Modular Pulsed System
Managing electrical pulses with precision and flexibility is essential for advanced applications. Whether for component testing, RF applications, or quantum research, having a scalable and modular approach ensures seamless adaptation to evolving requirements.
Precision & Scalability in Pulse Control
A customizable pulsed system provides high-performance pulse generation and precise signal control, enabling efficient operation across multiple industries.
Challenges in pulse systems
Maintaining precision at high speeds
As pulse widths decrease, controlling timing with accuracy becomes increasingly complex. Generating pulses as short as 1 µs requires a fast and responsive system that doesn’t compromise on signal quality.
Managing multiple channels without complexity
Scaling up a test bench often means adding new channels, new equipment, and more configuration steps. Without a modular approach, this quickly leads to cluttered setups and a lack of consistency across test points.
Ensuring seamless integration
A pulse system must integrate smoothly into your existing setup — whether you’re working with automated software, lab equipment, or custom protocols. Poor compatibility can slow down testing cycles and increase error risks.
Avoiding transients and power disruptions
Signal stability is non-negotiable, especially when working with sensitive components. Sudden switching, inconsistent power delivery, or uncontrolled transients can invalidate your results or even damage devices under test.
Key Tips for an Effective Test Bench
Real-time monitoring enables continuous tracking of temperature, voltage, and current using advanced software, allowing for immediate detection of anomalies during testing. Accurate voltage and current control, with systems supporting up to 1500V drain voltage and ±15V gate voltage, ensures reliable stress testing across a variety of components. Scalable multi-channel configurations allow modular systems to test multiple devices simultaneously under identical conditions, enhancing efficiency. Additionally, automated data handling streamlines the process by enabling automated acquisition and export of test data, simplifying post-test analysis and reporting.
Solutions for reliable testing
A scalable, modular architecture
The Modular Pulsed System features a flexible chassis that can be configured with multiple slots depending on your requirements. It is available in both desktop and rack-mountable formats and supports a wide range of power options, from low-power lab applications to high-power industrial testing. This modularity ensures you can scale your setup without redesigning your entire bench.
High-performance pulse generation and signal control
Engineered for speed and precision, the system delivers pulse widths starting at 1 µs, with a timing accuracy of 20 ns. It supports multi-quadrant operation, handling both DC and pulsed signals with stable performance. Voltage and current are measured in real time, allowing precise monitoring throughout the pulse cycle. Switching is completely transient-free, ensuring reliable and repeatable test conditions.
Smart integration and automation
The system offers native Ethernet and USB interfaces for easy integration into existing infrastructures. It supports SCPI commands, making it fully compatible with standard test automation environments. The included graphical interface simplifies configuration, enabling users to intuitively adjust pulse parameters and monitor performance.
External synchronization and trigger management
Designed for synchronization in complex test setups, the system features external trigger inputs and outputs. This makes it easy to coordinate pulse generation with other instruments in your bench, ensuring real-time responsiveness and efficient sequencing.
Below are different possible configurations:
Designed for engineers who require performance and flexibility, the Modular Pulsed System offers a complete solution for scalable, high-precision pulse control. It adapts to a wide range of use cases—from semiconductor and quantum research to RF testing and high-voltage switching. By combining speed, accuracy, and easy integration, it enables more efficient testing workflows and greater reliability in complex environments. Whether you’re expanding your capabilities or building a new test bench from scratch, this modular approach helps you stay in control, now and in the future.