 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
| keysight technologies fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz data sheet n9913a n9914a n9915a n9925a n9935a n9916a n9926a n9936a n9917a n9927a n9937a n9918a n9928a N9938A n9950a n9960a n9951a n9961a n9952a n9962a
02 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet table of contents defnitions ................................................................................................... 3 cable and antenna analyzer and vector network analyzer ............................................................ 4 corrected measurement uncertainty for n9913a/14a/15a/16a/17a/18a and n9925a/26a/27a/28a ........................ 9 corrected measurement uncertainty for n9950a/51a/52a .......................................................... 16 tdr cable measurements ..................................................................................... 18 vna time domain ............................................................................................ 18 mixed-mode s-parameters .................................................................................... 19 vector voltmeter (vvm) ....................................................................................... 19 spectrum analyzer ........................................................................................... 20 tracking generator or independent source ........................................................................ 29 real-time spectrum analyzer (rtsa) ............................................................................ 31 spectrum analyzer if output ................................................................................... 32 preamplifer ................................................................................................. 32 interference analyzer and spectrogram .......................................................................... 32 channel scanner ............................................................................................. 32 am/fm analog demodulation, tune and listen .................................................................... 33 spectrum analyzer time gating ................................................................................. 34 refection measurements (rl, vswr) ............................................................................ 34 extended range transmission analysis (erta) ..................................................................... 35 built-in power meter .......................................................................................... 40 external usb power sensor support ............................................................................. 41 pulse measurements .......................................................................................... 41 usb power sensor measurements versus frequency ............................................................... 41 built-in gps receiver ......................................................................................... 43 dc bias variable-voltage source ................................................................................ 43 remote control capability ..................................................................................... 43 general information .......................................................................................... 44 this data sheet provides the specifed and typical performance of the fieldfox family of portable analyzers. this data sheet should be used in conjunction with the technical overviews and confguration guide, for a complete description of the analyzers. the specifcations and measurement capabilities listed in this document require certain options on the fieldfox analyzer. refer to the fieldfox confguration guide to obtain option information. the confguration guide (http://literature.cdn.keysight.com/litweb/ pdf/5990-9836en.pdf) is the main resource for option/measurement capability information. 03 | keysight | fieldfox handheld analyzers - data sheet defnitions specifcation (spec) specifcations include guardbands to account for the expected statistical performance distribution, measurement uncertainties, and changes in performance due to environmental conditions. specifcations are warranted performance. fieldfox must be within its calibration cycle. no warm-up required for the specifcations listed on pages 20 through 39. typical describes additional product performance information not covered by the product warranty. it is performance beyond specifcations that 80% of the units exhibit with a 95% confdence level over the temperature range 23 5 oc, unless otherwise noted. typical performance does not include measurement uncertainty. fieldfox must be within its calibration cycle. nominal a general, descriptive term or design parameter. it is not tested, and not covered by the product warranty. fieldfox must be within its calibration cycle. 04 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet cable and antenna analyzer and vector network analyzer the performance listed in this section applies to the cable and antenna analyzer (referred to as cat) and vector network analyzer (vna) capabilities available in the following models: C fieldfox rf & microwave (combination) analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave vector network analyzers: n9925a, n9926a, n9927a, n9928a note: combination analyzers = cable and antenna tester (cat) + vector network analyzer (vna) + spectrum analyzer (sa) frequency specifcations models frequency range n991xa, n992xa n9913a 30 khz to 4 ghz n9914a 30 khz to 6.5 ghz n9915a, n9925a 30 khz to 9 ghz n9916a, n9926a 30 khz to 14 ghz n9917a, n9927a 30 khz to 18 ghz n9918a, n9928a 30 khz to 26.5 ghz n995xa n9950a 300 khz to 32 ghz n9951a 300 khz to 44 ghz n9952a 300 khz to 50 ghz frequency reference, -10 to 55 c accuracy 0.7 ppm (spec) + aging 0.4 ppm (typical) + aging accuracy, when locked to gps 0.010 ppm (spec) accuracy, when gps antenna is disconnected 0.2 ppm (nominal) 1 aging rate 1 ppm/yr for 20 years (spec), will not exceed 3.5 ppm frequency resolution (start, stop, center, marker) spec frequency 5 ghz 1 hz frequency 10 ghz 1.34 hz frequency 20 ghz 2.68 hz frequency 40 ghz 5.36 hz frequency 50 ghz 8.04 hz data points of resolution 101, 201, 401, 601, 801, 1001, 1601, 4001, 10,001 arbitrary number of points settable through front panel and scpi if bandwidth 2 10 hz, 30 hz, 100 hz, 300 hz, 1 khz, 3 khz, 10 khz, 30 khz, 100 khz system impedance 50 (nominal), 75 with appropriate adapter and calibration kit 1. the maximum drift expected in the frequency reference applicable when the ambient temperature changes 5 c from the temperature when the gps signal was last connected 2. vna mode only. recommend using averaging in cat mode 05 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet cable and antenna analyzer and vector network analyzer (continued) test port output specifcations high power in n991xa and n992xa refers to the target output power level of the analyzer when the power setting is set to high. as an example, if you have a frequency sweep from 3 to 6.5 ghz, the analyzer will achieve the power level of -1 dbm across the band. low power level for n991xa and n992xa analyzers is a fat -45 dbm across the whole frequency band, and is the output of the analyzer when the power setting is set to low . _____________________________________________________________________________________________________________________________ high power in the n995xa refers to the target output power level of the analyzer when the power setting is set to high . as an example, if you have a frequency sweep from 39 to 46 ghz, the analyzer will achieve the power level to -2 dbm across the band. low power level for n995xa analyzers is the lowest power level that can be set and is the output of the analyzer when the power setting is set to low . max leveled power in the n995xa refers to the maximum leveled (fattened) power that can be achieved across the designated frequency range. for example, if you have a frequency sweep from 32 to 44 ghz, and set up the analyzer to measure all four s-parameters, needing both ports 1 and 2, the maximum power the analyzer can be set to is -6 dbm. test port output power (dbm), high power typical nominal n991xa, n992xa port 1 or port 2 port 1 or port 2 30 to 300 khz -11 300 khz to 2 mhz -3 -2 2 to 625 mhz -2 -1 625 mhz to 3 ghz 1 3 3 to 6.5 ghz -1 1 6.5 to 9 ghz -2 0 9 to 14 ghz -4 -2.5 14 to 18 ghz -6 -4.5 18 to 23 ghz -10 -8.5 23 to 26.5 ghz -12 -11 test port output power (dbm), low power typical nominal n991xa, n992xa port 1 or port 2 port 1 or port 2 30 khz to 26.5 ghz -45 (fattened) 06 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet cable and antenna analyzer and vector network analyzer (continued) test port output specifcations (continued) test port output power (dbm), high power typical nominal n995xa port 1 port 2 300 khz to 2 mhz 0 0 > 2 mhz to 1 ghz 2 2 > 1 to 6.5 ghz 2 0 > 6.5 to 18 ghz 4 1 > 18 to 39 ghz 1 -2 > 39 to 46 ghz -2 -5 > 46 to 50 ghz -4 -7 test port output power (dbm), low power typical nominal n995xa port 1 port 2 500 khz to 10 mhz -35 -38 > 10 mhz to 10 ghz -38 -42 > 10 to 20 ghz -43 -47 > 20 to 44 ghz -44 -50 > 44 to 50 ghz -53 -55 max leveled output power (dbm) typical nominal n995xa port 1 port 2 500 khz to 10 mhz -2 -2 > 10 mhz to 25 ghz 0 0 > 25 to 32 ghz 0 -4 > 32 to 44 ghz -3 -6 > 44 to 50 ghz -7 -10 power level accuracy 1 typical n991xa, n992xa 1.5 db at ?15 dbm, for frequencies > 250 khz n995xa 0.7 db at -15 dbm, for frequencies > 500 khz to 10 mhz 0.5 db at -15 dbm, for frequencies > 10 mhz to 50 ghz power level linearity nominal n995xa port 1 or port 2, ?25 dbm p < max leveled power each port 10 mhz to 50 ghz 0.5 db 1. n991xa and n992xa power levels are calibrated in the factory using a broadband power sensor, which means all tones (fundamental and harmonics) are included. n995xa power levels are calibrated based on pna-xs tuned receiver, which means primarily the fundamental is included (for frequency 10 mhz). output power range cat high, low, and manual. default (preset) power is high manual power is fattened. vna high, low, and manual. default (preset) power is manual, ?15 dbm. manual power is fattened. power step size power settable in 1 db steps across power range. flat power, in 1 db steps, is available across the whole frequency span, nominal 07 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet system dynamic range 1,2 (db), high power, 300 hz ifbw, 100 point average, port 1 or port 2 (-10 to 55 oc) frequency spec typical n991xa, n992xa > 300 khz to 9 ghz 3 95 100 > 9 to 14 ghz 91 97 > 14 to 18 ghz 90 94 > 18 to 20 ghz 87 90 > 20 to 25 ghz 74 79 > 25 to 26.5 ghz 65 70 n995xa > 300 khz to 1 mhz 70 (nominal) > 1 to 10 mhz 100 (nominal) > 10 mhz to 20 ghz 4 100 110 > 20 to 44 ghz 5 90 100 > 44 to 50 ghz 6 81 90 cable and antenna analyzer and vector network analyzer (continued) system performance specifcations temperature stability nominal frequency magnitude (db/oc) phase (deg/oc) n991xa, n992xa 15 ghz 0.018 > 15 to 26.5 ghz 0.080 n995xa 15 ghz 0.005 0.1 25 ghz 0.030 0.3 > 25 ghz 0.060 0.6 1. system dynamic range is measured in factory with loads on test ports after thru normalization, test port output power high. 2. for cat mode, insertion loss (2-port), decrease listed dynamic range specifcations by 20 db, as cat mode ifbw is fxed at 10 khz. can obtain full dynamic range by using s21 measurement in vna mode with 100 hz ifbw. 3. < 300 khz: 63 db nominal; 2 to 9 mhz: 85 db spec, 90 db typical. 4. decrease by 3 db between 15 to 15.8 ghz for s21. 5. decrease by 5 db between 21.7 to 22.1 ghz for s21. 6. decrease by 4 db between 44 to 50 ghz for s21. 7. 850 s /pt; applicable for fieldfox with serial number prefx < than my5607/sg5607/us5607 and fieldfox not upgraded with option n9910hu-100/200/300. 8. 850 s /pt; applicable for fieldfox with serial number prefx < than my5607/sg5607/us5607 and fieldfox not upgraded with option n9910hu-100/200/300/400. measurement speed (sweep time) cat n991xa, n992xa n995xa return loss, 30 khz to 26.5 ghz, 1-port cal, 1001 points 7 433 s /pt return loss, 300 khz to 50 ghz, 1-port cal, 1001 points 650 s /pt distance-to-fault, 100 meter cable, 1-port cal, 1001 points 7 480 s /pt 650 s /pt vna n991xa, n992xa n995xa s11 and s21, 30 khz to 26.5 ghz, enhanced response cal, 100 khz if bandwidth, 1001 points 8 483 s /pt s11 and s21, 300 khz to 50 ghz, enhanced response cal, 100 khz if bandwidth, 1001 points 580 s /pt 08 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet trace noise 1 , high power, 300 hz ifbw, port 1 or port 2 spec (-10 to 55 oc) frequency magnitude (db rms) phase (deg rms) n991xa, n992xa, n995xa > 300 khz to 20 ghz 0.004 0.07 > 20 to 26.5 ghz 0.007 0.14 > 26.5 to 30 ghz 0.007 0.14 > 30 to 50 ghz 0.008 0.22 receiver compression typical frequency port 1 or port 2 n991xa, n992xa 500 mhz to 1 ghz +10 dbm, 0.15 db compression > 1 to 26.5 ghz +10 dbm, 0.10 db compression n995xa 2 mhz to 50 ghz +5 dbm, 0.10 db compression maximum input level port 1 or port 2 average cw power dc n991xa, n992xa +27 dbm, 0.5 watts 50 vdc n995xa +25 dbm, 0.3 watts 40 vdc cable and antenna analyzer and vector network analyzer (continued) test port input specifcations immunity to interfering signals nominal +16 dbm 1. for cat mode, increase trace noise by a factor of 5.7, as cat mode ifbw is fxed at 10 khz. can use averaging in cat mode to reduce trace noise or use vna mode with 300 hz ifbw. 09 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9913a/14a/15a/16a/17a/18a and n9925a/26a/27a/28a calready, type-n test ports; applies to n9913/4/5/6/7a and n9925/6/7a 1 power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 30-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 1. uncertainties shown based on a factory calibration using data-based calibration kits. 10 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9913a/14a/15a/16a/17a/18a and n9925a/26a/27a/28a (continued) full 2-port quickcal calibration with load, type-n (m) device 1 power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 30-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 1. uncertainties shown based on a factory calibration using data-based calibration kits. 11 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9913a/14a/15a/16a/17a/18a and n9925a/26a/27a/28a (continued) full 2-port calibration, 85518a or 85519a type-n (m) calibration kit, spec power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 60-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. corrected performance (db) 0.5 ghz 0.5 to 2 ghz 2 to 9 ghz 9 to 18 ghz directivity 44 42 35 32 source match 37 36 33 30 load match 38 37 31 27 refection tracking 0.050 0.060 0.070 0.100 transmission tracking 0.070 0.100 0.180 0.500 transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 12 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9913a/14a/15a/16a/17a/18a and n9925a/26a/27a/28a (continued) full 2-port calibration, 85054d type-n (m) calibration kit, spec power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 60-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. corrected performance (db) 0.5 ghz 0.5 to 2 ghz 2 to 8 ghz 8 to 18 ghz directivity 40 40 36 34 source match 38 33 33 27 load match 37 35 32 27 refection tracking 0.006 0.006 0.009 0.027 transmission tracking 0.070 0.100 0.150 0.430 transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 13 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9913a/14a/15a/16a/17a/18a and n9925a/26a/27a/28a (continued) calready, 3.5 mm test ports; applies to n9918a, n9928a 1 power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 30-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 1. uncertainties shown based on a factory calibration using data-based calibration kits. 14 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9913a/14a/15a/16a/17a/18a and n9925a/26a/27a/28a (continued) full 2-port calibration, 85520a or 85521a 3.5 mm (m) calibration kit, spec power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 60-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. corrected performance (db) 0.5 ghz 0.5 to 9 ghz 9 to 18 ghz 18 to 26.5 ghz directivity 42 36 32 32 source match 37 30 28 27 load match 37 30 28 24 refection tracking 0.035 0.130 0.140 0.210 transmission tracking 0.070 0.290 0.330 0.520 transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 15 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9913a/14a/15a/16a/17a/18a and n9925a/26a/27a/28a (continued) full 2-port calibration, 85052d 3.5 mm calibration kit, spec power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 60-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. corrected performance (db) 0.5 ghz 0.5 to 8 ghz 8 to 20 ghz 20 to 26.5 ghz directivity 42 38 36 30 source match 37 31 28 25 load match 38 33 29 24 refection tracking 0.005 0.006 0.009 0.012 transmission tracking 0.070 0.135 0.320 0.500 transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 16 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9950a/51a/52a full 2-port calibration, 85056d 2.4 mm calibration kit, spec 1 power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 60-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. corrected performance (db) 2 ghz 2 to 20 ghz 20 to 40 ghz 40 to 50 ghz directivity 42 34 26 26 source match 39 30 23 23 load match 42 34 26 26 refection tracking 0.002 0.029 0.080 0.075 transmission tracking 0.003 0.034 0.109 0.105 transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 1. uncertainty curves shown are calculated based on iso gum methodology. the values in the table are provided for reference only, in accordance to legacy uncertainty methods. 17 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet corrected measurement uncertainty for n9950a/51a/52a (continued) full 2-port calibration, n4693a 2.4 mm ecal kit 1 power level of -15 dbm, 10 hz if bandwidth, no averaging, battery saver off, and 60-minute warm-up time. includes uncertainties due to drift, noise, compression, and dynamic accuracy. coverage factor of x1 applied to uncertainties, for ease of comparison with other industry handheld analyzers. corrected performance (db) 10 to 50 mhz 50 mhz to 2 ghz 2 to 10 ghz 10 to 20 ghz 20 to 40 ghz 40 to 50 ghz directivity 32 42 49 45 41 36 source match 25 44 42 37 35 32 load match 25 43 41 36 34 31 refection tracking 0.050 0.030 0.040 0.050 0.060 0.080 transmission tracking 0.118 0.038 0.047 0.065 0.091 0.134 transmission uncertainty (s21, s12) refection uncertainty (s11, s22) 1. uncertainty curves shown are calculated based on iso gum methodology. the values in the table are provided for reference only, in accordance to legacy uncertainty methods. 