Keysight Technologies N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors Data Sheet 02 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet LXI Class-C-Compliant Power Meter A P-Series power meter is a LXI Class-C-compliant instrument, developed using LXI Technology. LXI, an acronym for LAN eXtension for Instrumentation, is an instrument standard for devices that use the Ethernet (LAN) as their primary communicationinterface. Characteristic information is representative of the product. In many cases, it may also be supplemental to a warranted specification. Characteristic specifications are not verified on all units. There are several types of characteristic specifications. These types can be placed in two groups: Hence, it is an easy-to-use instrument especially with the usage of an integrated Web browser that provides a convenient way to configure theinstrument’s functionality. One group of characteristic types describes ‘attributes’ common to all products of a given model or option. Examples of characteristics that describe ‘attributes’ are product weight, and 50 ohm input Type-N connector. In these examples product weight is an ‘approximate’ value and a 50ohm input is ‘nominal’. These two terms are most widely used when describing a product’s ‘attributes’. The P-Series power meters are supported by the Keysight BenchVue software (version 3.0 and above). BenchVue makes it easy to control your power meter to log data and visualize measurements in a wide array of display options without any programming. This software is available on the Keysight Instrument Control DVD, which is included with each meter. You can download the latest version of the software cost free at www.keysight.com/ find/BenchVue. Upgrading to the paid BenchVue Power Meter Pro version (BV0007A) provides unrestricted data logging. Specification Definitions There are two types of product specifications: –– Warranted specifications are specifications which are covered by the product warranty and apply over 0 to 55 ºC 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. These characteristic specifications are shown in italics. The second group describes ‘statistically’ the aggregate performance of the population of products. These characteristics describe the expected behavior of the population of products. They do not guarantee the performance of any individual product. No measurement uncertainty value is accounted for in the specification. These specifications are referred to as ‘typical’. Conditions The power meter and sensor will meet its specifications when: –– stored for a minimum of two hours at a stable temperature within the operating temperature range, and turned on for at least 30 minutes –– the power meter and sensor are within their recommended calibration period, and –– used in accordance to the information provided in the User's Guide. General features Number of channels N1911A P-Series power meter, single channel N1912A P-Series power meter, dual channel Frequency range N1921A P-Series wideband power sensor, 50 MHz to 18 GHz N1922A P-Series wideband power sensor, 50 MHz to 40 GHz Measurements Average, peak and peak-to-average ratio power measurements are provided with free-run or time-gated definitions. Time parameter measurements of pulse rise time, fall time, pulse width, time-to-positive occurrence and time‑to‑negative occurrence are also provided. Sensor compatibility P-Series power meters are compatible with all Keysight Technologies, Inc. P-Series wideband power sensors, E-Series sensors, 8480 Series sensors and N8480 Series sensors1. Compatibility with the 8480 and E-Series power sensors will be available free-of-charge in firmware release Ax.03.01 and above. Compatibility with N8480 Series power sensors will be available free-of-charge in firmware release A.05.00 and above. 