dive into the world of ultra-small connectivity—where performance meets resilience—and discover the SMP-JYD5.

Key Features of the HUADA SMP-JYD5 Connector

The ZSMP-JYD5 connector likely operates over multiple wavelengths (e.g., CWDM channels) to achieve higher data rates. The specific wavelengths would be specified in the datasheet.
Optical Specifications: Transmitter Optical Specifications: Output power (average optical power) for each channel.
Modulation format (e.g., NRZ, PAM4).
Extinction ratio (ER) and eye diagram quality.
Side-mode suppression ratio (SMSR).
Receiver Optical Specifications: Sensitivity (minimum received optical power).
Receiver overload (maximum received optical power).
Receiver sensitivity at different bit error rates (BER).
Receiver sensitivity for different wavelengths.
Link Power Budget: The link power budget considers the total optical power budget available for the link. It accounts for transmitter power, receiver sensitivity, fiber losses, and connector losses.
Mechanical Dimensions: The physical dimensions of the connector, including length, width, and height.
Details about the connector housing, mating interface, and locking mechanism.
Operating Environment: Temperature range (operating and storage).

Technical Features Table: