Internal Calibration
Save time and reduce measurement uncertainty with the internal calibration function. These sensors come with technology that integrates a DC reference source and switching circuits into the body so you can calibrate the sensor. At the same time, it is connected to a device-under-test. This feature removes the need for connection and disconnection from an external calibration source, speeding testing and reducing connector wear and tear. To perform zeroing, turn off the device-under-test.
Legacy Excellence in a Compact and Portable form Factor
The U8480 Series is based on the same front-end design as the Keysight 8480 and N8480 Series power sensors, now equipped with USB capabilities and improved specifications such as a measurement speed ten times faster than the legacy series.
The U8480 Series plugs directly into your PC or USB-enabled Keysight instrument and allows you to measure power without needing an external power meter or power supply. The sensors draw power now from a USB port and do not need additional triggering modules to operate.
The U8480 Series is supported by the Keysight BenchVue software and BV0007B power meter/sensor control and analysis app. Once you plug the USB power sensor into a PC and run the software, you can see measurement results in various display formats and log data without any programming.
The U8480 Series fits easily in your bag, making it the ideal sensors solutions for field applications such as base station testing.
Fast Measurement Speed
The U8480 Series USB thermocouple power sensors offer a measurement speed of 900 readings/second (in fast mode), making them the world’s fastest USB thermocouple power sensors. This feature is essential in high-volume manufacturing, where fast measurement speed is essential to maximize production throughput and increase productivity. By increasing the rate of measurements, test engineers can shorten the design cycle and accelerate the product time-to-market as they would require less time to carry out the same number of tests.
Real-time Measurement Uncertainty
Measurement uncertainty is usually calculated manually by the user. The U8480 Series USB thermocouple power sensors now compute this value in real-time and at any given point, removing the need for manual MU calculations, shortening test time, and providing highly accurate measurements. Users can also display power measurements and their measurement uncertainty simultaneously.
Gamma Correction
In an ideal measurement scenario, the reference impedance of the power sensor and device-under-test (DUT) impedance should equal the reference impedance (Z0); however, this is rarely the case in practice. The mismatch in impedance values results in a portion of the signal voltage being reflected, and the reflection coefficient, gamma, quantifies this reflection.
Using the gamma correction function, users can input the DUT’s gamma into the USB power sensor using SCPI commands or BenchVue BV0007B power meter/sensor control and analysis app. This will remove the mismatch error, yielding more accurate measurements.
S-parameter Correction
Additional errors are often caused by components inserted between the DUT and the power sensor, such as in base station testing, where a high-power attenuator is connected between the sensor and base station to reduce the output power to the measurable power range of the sensor.
The S-parameters of these components can be obtained with a vector network analyzer in the touchstone format and inputted into the sensor using SCPI commands or BenchVue BV0007B power meter/sensor control and analysis app. This error can be corrected using the U8480 Series USB power sensor’s S-parameter correction function. The sensor will behave like it is connected directly to the DUT, giving users highly accurate power measurements.