1. Information contained in this document refers to operation with P-Series sensors. For specifications when used with 8480 and E-series sensors (except E9320A range), refer to Lit Number 5965-6382E. For specifications when used with E932XA sensors, refer to Lit Number 5980-1469E. 03 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet P-Series Power Meter and Sensor Key System Specifications and Characteristics2 Maximum sampling rate 100 Msamples/sec, continuous sampling Video bandwidth ≥ 30 MHz Single-shot bandwidth ≥ 30 MHz Rise time and fall time ≤ 13 ns (for frequencies ≥ 500 MHz) 2, see Figure 1 Minimum pulse width 50 ns3 Overshoot ≤ 5 %2 Average power measurement accuracy N1921A: ≤ ± 0.2 dB or ± 4.5 % 4 N1922A: ≤ ± 0.3 dB or ± 6.7 % Dynamic range –35 dBm to +20 dBm (> 500 MHz) –30 dBm to +20 dBm (50 MHz to 500 MHz) Maximum capture length 1 second Maximum pulse repetition rate 10 MHz (based on 10 samples per period) 1. See Appendix A on page 9 for measurement uncertainty calculations. 2. Specification applies only when the Off video bandwidth is selected. 3. The Minimum Pulse Width is the recommended minimum pulse width viewable on the power meter, where power measurements are meaningful and accurate, but not warranted. 4. Specification is valid over –15 to +20 dBm, and a frequency range 0.5 to 10 GHz, DUT Max. SWR < 1.27 for the N1921A, and a frequency range 0.5 to 40 GHz, DUT Max. SWR < 1.2 for the N1922A. Averaging set to 32, in Free Run mode. 35 Percent error 30 25 20 15 10 5 0 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 Signal under test rise time (nS) Figure 1. Measured rise time percentage error versus signal under test rise time Although the rise time specification is ≤ 13 ns, this does not mean that the P-Series meter and sensor combination can accurately measure a signal with a known rise time of 13 ns. The measured rise time is the root sum of the squares (RSS) of the signal under test rise time and the system rise time (13 ns): Measured rise time = √ ((signal under test rise time)2 + (system rise time)2 ), and the % error is: % Error = ((measured rise time – signal under test rise time)/signal under test rise time) x 100 04 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet P-Series Power Meter Specifications Meter uncertainty Instrumentation linearity ± 0.8 % Timebase Timebase range 2 ns to 100 msec/div Accuracy ±10 ppm Jitter ≤ 1 ns Zero Set Zero Set (CW) 0.0000175% Zero Set (Peak) 0.015% Trigger Internal trigger Range –20 to +20 dBm Resolution 0.1 dB Level accuracy ± 0.5 dB Latency1 160 ns ± 10 Jitter ≤ 5 ns rms External TTL trigger input High > 2.4 V Low < 0.7 V Latency2 30 ns ± 10 ns Impedance 50 Ω Jitter ≤ 5 ns rms Trigger delay Delay range ± 1.0 s, maximum Delay resolution 1 % of delay setting, 10 ns maximum Trigger hold-off Range 1 μs to 400 ms Resolution 1 % of selected value (to a minimum of 10 ns) Trigger level threshold hysteresis Range ± 3 dB Resolution 0.05 dB 1. Internal trigger latency is defined as the delay between the applied RF crossing the trigger level and the meter switching into the triggered state. 2. External trigger latency is defined as the delay between the applied trigger crossing the trigger level and the meter switching into the triggered state. 3. External trigger output latency is defined as the delay between the meter entering the triggered state and the output signal switching. 05 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet P-Series Wideband Power Sensor Specifications The P-Series wideband power sensors are designed for use with the P-Series power meters only. Sensor model N1921A 50 MHz to 18 GHz –35 dBm to +20 dBm (≥ 500 MHz) –30 dBm to +20 dBm (50 MHz to 500 MHz) +23 dBm (average power); +30 dBm (< 1 μs duration) (peak power) Type N (m) N1922A 50 MHz to 40 GHz –35 dBm to +20 dBm (≥ 500 MHz) –30 dBm to +20 dBm (50 MHz to 500 MHz) +23 dBm (average power); +30 dBm (< 1 μs duration) (peak power) 2.4 mm (m) Maximum SWR Frequency band N1921A N1922A 50 MHz to 10 GHz 1.2 1.2 10 GHz to 18 GHz 1.26 1.26 18 GHz to 26.5 GHz 1.3 26.5 GHz to 40 GHz 1.5 Sensor Calibration Uncertainty 9 Definition: Uncertainty resulting from non-linearity in the sensor detection and correction process. This can be considered as a combination