Customized RF
Switches Design

Custom RF Switches Built for Your Application

Our customized RF switch design service addresses the complexities of applications where standard off-the-shelf products fall short of your system, test configuration, or performance requirements. 

RF switch performance is highly sensitive to layout, impedance control, connector selection, isolation, insertion loss, linearity, and thermal management. Inadequate design or validation can lead to signal degradation, poor isolation, or inconsistent switching that is often only discovered during final system integration. 

RF Station provides comprehensive design consultation, covering requirement definition, CAD design, simulation, and validation testing to mitigate these risks and ensure reliable performance. 

When Would You Need This

  • Develop an RF switch for a specific frequency range or test setup
  • Customize port configuration based on system requirements
  • Improve isolation, insertion loss or signal stability
  • Support higher power handling or specific switching speed requirements
  • Design RF switches for automated testing or measurement systems
  • Replace standard switch products that do not fit your application
  • Validate RF switch performance through simulation and testing
  • Reduce trial-and-error during RF switch development

Applications

  • RF measurement systems
  • Automated test equipment
  • Antenna testing systems
  • EMC and RF test setups
  • Laboratory switching networks
  • Multi-port RF routing systems
  • Production testing systems
  • Communication and wireless test platforms
  • Custom RF signal routing applications

Our Approach

Inputs
We begin by reviewing the applicable standards, customer needs and application environment. This includes understanding the required frequency range, port configuration, power handling, switching speed, connector type and system integration requirements.
Requirement Definition
The technical requirements are defined, including frequency range, power handling, switching speed, port configuration and expected RF performance. This step ensures the switch design is aligned with the intended application and operating condition.
CAD Design
The RF switch layout, schematic and mechanical arrangement are developed. This may include driver circuitry, connector placement, RF path planning and layout considerations to support stable and repeatable switching performance.
Simulation & Analysis
The design is analyzed to evaluate key RF parameters such as S-parameters, insertion loss, isolation and linearity. Simulation helps identify performance risks early and supports design improvement before prototype development.
Optimization
The layout and design parameters are refined to improve RF performance, thermal stability and long-term reliability. This step helps reduce signal degradation, improve switching consistency and support robust operation under real use conditions.
Validation & Testing
A prototype is built and tested using RF measurement methods such as VNA and load testing. Switching performance is validated to confirm that the design meets the required specifications.
Outputs
The final output may include a high-performance RF switch, accurate switching performance, reliable operation and a scalable design that can be adapted for future requirements.

What We Support

Our service may include:

  • RF switch requirement review
  • Frequency range and port configuration definition
  • RF layout and schematic design
  • Driver circuitry design support
  • S-parameter simulation and analysis
  • Insertion loss evaluation
  • Isolation performance analysis
  • Linearity check
  • Thermal stability review
  • Layout tuning and optimization
  • Prototype development support
  • VNA and RF performance testing
  • Switching validation
  • Reliability design recommendations

Our Commitment to Excellence

Speed Like Never Before
Place order today, test tomorrow, ship the next day; it's really that fast.
Avoiding Logistics Issues
Logistic nightmare; exorbitant cost, time-consuming, and potential malfunction
Engineer Availability & Mobility
Engineer availability; mobility within the factory, this is efficient
Advanced Technology Integration
Advanced tech, seamless performance; optimize today, succeed tomorrow
Education & Transparency
Education and witness; for the first time you can now see how it is done.

Related Services

We start with the end in mind, together with qualitative and quantitative data collection and analysis, we create a business strategy that ensure our clients achieve their goals and experience measurable values.

Not sure where to start?

Reach out to us and we’ll help you find the best fit for your project.