Differential Probe System Configuration Form for PCB Testing
40 GHz, 50 GHz, 70 GHz and 110 GHz
- To help us configure the best differential or single-ended desktop probe system for your application, please download the questionnaire using the Download button below. Then answer the questions in the form by selecting Yes or No and entering specific values or other content as requested.
- Your answers will allow us to provide a budgetary quote that includes the appropriate probe(s) based on your required measurement bandwidth, as well as camera and probe positioners and horizontal or vertical PCB fixturing options.
- If you're unsure whether a differential probe is the right tool for your application, we recommend watching this 10-minute video: Differential Probe vs. Wafer Probe – Use Cases and Benefits. It explains the differences between the differential and single-ended probes and when to use each during the PCB development process.
- DVT Solutions holds two U.S. patents and pioneered the first true differential probes over 20 years ago, coinciding with the electronics industry's shift toward differential signaling for improved noise immunity and faster digital data rates. Our probes are designed for use with VNA or TDR systems to verify that PCB traces meet engineering specifications for impedance and S-parameter bandwidth. Accurate probe measurements on your assembled prototype board are essential for:
- Verifying your PCB simulation models,
- Confirming that your PCB vendor can reliably manufacture the design in production,
- Ensuring the board is ready for component assembly and high-speed functional testing.By validating the bare board early, you can catch design or manufacturing problems before assembly. If a trace fails functional testing after assembly, it can be difficult—and often costly—to determine whether the issue lies in the design or in the manufacturing process.
You may email the form to sales@gigaprobes.com and we will contact you to discuss any unanswered questions and/or schedule a web call.