Keithley 4225-PMU Ultra-Fast I-V Module
Experience cutting-edge performance with the Keithley 4225-PMU Ultra-Fast I-V Module, meticulously designed for precise pulsing and transient measurements. This advanced module features two independent voltage sources capable of rapidly slewing voltage at an impressive rate of 1V/ns, all while simultaneously measuring both voltage and current, ensuring top-tier accuracy in your results.
When multiple Keithley 4225-PMU modules are incorporated into your setup, enjoy the benefit of internal synchronization with a remarkable timing precision of less than 3ns. This seamless integration allows for enhanced measurement capabilities, particularly when dealing with complex systems or rapid transient phenomena.
The Keithley 4225-PMU offers ultra-fast voltage waveform generation across its two integrated channels, combining high-speed voltage outputs with the capability to conduct concurrent current and voltage measurements. Achieve unparalleled sampling rates up to 200 megasamples/second, making it ideal for high-frequency applications and detailed analysis.
For users requiring extended low current measurement capabilities, the option to add the Keithley 4225-RPM Remote Amplifier/Switch is available. This supplemental device enhances the low current measurement range, effectively providing three additional ranges per channel of the Keithley 4225-PMU. The integration of the RPM into the system software allows users to easily access these expanded capabilities without adjusting their current workflow.
Furthermore, the RPM functions as a multiplexer switch, enabling effortless transitions between precision DC Source Measure Units (SMUs), Constant Voltage Units (CVUs), and Ultra-Fast I-V modules. This versatility offers significant advantages for researchers and engineers working across various fields such as semiconductor testing, materials characterization, and component evaluation.
Trust the Keithley 4225-PMU Ultra-Fast I-V Module for your precision measurements, ensuring speed, accuracy, and reliability in every experiment.
