Agilent Technologies 16440A SMU manual Users Guide Installation

Page 15

User's Guide

Installation

If you use the 16441A R-box, attach the R-Box to the selector as shown below:

Agilent 16440A User’s Guide, Edition 4

9

Image 15
Contents Agilent 16440A SMU/Pulse Generator Selector User’s GuideLegal Notice Product WarrantyAssistance Ground the Instrument Panel comply with Installation Category Printing History Users Guide Users Guide Introduction Operation 4155/4156 controls the switching of the selectorUsers Guide Operation All open SMU on PGU on PGU open To Attach the Selector to Test Fixture InstallationFollowing steps apply when using two selectors Users Guide Installation To Attach the Selector to Shielding Box Users Guide Installation Users Guide Installation Users Guide Installation Connecting the Selector to the 4155/4156 PGU Maintenance Cleaning the SelectorServicing the Selector Circuit Block Diagram Replaceable Parts CR1 PGU SpecificationsUsers Guide Specifications Supplemental Information

16440A SMU specifications

Agilent Technologies, now known as Keysight Technologies, offers a range of precision instruments designed for various applications in electronics testing and analysis. One of the standout products in their portfolio is the Agilent 16440A Source Measure Unit (SMU). The Agilent 16440A is tailored for both automated and manual measurements across a broad range of electrical components and systems in research and development, production, and quality assurance.

The Agilent 16440A SMU is a versatile instrument that combines sourcing and measurement capabilities in a single device. This integration allows users to perform tasks such as IV characterization, device testing, and functional testing of semiconductor devices and other electronic components. It can generate precise voltage and current levels while simultaneously measuring the resulting current and voltage, making it ideal for tasks that require high accuracy and reliability.

One of the key features of the Agilent 16440A is its ability to source and measure with high resolution. With a resolution of up to 1 microamp for current and 1 millivolt for voltage, it is well-suited for measuring small signals in highly sensitive devices. Additionally, the SMU includes a wide dynamic range, allowing it to operate effectively across various types of devices, from microelectronic components to larger power devices.

The Agilent 16440A is built on advanced measurement technology that ensures low noise and minimal drift, essential for accurate readings, particularly in precision applications. The unit incorporates a built-in data logging function, enabling users to capture data over time for further analysis. This feature is particularly useful for long-term tests and reliability assessments.

Moreover, the instrument supports a variety of communication interfaces, including USB, GPIB, and Ethernet, facilitating easy integration into automated test systems and enhancing its versatility in different testing environments. Its user-friendly interface ensures that both novice and experienced engineers can operate the SMU efficiently.

In conclusion, the Agilent 16440A SMU stands out for its precision, versatility, and advanced measurement technologies. With features that cater to a wide array of applications, it is an invaluable tool for engineers involved in the testing and characterization of electronic devices. Whether in a laboratory setting or on the production floor, the 16440A delivers reliable performance that meets the demanding needs of modern electronics testing.