8481H 技术资料

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文件名称：	8481H 技术资料
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Agilent E4418B/E4419B EPM Series Power Meters, E-Series and 8480 Series Power Sensors Data SheetWhy Agilent’s power meters and sensors? )[\|t;C\|[P³rtjrs[§f§tj³ª\|¾µtª Ä[§È³Å[§³[µ[§³;S³ª[ª§³f§³ jt\|[µ³Mªtªµ[µ\|È³S[\|tÄ[§ª³j§[;µ³§[ª¾\|µª³ ³ª¾§[³tÄ[ªµ[µ³f§³;È³È[;§ª³µ³M[ S[sM;µtCt\|tµÈ³C[µÅ[[³Å[§³[µ[§ª³§[S¾M[ª³µr[³[[S³f§³§[sMStj³µ³\|È³µr;µP³;\|\|³ jt\|[µ³ Å[§³[µ[§ª³;§[³C;MzÅ;§SsM;µtC\|[³Åtµr³ªµ³\|[j;MÈ³Å[§³ª[ª§ª [³ª[MtftM³;\|tM;µtO³[³§tjrµ³ª\|¾µt jt\|[µ³ff[§ª³;³ÅtS[³ª[\|[Mµt³f³Å[§³[µ[§ª³;S³ª[ª§ª³f§³§;MµtM;\|\|È³;\|\|³;\|tM;µt³[[Sª^ Åt§[\|[ªª³M¾tM;µtªP³§;S;§³¾\|ª[³[;ª¾§[[µªP³M[µ³µ[ªµ³;S³§[ \|C;\|³[µÅ§z³ª¾§µ ³;µµ[§³År[§[³È¾³;§[P³ jt\|[µ³tª³Mtµµ[S³µ³jtÄtj³È¾³µr[³¼isr¾§³ª¾§µ³È¾³[[S³§[j;§Stj³ ¾§³§S¾MµªP³;\|tM;µtª³§³ª[§ÄtM[ª ¡ jt\|[µ¤ª³Å[§³[µ[§ª³r;Ä[³\|j³C[[³§[MjtÊ[S³;ª³ µr[³tS¾ªµ§È³ªµ;S;§S³f§³)³;S³tM§Å;Ä[³ Å[§³[;ª¾§[[µª¢ 2E4418B/9B EPM Series power meter: applications and compatible sensors for average power measurements Signal characteristics > Typical application examples > Themocouple sensors Diode sensors Diode sensors compensated for extended range Two-path diode-stack sensors CWModulated Wireless standards CW Pulse/ averaged Radar/ navigation AM/FM proﬁled Mobile radio TDMA GSM EDGE NADC IDEN 802.11a/b/g MCPA HiperLan2 WiMAX cdmaOne Bluetooth® W-CDMA cdma2000® Metrology lab Sensor technology 8480A/B/H, N8480A/B/H, R/Q8486A, N8486AR/AQ 8480D, V8486A, W8486A E4412A/3A FM only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only E9300 Series Power –30 to +44 dBm –30 to +44 dBm –5 to +44 dBm N848XB Series E930XB Series U200XB Series N848XH Series E930XA/H Series U200XH Series 848XA Series N848XA Series E930XA Series E441XA Series 848XD Series U200XA Series –15 to +35 dBm –50 to +30 dBm –50 to +30 dBm –30 to +20 dBm –35 to +20 dBm –60 to +20 dBm –60 to +20 dBm –70 to +20 dBm –70 to –20 dBm 9 kHz 100 kHz 10 MHz 50 MHz 2 GHz 4.2 GHz 6 GHz 18 GHz 26.5 GHz 24 GHz 33 GHz 40 GHz 50 GHz 75 GHz 110 GHz E9300B E9301B U2000B U2001B N8482H N8482B N8481H N8481B E9300H E9300A E9301H OPT-H25 E9304A OPT-H19 V8486AW8486A U2000H U2001H U2002H N8485A N8487A N8486AR N8486AQ N8481A N8482A 8483A (75ohm) E9300A OPT-H24 E9301A E9304AOPT-H18 OPT-H33 E4413A U2000A U2001A U2002A U2004A E4412A 8487D Q8486D R8486D 8485D OPT33 8481D OPT 33 Frequency Legend 848XD Average Diode Sensor N848X Average Thermocouple Sensors 848X Thermocouple Sensor E441X 1-Path Diode CW- only Sensor E930X 2-Path Diode True- Average Sensor U200X USB Sensors 3E4418B/9B EPM Series power meter performance characteristics Speciﬁcations describe the instrument’s warranted performance and apply after a 30-minute warm-up. These speciﬁcations are valid over its operating/environmental range unless otherwise stated and after performing a zero and calibration procedure. Supplemental characteristics (shown in italics) are intended to provide additional information, useful in applying the instrument by giving typical (expected), but not warranted performance parameters. These characteristics are shown in italics or labeled as “typical”, “nominal” or “approximate”. For information on measurement uncertainty calculations, refer to Application Note 64-1C, “Fundamentals of RF and Microwave Power Measurements”, literature number 5965-6380E. Compatible power sensors: E4410 and E9300 E-Series, 8480 Series and N8480 Series average power sensors 1. National metrology institutes of member states of the Metre Convention, such as the National Institute of Standards and Technology in the USA, are signatories to the ComitÈ International des Poids et Mesures Mutual Recognition Arrangement. Further information is available from the Bureau International des Poids et Mesures, at http://www.bipm.fr/ Display resolution: Selectable resolution of 1.0, 0.1, 0.01, and 0.001dB in Log mode, or 1 to 4 digits in linear mode Default resolution: 0.01 dB in log mode, 3 digits in linear mode Measurement noise calculation: (<45 pW x 2.75) = <121 pW For speciﬁcations pertaining to the N8480 Series power sensors, please refer to the “Agilent N8480 Series Power Sensors Data Sheet”, literature number 5989-9333EN. Accuracy Power reference Measurement speed Absolute: ±0.02 dB (log) or ±0.5% (linear). Please add the corresponding power sensor linearity percentage from Tables 6, 9 and 10 (for the E-Series sensors), and Table 14 (for the 8480 Series sensors) to asses the overall system accuracy. Relative accuracy: ±0.04 dB (log) or ±1.0% (linear). Please add the corresponding power sensor linearity percentage from Tables 6, 9 and 10 (for the E-Series sensors), and Table 14 (for the 8480 Series sensors) to asses the overall system accuracy. Zero set (digital settability of zero): Sensor dependent (refer to Table 1). For E-Series sensors, this speciﬁcation applies to a zero performed when the sensor input is not connected to the POWER REF. Zero drift of sensors: Sensor dependent, refer to Table 1. For E9300 sensors, refer to Table 11 for complete data. Measurement noise: Sensor dependent, refer to Table 1 and Table 2. For E9300 sensors, refer to Table 11 for complete data. Effects of averaging on noise: Averaging over 1 to 1024 readings is available for reducing noise. Table 1 provides the measurement noise for a particular sensor with the number of averages set at 16 (for normal mode) and 32 (for x2 mode). Use the noise multiplier, for the appropriate mode (normal or x2) and number of averages, to determine the total measurement noise value. Example: 8481D power sensor, normal mode, number of averages = 4 Frequency range: 9 kHz to 110 GHz, sensor dependent Power range: –70 dBm to +44 dBm (100 pW to 25 W), sensor dependent Single sensor dynamic range: 90 dB maximum (E-Series sensors) 50 dB maximum (8480 Series sensors) 55 dB maximum (N8480 Series sensors) Display units: Absolute: Watts or dBm Relative: Percent or dB Power output: 1.00 mW (0.0 dBm). Factory set to ±0.4% traceable to the National Physical Laboratory (NPL), UK 1 . Accuracy: For two years: ±0.5% (23 ± 3 °C) ±0.6% (25 ± 10 °C) ±0.9% (0 to 55 °C) Frequency: 50 MHz nominal SWR: 1.06 maximum (1.08 maximum for Option 003) Connector type: Type-N (f), 50 Three measurement speed modes, over the GPIB, are available as shown, along with the typical maximum measurement speed for each mode. With E4418B power meter Normal: 20 readings/second x2: 40 readings/second Fast: 200 readings/second With E4419B power meter Measurement speed is reduced, for example, with both channels in FAST mode, the typical maximum measurement speed is 100 readings /second. Fast mode is for E-Series sensors only. Maximum measurement speed is obtained using binary output and in free run trigger mode. 4E4418B/9B EPM Series power meter performance characteristics (continued) Table 1 Table 2 No. of averages Noise multiplier Normal mode x2 mode 1 5.5 