Super-fast measurement speed
The X-Series power sensors take up to 50,000 super-fast readings per second (in fast/buffer mode/ average mode), a ten times improvement over Keysight’s previous sensor offerings, allowing test engineers to increase test throughput capacity and reduce the cost of test, especially in high volume manufacturing environments such as mobile chipset manufacturing.
This measurement speed is fast enough to measure every continuous pulse without leaving time gaps between measurement acquisitions. While conventional sensors only provide a snapshot of successive pulses, going slow where a glitch could slip by unnoticed, the X-Series power sensors measure continuously in real-time and keep pace with high-speed vibrations, up to 10 kHz PRF. Users can also fully control which portion of the signal is measured and what throughput they can expect because the aperture duration defines the maximum measurement speed as 1/aperture duration. For example, setting the aperture duration to 20 μs offers 20 μs of measurement time per reading, equaling a measurement speed of 50,000 readings per second.
Built-in radar and wireless presets
Begin testing faster; the X-Series power sensors come with built-in radar and wireless presets for common signals such as DME, GSM, EDGE, WCDMA, WLAN, and LTE.
Broadband coverage for any modulated signal formats
The X-Series power sensors make accurate average or time-selective average power measurements of any modulated signal and cover all standard wireless signals such as 5G, LTE, and LTE-Advanced with 100 and WLAN 802.11ac with 80/160 MHz bandwidth. A 4-path diode stack design with parallel data acquisition paths offers seamless range transition with high accuracy and repeatability. This design enables all the diodes to operate in their square law region, allowing the X-Series power sensors to function like thermocouple power sensors to provide accurate average power for broadband modulated signals.
Time selectivity in average mode with variable aperture duration
The X-Series power sensors offer a feature called moderate mode time selectivity, whereby users can configure the aperture duration of measurement capture concerning immediate, external, and internal triggers. The aperture duration can be set from 20 μs to 200 ms with a resolution of 100 ns, a resolution low enough to cover any radio format.
This new feature enables precise control of what portion of the signal waveform is measured, similarly to time-gated measurements in peak power sensors. The key benefit of this feature is that it enables the sensor to measure average power with time selectivity across the full dynamic range and provides real-time measurements up to 50000 readings per second. This is a significant improvement compared to conventional power sensors; a sensor’s time-greater dynamic ranges are typically clipped at around 50 dB with a maximum speed of 1000 readings per second.