Keysight Technologies E4982A LCR Meter 1 MHz to 300 MHz/500 MHz/1 GHz/3 GHz Data Sheet Deinitions Speciication (spec.): Warranted performance. Specifications include guardbands to account for the expected statistical performance distribution, measurement uncertainties, and changes in performance due to environmental conditions. Supplemental information is intended to provide information that is helpful for using the instrument but that is not guaranteed by the product warranty. Typical (typ.): Describes performance that will be met by a minimum of 80% of all products. It is not guaranteed by the product warranty. Supplemental performance data (SPD): Represents the value of a parameter that is most likely to occur; the expected mean or average. It is not guaranteed by the product warranty. General characteristics: A general, descriptive term that does not imply a level of performance. 2 Basic Measurement Characteristic Measurement parameters Impedance parameters |Z|, |Y|, Ls, Lp, Cs, Cp, Rs, Rp, X, G, B, D, Q, Oz [], Oz [rad], Oy [], Oy [rad], User deined parameter (A maximum of four parameters can be displayed at one time.) Measurement range Impedance parameters 140 m to 4.8 k (Frequency = 1 MHz, Averaging factor = 8, Measurement time mode = 3, Oscillator level = 1 dBm, Measurement uncertainty 10%, Calibration is performed within 23 C 5 C, Measurement is performed within 5 C from the calibration temperature) Source Characteristics Frequency Range 1 MHz to 300 MHz (Option 030) 1 MHz to 500 MHz (Option 050) 1 MHz to 1 GHz (Option 100) 1 MHz to 3 GHz (Option 300) Resolution 100 kHz Uncertainty 10 ppm (23 C 5 C) 20 ppm (5 C to 40 C) Oscillator level Cable Length = 1m: Power range (When 50 LOAD is connected to test port) -40 dBm to 1dBm Current range (When SHORT is connected to test port) 0.0894 mArms to 10 mArms Voltage range (When OPEN is connected to test port) 4.47 mVrms to 502 mVrms Uncertainty (When 50 LOAD is connected to test port) (23 C 5 C) 2 dB (frequency 1 GHz) 3 dB (frequency > 1 GHz) (5 C to 40 C) 4 dB (frequency 1 GHz) 5 dB (frequency > 1 GHz) Resolution 0.1 dB (When the unit is set at mV or mA, the entered value is rounded to 0.1 dB resolution.) Cable Length = 2m (When option 002 is used): Power range Subtract the following attenuation from the power (setting value) at 1 m cable length: Attenuation [dB] = 0.42 f (f: Frequency [GHz]) Uncertainty (When 50 LOAD is connected to test port) (23 C 5 C) 3 dB (frequency 1 GHz) 4 dB (frequency > 1 GHz) (5 C to 40 C) 5 dB (frequency 1 GHz) 6 dB (frequency > 1 GHz) Resolution 0.1 dB (When the unit is set at mV or mA, the entered value is rounded to 0.1 dB resolution.) Output impedance Output impedance 50 (nominal) 3 Measurement Accuracy Condition for deinition of accuracy: - 23 C 5 C - 7-mm connector of 3.5-mm-7-mm adapter connected to 3.5-mm terminal of test heads Measurement uncertainty When OPEN/SHORT/LOAD calibration is performed: (Ea + Eb) % Z,Y (E + E ) rad a b 100 L, C, X, B (Ea + Eb) x (1 + D2 x ) % R, G (Ea + Eb) x (1 + Q 2 x ) % at Dx tan 2 x Ea + Eb <1 100 1 Dx tan Especially, at Dx 0.1 +E (1 + D ) tan E 100 b b Eb + Eb 100 Ea + Eb 100 Q at Q x tan (1 + Q ) tan 2 x Ea + Eb <1 100 Especially, at 10 Ea + Eb Qx 100 E + E 1 Q x tan b b 100 Q 2x 10 4 Eb + Eb Ea + Eb 100 Measurement uncertainty When OPEN/SHORT/LOAD/Low Loss capacitance calibration is performed (SPD): (Ea + Eb) % Z,Y Ec rad 