6.5 2 3.89 4.6 4 2.75 3.25 8 1.94 2.3 16 1 1.63 32 0.85 1 64 0.61 0.72 128 0.49 0.57 256 0.34 0.41 512 0.24 0.29 1024 0.17 0.2 Model Zero set ±500 pW ±500 nW ±5 nW ±50 pW ±25 nW ±25 μW ±2.5 μW ±50 nW ±50 μW ±20 pW ±5 μW ±30 pW ±200 nW Zero drift 1 <±150 pW <±150 nW <±1.5 nW <±15 pW <±3 nW <±3 μW <±0.3 μW <±10 nW <±10 μW <±4 pW <±1 μW <±6 pW <±40 nW Measurement noise 2 <700 pW <700 nW <7 nW <70 pW <80 nW <80 μW <8 μW <110 nW <110 μW <45 pW <10 μW <65 pW <450 nW 1. Within one hour after zero set, at a constant temperature, after a 24-hour warm-up of the power meter. 2. The number of averages at 16 for normal mode and 32 for x2 mode, at a constant temperature, measured over a one-minute interval and two standard deviations. For E-Series sensors, the measurement noise is measured within the low range. Refer to the relevant sensor manual for further information. 3. Speciﬁcation applies to the low power path, 15% to 75% relative humidity. E9300A, E9301A, E9304A 3 E9300B, E9301B 3 E9300H, E9301H 3 E4412A, E4413A N8481A, N8482A, N8485A,N8487A, N8486AQ, N8486AR N8481B, N8482B N8481H, N8482H 8481A, 8482A, 8483A, 8485A, 8487A, R8486A, Q8486A 8481B, 8482B 8481D, 8485D, 8487D 8481H, 8482H R8486D, Q8486D V8486A, W8486A 5 Settling time 1 Table 3 No. of averages Settling time with E-Series sensors (s) Normal mode x2 mode Settling time with N8480 Series sensors (s) Normal mode x2 mode Settling time with 8480 Series sensors (s) Normal mode x2 mode 1 0.07 0.04 0.15 0.15 0.15 0.15 2 0.12 0.07 0.2 0.18 0.2 0.18 4 0.21 0.12 0.3 0.22 0.3 0.22 8 0.4 0.21 0.5 0.35 0.5 0.35 16 1 0.4 1.1 0.55 1.1 0.55 32 1.8 1 1.9 1.1 0.9 1.1 64 3.3 1.8 3.4 1.9 3.4 1.9 128 6.5 3.4 6.6 3.5 6.6 3.5 256 13 6.8 13 6.9 13 6.9 512 27 14.2 27 14.5 27 14.5 1024 57 32 57 33 57 33 Manual ﬁlter, 10-dB decreasing power step for normal and x2 modes (not across range switch points for E-Series and N8480 Series sensors) E-Series sensors in Fast mode (using free run trigger), within the range –50 dBm to +17 dBm, the settling time is: E4418B: 10 ms 2 E4419B: 20 ms 2 1. Settling time: 0 to 99% settled readings over the GPIB 2. When a power step crosses through the sensor’s auto-range switch point, add 25 ms. Refer to the relevant sensor manual for switch point information. y3!npef Njo!eCn E4418B/9B EPM Series power meter performance characteristics (continued) 6 With E-Series E4412A/13A sensors, at 10-dB decreasing power step (not across range switch point) With E-Series E9300A/01A/04A sensors With E-Series E9300B/01B/00H/01H sensor x2 mode x2 mode x2 mode x2 mode x2 mode Normal mode Normal mode Normal mode Normal mode Normal mode Sensor dynamic range Sensor dynamic range Sensor dynamic range Sensor dynamic range Sensor dynamic range Max dBm Max dBm Max dBm E9300B/1B +40 dBm +32 dBm +26 dBm +20 dBm +10 dBm 0 dBm –10 dBm –20 dBm +20 dBm +12 dBm +6 dBm 0 dBm –10 dBm –20 dBm –30 dBm –40 dBm E9300H/1H High Power Path Low Power Path Min dBm Min dBm Min dBm Typical settling times Typical settling times Typical settling times Typical settling times Typical settling times 40 ms 70 ms 210 ms 3.4 s 40 ms 120 ms 210 ms 400 ms 40 ms 70 ms 400 ms 3.4 s 6.8 s 40 ms 120 ms 210 ms 400 ms 40 ms 70 ms 400 ms 3.4 s 6.8 s 70 ms 210 ms 400 ms 1 s 70 ms 120 ms 1 s 6.5 s 13 s 70 ms 210 ms 400 ms 1 s 70 ms 120 ms 1 s 6.5 s 13 s +10 dBm +2 dBm –4 dBm –10 dBm –20 dBm –30 dBm –40 dBm –50 dBm High Power Path Low Power Path 70 ms 120 ms 400 ms 6.5 s –40 dBm –50 dBm –60 dBm With N8480 Series