18 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet the performance listed in tdr cable measurements, vna time domain, mixed-mode s-parameters and vector voltmeter sections applies to the capabilities available in the following models: C fieldfox rf & microwave analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave vector network analyzers: n9925a, n9926a, n9927a, n9928a see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. tdr cable measurements the tdr cable option adds time domain refectometry (tdr) measurements to fieldfoxs cat mode. fieldfoxs tdr measurements are based on an inverse fourier transform of the frequency-domain data. tdr measurements are useful in not only identifying the location of faults along cables, but also the nature of the fault. resistive, inductive and capacitive faults will each have a different response. these differences help engineers and technicians trouble-shoot line faults. measurements: tdr (linear rho) and tdr impedance (ohm) y-axis: linear (rho) or impedance (ohm) x-axis: distance (meters or feet) vna time domain in time-domain mode, fieldfox computes the inverse fourier transform of the frequency-domain data to display refection or transmis - sion coeffcients versus time. setup parameters time start, stop, center, span gating start, stop, center, span, and on/off numbers of points, velocity vector, line loss, window shape, independent control for all four traces time stimulus modes low-pass step low-pass step is similar to a traditional time domain refectometer (tdr) stimulus waveform. it is used to measure low-pass devices. the frequency-domain data should extend from dc (extrapolated value) to a higher value. low-pass impulse low-pass impulse response is used to measure low-pass devices. bandpass impulse the bandpass impulse simulates a pulsed rf signal and is used to measure the time domain response of band-limited devices. windows the windowing function can be used to flter the frequency domain data and thereby reduce overshoot and ringing in the time domain response. windows minimum, medium and maximum, manual entry of kaiser beta and impulse width. gating the gating function can be used to selectively remove refection or transmission time domain responses. in converting back to the frequency domain the effects of the responses outside the gate are removed. the results can be viewed with gating on and off, using two traces. gate types notch, bandpass gate shapes maximum, wide, normal, minimum 19 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet mixed-mode s-parameters mixed-mode s-parameters are also known as balanced measurements. measurements scc11 common mode refection sdd11 differential mode refection scd11 differential mode stimulus, common mode response sdc11 common mode stimulus, differential mode response fieldfoxs mixed-mode s-parameter measurements require the use of the default factory calibration or a user 2-port calibration. so the fieldfox analyzer must be equipped with 2-port measurement functionality to measure mixed-mode s-parameters. mixed-mode s-parameters are an extension of the vna capabilities. vector voltmeter (vvm) with vector voltmeter mode, you can characterize the difference between two measurements easily. the zeroing function allows you to create a reference signal, and characterize the difference between two device measurements. the results are shown on a large display in digital format. models frequency range n991xa, n992xa n9913a 30 khz to 4 ghz n9914a 30 khz to 6.5 ghz n9915a, n9925a 30 khz to 9 ghz n9916a, n9926a 30 khz to 14 ghz n9917a, n9927a 30 khz to 18 ghz n9918a, n9928a 30 khz to 26.5 ghz n995xa n9950a 300 khz to 32 ghz n9951a 300 khz to 44 ghz n9952a 300 khz to 50 ghz ratio accuracy (a/b and b/a) must zero, before measuring dut. recommend using a high-quality power splitter or 6 db attenuators to minimize uncertainty due to mismatch. frequency nominal n991xa, n992xa, n995xa 100 to 300 khz 1 1.0 > 300 khz to 1 mhz 0.4 > 1 to 100 mhz 0.2 > 100 to 300 mhz 0.4 > 300 mhz to 1.5 ghz 0.6 > 1.5 to 2 ghz 1.0 1. does not apply to n995xa models, which start at 300 khz. setup parameters 1-port cable trimming refection or s11 measurement, magnitude and phase 2-port transmission transmission or s21 measurement, magnitude and phase a/b and b/a ratio of two receivers or channels, magnitude and phase C need an external signal generator for the a/b or b/a measurement frequency (one cw frequency point), if bandwidth - 10 hz to 100 khz, output power - low or high 20 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer the performance listed in this section applies to the spectrum analyzer capabilities available in the following models: C fieldfox rf & microwave analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave spectrum analyzers: n9935a, n9936a, n9937a, N9938A n9960a, n9961a, n9962a see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. frequency and time specifcations models frequency range n991xa, n993xa n9913a 100 khz to 4 ghz usable to 5 khz n9914a 100 khz to 6.5 ghz usable to 5 khz n9915a, n9935a 100 khz to 9 ghz usable to 5 khz n9916a, n9936a 100 khz to 14 ghz usable to 5 khz n9917a, n9937a 100 khz to 18 ghz usable to 5 khz n9918a, N9938A 100 khz to 26.5 ghz usable to 5 khz n995xa, n996xa n9950a, n9960a 9 khz to 32 ghz usable to 5 khz n9951a, n9961a 9 khz to 44 ghz usable to 5 khz n9952a, n9962a 9 khz to 50 ghz usable to 5 khz the spectrum analyzer is tunable to 0 hz or dc. 21 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer (continued) frequency and time specifcations (continued) frequency reference, -10 to 55 c accuracy 0.7 ppm (spec) + aging 0.4 ppm (typical) + aging accuracy, when locked to gps 0.010 ppm (spec) accuracy, when gps antenna is disconnected 0.2 ppm (nominal) 1 aging rate 1 ppm/yr for 20 years (spec), will not exceed 3.5 ppm frequency readout accuracy (start, stop, center, marker) (readout frequency x frequency reference accuracy + rbw centering + 0.5 x horizontal resolution horizontal resolution = frequency span / (trace points C 1) rbw centering: C 5% x rbw, fft mode (nominal) C 16% x rbw, step mode (nominal) marker frequency counter accuracy (marker frequency x frequency reference accuracy + counter resolution) resolution 1 hz frequency span spec range 0 hz (zero span), 10 hz to maximum frequency range of instrument resolution 1 hz accuracy (2 x rbw centering + horizontal resolution) (2 x rbw centering + horizontal resolution) for detector = normal sweep acquisition, span > 0 hz spec range 1 to 5000. number of data acquisitions per measurement. value is normalized to the minimum required to achieve amplitude accuracy with cw signals. auto coupled. for pulsed rf signals manually increase the sweep acquisition value to maximize the pulse spectrum envelope. resolution 1 sweep time readout measured value of the time required to complete a sweep from start to fnish, including time to tune receiver, acquire data, and process trace. trace update n991xa, n993xa n995xa, n996xa span = 20 mhz, rbw, vbw = 3 khz 6.7 updates per second 2 8 updates per second span = 100 mhz, rbw, vbw autocoupled 15.4 updates per second 3 19 updates per second center frequency tune and transfer 4 n991xa, n993xa 5 n995xa, n996xa 101 points, zero span 70 ms 69 ms 101 points, 1 mhz span 72 ms 72 ms 1. the maximum drift expected in the frequency reference applicable when the ambient temperature changes 5 c from the temperature when the gps signal was last connected. 2. 1.2 updates per second; applicable for fieldfox with serial number prefx < than my5607/sg5607/us5607 and fieldfox not upgraded with option n9910hu-100/200/300. 3. 4.1 updates per second; applicable for fieldfox with serial number prefx < than my5607/sg5607/us5607 and fieldfox not upgraded with option n9910hu-100/200/300. 4. within full frequency range of instrument, not band dependent 5. only for serial number prefx starting with my5607/sg5607/us5607 and fieldfox upgraded with option n9910hu-100/200/300/400. 22 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer (continued) frequency and time specifcations (continued) sweep time, zero span nominal range n991xa, n993xa: 1 s to 1000 s n995xa, n996xa: 1 s to 6000 s resolution 100 ns readout entered value representing trace horizontal scale range trigger (for zero span and fft sweeps) trigger type free run, external, video, rf burst trigger slope positive edge, negative edge trigger delay range: -150 ms to 10 s resolution: 100 ns auto trigger forces a periodic acquisition in the absence of a trigger event range: 0 (off) to 10 s trigger position (zero span) controls horizontal position of the pulse edge; use sweep time to zoom into pulse edge range: 0 to 10, integer steps; 0 is left edge of graticule, 10 is right edge of graticule rf burst trigger nominal dynamic range 40 db bandwidth 20 mhz operating frequency range 20 mhz to maximum instrument frequency sweep (trace) point range all spans 101, 201, 401, 601, 801, 1001 (defaults to 401); arbitrary 2 to 10,001 settable through scpi resolution bandwidth (rbw) range (-3 db bandwidth) zero span 10 hz to 5 mhz 1, 3, 10 sequence non-zero span 1 hz to 5 mhz 1, 1.5, 2, 3, 5, 7.5, 10 sequence < 300 khz, 300 khz, 1 mhz, 3 mhz, 5 mhz step keys change rbw in 1, 3, 10 sequence selectivity (?60 db / ?3 db) 4:1 bandwidth accuracy nominal zero span 10 hz to 1 mhz 5% 3 mhz 10% 5 mhz 15% non-zero span 1 hz to 100 khz 1% 300 khz to 1 mhz 5% 3 mhz 10% 5 mhz 15% video bandwidth (vbw) 1 hz to 5 mhz 1, 1.5, 2, 3, 5, 7.5, 10 sequence 23 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer (continued) amplitude accuracy and range specifcations amplitude range measurement range danl to +20 dbm input attenuator range 0 to 30 db, in 5 db steps preamplifer nominal frequency range full band (100 khz to maximum frequency of instrument) gain n991xa, n993xa +20 db, 100 khz to 26.5 ghz n995xa, n996xa +20 db, 100 khz to 7.5 ghz +15 db, > 7.5 to 50 ghz max safe input level average cw power dc n991xa, n993xa +27 dbm, 0.5 watts 50 vdc n995xa, n996xa +25 dbm, 0.3 watts 40 vdc display range log scale 10 divisions 0.01 to 100 db/division in 0.01 db steps linear scale 10 divisions scale units dbm, dbmv, dbv.dbma, dba, w, v, a, dbv/m, dba/m, dbg, dbt 50 mhz absolute amplitude accuracy (db) 0 db attenuation, input signal 0 to -35 dbm, peak detector, preamplifer off, 300 hz rbw, all settings auto-coupled, -10 to 55 c. no warm-up required. spec (-10 to 55 oc) typical (-10 to 55 oc) n991xa, n993xa 0.30 0.10 0 db attenuation, input signal -5 to -35 dbm, peak detector, preamplifer off, 300 hz rbw, all settings auto-coupled, -10 to 55 c. no warm-up required. spec (-10 to 55 oc) typical (-10 to 55 oc) n995xa, n996xa 0.45 0.20 total absolute amplitude accuracy (db) 10 db attenuation, input signal -15 to -5 dbm, peak detector, preamplifer off, 300 hz rbw, all settings auto-coupled, includes frequency response uncertainties. no warm-up required. n991xa, n993xa 1 spec (23 5 c) spec (-10 to 55 c) typical (23 5 c) typical (-10 to 55 c) 100 khz to 18 ghz 0.80 1.00 0.35 0.50 > 18 to 26.5 ghz 1.00 1.20 0.50 0.60 n995xa, n996xa 2 spec (23 5 c) spec (-10 to 55 c) typical (23 5 c) typical (-10 to 55 c) 9 to 100 khz 1.60 2.50 0.60 1.30 > 100 khz to 2 mhz 1.30 1.90 0.60 0.80 > 2 to 15 mhz 1.00 1.20 0.30 0.50 > 15 mhz to 32 ghz 0.80 1.00 3 0.30 0.50 > 32 to 40 ghz 0.90 1.40 0.50 0.70 > 40 to 43 ghz 1.30 2.00 0.50 0.70 > 43 to 50 ghz 1.40 2.70 0.50 0.90 1. 9 to 100 khz: 0.4 db (nominal) preamp on or off; applicable only for serial number with prefx of my5607/sg5607/us5607 and fieldfox upgraded with option n9910hu-100/200/300/400. 2. also applies for preamplifer on or off for these models, for measurement frequencies > 100 khz. 3. increase by 0.2 db between 18 and 32 ghz. 24 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer (continued) amplitude accuracy and range specifcations (continued) resolution bandwidth switching uncertainty nominal rbw < 5 mhz 0.0 db for signals not at center frequency 0.7 db peak-to-peak rf input vswr nominal n991xa, n993xa (10 db attenuation) 10 mhz to 2.7 ghz 1.7 : 1 > 2.7 to 7.5 ghz 1.5 : 1 > 7.5 to 26.5 ghz 2.2 : 1 n995xa, n996xa (0 db attenuation) 10 to 100 mhz 2.0 : 1 > 100 to 500 mhz 1.7 : 1 > 500 mhz to 17 ghz 1.5 : 1 > 17 to 50 ghz 2.2 : 1 reference level range -210 to +90 dbm traces detectors normal, positive peak, negative peak, sample, average (rms) states clear/write, max hold, min hold, average, view, blank number of averages: 1 to 10,001 number 4: all four can be active simultaneously and in different states markers number of markers 6 type normal, delta, marker table marker functions noise, band power, frequency counter audio beep volume and tone change with signal strength marker table display 6 markers marker to ? peak, next peak, peak left, peak right, center frequency, reference level, minimum tune frequency, for am/fm tune and listen marker properties peak criteria: peak excursion, peak threshold delta reference fxed: off or on time zero fxed: off or on 25 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer (continued) dynamic range specifcations displayed average noise level (danl) - (dbm) input terminated, rms detection, log averaging, 0 db input attenuation, reference level of -20 dbm, normalized to 1 hz rbw n991xa, n993xa 1 preamp off spec (23 5 c) spec (-10 to 55 c) typical (23 5 c) typical (-10 to 55 c) 2 mhz to 4.5 ghz 2 -137 -135 -139 -138 > 4.5 to 7 ghz -133 -131 -136 -130 > 7 to 13 ghz -129 -127 -132 -130 > 13 to 17 ghz -124 -122 -126 -125 > 17 to 22 ghz -119 -117 -122 -121 > 22 to 25 ghz -114 -111 -117 -114 > 25 to 26.5 ghz -110 -108 -112 -111 preamp on spec (23 5 c) spec (-10 to 55 c) typical (23 5 c) typical (-10 to 55 c) 2 mhz to 4.5 ghz 2 -153 -151 -155 -154 > 4.5 to 7 ghz -149 -147 -151 -150 > 7 to 13 ghz -147 -145 -149 -14 8 > 13 to 17 ghz -14 3 -141 -145 -14 4 > 17 to 22 ghz -140 -139 -14 3 -142 > 22 to 25 ghz -134 -132 -137 -134 > 25 to 26.5 ghz -128 -126 -131 -129 n995xa, n996xa preamp off spec (23 5 c) spec (-10 to 55 c) typical (23 5 c) typical (-10 to 55 c) 9 khz to 2 mhz -91 -91 -118 -118 > 2 mhz to 2.1 ghz -137 -135 -14 3 -141 > 2.1 to 2.8 ghz -135 -133 -142 -140 > 2.8 to 4.5 ghz -137 -135 -14 3 -141 > 4.5 to 7 ghz -134 -133 -140 -138 > 7 to 13 ghz -134 -132 -141 -139 > 13 to 22 ghz -132 -129 -140 -137 > 22 to 35 ghz -130 -127 -137 -134 > 35 to 40 ghz -122 -119 -132 -129 > 40 to 46 ghz -119 -116 -126 -123 > 46 to 50 ghz -117 -112 -124 -120 preamp on spec (23 5 c) spec (-10 to 55 c) typical (23 5 c) typical (-10 to 55 c) 9 khz to 2 mhz -94 -94 -131 -130 > 2 mhz to 2.1 ghz -153 -151 -159 -158 > 2.1 to 2.8 ghz -151 -149 -157 -155 > 2.8 to 4.5 ghz -153 -151 -158 -156 > 4.5 to 7 ghz -150 -149 -156 -154 > 7 to 13 ghz -146 -14 4 -152 -150 > 13 to 22 ghz -142 -139 -149 -147 > 22 to 35 ghz -141 -139 -147 -145 > 35 to 40 ghz -136 -132 -14 4 -141 > 40 to 46 ghz -131 -128 -138 -135 > 46 to 50 ghz -126 -123 -135 -132 1. 9 khz to 2 mhz: -116 (nominal) preamp off, -120 (nominal) preamp on, applicable only for fieldfox with serial number prefxes of my5607/sg5607/us5607 and fieldfox upgraded with option n9910hu-100/200/300/400. 2. 2. add 4 db between 2.1 and 2.8 ghz. 26 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer (continued) dynamic range specifcations (continued) residual responses (dbm) nominal input terminated preamp off, 0 db attenuation n991xa, n993xa n995xa, n996xa 100 khz to 13 hz -110 - > 13 to 20 hz -90 - > 20 to 265 hz -0 - 100 khz to 10 mhz - -90 > 10 mhz to 1 hz - -115 > 1 to 30 hz - -120 > 30 to 35 hz - -5 > 35 to 50 hz - -110 input related responses (dbc) nominal n991xa, n993xa n995xa, n996xa ?30 dbm signal at mixer input 2.6 to 7.5 ghz, f + 2 x 33.75 mhz 2.6 to 7.5 ghz, f + 2 x 866.25 mhz 2.6 to 7.5 ghz, f + 2 x 9.86625 ghz 7.5 to 16.3 ghz, f + 2 x 3 .63375 ghz 16.3 to 26.5 ghz, f C 2 x 3.63375 ghz 7.5 to 26.5 ghz, f + 2 x 33.75 mhz 7.5 to 26.5 ghz, f C 2 x 866.25 mhz 16.3 to 23 ghz, f C 2 x 3.63375 mhz 23 to 32.5 ghz, f + 2 x 3.63375 mhz 32.5 to 43 ghz, f C 2 x 3.63375 mhz 7.5 to 50 ghz, f C 2 x 866.25 mhz 7.5 to 50 ghz, f + 2 x 33.75 mhz other spurious responses (dbc) nominal n991xa, n993xa n995xa, n996xa lo related spurs -60 -60 sideband -0 -0 second harmonic distortion (dbc) nominal -30 dbm signal at mixer input n991xa, n993xa n995xa, n996xa 1.3 ghz 4 ghz 1. applies for frequencies > 15 mhz 27 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer (continued) dynamic range specifcations (continued) third order intermodulation distortion (toi) C (dbm) spec typical two -20 dbm signals, 100 khz spacing at input mixer (-10 to 55 c) n991xa, n993xa at 2.4 ghz, +15 < 1 ghz, +10 1 to 7.5 ghz, +15 > 7.5 ghz, +21 n995xa, n996xa at 2.4 ghz, +15 50 to 500 mhz, +9.5 > 500 mhz to 1 ghz, +13 > 1 to 2.4 ghz, +16 > 2.4 to 2.6 ghz, +12 > 2.6 ghz, +13 spur free dynamic range (db) at 2.4 ghz 2/3 (toi C danl) in 1 hz rbw nominal n991xa, n993xa > 105 n995xa, n996xa > 104 nominal distortion and noise limited (10 hz rbw) dynamic range applies to n991xa and n993xa applies to n995xa and n996xa 28 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer (continued) dynamic range specifcations (continued) phase noise (dbc/hz) noise sidebands, cf = 1 ghz (n991xa, n993xa, n995xa, n996xa) offset spec (23 5 c) spec (-10 to 55 c) typical (23 5 c) typical (-10 to 55 c) 10 khz ?106 ?106 ?111 ?111 30 khz ?106 ?104 ?108 ?110 100 khz ?100 ?99 ?104 ?105 1 mhz ?110 ?110 ?113 ?113 3 mhz ?119 ?118 ?122 ?122 5 mhz ?120 ?120 ?123 ?123 phase noise at different center frequencies (nominal) dynamic range versus offset frequency versus rbw (nominal) 29 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet tracking generator or independent source the performance listed in this section applies to the tracking generator and independent source capabilities available in the following models: C fieldfox rf & microwave analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave spectrum analyzers: n9935a, n9936a, n9937a, N9938A n9960a, n9961a, n9962a see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. note: traditional tracking generators track the receiver frequency only. in fieldfox analyzers, the tracking generator frequency can be set to either track the receiver frequency, or act as an independent cw source. models tracking generator or independent source frequency range n991xa, n993xa n9913a 30 khz to 4 ghz n9914a 30 khz to 6.5 ghz n9915a, n9935a 30 khz to 9 ghz n9916a, n9936a 30 khz to 14 ghz n9917a, n9937a 30 khz to 18 ghz n9918a, N9938A 30 khz to 26.5 ghz n995xa, n996xa n9950a, n9960a 300 khz to 32 ghz n9951a, n9961a 300 khz to 44 ghz n9952a, n9962a 300 khz to 50 ghz power step size power settable in 1 db steps across power range functions mode continuous wave (cw), cw coupled, tracking (swept frequency) operations normalization, frequency offset, spectral reversal rf output vswr nominal 10 mhz to 2.7 ghz 1.7 : 1 > 2.7 to 7.5 ghz 1.5 : 1 > 7.5 ghz 2.2 : 1 30 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet tracking generator or independent source (continued) output power (dbm) frequency typical nominal n991xa, n993xa 30 to 300 khz ?11 > 300 khz to 2 mhz ?3 ?2 > 2 to 625 mhz ?2 ?1 > 625 mhz to 3 ghz 1 3 > 3 to 6.5 ghz ?1 1 > 6.5 to 9 ghz ?2 0 > 9 to 14 ghz ?4 ?2.5 > 14 to 18 ghz ?6 ?4.5 > 18 to 23 ghz ?10 ?8.5 > 23 to 26.5 ghz ?12 ?11 n995xa, n996xa 300 to 500 khz ?9 > 500 khz to 2 mhz ?1 > 2 mhz to 1 ghz 2 > 1 to 6.5 ghz 2 > 6.5 to 18 ghz 4 > 18 to 26.5 ghz 2 > 26.5 to 39 ghz 1 > 39 to 44 ghz ?1 > 44 to 46 ghz ?2 > 46 to 50 ghz ?4 dynamic range (db) preamp off preamp on frequency typical, ?10 to 55 c nominal n991xa, n993xa 2 mhz to 2 ghz 97 112 > 2 to 7 ghz 93 108 > 7 to 11 ghz 88 103 > 11 to 16 ghz 79 95 > 16 to 21 ghz 71 86 > 21 to 23 ghz 55 70 > 23 to 25 ghz 50 65 > 25 to 26.5 ghz 45 60 n995xa, n996xa 500 khz to 2 mhz 79 100 > 2 mhz to 2.1 ghz 101 115 > 2.1 to 2.8 ghz 99 112 > 2.8 to 4.5 ghz 101 115 > 4.5 to 10 ghz 99 105 > 10 to 18 ghz 88 95 > 18 to 40 ghz 85 90 > 40 to 43 ghz 65 80 > 43 to 50 ghz 73 76 31 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet real-time spectrum analyzer (rtsa) the performance listed in this section applies to the real-time spectrum analyzer capabilities available in the following models: C fieldfox rf & microwave analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave spectrum analyzers: n9935a, n9936a, n9937a, N9938A n9960a, n9961a, n9962a see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. models real-time analysis frequency range n991xa, n993xa n9913a 100 khz to 4 ghz usable to 5 khz n9914a 100 khz to 6.5 ghz usable to 5 khz n9915a, n9935a 100 khz to 9 ghz usable to 5 khz n9916a, n9936a 100 khz to 14 ghz usable to 5 khz n9917a, n9937a 100 khz to 18 ghz usable to 5 khz n9918a, N9938A 100 khz to 26.5 ghz usable to 5 khz n995xa, n996xa n9950a, n9960a 9 khz to 32 ghz usable to 5 khz n9951a, n9961a 9 khz to 44 ghz usable to 5 khz n9952a, n9962a 9 khz to 50 ghz usable to 5 khz real-time analysis maximum real-time bandwidth 10 mhz resolution bandwidth 1 hz to 500 khz span dependent, 20 span/rbw 280. default is 35.7 khz minimum signal duration with 100% probability of intercept (poi) at full amplitude accuracy 12.2 s at 10 mhz span, 500 hz rbw minimum detectable signal absolute amplitude accuracy at center frequency 22 ns minimum pulse signal duration where measured amplitude is no worse than 60 db below a cw signal for a 10 mhz span and auto coupled rbw spurious-free dynamic range across maximum bw 63 db fft rate 120,000 fft/s at 10 mhz span if fatness (typical) +/- 0.2 db <= 26.5 ghz, +/- 0.3 db > 26.5 ghz number of display points 561 min. acquisition time 20 ms at 10 mhz span max. acquisition time 500 ms at 10 mhz span traces number of traces 4: all four can be active simultaneously and in different states detectors normal, positive peak, negative peak, sample, average (rms) states clear/write, max. hold, min. hold, average, view, blank markers number of markers 6 type normal, delta, peak marker peak, next peak, center frequency, reference level, minimum trigger trigger type free run, external video, rf burst, periodic 32 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet the performance listed in these sections below applies to the spectrum analyzer capabilities available in the following models: C fieldfox rf & microwave analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave spectrum analyzers: n9935a, n9936a, n9937a, N9938A n9960a, n9961a, n9962a see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. spectrum analyzer if output description center frequency 33.75 mhz if bandwidth 5 mhz (default), 25 mhz connector smb male conversion loss 0 to 27 db nominal the loss increases approximately linearly as frequency increases, with ~27 db loss at 26.5 ghz. conversion loss is defned from rf input to sa output with ?10 dbm input power, 0 db attenuation, and preamp off. preamplifer nominal frequency range full band (100 khz to maximum frequency of instrument) gain n991xa, n993xa +20 db, 100 khz to 26.5 ghz n995xa, n996xa +20 db, 100 khz to 7.5 ghz +15 db, > 7.5 to 50 ghz interference analyzer and spectrogram description spectrogram display overlay, full screen, top, or bottom with active trace waterfall angle moderate, steep, gradual, wide angle markers time, delta time trace playback and recording record all spectrum analyzer measurements store data internally or on usb or sd card playback recorded data using fieldfox frequency mask trigger allows recording to occur upon trigger channel scanner description scan mode range or custom list display type bar chart vertical, bar chart horizontal, channel power, strip chart, chart overlay, scan & listen data logging mode time with geo tagging trace playback and recording record channel power measurement store data internally or usb or sd card in .csv or .kml format playback recorded data using fieldfox data in .kml format can be exported to google earth 33 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet the performance listed in this section applies to the am/fm analog demodulation, tune and listen capabilities available in the following models: C fieldfox rf & microwave analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave spectrum analyzers: n9935a, n9936a, n9937a, N9938A n9960a, n9961a, n9962a see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. am/fm analog demodulation, tune and listen description display type rf spectrum view, demodulated waveform, including peak+ and peak- traces audio demodulation type am, fm narrow, fm wide, listen to the tones using fieldfoxs built-in speaker or headphones audio bandwidth 16 khz measurement type rf carrier power (dbm), rf carrier frequency (hz), modulation rate (hz), sinad (db), thd (%) receiver if bandwidth nominal am 35 khz fm narrow 12 khz fm wide 150 khz listen time range 0 to 100 seconds am & fm metrics nominal sinad 2.5 db to 65 db thd 0 to 75% am measurements nominal maximum modulation rate 5 khz, demod sweep time: 50 s to 50 ms depth (peak-to-peak/2) (%), peak depth (%) depth accuracy 2% depth range modulation: 0.1 % to 99% fm measurements nominal maximum modulation rate 5 khz, demod sweep time: 50 s to 50 ms frequency deviation (hz), peak deviation (hz) maximum deviation 30 khz (typical) radio standards with a radio standard applied, pre-defned frequency bands, channel numbers or uplink / downlink selections can be used instead of manual frequency entry. the pre-defned fieldfox radio standards include bands such as w-cdma, lte, and gsm. alternately, users can create custom standards and import them into fieldfox analyzers. 34 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet spectrum analyzer time gating with time gating, you can measure the spectrum of a periodic signal during a specifed time interval. pulsed-rf signals are an example of a periodic signal that can be measured with time gating. for example, you can measure the pulse during the on period, not the transition or the off period. or you can exclude interfering signals such as a periodic transient. time gating allows you to view spectral components that would otherwise be hidden. fieldfoxs time gating method is a gated fft. description gate method gated fft span range any span rbw range 1 hz to 300 khz (derived from gate width) gate delay range -150 ms to 10 s gate width (length) range 6 s to 1.8 s gate sources external, rf burst, video refection measurements (rl, vswr) the performance listed in this section applies to the refection measurements capabilities available in the following models: C fieldfox microwave spectrum analyzers: n9935a, n9936a, n9937a, N9938A 1 n9960a, n9961a, n9962a see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. models refection measurements n993xa n9935a 30 khz to 9 ghz n9936a 30 khz to 14 ghz n9937a 30 khz to 18 ghz N9938A 1 30 khz to 26.5 ghz n996xa n9960a 300 khz to 32 ghz n9961a 300 khz to 44 ghz n9962a 300 khz to 50 ghz measurements return loss, vswr normalization using data/memory 1. refection measurements in N9938A specifcally requires 3.5 mm (m) test ports instead of the standard type-n (f). 35 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet extended range transmission analysis (erta) erta specifcations apply to the following fieldfox models. the rf & microwave analyzers must be equipped with the spectrum analyzer option. C fieldfox rf & microwave analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave spectrum analyzers: n9935a, n9936a, n9937a, N9938A n9960a, n9961a, n9962a erta operation requires two fieldfoxes, each one confgured with specifc options, and certain accessories. see fieldfox confguration guide for detailed option ordering information. many capabilities listed in this data sheet require options. system description erta can be used to measure the scalar transmission gain or loss of an rf system. it is useful when measuring long lossy cables where the two ends cannot easily be brought together, such as those bolted in on ships or aircrafts. it is also useful in measuring the insertion loss of waveguide systems, or using the frequency-offset feature, devices such as mixers and converters. erta measurements are based on two fieldfoxes; one at each end of the measured dut. one fieldfox is the source and reference receiver (r), while the other is the measurement receiver (b). the two fieldfoxes are synchronized using hardware triggering. by taking advantage of fieldfoxs instalign technique, erta can be used to make accurate gain or loss measurements. dut 36 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet extended range transmission analysis (erta) (continued) frequency specifcations the erta frequency range is limited by each individual analyzers frequency range. models refection measurements receiver frequency range 1 n991xa, n993xa n9913a 30 khz to 4 ghz 100 khz to 4 ghz n9914a 30 khz to 6.5 ghz 100 khz to 6.5 ghz n9915a, n9935a 30 khz to 9 ghz 100 khz to 9 ghz n9916a, n9936a 30 khz to 14 ghz 100 khz