couplers

Couplers are passive Radio Frequency (RF) components that split or sample a signal with controlled coupling and isolation, keeping most power on the main path while diverting a defined portion for measurement or combining. They protect instruments, steady feedback loops, and help engineers verify performance without interrupting the signal under test. That's why couplers are standard in wireless, test benches, and high-reliability links. Online Components backs that work with reliable stock, U.S.-based shipping, and an authorized supply chain that keeps projects moving.

Our selection spans RF and microwave couplers: directional couplers, hybrid couplers, and resistive or transformer designs in chassis mount surface-mount, coaxial, and waveguide formats. Key specifications include frequency range in gigahertz (GHz), characteristic impedance at 50 ohms or 75 ohms, coupling factor in decibels (dB), directivity, insertion loss, isolation, power handling, and return loss or Voltage Standing Wave Ratio (VSWR). You can also sort by package size and mounting, or choose connectorized options such as SubMiniature version A (SMA) and Type N. From tight-tolerance taps to high-power and ultra-wideband parts, you'll find couplers for prototypes and rugged field systems. 

How to Choose the Right Couplers

Start with band coverage and margin: pick a device that spans your lowest to highest tones with headroom for harmonics and future revisions. Match the coupling factor to the task. Values near 6–10 dB suit power leveling, while 20–30 dB taps favor spectrum sampling with minimal disturbance to the through line. Prioritize directivity and isolation when measuring reflections, then balance insertion loss and power handling against thermal limits and detector sensitivity. Packaging, connector style, and mechanical footprint round out the decision for your layout and assembly flow.

Popular Applications for Couplers

Purchasers, technicians, and RF engineers use couplers anywhere signals need precise sampling or combining. Wireless infrastructure uses them for antenna monitoring, power control, and feedback in repeaters and base stations. Test and measurement labs sample high-power stages while protecting analyzers and improving repeatability across long runs. Aerospace and defense programs integrate couplers in telemetry chains and phased arrays, while industrial gateways and Internet of Things (IoT) nodes track amplifier health and stabilize matches in harsh environments. 

Why Buy Couplers from Online Components?

You get U.S.-based inventory with fast shipping, supplier authentication that protects your build, and clear specifications for quick comparison. The catalog is easy to search, checkout is smooth, and responsive customer service helps with alternates when a small spec shift removes a roadblock. Keep your schedule intact.

Couplers: What You Need to Know

What does directivity mean in a coupler?

Directivity describes how well the coupler separates forward from reverse energy; higher figures reduce error when monitoring reflections or main-line power.

How does coupling factor affect measurement?

The coupling value in decibels is the ratio of sampled power to through-line power. A 20 dB coupler samples one hundredth of the power, protecting instruments while preserving the main path.

Hybrid coupler vs. directional coupler: what's the difference?

A hybrid coupler splits or combines signals with a defined phase relationship for balanced amplifiers and antenna networks. A directional coupler taps a single line with a set coupling value; phase control isn't the focus.

What causes poor return loss or high VSWR in a coupler?

Impedance mismatches, layout errors, or pushing frequency beyond the rated band create reflections. Solid grounding, short RF paths, and correct connector torque keep measurements trustworthy.