of traditional linearity, cal factor and temperature specifications and the uncertainty associated with the internal calibration process. Frequency band N1921A N1922A 50 MHz to 10 GHz 4.5 % 4.3 % 500 MHz to 1 GHz 4.0 % 4.2 % 1 GHz to 10 GHz 4.0 % 4.4 % 10 GHz to 18 GHz 5.0 % 4.7 % 18 GHz to 26.5 GHz 5.9 % 26.5 GHz to 40 GHz 6.0 % Physical characteristics Dimensions N1921A 135 mm x 40 mm x 27 mm (5.3 in x 1.6 in x 1.1 in) 127 mm x 40 mm x 27 mm (5.0 in x 1.6 in x 1.1 in) Weights with cable Option 105 Option 106 Option 107 0.4 kg (0.88 Ib) 0.6 kg (1.32 Ib) 1.4 kg (3.01 Ib) Fixed sensor cable lengths Option 105 Option 106 Option 107 1.5 m (5 feet) 3.0 m (10 feet) 10 m (31 feet) 1. Beyond 70% Humidity, an additional 0.6% should be added to these values. 06 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet 1 mW Power Reference Note: The 1 mW power reference is provided for calibration of E-Series, 8480 Series and N8480 Series sensors. The P-Series sensors are automatically calibrated and therefore do not need this reference for calibration Power output 1.00 mW (0.0 dBm). Factory set to ± 0.4 % traceable to the National Physical Laboratory Accuracy (over 2 years) ±1.2 % (0 to 55 ºC) ±0.4 % (25 ± 10 ºC) Frequency 50 MHz nominal SWR 1.08 (0 to 55 ºC) 1.05 typical Connector type Type N (f), 50 Ω Rear-panel inputs/outputs Recorder output Analog 0-1 Volt, 1 kΩ output impedance, BNC connector. For dual-channel instruments there will be two recorder outputs GPIB, 10/100BaseT LAN and USB2.0 Interfaces allow communication with an external controller Ground Binding post, accepts 4 mm plug or bare-wire connection Trigger input Input has TTL compatible logic levels and uses a BNC connector Trigger output Output provides TTL compatible logic levels and uses a BNC connector Line power Input voltage range Input frequency range Power requirement 90 to 264 Vac, automatic selection 47 to 63 Hz and 440 Hz N1911A not exceeding 50 VA (30 Watts) N1912A not exceeding 75 VA (50 Watts) Remote programming Interface GPIB interface operates to IEEE 488.2 and IEC65 10/100BaseT LAN interface USB 2.0 interface Command language SCPI standard interface commands GPIB compatibility SH1, AH1, T6, TE0, L4, LE0, SR1, RL1, PP1, DC1, DT1, C0 Measurement speed Measurement speed via remote interface ≥ 1500 readings per second Regulatory information Electromagnetic compatibility Complies with the following requirements: IEC 61326-1:2005/EN 61326-1:2006 CISPR11:2003/, EN 55011:1998+A1:1999+A2:2002 Group 1 Class A Canada: ICES/NMB-001:Issue 4, June 2006 Australia/New Zealand: AS/NZS CISPR 11:2004 Product safety Conforms to the following product specifications: IEC 61010-1:2010/EN 61010-1:2010 (3rd Edition) Canada: CAN/CSA-C22.2 No. 61010-1-12 USA: ANSI/UL 61010-1:2012 07 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet 1 mW Power Reference (continued) Physical characteristics Dimensions The following dimensions exclude front and rear panel protrusions: 88.5 mm H x 212.6 mm W x 348.3 mm D (3.5 in x 8.5 in x 13.7 in) Command language N1911A ≤ 3.5 kg (7.7 lb) approximate N1912A ≤ 3.7 kg (8.1 lb) approximate Shipping weight N1911A ≤ 7.9 kg (17.4 lb) approximate N1912A ≤ 8.0 kg (17.6 lb) approximate Display 3.8 inch TFT Color LCD Environmental conditions General The following dimensions exclude front and rear panel protrusions: 88.5 mm H x 212.6 mm W x 348.3 mm D (3.5 in x 8.5 in x 13.7 in) Operating Temperature Maximum humidity Maximum altitude 0 °C to 55 °C 95 % at 40 °C (non-condensing) 3,000 meters (9,840 feet) Storage Non-operating storage temperature Non-operating maximum humidity Non-operating maximum altitude –40 °C to +70 °C 90 % at 65 °C (non-condensing) 15,420 meters (50,000 feet) System Specifications and Characteristics The video bandwidth in the meter can be set to High, Medium, Low and Off. The video bandwidths stated in the table below are not the 3 dB bandwidths, as the video bandwidths are corrected for optimal flatness (except the Off filter). Refer to Figure 2 for information on the flatness response. The Off video bandwidth setting provides the warranted rise time and fall time specification and is the recommended setting for minimizing overshoot on pulse signals. Dynamic response - rise time, fall time, and overshoot versus video bandwidth settings Video bandwidth setting Parameter Rise time/fall time Off 1 Low: 5 MHz Medium: 15 MHz High: 30 MHz < 500 MHz > 500 MHz < 56 ns < 25 ns ≤ 13 ns < 36 ns ≤ 13 ns <5% <5% Overshoot 2 For Option 107 (10 m cable), add 5 ns to the rise time and fall time specifications. 