to 14 ghz n9917a, n9937a 30 khz to 18 ghz 100 khz to 18 ghz n9918a, N9938A 30 khz to 26.5 ghz 100 khz to 26.5 ghz n995xa, n996xa n9950a, n9960a 300 khz to 32 ghz 300 khz to 32 ghz n9951a, n9961a 300 khz to 44 ghz 300 khz to 44 ghz n9952a, n9962a 300 khz to 50 ghz 300 khz to 50 ghz 1. the receiver (spectrum analyzer) is usable to 5 khz, though only specifed to 100 khz or 300 khz. frequency reference refer to the frequency accuracy specifcations on page 21. source output power refer to the test port output power typical data on page 5. frequency setup parameters receiver frequency center/span or start/stop (standard spectrum analyzer settings) reverse receiver sweep direction (default direction is forward, but can be set to reverse) source frequency [remote] [tracking] C fieldfox source tracks the receiver by default. the frequencies are identical. [cw] C fieldfoxs source can be set to a cw frequency independent of fieldfoxs receiver frequency. fieldfoxs source is at a single cw frequency; fieldfoxs receiver is swept. [coupled cw] C fieldfoxs source cw frequency is auto-coupled to fieldfoxs receiver [center frequency] setting. frequency-offset capability this feature allows the fieldfoxs source frequency to be offset from fieldfoxs receiver frequency. the offset frequency can be negative, zero, or positive. the frequency-offset capability is useful when characterizing the scalar transmission response of devices such as mixers and converters. frequency-offset setup parameters receiver frequency center/span or start/stop (standard spectrum analyzer settings) reverse receiver sweep direction (default direction is forward, but can be set to reverse) frequency tracking offset on/off offset values: 0, > 0, < 0 receiver sweep direction reversal: off default setting both source and receiver sweep in the forward direction. receiver stop frequency > receiver start frequency source frequency = offset + receiver frequency reversal: on source and receiver sweep in opposite directions. source frequency = offset ? receiver frequency offset > receiver frequency 37 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet extended range transmission analysis (erta) (continued) dynamic range and maximum attenuation dynamic range is the difference between the maximum output power available from fieldfoxs source and the noise foor of the sec - ond fieldfox, while ensuring that neither fieldfoxs adc goes into over-range. dynamic range also accounts for the loss of the power splitter. dynamic range is applicable when testing devices such as flters, where there is low loss in the passband, and signifcant loss in the stopband, and both passband and stopband need to be on the display at the same time (same sweep). maximum attenuation is the difference between maximum output power available from fieldfoxs source and the noise foor of fieldfox. it also accounts for the loss of power splitter. maximum attenuation is applicable when testing devices such as cables, which have relatively uniform loss over the swept frequency range. the values shown are based on the recommended minimum rbw of 3 khz when the frequency references are locked via gps, and 300 khz when the frequency references are unlocked. locking the frequency references to gps allows for greater frequency accuracy of the fieldfoxes and use of a narrower rbw, which in turn results in a lower danl, and hence a wider measurement range. when the gps signals cannot be present at all times, the gps hold-over mode can be used. dynamic range (db) typical n991xa, n993xa preamp off preamp on preamp off preamp on frequency references locked to gps, rbw 3 khz frequency references locked to gps, rbw 3 khz frequency references unlocked, rbw 300 khz frequency references unlocked, rbw 300 khz > 2 mhz 1 to 6 ghz 88 83 68 63 > 6 to 13 ghz 86 83 66 63 > 13 to 22 ghz 70 86 50 66 > 22 to 25 ghz 63 83 43 63 > 25 to 26.5 ghz 58 77 38 57 maximum attenuation (db) typical n991xa, n993xa preamp off preamp on preamp off preamp on frequency references locked to gps, rbw 3 khz frequency references locked to gps, rbw 3 khz frequency references unlocked, rbw 300 khz frequency references unlocked, rbw 300 khz > 2 mhz to 6 ghz 93 108 73 88 > 6 to 13 ghz 86 103 66 83 > 13 to 22 ghz 70 91 50 71 > 22 to 25 ghz 63 83 43 63 > 25 to 26.5 ghz 58 77 38 57 1. dynamic range is decreased from 3 to 9 db at 2 mhz. 38 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet extended range transmission analysis (erta) (continued) dynamic range and maximum attenuation (continued) dynamic range (db) typical n995xa, n996xa preamp off preamp on preamp off preamp on frequency references locked to gps, rbw 3 khz frequency references locked to gps, rbw 3 khz frequency references unlocked, rbw 300 khz frequency references unlocked, rbw 300 khz > 2 to 5 mhz 83 87 62 58 > 5 mhz to 11 ghz 93 97 69 68 > 11 to 19 ghz 95 96 71 70 > 19 to 22 ghz 93 94 69 68 > 22 to 40 ghz 88 90 63 65 > 40 to 43 ghz 82 89 57 64 > 43 to 46 ghz 81 93 56 68 > 46 to 50 ghz 77 88 52 63 maximum attenuation (db) typical n995xa, n996xa preamp off preamp on preamp off preamp on frequency references locked to gps, rbw 3 khz frequency references locked to gps, rbw 3 khz frequency references unlocked, rbw 300 khz frequency references unlocked, rbw 300 khz > 2 mhz to 13 ghz 100 113 74 88 > 13 to 18 ghz 101 110 76 85 > 18 to 22 ghz 99 108 74 83 > 22 to 35 ghz 95 105 70 80 > 35 to 40 ghz 88 100 63 75 > 40 to 46 ghz 81 93 56 63 > 46 to 50 ghz 77 88 52 63 absolute power and gain measurement uncertainties verifed with input level of -10 dbm, peak detector, 10 db attenuation, preamplifer off, all settings auto-coupled, no warm-up required. includes frequency response uncertainties. assumes an erta system using a keysight 11667a, 11667b, or 11667c power splitter. n991xa and n993xa input power (r) measurements uncertainty, 30 khz rbw (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 100 khz to 18 ghz 1.10 1.30 0.40 0.50 > 18 to 26.5 ghz 1.40 1.50 0.50 0.60 output power (b) measurement uncertainty, frequency references locked to gps, rbw 3 khz (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 100 khz to 18 ghz 1.00 1.20 0.40 0.50 > 18 to 26.5 ghz 1.20 1.40 0.50 0.60 output power (b) measurement uncertainty, frequency references unlocked, rbw 300 khz (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 100 khz to 18 ghz 1.00 1.30 0.40 0.50 > 18 to 26.5 ghz 1.40 1.60 0.50 0.60 gain/loss (b/r) measurement uncertainty, frequency references locked to gps, rbw 3 khz (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 100 khz to 18 ghz 1.30 1.70 0.60 0.70 > 18 to 26.5 ghz 1.70 2.10 0.70 0.90 gain/loss (b/r) measurement uncertainty, frequency references unlocked, rbw 300 khz (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 100 khz to 18 ghz 1.40 1.70 0.70 0.70 > 18 to 26.5 ghz 2.00 2.10 0.90 1.00 39 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet extended range transmission analysis (erta) (continued) absolute power and gain measurement uncertainties (continued) n995xa and n996xa input power (r) measurements uncertainty, 30 khz rbw (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 2 mhz to 18 ghz 1.10 1.30 0.50 0.60 > 18 to 32 ghz 1.20 1.50 0.50 0.70 > 32 to 40 ghz 1.30 1.80 0.60 0.80 > 40 to 43 ghz 1.60 2.30 0.70 1.10 > 43 to 50 ghz 1.70 3.20 0.80 1.40 output power (b) measurement uncertainty, frequency references locked to gps, rbw 3 khz (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 2 mhz to 18 ghz 0.40 1.00 0.40 0.50 > 18 to 32 ghz 0.45 1.30 0.40 0.60 > 32 to 40 ghz 0.50 1.50 0.50 0.70 > 40 to 43 ghz 0.80 2.30 0.70 1.00 > 43 to 50 ghz 0.90 3.00 0.80 1.40 output power (b) measurement uncertainty, frequency references unlocked, rbw 300 khz (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 2 mhz to 18 ghz 1.00 1.10 0.40 0.50 > 18 to 32 ghz 1.20 1.50 0.50 0.60 > 32 to 40 ghz 1.60 1.90 0.60 0.80 > 40 to 43 ghz 2.10 2.50 0.70 1.30 > 43 to 50 ghz 2.60 3.60 1.00 1.60 gain/loss (b/r) measurement uncertainty, frequency references locked to gps, rbw 3 khz (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 2 mhz to 18 ghz 1.40 1.70 0.60 0.70 > 18 to 32 ghz 1.50 2.00 0.70 0.90 > 32 to 40 ghz 1.60 2.30 0.80 1.00 > 40 to 43 ghz 2.20 3.10 1.00 1.40 > 43 to 50 ghz 2.40 4.00 1.20 1.90 gain/loss (b/r) measurement uncertainty, frequency references unlocked, rbw 300 khz (db) spec (23 5 oc) spec (-10 to 55 oc) typical (23 5 oc) typical (-10 to 55 oc) 2 mhz to 18 ghz 1.40 1.70 0.70 0.70 > 18 to 32 ghz 1.80 2.10 0.80 1.00 > 32 to 40 ghz 2.10 2.80 1.00 1.30 > 40 to 43 ghz 2.70 3.50 1.40 1.70 > 43 to 50 ghz 3.00 4.80 1.60 2.40 cable correction input and output jumper cable losses can be accounted for using ertas cable correction wizard. 