Keithley 7712: Precision Digital Multimeter for Accurate Measurements
$1,488.00
Keithley 7712: High-Precision Digital Multimeter with 6.5-Digit Resolution, 0.0025% Basic Accuracy, and 1000V/10A Measurement Range
Keithley 7712: The Ultimate Precision Current Source for Demanding Applications
Introducing the Keithley 7712, a state-of-the-art precision current source designed to meet the most stringent requirements of today’s advanced research and development environments.
Unmatched Precision and Accuracy:
Delivers precise current outputs from 10 fA to 10 A with exceptional accuracy of up to 0.0025%
Ensures reliable and repeatable measurements, even at the lowest current levels
Wide Dynamic Range and Flexibility:
Covers a broad current range, enabling versatile use in various applications
Offers multiple output modes, including constant current, voltage, and resistance, for maximum flexibility
Advanced Features for Enhanced Control:
Built-in voltage and resistance measurement capabilities for comprehensive characterization
Remote control via USB, GPIB, or Ethernet for seamless integration into automated test systems
Intuitive front panel interface for easy operation and quick setup
Benefits for Your Applications:
Precise Device Characterization: Accurately measure and analyze the electrical properties of semiconductors, sensors, and other electronic components
High-Sensitivity Measurements: Detect and quantify minute current changes in materials and devices, enabling advanced research and development
Automated Testing: Streamline production and quality control processes with remote control capabilities, reducing testing time and improving efficiency
* Enhanced Reliability: Ensure the accuracy and stability of your measurements with the 7712’s exceptional precision and low noise performance
Value Proposition:
The Keithley 7712 is an indispensable tool for researchers, engineers, and technicians who demand the highest levels of precision and accuracy in their current source applications. Its advanced features, wide dynamic range, and ease of use make it the ideal choice for demanding applications in semiconductor characterization, materials science, and precision measurement.