1. Specified as 10% to 90% for rise time and 90% to 10% for fall time on a 0 dBm pulse. 2. Specified as the overshoot r For Option 107 (10 m cable), add 5 ns to the rise time and fall time specifications. elative to the settled pulse top power. Recorder output and video output The recorder output is used to output the corresponding voltage for the measurement a user sets on the Upper/Lower window of the power meter. The video output is the direct signal output detected by the sensor diode, with no correction applied. The video output provides a DC voltage proportional to the measured input power through a BNC connector on the rear panel. The DC voltage can be displayed on an oscilloscope for time measurement. This option replaces the recorder output on the rear panel. The video output impedance is 50 ohm. 08 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet Characteristic Peak Flatness The peak flatness is the flatness of a peak-to-average ratio measurement for various tone-separations for an equal magnitude twotone RF input. Figure 2 refers to the relative error in peak-to-average ratio measurements as the tone separation is varied. The measurements were performed at –10 dBm with power sensors with 1.5 m cable lengths. 0.5 High 0.0 Off Error (dB) -0.5 Medium Off (< 500 MHz) -1.0 -1.5 (> 500 MHz) Low -2.0 -2.5 -3.0 -3.5 0 5 10 15 20 25 30 Input tone separation frequency (MHz) Figure 2. N192XA Error in peak-to-average measurements for a two-tone input (High, Medium, Low and Off filters) Noise and drift Sensor model Zeroing Zero set < 500 MHz > 500 MHz N1921A /N1922A No RF on input 200 nW 200 nW RF present 550 nW 200 nW Zero drift1 Noise per sample Measurement noise (Free run)2 100 nW 2 μW 50 nW Measurement average setting 1 2 4 8 16 32 64 128 256 512 1024 Free run noise multiplier 1 0.9 0.8 0.7 0.6 0.5 0.45 0.4 0.3 0.25 0.2 Video BW setting Noise per sample multiplier < 500 MHz ≥ 500 MHz Low 5 MHz Medium 15 MHz High 30 MHz Off 0.5 0.45 1 0.75 2 1.1 1 1 1. Within 1 hour after a zero, at a constant temperature, after 24 hour warm-up of the power meter. This component can be disregarded with Auto-zero mode set to ON. 2. Measured over a one-minute interval, at a constant temperature, two standard deviations, with averaging set to 1. Effect of video bandwidth setting The noise per sample is reduced by applying the meter video bandwidth filter setting (High, Medium or Low). If averaging is implemented, this will dominate any effect of changing the video bandwidth. Effect of time-gating on measurement noise The measurement noise on a time-gated measurement will depend on the time gate length. 100 averages are carried out every 1 us of gate length. The Noise-per-Sample contribution in this mode can approximately be reduced by √(gate length/10 ns) to a limit of 50 nW. 09 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet 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. Power level: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . W 2. Frequency: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3. Calculate meter uncertainty: Calculate noise contribution –– If in Free Run mode, Noise = Measurement noise x free run multiplier –– If in Trigger mode, Noise = Noise-per-sample x noise per sample multiplier Convert noise contribution to a relative term 1 = Noise/Power . . . . . . . . . . . . . . . . . . . . . . . % Instrumentation linearity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . % Drift . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . % RSS of above three terms => Meter uncertainty = . . . . . . . . . . . . . . . . . . . . . . . . . . % 4. Zero Uncertainty (Mode and frequency dependent) = Zero set/Power = . . . . . . . . . . . . . . . . . . . . . . . % % 5. Sensor calibration uncertainty (Sensor, frequency, power and temperature dependent) = . . . . . . . . . . . . . . . . . . . . % 6. System contribution, coverage factor of 2 => sysrss = . . . . . . . . . . . . . . . . . . . . . . . . . . . % (RSS three terms from steps 3, 4 and 5) 7. Standard uncertainty of mismatch Max SWR (Frequency dependent) = . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . convert to reflection coefficient, | ρ Sensor | = (SWR–1)/(SWR+1) = . . . . . . . . . . . . . . . . . . . . Max DUT SWR (Frequency dependent) = . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . convert to reflection coefficient, | ρDUT | = (SWR–1)/(SWR+1) = . . . . . . . . . . . . . . . . . . . . . 8. Combined measurement uncertainty @ k=1 . . . . . . . . . . . . . . . . . . . . . . . . . . . % Expanded uncertainty, k = 2, = UC • 2 = . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . % UC 1. = Max(rDUT) • Max(rSensor) 2 2 + sysrss 2 2 The noise to power ratio is capped for powers > 100 uW, in these cases use: Noise/100 µW. 10 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet Worked Example 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. Power level: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1mW 2. Frequency: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1GHz 3. Calculate meter uncertainty: Calculate noise contribution –– If in Free Run mode, Noise = Measurement noise x free run multiplier –– If in Trigger mode, Noise = Noise-per-sample x noise per sample multiplier Convert noise contribution to a relative term 1 = Noise/Power . . . . . . . . . . . . . . . . . . . . . . . 0.03% Instrumentation linearity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.8% Drift . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . – RSS of above three terms => Meter uncertainty = . . . . . . . . . . . . . . . . . . . . . . . . . . 0.8% 4. Zero Uncertainty (Mode and frequency dependent) = Zero set/Power = . . . . . . . . . . . . . . . . . . . . . . . 0.03% 5. Sensor calibration uncertainty (Sensor, frequency, power and temperature dependent) = . . . . . . . . . . . . . . . . . . . . 4.0% 6. System contribution, coverage factor of 2 => sysrss = . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.08% (RSS three terms from steps 3, 4 and 5) 7. Standard uncertainty of mismatch Max SWR (Frequency dependent) = . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.25 convert to reflection coefficient, | ρ Sensor | = (SWR–1)/(SWR+1) = . . . . . . . . . . . . . . . . . . . . 0.111 Max DUT SWR (Frequency dependent) = . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.26 convert to reflection coefficient, | ρDUT | = (SWR–1)/(SWR+1) = . . . . . . . . . . . . . . . . . . . . . 2.23 8. Combined measurement uncertainty @ k=1 UC = Max(rDUT) • Max(rSensor) 2 2 + sysrss 2 . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Expanded uncertainty, k = 2, = UC • 2 = . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1. 0.115 The noise to power ratio is capped for powers > 100 uW, in these cases use: Noise/100 µW. ±4.46% 11 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet Graphical Example A. System contribution to measurement uncertainty versus power level (equates to step 6 result/2) System uncertainty contribution - 1 sigma (%) 100.0% N1921A: 500 MHz to 10 GHz N1922A:18 to 40 GHz Other bands 10.0% Note: This graph is valid for conditions of free-run operation, with a signal within the video bandwidth setting on the system. Humidity < 70%. 