40 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet the performance listed in built-on power meter, external usb power sensor support, pulse measurements, usb power sensor mea - surements versus frequency sections applies to the capabilities available in the following models: C fieldfox rf & microwave analyzers: n9913a, n9914a, n9915a, n9916a, n9917a, n9918a n9950a, n9951a, n9952a C fieldfox microwave vector network analyzers: n9925a, n9926a, n9927a, n9928a C fieldfox microwave spectrum analyzers: n9935a, n9936a, n9937a, N9938A n9960a, n9961a, n9962a see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. built-in power meter using the built-in power meter, fieldfox is able to make very accurate channel power measurements. the channel bandwidth can be set wide to simulate average power meter measurements. this measurement function provides the fexibility to make user defnable channel power measurements. amplitude accuracy (db) n991xa, n992xa, n993xa spec (23 5 oc) spec (10 to 55 oc) typical (23 5 oc) typical (10 to 55 oc) 100 khz to 18 ghz 0.80 1.00 0.35 0.50 > 18 to 26.5 ghz 1.00 1.20 0.50 0.60 n995xa, n996xa spec (23 5 c) spec (-10 to 55 c) typical (23 5 c) typical (-10 to 55 c) 9 to 100 khz 1.60 2.50 0.60 1.30 > 100 khz to 2 mhz 1.30 1.90 0.60 0.80 > 2 to 15 mhz 1.00 1.20 0.30 0.50 > 15 mhz to 32 ghz 0.80 1.00 1 0.30 0.50 > 32 to 40 ghz 0.90 1.40 0.50 0.70 > 40 to 43 ghz 1.30 2.00 0.50 0.70 > 43 to 50 ghz 1.40 2.70 0.50 0.90 1. increase by 0.2 db between 18 and 32 ghz. description setup parameters center frequency, including selection of radio standards and channel selection, span or channel width functions relative/absolute measurements, offsets, units of dbm or watts, or db or %, minimum and maximum limits models frequency range n991xa, n992xa, n993xa n9913a 30 khz to 4 ghz usable to 5 khz n9914a 30 khz to 6.5 ghz usable to 5 khz n9915a, n9925a,n9935a 30 khz to 9 ghz usable to 5 khz n9916a, n9926a, n9936a 30 khz to 14 ghz usable to 5 khz n9917a, n9927a, n9937a 30 khz to 18 ghz usable to 5 khz n9918a, n9928a, N9938A 30 khz to 26.5 ghz usable to 5 khz n995xa, n996xa n9950a, n9960a 300 khz to 32 ghz usable to 5 khz n9951a, n9961a 300 khz to 44 ghz usable to 5 khz n9952a, n9962a 300 khz to 50 ghz usable to 5 khz 41 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet external usb power sensor support the external usb power sensor option supports various keysight usb power sensors. for an up-to-date listing of the supported power sensors, visit http://www.keysight.com/fnd/feldfoxsupport . description setup parameters frequency functions relative/absolute measurements, offsets, units of dbm or watts, or db or %, minimum and maximum limits. internal source fieldfoxs internal source can be turned on in the usb power sensor mode. cw frequency and nominal power level control are available. pulse measurements fieldfoxs pulse measurement option can be used to characterize rf pulses such as those used in radar and electronic warfare systems. measurements are made using fieldfox and keysights usb peak power sensors. performance specifcations such as frequency, dynamic range and minimum pulse width depend on the peak power sensor. supported peak power sensors: http://www.keysight.com/fnd/feldfoxsupport description setup parameters frequency, time (center), time/division, gating, triggering, video bandwidth, averaging functions average power, peak power, and peak to average ratio analog gauge display and digital display, dbm and watts relative/absolute measurements, offset, db or %, minimum and maximum limits trace graph for pulse profling with gating rise time, fall time, pulse width, pulse period, pulse repetition frequency usb power sensor measurements versus frequency this feature allows fieldfoxs source frequency to be set independently from the power sensor (receiver) frequency. with frequen - cy-offset using power sensor (fops), the frequency of both the source and receiver are swept, and the two track each other. the offset frequency can be negative, zero, or positive. fops can be used to characterize the scalar transmission response of devices such as mixers and converters. this frequency-offset capability is necessary for conversion loss/gain measurements on frequency-translating devices, since by defnition, the input and output frequencies of the dut are different. the fieldfox source stimulates the dut and the power sensor is used as the measurement receiver. since power sensors are inherently broadband devices (not frequency-selective), the user should ensure that only the signal of interest is present at the power sensor input and that all others signals are fltered appropriately. setup parameters source frequency center/span or start/stop receiver frequency range determined by power sensor range frequency offset positive offset or negative offset frequency step size 30 khz minimum number of points 2 to 1601 combination of number of points and frequency step size limited by span. dwell time/point 0 to 1.0 sec 42 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet usb power sensor measurements versus frequency (continued) source frequency span must be equal to receiver frequency span. receiver sweep direction: forward (default setting) or reverse. for some duts, the output frequency may sweep in a reverse direction, as compared to the source frequency. the basic relationships between the source, receiver and offset frequencies are shown in the table below. the fieldfox analyzer includes an offset calculator that ensures a fast measurement setup. src sweep direction rx sweep direction frequency calculations forward f2 src > f1 src forward f2 rx > f1 rx receiver frequency = source frequency offset forward f2 src > f1 src reverse f2 rx > f1 rx receiver frequency = offset source frequency offset > source frequency see fieldfox confguration guide for option information. many capabilities listed in this data sheet require options. description measurements source power, gain/loss and receiver (rx) power gain = rx power / source power (memory). source power (memory) is measured during setup. output power refer to the test port output power typical data on page 5. dynamic range the dynamic range with fops is dependent on fieldfoxs output power and the power sensors dynamic range. supported usb power sensors: www.keysight.com/fnd/feldfoxsupport the graph below shows a flter measurement using two different power sensors, the u2002a (60 to +20 dbm) and the u2021xa (45 to +20 dbm). while a flter is not commonly measured using fops, it is a useful device for demonstrating dynamic range. for both measurements, the fieldfox source power was set to 1 dbm, the maximum available in the selected frequency range of 7.25 to 13.25 ghz. an external amplifer was not used in this case, but one can be added to increase the source power and hence dynamic range. example showing typical dynamic range of fops 43 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet built-in gps receiver description gps receiver the internal gps receiver can be used as a frequency reference. 1 modes off, internal, external sync clock on, off functionality geo-location: latitude, longitude, altitude (elevation), time, sync time/data requires external gps antenna (can use n9910x-825, gps active antenna) connector for antenna sma (f), 3.3 v 1. external gps usb receivers can be used to provide geo-location data. however, they cannot be used for frequency reference locking. dc bias variable-voltage source description nominal connector smb (m) voltage +1 to +32 v resolution 0.1 v maximum current 1 0.65 a dc current readout resolution 0.01 a maximum power 1 7 watts display read out voltage, current overload trip protection automatically engages when voltage source is on. the trip circuit can be reset from front panel without presetting or power cycling the analyzer. 1. battery life will be reduced when dc source is used. a trip function turns off the power supply when the rated current or power is exceeded. remote control capability option 030 adds remote control capability to fieldfox analyzers, so that fieldfox can be controlled via an ios device. the fieldfox app, running on the ios device, combined with option 030 on the fieldfox analyzer provides full control of the instrument from a remote location. the app emulates the front panel of fieldfox, so users can press the fieldfox hardkeys or softkeys using their iphone or ipad, and make measurements remotely. for example, a tower climber can be on the tower with a fieldfox analyzer, while the technician controls and makes the measurements down below, using an ipad. the ipad and fieldfox communicate via a network connection. ios device requirements C ipad, iphone, or ipod touch C ios of 6.1 or higher C a wifi or 3g/4g connection the fieldfox app communicates with fieldfox via a network connection, so both the ios device and fieldfox need to be on a network where both devices can reach the other. for example, a company intranet or a site installation using a wireless router. fieldfox can directly be connected to a lan cable, or if wired lan is not available, a user supplied wireless router can be confgured to work with fieldfox. fieldfox does not include a wireless router. 