DATA SHEE T U2040, U2053/63 and L2050/60 X-Series USB/LAN Wide Dynamic Range Power Sensors
Accurately measure any modulated signal with the Keysight Technologies, Inc U2040, U2053/63 and L2050/60 X-Series USB/LAN wide dynamic range power sensor. With LAN connectivity, a first in the industry, and USB connectivity, the U2040, U2053/63 and LAN connectivity, the L2050/60 X-Series comes with the world’s widest dynamic range in a power sensor, covering a range of –70 to +26 dBm.
X-Series Power Sensor Key Features Widest dynamic range power sensor The X-Series power sensor are power sensors with the widest dynamic range of 96 dB (–70 dBm to +26 dBm). The 96 dB dynamic range enables accurate power measurements of very low signal levels for a broad range of applications such as wireless chipset, power amplifier and module manufacturing, satellite payload testing, test system or instrument calibration, and radar pulse parameter measurements.
Time selectivity in average mode with variable aperture duration The X-Series power sensor offers a new feature called average mode time selectivity, whereby users are able to configure the aperture duration of measurement capture with reference to immediate trigger or external trigger. 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.
20 automatic pulse parameter measurements The U2042/44/49/63 and L2061/62/63 X-Series peak and average power sensor offers simultaneous pulse parameter characterization of up to 20 pulses within a single capture. Individual pulse duration, period, duty cycle, rise time, fall time and other pulse parameters can be queried through the following SCPI codes: TRACe:MEASurement:PULSe[1-20], and TRACe:MEASurement:TRANsition[1-20].
Built-in radar and wireless presets Begin testing faster; the X-Series power sensor comes with built-in radar and wireless presets for common signals such as DME, GSM, EDGE, WCDMA, WLAN and LTE. Gamma correction In an ideal measurement scenario, the reference impedance of the power sensor and deviceunder-test (DUT) impedance should equal the reference impedance (Z0); however, this is rarely the case in practice.
U2049XA and L2050/60 X-Series LAN Power Sensor: The Ideal Solution for Remote Monitoring of Satellite Systems Get the same accuracy and performance in thermal vacuum (TVAC) chambers with the world’s first TVAC qualified power sensor. With best-in-class long term drift performance, a frequency range of 10 MHz to 33 GHz and a dynamic range spanning 90 dB, the U2049XA LAN power sensor is ideal for fault detection and monitoring of satellite systems.
Performance Specifications Specification definitions There are two types of product specifications: –– Warranted specifications are specifications which are covered by the product warranty and apply over a range of 0 to 55 °C unless otherwise noted. Warranted specifications include measurement uncertainty calculated with a 95% confidence. –– Characteristic specifications are specifications that are not warranted. They describe product performance that is useful in the application of the product.
Specifications (Continued) Key specifications (Continued) U2042/44/49/63 and L2061/62/63XA wide dynamic range peak and average power sensor Frequency Average power power range (Average only mode) Normal mode power range (Peak mode) Maximum power (Damage level) Zero and calibration Rise/fall time 3 Maximum sampling rate Power linearity at 5 dB step 1 Basic accuracy of average power measurement 2 Signal bandwidth Single shot bandwidth Minimum pulse width Maximum capture length Maximum pulse repetition rate
Specifications (Continued) Noise and drift U2041/42/43/44/49XA Mode Normal 3 Average VBW setting LOW/MED HIGH/OFF – Zero set 1 External zero ± 16 nW ± 50 nW ± 100 pW for < 300 MHz ± 70 pW for >= 300 MHz Internal zero ± 23 nW ± 60 nW ± 1 nW Zero drift 2 Measurement noise Noise per sample ± 10 nW ± 15 nW ± 25 pW ± 10 nW 4 ± 32 nW 4 ± 80 pW 5 ± 0.15 µW ± 0.8 µW — 1. After 1 hour of warm up and at a constant temperature. 2.
Noise multipliers The measurement noise for the X-Series power sensor is dependent on the measurement mode and the time for the measurement. In general, average only mode is lower noise than normal mode, and the longer a measurement takes the lower the noise is. We will define three measurement modes and how the noise can be adjusted. Average-only mode The measurement noise due to the X-Series power sensor is dependent on the measurement time.
Maximum SWR Frequency band Power level 10 MHz to 6 GHz > 6 GHz to 18 GHz U2041/42XA −70 to +15 to < +15 dBm +26 dBm < 1.2 < 1.29 U2043/44XA −70 to +15 to < +15 dBm +26 dBm < 1.20 < 1.29 < 1.26 < 1.30 L2051/61XA −70 to +15 > +15 to dBm +26 dBm < 1.15 < 1.24 −70 to +15 dBm < 1.15 < 1.26 Frequency band Power level 10 MHz to 30 MHz > 30 MHz to 50 MHz > 50 MHz to 100 MHz > 100 MHz to 11.5 GHz > 11.5 GHz to 30 GHz > 30 GHz to 33 GHz U2049XA −70 to < +15 dBm < 2.18 < 1.35 < 1.22 < 1.17 < 1.29 < 1.
Calibration uncertainty Definition: Uncertainty resulting from non-linearity in the X-Series power sensor detection and correction process. This can be considered as a combination of traditional linearity, calibration factor and temperature specifications and the uncertainty associated with the internal calibration process.
Timebase and Trigger Specifications Timebase Range Accuracy Jitter Trigger Internal trigger range Resolution Level accuracy Latency Jitter External TTL trigger input High Low Latency Minimum trigger pulse width Minimum trigger repetition period Maximum trigger voltage input Impedance Jitter External TTL trigger output High Low Latency Impedance Jitter Trigger delay Range Resolution Trigger hold off Range Resolution Trigger level threshold hysteresis Range Resolution 1.
General Specifications Inputs/Outputs Current requirement Trigger input Trigger output Remote programming Interface U2041/42/43/44/53/63XA: Approximately < 500 mA U2049 and L2051/52/53/61/62/63XA: 3W, 802.3af or 802.3at Type 1 standard Input has TTL compatible logic levels and uses a SMB connector Output provides TTL compatible logic levels and uses a SMB connector U2041/42/43/44/53/63XA: USB 2.
General Characteristics Environmental compliance Temperature Humidity Altitude Regulatory compliance The X-Series complies with the following safety and EMC requirements Others Dimensions (Length x Width x Height) Net weight Shipping weight Recommended calibration interval U2041/42/43/44XA 168 mm x 46 mm x 35 mm Find us at www.keysight.
Additional Specifications for U2042/44/49/63 and L2061/62/63XA X-Series Peak and Average Power Sensor Measured rise time percentage error versus signal-under-test rise time 45% 40% Percent error 35% 30% 25% 20% 15% 10% 5% 0% 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 9501000 Signal under test rise time (ns) Figure 6. Measured rise time percentage error versus signal under test rise time.
Additional Specifications for U2042/44/49/63 and L2061/62/63XA X-Series Peak and Average Power Sensor (Continued) U2042/44/49XA Video bandwidth setting (Normal mode) Rise/fall time < 300 MHz ≥ 300 MHz Overshoot 1 < 300 MHz ≥ 300 MHz LOW MED HIGH OFF 6.9 µs 0.6 µs 2% 12% 6.9 µs 0.3 µs 2% 15% 2.0 µs 0.1 µs 3% 9% 2.0 µs 0.1 µs 4% 5% LOW MED HIGH OFF 5.3 µs 0.6 µs 2% 12% 5.4 µs 0.64 µs 2% 15% 1.8 µs 0.1 µs 3% 9% 1.8 µs 0.
Additional Specifications for U2042/44/49/63 and L2061/62/63XA X-Series Peak and Average Power Sensor (Continued) Off Low Med Error (dB) High Input tone separation frequency (MHz) Figure 7. U2042/44/49XA error in peak-to-average ratio measurements for a two-tone input (High, Medium, Low and Off video bandwidth settings). Figure 8 U2063 and L2061/62/63XA error in peak-to-average ratio measurements for a two-tone input (High, Medium, Low and Off video bandwidth settings). Find us at www.keysight.