100 2 L, C, X, B (E + E ) + (E D ) 2 % R, G (E + E ) + (E Q ) % a b c x 2 x a b Ec 100 1 m Dx tan Ec 100 100 c (1 + D ) tan 2 x 2 Ec 100 Q at Q x tan (1 + Q ) tan Ec 100 1 Q x tan Ec 100 2 x Ec <1 100 Q 2x 5 Ec 100 x Deinition of each parameter Dx = Measurement value of D Qx = Measurement value of Q Ea = Within 23 5 C from the calibration temperature. Measurement accuracy applies when the calibration is performed at 23 5 C. When the calibration is performed beyond 23 5 C, the measurement accuracy decreases to half that described. Measurement Time: Mode 1 Oscillator level = 1 dBm 0.54 % @ 1 MHz frequency 100 MHz 0.62 % @ 100 MHz < frequency 500 MHz 0.92 % @ 500 MHz < frequency 1 GHz 2.05 % @ 1 GHz < frequency 1.8 GHz 4.42 % @ 1.8 GHz < frequency 3 GHz -20 dBm Oscillator level < 1 dBm 0.66 % @ 1 MHz frequency 100 MHz 0.74 % @ 100 MHz < frequency 500 MHz 1.11 % @ 500 MHz < frequency 1 GHz 2.36 % @1 GHz < frequency 1.8 GHz 4.81 % @ 1.8 GHz < frequency 3 GHz -33 dBm Oscillator level < -20 dBm 1.13 % @ 1 MHz frequency 100 MHz 1.22 % @ 100 MHz < frequency 500 MHz 1.84 % @ 500 MHz < frequency 1GHz 3.54 % @1 GHz < frequency 1.8 GHz 6.35 % @ 1.8 GHz < frequency 3 GHz Oscillator level < -33 dBm 2.08 % @ 1 MHz frequency 100 MHz 2.26 % @ 100 MHz < frequency 500 MHz 2.27 % @ 500 MHz < frequency 1 GHz 4.34 % @ 1 GHz < frequency 1.8 GHz 7.60 % @ 1.8 GHz < frequency 3 GHz Mode 2 Oscillator level = 1 dBm 0.52 % @ 1 MHz frequency 100 MHz 0.59 % @ 100 MHz < frequency 500 MHz 0.89 % @ 500 MHz < frequency 1 GHz 1.99 % @ 1 GHz < frequency 1.8 GHz 4.34 % @ 1.8 GHz < frequency 3 GHz -20 dBm Oscillator level < 1 dBm 0.58 % @ 1 MHz frequency 100 MHz 0.66 % @ 100 MHz < frequency 500 MHz 0.98 % @ 500 MHz < frequency 1 GHz 2.14 % @ 1 GHz < frequency 1.8 GHz 4.54 % @ 1.8 GHz < frequency 3 GHz -33 dBm Oscillator level < -20 dBm 0.81 % @ 1 MHz frequency 100 MHz 0.90 % @ 100 MHz < frequency 500 MHz 1.35 % @ 500 MHz < frequency 1 GHz 2.74 % @ 1 GHz < frequency 1.8 GHz 5.31 % @ 1.8 GHz < frequency 3 GHz Oscillator level < -33 dBm 1.30 % @ 1 MHz frequency 100 MHz 1.44 % @ 100 MHz < frequency 500 MHz 1.44 % @ 500 MHz < frequency 1 GHz 2.92 % @ 1GHz < frequency 1.8 GHz 5.59 % @ 1.8 GHz < frequency 3 GHz 6 Deinition of each parameter (continued) Ea = Mode 3 Oscillator level = 1 dBm 0.51 % @ 1 MHz frequency 100 MHz 0.59 % @ 100 MHz < frequency 500 MHz 0.87 % @ 500 MHz < frequency 1 GHz 1.97 % @ 1 GHz < frequency 1.8 GHz 4.32 % @ 1.8 GHz < frequency 3 GHz -20 dBm Oscillator level < 1 dBm 0.55 % @ 1MHz frequency 100 MHz 0.63 % @ 100MHz < frequency 500 MHz 0.94 % @ 500MHz < frequency 1 GHz 2.08 % @ 1GHz < frequency 1.8 GHz 4.46 % @ 1.8GHz < frequency 3 GHz -33 dBm Oscillator level < -20 dBm 0.65 % @ 1MHz frequency 100 MHz 0.80 % @ 100MHz < frequency 500 MHz 1.20 % @ 500MHz < frequency 1 GHz 2.50 % @ 1GHz < frequency 1.8 GHz 5.00 % @ 1.8GHz < frequency 3 GHz Oscillator level < -33 dBm 1.00 % @ 1MHz frequency 100 MHz 1.20 % @ 100MHz < frequency 500 MHz 1.20 % @ 500MHz < frequency 1 GHz 2.50 % @ 1GHz < frequency 1.8 GHz 5.00 % @ 1.8GHz < frequency 3 GHz Eb = (|Zx| : Measurement value of |Z|) Ec (F : Frequency Zs = MHz) Within 23 5 C from the calibration temperature. Measurement accuracy applies when the calibration is performed at 23 5 C. When the calibration is performed beyond 23 5 C, the measurement accuracy decreases to half that described. (F: Frequency [MHz]) Measurement Time Mode 