44 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet remote control capability (continued) fieldfox app without option 030 the fieldfox app can be installed on an ios device independent of the presence of option 030 on the analyzer. without option 030, users can view the live display screen of their fieldfox remotely, but cannot control the instrument. with 030 purchased and installed on their fieldfox, users can both view and control their fieldfox. control refers to the ability to press hardkeys, softkeys, make or change measurements, etc. option 030 does not include the ios device itself. users must supply their own ios device. option 030 is a license on the fieldfox analyzer. option 030 and the fieldfox app are not applicable to android, blackberry, or windows phone/tablet devices. general information calibration cycle 1 year weight n991xa, n992xa, n993xa 3.0 kg or 6.6 lb including battery n995xa, n996xa 3.2 kg or 7.1 lb including battery dimensions: h x w x d 292 x 188 x 72 mm (11.5 in x 7.4 in x 2.8 in) environmental mil-prf-28800f class 2 operating temperature storage temperature operating humidity random vibration functional shock bench drop maximum humidity 95% rh at 40 c for 5 days altitude C operating 9,144 m or 30,000 ft (using battery) altitude C non-operating 15,240 m or 50,000 ft altitude C ac to dc adapter 3,000 m or 9,840 ft ingress protection this product has been type tested to meet the requirements for ingress protection ip53 in accordance with iec/en 60529 (ip rating for instrument by itself, with no cover). temperature range operating, ac power, spec 10 to 55 oc (14 to 131 f) (-10 to 45 c/14 to 113f in rtsa mode) operating, battery, spec 10 to 50 oc (14 to 122 f) operating, battery, typical 10 to 55 oc (14 to 131 f) storage, spec 1 51 to 71 oc (60 to 160 f) 1. the battery packs should be stored in an environment with low humidity. extended exposure to temperature above 45 oc could degrade battery performance and life. 45 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet general information (continued) emc: complies with the essential requirements of the european emc directive as well as current editions of the following standards (dates and editions are cited in the declaration of conformity): iec/en 61326C1 cispr pub 11 group 1, class b as/nzs cispr 11 ices/nmbC001 this ism device complies with canadian ices-001. cet appareil ism est conforme a la norme nmb-001 du canada. safety: complies with the essential requirements of the european low voltage directive as well as current editions of the following standards (dates and editions are cited in the declaration of conformity): iec/en 61010-1 canada: csa c22.2 no. 61010-1 usa: ul std no. 61010-1 to fnd a current declaration of conformity for a specifc keysight product, go to: http://www.keysight.com/go/conformity explosive environment this product has been type tested to meet the requirements for operation in explosive environments in accordance with mil-std-810g, method 511.5, procedure i. power supply external dc input 15 to 19 vdc, 40 watts maximum when battery charging external ac power adapter effciency level iv input 100 to 250 vac, 50 to 60 hz, 1.25 to 0.56 a output 15 vdc, 4 a power consumption 14 watts typical, mode dependent battery lithium ion 10.8 v, 4.6 a-h operating time 3.5 hours (typical), mode dependent charge time a fully discharged battery takes about 1.5 hours to recharge to 80%. four hours to 100%. discharge temperature limits 10 to 60 oc, 85% rh charge temperature limits 0 to 45 oc, 85% rh storage temperature limits 20 to 50 oc, 85 % rh the battery packs should be stored in an environment with low humidity. extended exposure to temperature above 45 oc could degrade battery performance and life. test port connectors 18 ghz models type-n (f) 26.5 ghz models 3.5 mm (m) for fieldfox microwave analyzer, n9918a and fieldfox microwave vna analyzer, n9928a. on fieldfox sa N9938A, you may choose 3.5 mm (m) or type-n (f). type-n (f) port connector is not available for the 26.5 ghz microwave analyzer, n9918a or 26.5 ghz microwave vna analyzer, n9928a 32 ghz models nmd 2.4mm (m), torque .9 nm or 8 in-lb, use torque wrench n9910x-886 display 6.5 transfective color vga-led backlit headphone jack connector 3.5 mm (1/8 inch) miniature audio jack 46 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet general information (continued) usb-a, 2-ports hi-speed usb 2.0 mini usb, 1 port 1 hi-speed usb 2.0; used for scpi programming; usbtmc (usb ieee488) keyboard usb keyboards are supported (user must supply their own keyboard) lan connector rj-45 used for programming, data saving, remote control, and connection to datalink software n991xa, n992xa, n993xa 100/10 base-t (auto switching) n995xa, n996xa 1000/100/10 base-t (auto switching) scpi over lan using sockets and vx11 (lan ieee488); http programming scpi, using the built-in lan interface languages english, spanish, german, italian, french, russian, japanese, chinese, turkish, korean, and portuguese preset user preset for both mode preset and complete system preset limit lines the limit line capabilities listed in this section apply to the cable and antenna analyzer, network analyzer and spectrum analyzer modes in all fieldfox analyzers. limit lines can be a combination of horizontal lines, sloping lines, or discrete data points limit types: fixed or relative each trace can have its own limit line limit lines can be built from a current trace limit segments > 100, limited by memory size max limit line number of points: 10,001 beep: beep off, beep on fail, beep on pass pass/fail warning: on/off offset and margin: an increase or decrease in the limit line save/recall limit lines data storage internal internal minimum: 4 gb minimum states and traces: 1000 external supports usb 2.0 compatible memory devices and sd/sdhc memory cards data types trace, trace+state, picture (png), data (csv), s2p secure operation frequency blanking for protection of sensitive data all frequency information can be turned off. erase user data all user data can be erased on a fieldfox analyzer. for more information visit: http://www.keysight.com/fnd/securefeldfox 1. scpi over usb for the n991x/2x/3x models is only available for serial number prefx starting with my5607/sg5607/us5607 or upgraded with option n9910hu-100/200/300/400. 47 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet general information (continued) reference out/trigger out connector smb (m), 50 output amplitude 0 dbm frequency 10 mhz (1 + frequency reference accuracy) trigger out reserved for future use; currently only used for erta 2-box handshaking reference in/trigger in connector sma (f), 50 reference input 10 mhz, 5 to +10 dbm trigger input 3.3 or 5 v ttl logic levels carry precision with you every piece of gear in your feld kit had to prove its worth. measuring up and earning a spot is the driving idea behind keysights fieldfox analyzers. theyre equipped to handle routine maintenance, in-depth troubleshooting and anything in between. better yet, fieldfox delivers precise microwave measurementswherever you need to go. add fieldfox to your kit and carry precision with you. related literature publication number fieldfox handheld analyzers , confguration guide 5990-9836en fieldfox handheld analyzers , technical overview 5992-0772en fieldfox n9923a rf vector network analyzer , technical overview 5990-5087en fieldfox n9923a rf vector network analyzer , data sheet 5990-5363en fieldfox n9912a rf analyzer , technical overview 5989-8618en fieldfox n9912a rf analyzer , data sheet n9912-90006 download application notes, watch videos, and learn more: www.keysight.com/fnd/feldfox 48 | keysight | fieldfox handheld analyzers 4/6.5/9/14/18/26.5/32/44/50 ghz - data sheet this information is subject to change without notice. ? keysight technologies, 2014 - 2016 published in usa, august 29, 2016 5990-9783en www.keysight.com mykeysight www.keysight.com/find/mykeysight a personalized view into the information most relevant to you. keysight infoline www.keysight.com/find/infoline keysights insight to best in class information management. free access to your keysight equipment company reports and e-library. keysight services keysight services www.keysight.com/find/service our deep offering in design, test, and measurement services deploys an industry-leading array of people, processes, and tools. the result? we help you implement new technologies and engineer improved processes that lower costs. three-year warranty www.keysight.com/find/threeyearwarranty keysights committed to superior product quality and lower total cost of ownership. keysight is the only test and measurement company with three-year warranty standard on all instruments, worldwide. and, we provide a one-year warranty on many accessories, calibration devices, systems and custom products. keysight assurance plans www.keysight.com/find/assuranceplans up to ten years of protection and no budgetary surprises to ensure your instruments are operating to specification, so you can rely on accurate measurements. keysight channel partners www.keysight.com/find/channelpartners get the best of both worlds: keysights measurement expertise and product breadth, combined with channel partner convenience. for more information on keysight technologies products, applications or services, please contact your local keysight office. the complete list is available at: www.keysight.com/find/contactus americas canada (877) 894 4414 brazil 55 11 3351 7010 mexico 001 800 254 2440 united states (800) 829 4444 asia pacifc australia 1 800 629 485 china 800 810 0189 hong kong 800 938 693 india 1 800 11 2626 japan 0120 (421) 345 korea 080 769 0800 malaysia 1 800 888 848 singapore 1 800 375 8100 taiwan 0800 047 866 other ap countries (65) 6375 8100 europe & middle east austria 0800 001122 belgium 0800 58580 finland 0800 523252 france 0805 980333 germany 0800 6270999 ireland 1800 832700 israel 1 809 343051 italy 800 599100 luxembourg +32 800 58580 netherlands 0800 0233200 russia 8800 5009286 spain 800 000154 sweden 0200 882255 switzerland 0800 805353 opt. 1 (de) opt. 2 (fr) opt. 3 (it) united kingdom 0800 0260637 for other unlisted countries: www.keysight.com/find/contactus (bp-06-08-16) dekra certified iso9001 quality management system www.keysight.com/go/quality keysight technologies, inc. dekra certified iso 9001:2015 quality management system www.keysight.com/find/fieldfox evolving our unique combination of hardware, software, support, and people can help you reach your next breakthrough. we are unlocking the future of technology. from hewlett-packard to agilent to keysight |
Price & Availability of N9938A
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |