2. With Joulescope, it’s possible to make oscilloscope-like measurements.
Today, as the number of Internet of Things (IoT) products rapidly increases, it’s even more critical to accurately measure energy consumption. Specifically, many IoT products and other battery-powered devices have a high dynamic current range, meaning the devices consume current in the nanoamp (nA) or microamp (µA) range when “sleeping.” When active, these devices consume current in the milliamp (mA) or amp (A) range. Joulescope is well-suited for these scenarios, as it combines high-speed sampling with high dynamic range to make accurate measurements—even for devices with rapidly varying current consumption.
To use Joulescope, one must connect it to a PC with a USB cable. The Joulescope host software, which can be downloaded from the website and is open source on GitHub, will automatically detect the connected instrument. The IN port connects to the power source, while the OUT port connects to the device under test (DUT). Upon operating the DUT, measurements can then be displayed via the host software.
As mentioned earlier, Joulescope delivers high-speed sampling capability. Specifically, it can measure current and voltage two million times per second with a 250-kHz bandwidth. Another benefit of Joulescope is the total voltage drop is only 25 mV at 1 A, thereby allowing target devices to continue functioning correctly. And Joulescope’s fast current-range switching maintains a low voltage drop—even under rapidly varying current demands.
Joulescope launches February 19 on Kickstarter with a starting price tag of $399, a significant discount from the $799 retail price. Shipments will begin in June 2019.
Those interested can visit the Joulescope Kickstarter page.