sensors, at 10-dB decreasing power step (not across range switch point) With 8480 Series sensors, at 10-dB decreasing power step 150 ms 180 ms 400 ms 3.6 s 6.6 s 150 ms 180 ms 350 ms 3.5 s 150 ms 200 ms 1 s 6.6 s 13.5 s 150 ms 200 ms 500 ms 6.6 s 20 dB 10 dB 10 dB 10 dB 5 dB 20 dB 10 dB 10 dB 10 dB Auto ﬁlter, default resolution for normal and x2 modes Max dBm Min dBm Max dBm Min dBmE4418B/9B EPM Series power meter performance characteristics (continued) 7 Accessed by key entry: either hardkeys, or softkey menu, and programmable. Zero: Zeros the meter. (Power reference calibrator is switched off during zeroing). Cal: Calibrates the meter using internal (power reference calibrator) or external source. Reference cal factor settable from 1% to 150%, in 0.1% increments. Frequency: Entered frequency range is used to interpolate the calibration factors table. Range: 1 kHz to 999.9 GHz, settable in 1-kHz steps. Cal factor: Sets the calibration factor for the meter. Range: 1% to 150%, in increments of 0.1%. Relative: Displays all successive measurements relative to the last displayed value. Offset: Allows power measurements to be offset by –100 dB to +100 dB, settable in 0.001-dB increments, to compensate for external loss or gain. Save/recall: Store up to 10 instrument states via the save/recall menu. dBm/W: Selectable units of either Watts or dBm in absolute power; or percent or dB for relative measurements. Filter (averaging): Selectable from 1 to 1024. Auto-averaging provides automatic noise compensation. Dimensions The following dimensions exclude front and rear protrusions: 212.6 mm W x 88.5 mm H x 348.3 mm D (8.5 in x 3.5 in x 13.7 in) Weight E4418B: 4.0 kg (8.8 lb) net, 7.9 kg (17.4 lb) shipping E4419B: 4.1 kg (9.0 lb) net, 8.0 kg (17.6 lb) shipping Rear panel connectors Recorder outputs: Analog 0 to 1-Volt, 1-k output impedance, BNC connector. E4419B recorder outputs are dedicated to channel A and channel B. Remote input/output: A TTL logic level is output when the measurement exceeds a predetermined limit. TTL inputs are provided to initiate zero and calibration cycles. RJ-45 series shielded modular jack assembly connector. TTL Output: high = 4.8 V max; low = 0.2 V max TTL Input: high = 3.5 V min, 5 V max; low = 1 V max, –0.3 V min. GPIB: Allows communication with an external controller. RS-232/422: Allows communication with an external RS-232/422 controller. Male/plug 9 position D-subminiature connector. Ground: Binding post, accepts 4-mm plug or bare-wire connection. Line power Input voltage range: 85 to 264 VAC, automatic selection. Input frequency range: 50 to 440 Hz. Power requirement: Approximately 50 VA (14 W) Duty cycle: Duty cycle values between 0.001% to 99.999%, in increments of 0.001%, can be entered to display a peak power representation of measured power. The following equation is used to calculate the displayed peak power value: peak power = measured power/duty cycle. Sensor cal tables: Selects cal factor versus frequency tables corresponding to speciﬁed sensors (8480 Series only). Limits: High and low limits can be set in the range –150 dBm to +230 dBm, in 0.001-dBm increments. Preset default values: dBm mode, rel off, power reference off, duty cycle off, offset off, frequency 50 MHz, AUTO average, free run, AUTO range (for E- Series and N8480 Series sensors). Display: Selectable single and split screen formats are available. Aquasi- analog display is available for peaking