Using the X-Series Power Sensor with the BenchVue Software Keysight BenchVue software for the PC accelerates testing by providing intuitive, multiple instrument measurement visibility and data capture with no programming necessary. You can derive answers faster than ever by easily viewing, capturing and exporting measurement data and screen shots. The X-Series power sensor is supported by the Keysight BenchVue software and BV0007B power meter/sensor control and analysis app.
Using the X-Series Power Sensor with the BenchVue Software (Continued) Figure 10. Multi-list view with ratio/difference function. Supported functionality Measurement displays Graph functions Pulse characterization functions Instrument settings Limit and alert function Export data or screen shots Find us at www.keysight.
System and Installation Requirements PC operating system Windows 10, 8 and 7 Computer hardware Windows XP SP3 32-bit (Professional) Interfaces Display resolution Windows 10 32-bit and 64-bit (Professional, Enterprise, Education, Home versions) Windows 8 32-bit and 64-bit (Core, Professional, Enterprise) Windows 7 SP1 and later 32-bit and 64-bit (Professional, Enterprise, Ultimate) Processor: 1 GHz or faster (2 GHz or greater recommended) RAM: 1 GB (32-bit) or 2 GB (64-bit) (3 GB or greater recommended) Pr
Ordering Information Model U4241XA U4242XA U2043XA U2044XA U2049XA, Option 100 U2049XA, Option TVA U2053XA U2063XA L2051XA L2052XA L2053XA L2061XA L2062XA L2063XA Standard shipped items U2041/42/43/44/53/63XA USB power sensor U2049 and L2051/52/53/61/62/63XA LAN power sensor Find us at www.keysight.
Ordering Information (Continued) U2041/42/43/44/53/63XA USB power sensor options Options Accessories U2000A-201 U2000A-202 U2000A-203 U2000A-204 Cables (selectable during sensor purchase) U2000A-301 U2000A-302 U2000A-303 Cables (ordered standalone) U2031A U2031B U2031C U2032A Software BV0007B Calibration UK6 Description Transit case Soft carrying case Holster Soft carrying pouch USB cable 5 ft (1.5 m) – default selection USB cable 10 ft (3 m) USB cable 16.4 ft (5 m) USB cable 5 ft (1.
Appendix A Uncertainty calculations for a power measurement (settled, average power) (Specification values from this document are in bold italic, values calculated on this page are underlined.) Process 1. Measured power level.............................................................................................................................................. W 2. Frequency of measured signal (use to get calibration uncertainty and SWR).................................................... Hz 3.
Worked Example for U2041XA Uncertainty calculations for a power measurement (settled, average power) (Specification values from this document are in bold italic, values calculated on this page are underlined.) Process 1. Measured power level.............................................................................................................................................. 1 mW 2. Frequency of measured signal (use to get calibration uncertainty and SWR)...........................................
Graphical Example A. System contribution to measurement uncertainty versus power level (equates to step 6 result/2) Note: The above graph is valid for conditions of free-run operation, with a signal within the video bandwidth setting on the system. Humidity < 70 %. Find us at www.keysight.
Graphical Example (Continued) A. System contribution to measurement uncertainty versus power level (equates to step 6 result/2 (Continued) Find us at www.keysight.
Graphical Example (Continued) B. Standard uncertainty of mismatch SWR 1.0 1.05 1.10 1.15 1.20 1.25 1.30 1.35 1.40 1.45 1.50 1.60 1.70 r 0.00 0.02 0.05 0.07 0.09 0.11 0.13 0.15 0.17 0.18 0.20 0.23 0.26 SWR 1.80 1.90 2.00 2.10 2.20 2.30 2.40 2.50 2.60 2.70 2.80 2.90 3.00 r 0.29 0.31 0.33 0.35 0.38 0.39 0.41 0.43 0.44 046 0.47 0.49 0.50 Note: The above graph shows the Standard Uncertainty of Mismatch = ρDUT. ρSensor / √2, rather than the Mismatch Uncertainly Limits.