- Report
- April 2025
- 376 Pages
Global
From €5324EUR$5,850USD£4,564GBP
- Report
- April 2025
- 89 Pages
Global
From €5324EUR$5,850USD£4,564GBP
- Report
- October 2024
- 195 Pages
Global
From €3226EUR$3,545USD£2,766GBP
€3585EUR$3,939USD£3,073GBP
- Report
- September 2024
- 150 Pages
Global
From €4414EUR$4,850USD£3,784GBP
- Report
- March 2025
Global
From €4459EUR$4,900USD£3,823GBP
- Report
- April 2025
- 92 Pages
Global
From €5324EUR$5,850USD£4,564GBP
- Report
- October 2024
- 184 Pages
Global
From €3226EUR$3,545USD£2,766GBP
€3585EUR$3,939USD£3,073GBP
- Report
- February 2020
- 149 Pages
Global
From €4505EUR$4,950USD£3,862GBP
- Report
- February 2024
- 145 Pages
Global
From €3868EUR$4,250USD£3,316GBP
- Report
- October 2023
- 109 Pages
Global
From €3500EUR$4,120USD£3,106GBP
- Report
- July 2024
- 132 Pages
Global
From €865EUR$950USD£741GBP
- Report
- July 2023
- 132 Pages
Global
From €865EUR$950USD£741GBP
A Source Measure Unit (SMU) is a type of electrical engineering instrument used to measure and source electrical signals. It combines the functions of a power supply, a digital multimeter, and a data acquisition system into a single unit. SMUs are used in a variety of applications, such as testing semiconductor devices, measuring current-voltage characteristics, and characterizing materials. They are also used in research and development, production testing, and quality control.
SMUs are available in a range of sizes and configurations, from benchtop models to rack-mounted systems. They are designed to provide accurate, repeatable measurements and can be used in a variety of environments, including laboratory, industrial, and field applications.
Some companies in the SMU market include Keithley Instruments, Yokogawa Electric Corporation, Chroma ATE, and B&K Precision. Show Less Read more