1 Oscillator level = 1 dBm, Average factor 8 (14 + 0.5 x F) [m] Oscillator level = 1 dBm, Average factor < 8 (19 + 0.5 x F) [m] -20 dBm Oscillator level < 1 dBm, Average factor 8 (20 + 0.5 x F) [m] -20 dBm Oscillator level < 1 dBm, Average factor < 8 (37 + 0.5 x F) [m] -33 dBm Oscillator level < -20 dBm, Average factor 8 (36 + 0.5 x F) [m] -33 dBm Oscillator level < -20 dBm, Average factor < 8 (110 + 0.5 x F) [m] Oscillator level < -33 dBm (248 + 0.5 x F) [m] 7 Deinition of each parameter (continued) Zs = Mode 2 Mode 3 Yo = Oscillator level= 1 dBm, Average factor 8 (13 + 0.5 x F) [m] Oscillator level= 1 dBm, Average factor < 8 (15 + 0.5 x F) [m] -20 dBm Oscillator level < 1 dBm, Average factor 8 (16 + 0.5 x F) [m] -20 dBm Oscillator level < 1 dBm, Average factor < 8 (24 + 0.5 x F) [m] -33 dBm Oscillator level< -20 dBm, Average factor 8 (24+0.5xF) [m] -33 dBm Oscillator level < -20 dBm, Average factor < 8 (64 + 0.5 x F) [m] Oscillator level < -33 dBm (133 + 0.5 x F) [m] Oscillator level = 1 dBm, Average factor 8 (12 + 0.5 x F) [m] Oscillator level = 1 dBm, Average factor < 8 (14 + 0.5 x F) [m] -20 dBm Oscillator level < 1 dBm, Average factor 8 (15 + 0.5 x F) [m] -20 dBm Oscillator level < 1 dBm, Average factor < 8 (20 + 0.5 x F) [m] -33 dBm Oscillator level < -20 dBm, Average factor 8 (20 + 0.5 x F) [m] -33 dBm Oscillator level < -20 dBm, Average factor < 8 (50 + 0.5 x F) [m] Oscillator level < -33 dBm (100 + 0.5 x F) [m] Within 23 5 C from the calibration temperature. Measurement accuracy applies when the calibration is performed at 23 5 C. When the calibration is performed beyond 23 5 C, the measurement accuracy decreases to half that described. (F: Frequency [MHz]) Measurement Time: Mode 1 Mode 2 Oscillator level = 1 dBm, Average factor 8 (22 + 0.15 x F) [S] Oscillator level = 1 dBm, Average factor < 8 (28 + 0.15 x F) [S] -20 dBm Oscillator level < 1 dBm, Average factor 8 (30 + 0.15 x F) [S] -20 dBm Oscillator level < 1 dBm, Average factor < 8 (53 + 0.15 x F) [S] -33 dBm Oscillator level < -20 dBm, Average factor 8 (52 + 0.15 x F) [S] -33 dBm Oscillator level < -20 dBm, Average factor < 8 (110 + 0.15 x F) [S] Oscillator level < -33 dBm (247 + 0.15 x F) [S] Oscillator level = 1 dBm, Average factor 8 (20 + 0.15 x F) [S] Oscillator level = 1 dBm, Average factor < 8 (23 + 0.15 x F) [S] -20 dBm Oscillator level < 1 dBm, Average factor 8 (24 + 0.15 x F) [S] -20 dBm Oscillator level < 1 dBm, Average factor < 8 (35 + 0.15 x F) [S] -33 dBm Oscillator level< -20 dBm, Average factor 8 (35 + 0.15 x F) [S] -33 dBm Oscillator level< -20 dBm, Average factor < 8 (63 + 0.15 x F) [S] Oscillator level < -33 dBm (133 + 0.15 x F) [S] 8 Deinition of each parameter (continued) Yo = Mode 3 Oscillator level = 1 dBm, Average factor 8 (19 + 0.15 x F) [S] Oscillator level = 1 dBm, Average factor < 8 (22 + 0.15 x F) [S] -20 dBm Oscillator level < 1 dBm, Average factor 8 (22 + 0.15 x F) [S] -20 dBm Oscillator level < 1 dBm, Average factor < 8 (30 + 0.15 x F) [S] -33 dBm Oscillator level < -20 dBm, Average factor 8 (30 + 0.15 x F) [S] -33 dBm Oscillator level < -20 dBm, Average factor < 8 (50 + 0.15 x F) [S] Oscillator level < -33 dBm (100 + 0.15 x F) [S] Measurement error may exceed the speciications described above at 90 MHz due to the E4982A's spurious characteristics. 9 10000 10000 1000 1000 |Z| [] |Z| [] Examples of Calculated Impedance Measurement Accuracy 100 0.8% 1% 2% 5% 10% 10 1 0.1 1 10 100 100 0.8% 1% 2% 5% 10% 10 1 0.1 1000 1 10 [MHz] 10000 10000 1000 1000 100 0.8% 1% 2% 5% 10% 10 1 0.1 10 100 100 0.8% 1% 2% 5% 10% 10 1 0.1 1000 1 10 [MHz] 1000 1000 |Z| [] |Z| [] 10000 100 0.8% 1% 2% 5% 10% 10 1 0.1 100 1000 Figure 4. Measurement Time: Mode 3, Oscillator Level = 1 dBm, Averaging Factor 8, Temperature Deviation 5 C 10000 10 100 [MHz] Figure 3. Measurement Time: Mode 1, Oscillator Level = 1 dBm, Averaging Factor < 8, Temperature Deviation 5 C 1 1000 Figure 2. Measurement Time: Mode 2, Oscillator Level = 1 dBm, Averaging Factor < 8, Temperature Deviation 5 C |Z| [] |Z| [] Figure 1. Measurement Speed: Mode 3, Oscillator Level = 1 dBm, Averaging Factor < 8, Temperature Deviation 5 C 1 100 [MHz] 100 0.8% 1% 2% 5% 10% 10 1 0.1 1000 1 [MHz] 10 100 1000 [MHz] Figure 5. Measurement Time: Mode 2, Oscillator Level = 1 dBm, Averaging Factor 8, Temperature Deviation 5 C Figure 6. Measurement Time: Mode 1, Oscillator Level = 1 dBm, Averaging Factor 8, Temperature Deviation 5 C 10 Timing Chart and Measurement Time (SPD) Timing chart of handler interface signal T1 T3 T4 T5 T6 T7 T2 Trigger signal /INDEX /EOM /READY_FOR_TRIG Figure 7. Cycle Time Timing Test condition T4 + Measurement T5 data calculation time (EOM) T4 + T5 + Ready_for_Trig T6 setting time T7 Trigger wait time -- Off -- Off Off 1 point meas (Preset) Off Off On 1 point meas (Preset) 1 point meas. Ls-Q meas. -- Max. Measurement time (INDEX) Median T4 Min. -- Max. T3 Trigger response time (INDEX, EOM) -- 2 s -- -- <50 s -- -- <50 s -- 1.6 ms Off -- Off Off Off Mode 3 Median Off 2 s Mode 2 Min. -- Max. T2 Trigger response time of Ready_ for_Trig Median Off Mode 1 (100 MHz) Min. Off Max. Comparator -- Median Rdc meas. T1 Trigger pulse width Min. Screen Setting Mode 1 (1 MHz) 2 s -- -- 2 s -- -- <50 s -- <50 s -- <50 s -- <50 s -- <50 s -- <50 s 1.6 ms 0.9 ms 0.9 ms 2.1 ms 2.1 ms 3.7 ms 3.7 ms 4.5 ms 4.5 ms 3.8 ms 3.8 ms 5.0 ms 5.0 ms 6.6 ms 6.6 ms -- 1.6 ms 1.8 ms 0.9 ms 1.1 ms 2.1 ms 2.3 ms 3.7 ms 4.0 ms On -- 1.7 ms 1.9 ms -- 1.0 ms 1.2 ms -- 2.2 ms 2.7 ms -- 3.8 ms 4.1 ms Off Off -- 1.8 ms 2.2 ms -- 1.1 ms 1.4 ms -- 2.3 ms 2.8 ms -- 3.9 ms 4.4 ms Off On -- 1.9 ms 2.3 ms -- 1.2 ms 1.9 ms -- 2.4 ms 3.3 ms -- 4.0 ms 4.5 ms On Off -- 5.1 ms 5.6 ms -- 4.4 ms 4.9 ms -- 5.6 ms 6.1 ms -- 7.2 ms 7.7 ms On On -- 5.2 ms 5.7 ms -- 4.5 ms 4.9 ms -- 5.7 ms 6.3 ms -- 7.2 ms 7.8 ms -- -- 0 -- -- 0 -- -- 0 -- -- 0 -- -- Condition: Display Off or :DISP:UPD OFF, Trigger delay=0, Point delay=0 E4982A OS: Windows 7 (Serial Preix: MY523) 11 Test condition for Measurement Time The measurement time of E4982A is scattered to some extent by an overhead of the internal operation system and other conditions, so it is dificult to deine the speciication of handler interface timing. Thus, for your reference, we provide "SPD" data on it in table by deining the following test condition. Median: Median value of running one minute of measurement data Max.: Maximum value of running one minute of measurement data NOTE 1. The instrument's operating system sometimes suffers interruptions during measurement, and we sometimes observe an extremely large overhead in handler interface timings. The table excludes such special cases, thus you can sometimes see timing over the maximum value data shown in the table. If you make a handshake using the READY_FOR_TRIGGER signal of the handler interface, your test system can continue to work correctly regardless of such an irregular measurement time drift. 2. If your system communicates with external devices, you will see longer timing results than those on the table. 3. In the case of using a bus trigger in the GPIB/LAN/USB system instead of the handler interface, you should measure the test cycle time for yourself, because the system performance depends heavily on the system parameters. Of course, you will see much longer test cycle times from your system software overhead. T4 T5 /INDEX /EOM Sorting result output (Previous sorting results) Ts Internal process Meas. condition setup Tt Tp Tr Tm Rdc meas. Measurement Trigger delay time (User's setup) Sorting results Meas. data math. Meas. point delay time (User's setup) Figure 8. Measurement time T4 for single point measurement 12 T4 T5 /INDEX /EOM Sorting result output (Previous sorting results) Meas. point 1 Ts Tt Tp Tr Tm Sorting results Meas. point 2 Meas. point N Ts Tp Ts Tp Tm Tm Internal process Meas. data math. Meas. condition setup Trigger delay time (User's setup) Meas. condition Measurement setup Rdc meas. Meas. condition setup Meas. point delay time (User's setup) N: Numbers of meas. Measurement Point in the table Meas. point delay time (User's setup) Figure 9. Measurement time T4 for list measurement Data transfer time (Typical) Mode 3 Data transfer format ASCII Binary Required time for FETCh? command (ms) Number of measurement points GPIB USB LAN (Socket) 1 0.4 0.4 0.6 2 0.7 0.4 0.6 3 1.0 0.4 0.7 1 0.5 1.1 0.6 2 0.5 1.1 0.5 3 0.6 1.1 0.6 Host computer: DELL PRECISION 390 Intel Core2Duo 6300 1.86 GHz/RAM: 2GB GPIB I/F: Keysight Technologies, Inc. PCI GPIB E2078A/82350A IO Lib: Keysight IO Libraries Suite 16.1.14931.0 E4982A Setting: Frequency: OSC Level: Average: Display: List Measurement Measurement Parameter: Measurement Signal Level Monitor: Comparator: Rdc Measurement: 100 MHz 0 dBm 1 Off Ls-Q (Parameters No.3 and 4: Off) Off Off Off 13 Measurement Support Functions Error correction function Available calibration and compensation OPEN/SHORT/LOAD calibration Connect OPEN, SHORT, and LOAD standards to the desired reference plane and measure each kind of calibration data. The reference plane is called calibration reference plane. Low-Loss capacitor calibration Connect the dedicated standard (Low-Loss capacitor) to the calibration reference plane and measure the calibration data. Port extension compensation (Fixture selection) When a device is connected to the terminal that is extended from the calibration reference plane, set the electrical length between the calibration plane and the device contact. Select a model number of the registered test ixtures in the E4982A's softkey menu or enter the electrical length for user's test ixture. OPEN/SHORT compensation When a device is connected to the terminal that is extended from the calibration reference plane, make OPEN and/or SHORT states at the device contact and measure each kind of compensation date. Calibration/compensation data measurement point Data measurement points Same as measurement points which are set in the measurement point setup display. (Changing the frequency, oscillator level, or measurement speed settings after the calibration or compensation makes the calibration and compensation data invalid.) DC resistance (Rdc) measurement Measurement range 0.1 to 100 Measurement resolution 1 m Test Signal Level 1 mA (maximum) Error correction OPEN/SHORT/LOAD Calibration, OPEN/SHORT Compensation. (Changing the frequency or oscillator level settings after the calibration or compensation makes the calibration and compensation data invalid.) Measurement uncertainty (SPD) (At averaging factor=128, within 5 C from the calibration temperature. Measurement accuracy applies when the calibration is performed at 23 C 5 C. When the calibration is performed beyond 23 C 5 C, the measurement accuracy decreases to half that described.) Trigger function Trigger mode Internal, External (external trigger input connector or handler interface), Bus (GPIB, USB or LAN), Manual (front key) Measurement time Time Mode 1 (Short), Mode 2 (Mid), Mode 3 (Long) Averaging function Setting range 1 to 100 (integer) List measurement function Number of measurement points 201 points for each table (maximum) Number of tables 8 tables 14 Test signal level monitor function Uncertainty of monitor value (SPD) A: Uncertainty of oscillator level [dB], B: Uncertainty of impedance measurement [%] Front panel Ports Type N (3 ea.) connected to test head Display Type/size 10.4 inch TFT color LCD Resolution XGA (1024 x 768) 1 USB 1 Universal serial bus jack, Type A coniguration; female; provides connection to mouse, key board, printer or USB stick memory. Valid pixels are 99.99% and more. Below 0.01% of ixed points of black, blue, green or red are not regarded as failure. Measurement terminal (at test head) Connector type 3.5-mm (female) connector (can be converted to 7-mm connector using the 3.5 mm-7 mm adapter) Rear panel External reference signal input connector Frequency 10 MHz 10 ppm (Typ.) Level 0 dBm 3 dB (Typ.) Input impedance 50 (nominal) Connector type BNC (female) Internal reference signal output connector Frequency 10 MHz 10 ppm (Typ.) Uncertainty of frequency Same as frequency uncertainty described in "Source Characteristics". Level 0 dBm 3 dB into 50 (Typ.) Input impedance 50 (nominal) Connector type BNC (female) External trigger signal input connector Level LOW threshold voltage: 0.5 V HIGH threshold voltage: 2.1 V Input level range: 0 to +5 V Pulse Width (Tp) 2usec (SPD). See the following igure for deinition of Tp Polarity Positive or negative (Selective) Connector type BNC (female) Tp Tp Tp Tp 5V 5V 0V 0V Positive trigger signal Negative trigger signal Figure 10. Deinition of pulse width (Tp) 15 Interface GPIB 24-pin D-Sub (Type D-24), female; compatible with IEEE-488. IEEE-488 interface speciication is designed to be used in environment where electrical noise is relatively low. LAN or USBTMC interface is recommended to use at the higher electrical noise environment. USB host port Universal serial bus jack, Type A coniguration; female; provides connection to mouse, key board, printer or USB stick memory. USB (USBTMC ) interface port Universal serial bus jack, Type B coniguration (4 contacts inline); female; provides connection to an external PC; compatible with USBTMC-USB488 and USB 2.0.LA USB Test and Measurement Class (TMC) interface that communicates over USB, complying with the IEEE 488.1 and IEEE 488.2 standards. LAN 10/100/1000 Base T Ethernet, 8-pin coniguration; auto selects between the two data rates Video output 15-pin mini D-Sub; female; drives VGA compatible monitors Handler interface Connector type 36-pin centronics, female Signal type Negative logic, opto-isolated, open collector output Output signal BIN sort result (BIN 1 to BIN 13, OUT_OF_GOOD_BINS) DC resistance pass/fail (DCR_OUT_OF_RANGE) Overload (OVLD) Alarm (ALARM) End of analog measurement (INDEX) End of measurement (EOM) Ready for trigger (READY_FOR_TRIG) Input signal Eternal trigger (EXT_TRIG) Key lock (KEY_LOCK) Pin location See the following igure. Refer to Help for the deinition of each pin. Figure 11. Pin assignment 16 Line power Frequency 47 to 63 Hz Voltage 90-264 VAC (Vpeak > 120 V) VA max 300 VA max. EMC, safety, environment and compliance EMC European Council Directive 2004/108/EC IEC 61326-1:2005 EN 61326-1:2006 CISPR 11:2003+A1:2004 EN 55011:2007 Group 1, Class A IEC 61000-4-2:1995 +A2:2000 EN 61000-4-2:1995 +A2:2001 4 kV CD / 8 kV AD IEC 61000-4-3:2006 EN 61000-4-3:2006 1-3 V/m, 80-1000 MHz/1.4 GHz - 2.7 GHz, 80% AM IEC 61000-4-4:2004 EN 61000-4-4:2004 1 kV power/0.5 kV signal lines IEC 61000-4-5:2005 EN 61000-4-5:2006 0.5 kV line-line/1 kV line-ground IEC 61000-4-6:2003 + A1:2004+ A2:2006 EN 61000-4-6:2007 3 V, 0.15-80 MHz, 80% AM IEC 61000-4-11:2004 EN 61000-4-11:2004 0.5-300 cycle, 0%/70% NOTE-1: When tested at 3 V/m according to EN61000-4-3:2007, the measurement accuracy will be within speciications over the full immunity test frequency range except when the analyzer frequency is identical to the transmitted interference signal test frequency. NOTE-2: When tested at 3 V according to EN61000-4-6:2007, the measurement accuracy will be within speciications over the full immunity test frequency range except when the analyzer frequency is identical to the transmitted interference signal test frequency. ICES-001:2006 Group 1, Class A AS/NZS CISPR11:2004 Group 1, Class A 17 Safety European Council Directive 2006/95/EC IEC 61010-1:2001 / EN 61010-1:2001 Measurement Category I Pollution Degree 2 Indoor Use CAN/CSA C22.2 No. 61010-1-04 Measurement Category I Pollution Degree 2 Indoor Use Environment This product complies with the WEEE Directive (2002/96/EC) marking requirements. The affixed label indicates that you must not discard this electrical/electronic product in domestic household waste. Product Category: With reference to the equipment types in the WEEE Directive Annex I, this product is classed as a "Monitoring and Control instrumentation" product. Do not dispose in domestic household waste. To return unwanted products, contact your local Keysight office, or see http://www.keysight.com/environment/product/ for more information. Compliance Class C 18 Analyzer Environmental Speciications and Dimensions Operating environment Temperature +5 C to +40 C Error-corrected temperature range 23 C ( 5 C) with < 5 C deviation from calibration temperature Humidity 20% to 80% at wet bulb temperature < +29 C (non-condensation) Altitude 0 to 2,000 m (0 to 6,561 feet) Vibration 0.21 G maximum, 5 Hz to 500 Hz Non-operating environment Temperature -10 C to +60 C Humidity 20% to 90% at wet bulb temperature < 40 C (non-condensation) Altitude 0 to 4,572 m (0 to 15,000 feet) Vibration 2.1 G maximum, 5 Hz to 500 Hz Dimensions, weight Weight Main unit: 13 kg, test head: 250 g with plate Figure 12. Front view 19 Figure 13. Rear view Figure 14. Side view 20 Figure 15. 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(c) Keysight Technologies, 2012 - 2015 Published in USA, March 24, 2015 5990-9882EN www.keysight.com