1.0% -35 -30 -25 -20 -15 -10 -5 0 Power (dBm) 5 10 15 20 B. Standard uncertainty of mismatch. Standard uncertainty of mismatch - 1 sigma (%) rSensor 0.5 SWR ρ SWR ρ 1.0 0.00 1.8 0.29 0.45 1.05 0.02 1.90 0.31 0.4 1.10 0.05 2.00 0.33 0.35 1.15 0.07 2.10 0.35 1.20 0.09 2.20 0.38 1.25 0.11 2.30 0.39 0.3 0.25 1.30 0.13 2.40 0.41 0.2 1.35 0.15 2.50 0.43 0.15 1.40 0.17 2.60 0.44 0.1 1.45 0.18 2.70 0.46 1.5 0.20 2.80 0.47 1.6 0.23 2.90 0.49 1.7 0.26 3.00 0.50 0.05 0 0 0.1 0.2 rDUT 0.3 0.4 0.5 Note: The above graph shows the standard uncertainty of mismatch = ρDUT. ρSensor / ←2, rather than the mismatch uncertainty limits. This term assumes that both the source and load have uniform magnitude and uniform phase probability distributions. C. Combine A & B UC = 2 (Value from Graph A) + (Value from Graph B) 2 Expanded Uncertainty, k = 2, = 2. UC = . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ± % 12 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet Ordering Information Model Description Options Description N1911A 100 Msamples/sec, continuous sampling N191xA-003 P-Series single/dual-channel with rear panel sensors and power ref connectors N191xA-H01 P-Series single/dual-channel with video output N1912A ≥ 30 MHz Sensors Standard-shipped accessories N192xA-105 P-Series sensors fixed 1.5 m (5 ft) cable length Power cord N192xA-106 P-Series sensors fixed 3.0 m (10 ft) cable length USB cable Type A to Mini-B, 6 ft N192xA-107 P-Series sensors fixed 10 m (31 ft) cable length Product CD-ROM (contains English and localized User’s Guide and Programming Guide) Cables Keysight Instrument Control DVD (contains IO Libraries Suite, Command Expert and BenchVue software) N1917A P-Series meter cable adaptor, 1.5 m (5 ft) N1917B P-Series meter cable adaptor, 3 m (10 ft) N1917C P-Series meter cable adaptor, 10 m (31 ft) N1917D P-Series meter cable adaptor, 1.8 m (6 ft) Calibration certificate N1911A-200 11730x cable adaptor Warranty Other accessories Standard 3-year, return-to-Keysight warranty and service plan for the N1911A/12A 34131A Transit case for half-rack 2U-high instruments (e.g., 34401A 34161A Accessory pouch N191xA-908 Rack mount kit (one instrument) N191xA-909 Rack mount kit (two instruments) Software Description BV0007A BenchVue Power Meter Pro App license 3 months for standard-shipped accessories Warranty and calibration N191xA-1A7 ISO17025 calibration data including Z540 compliance N191xA-A6J ANSI Z540 compliant calibration test data R-51B-001-5Z Warranty Assurance Plan - Return to Keysight - 5 years R-50C-011-3 Calibration Assurance Plan - Return to Keysight - 3 years R-50C-011-5 Calibration Assurance Plan - Return to Keysight - 3 years R-50C-016-3 ISO 17025 Compliant Calibration up front - 3 years plan R-50C-016-5 ISO 17025 Compliant Calibration up front - 5 years plan R-50C-021-3 ANSI Z540-1-1994 Calibration up front - 3 years plan R-50C-021-5 ANSI Z540-1-1994 Calibration up front - 5 years plan Documentation N191xA-0B1 Hard copy English language User's Guide and Installation Guide N191xA-0BF Hard copy English language Programming Guide N191xA-0BK Hard copy English language User’s Guide and Programming Guide N191xA-0BW Hard copy English language Service Guide N191xA-ABF Hard copy French localization User’s Guide and Programming Guide N191xA-ABJ Hard copy Japanese localization User’s Guide and Programming Guide N192xA-0B1 Hard copy P-Series sensor English language manual 13 | Keysight N1911A/N1912A P-Series Power Meters and N1921A/N1922A Wideband Power Sensors - Data Sheet www.axiestandard.org AdvancedTCA® Extensions for Instrumentation and Test (AXIe) is an open standard that extends the AdvancedTCA for general purpose and semiconductor test. 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For other unlisted countries: www.keysight.com/find/contactus Keysight Channel Partners www.keysight.com/find/channelpartners Get the best of both worlds: Keysight’s measurement expertise and product breadth, combined with channel partner convenience. DEKRA Certified www.keysight.com/find/powermeter (BP-06-08-16) ISO9001 Quality Management System www.keysight.com/go/quality Keysight Technologies, Inc. DEKRA Certified ISO 9001:2015 Quality Management System This information is subject to change without notice. © Keysight Technologies, 2016 Published in USA, November 4, 2016 5989-2471EN www.keysight.com