measurements. The dual-channel power meter can simultaneously display any two conﬁgurations of A, B, A/B, B/A, A-B, B-A and relative. Power meter functionsGeneral speciﬁcationsE4418B/9B EPM Series power meter performance characteristics (continued) 8 The following information describes characteristic performance based at a temperature of 25 °C unless otherwise noted. General conditions: Complies with the requirements of the EMC Directive 89/336/EEC. This includes Generic Immunity Standard EN 50082-1: 1992 and Radiated Interference Standard EN 55011: 1991/CISPR11:1990, Group 1 - Class A. Interface: GBIB interface operates to IEEE 488.2. RS-232 and RS-422 serial interface supplied as standard. Command language: SCPI standard interface commands. 436A and 437B code compatible (E4418B only); 438A code compatible (E4419B only). GPIB compatibility: SH1, AH1, T6, TE0, L4, LE0, SR1, RL1, PP1, DC1, DT1, C0. Battery: Lithium polycarbon monoﬂouride, approximate lifetime 5 years at 25 °C Operating environment Temperature: 0°C to 55 °C Maximum humidity: 95% at 40 °C (non-condensing). Minimum humidity: 15% at 40 °C (non-condensing). Maximum altitude: 3000 meters (9840 feet). Storage conditions Storage temperature: –20 °C to +70 °C. Non-operating maximum humidity: 90% at 65 °C (non-condensing). Non-operating maximum altitude: 15240 meters (50,000 feet). Safety Conforms to the following product speciﬁcations: EN61010-1: 1993/IEC 1010-1: 1990 +A1/CSA C22.2 No. 1010-1: 1993 EN60825-1: 1994/IEC 825-1: 1993 Class 1 Low Voltage Directive 72/23/EEC Typical operating time: up to 3.5 hours with LED backlight on; up to 5.5 hours with LED backlight off (E4418B power meter). Charge time: 2 hours to charge fully from an empty state; 50 minutes charging enables 1 hour of operation with LED backlight on; 35 minutes charging enables 1-hr operation with LED backlight off. Power meter is operational whilst charging. Service life (to 70% of initial capacity at 25 °C): 450 charge/discharge cycles Chemistry: Nickel metal hydride Weight: 1 kg Battery Option 001 operational characteristics1 Environmental characteristicsRemote programming 1. Characteristics describe product performance that is useful in the application of the product, but is not covered by the product warranty.E4418B/9B EPM Series power meter ordering information 9 E4418B: Single-channel EPM Series power meter E4419B: Dual-channel EPM Series power meter Standard-shipped accessories Power sensor cable: E4418B has one 1.5-meter (5-ft) sensor cable. E4419B has two 1.5-meter (5-ft) sensor cables. Power cord: One 2.4-meter (7.5-ft) cable. Power plug matches destination requirements. Documentation: A hard copy of the English language User’s Guide is provided with the EPM power meter as standard, along with a CD version of the English and localized User’s Guide and Programming Guide. A selection can be made to delete the hard copy. Warranty: Included with each EPM Series power meter 1 is a standard 12- month return-to-Agilent warranty and service plan. A selection can be made to extend the initial warranty and service plan to 3 or 5 years. Standard-shipped accessories come with a 3-month warranty. Option E441xB-0B0: Delete hard copy English language User’s Guide Option E441xB-0BF: Hard copy English language Programming Guide Option E441xB-915: Hard copy English language Service Manual Option E441xB-916: Additional hard copy English language User’s Guide and Programming Guide Option E441xB-ABD: Hard copy German localization User’s Guide and Programming Guide Option E441xB-ABE: Hard copy Spanish localization User’s Guide and Programming Guide Option E441xB-ABF: Hard copy French localization User’s Guide and Programming Guide Option E441xB-ABJ: Hard copy Japanese localization User’s Guide and Programming Guide Option E441xB-004: Delete power sensor cable from standard inclusion with power meter 11730A: Power sensor and SNS noise source cable, length 1.5 meters (5 ft) 11730B: Power sensor and SNS noise source cable, length 3 meters (10 ft) 11730C: Power sensor and SNS noise source cable, length 6.1 meters (20 ft) 11730D: Power sensor cable, length 15.2 meters (50 ft) 11730E: Power sensor cable, length 30.5 meters (100 ft) 11730F: Power sensor cable, length 61 meters (200 ft) Option E441xB-908: Rackmount kit (one instrument) Option E441xB-909: Rackmount kit (two instruments) 34131A: Transit case for half-rack 2U high instruments 34141A: Yellow soft carry/operating case 34161A: Accessory pouch E9287A2 : Spare battery pack for the EPM power meter 11683A: Range calibrator Veriﬁes the accuracy and linearity of the EPM Series power meters. Outputs corresponding to meter readings of 3, 10, 30, 100 and 300 μW and 1, 3, 10, 30 and 100 mW are provided. Calibration uncertainty is ±0.25% on all ranges. Warranty and Calibration3 R-50C-011-3: Agilent Calibration Upfront Plan 3-year coverage R-50C-011-5: Agilent Calibration Upfront Plan 5-year coverage R-51B-001-3C: 1 year Return-to-Agilent warranty extended to 3 years R-51B-001-5C: 1 year Return-to-Agilent warranty extended to 5 years The E-Series and 8480 Series power sensors have a 12-month return-to- Agilent warranty and service plan. For more information, contact your local sales and service ofﬁce. Option E441xB-001: Mains power and internal rechargeable battery Option E441xB-A6J: ANSI Z540 compliant calibration test data including measurement uncertainties Option E441xB-1A7: ISO17025 compliant calibration test data including measurement uncertainties Option E441xB-002: Parallel rear panel sensor input connector(s) and front panel reference calibrator connector Option E441xB-003: Parallel rear panel sensor input connectors and rear panel reference calibrator connector Power metersDocumentationAccessories Complementary equipment Service options Cables Power Connectors Calibration test data 1. Only for EPM Series power meter with Option E441XB-001 installed. 2. For Option E441XB-001, the 36-month warranty does not apply to the E9287A battery pack. 3. Options not available in all countries.E-Series CW power sensor speciﬁcations 10 Widest dynamic range: 100 pW to 100 mW (–70 dBm to +20 dBm) Calibration factor (CF) and reﬂection coefﬁcient (Rho) Table 4 Model Maximum SWR 10 MHz – 18 GHz 50 MHz – 26.5 GHz Maximum SWR 10 MHz to <30 MHz: 1.22 30 MHz to <2 GHz: 1.15 2 GHz to <6 GHz: 1.17 6 GHz to <11 GHz:1.2 11 GHz to <18 GHz: 1.27 50 MHz to <100 MHz: 1.21 100 MHz to <8 GHz: 1.19 8 GHz to <18 GHz: 1.21 18 GHz to 26.5 GHz: 1.26 Maximum power 200 mW (+23 dBm) 200 mW (+23 dBm) Connector type Type-N (m) APC-3.5 mm (m) Calibration factor and reﬂection coefﬁcient data are provided at 1 GHz increments on a data sheet included with the power sensor. This data is unique to each sensor. If you have more than one sensor, match the serial number on the Certiﬁcate of Calibration (COC) with the serial number on the power sensor you are using. The CF corrects for the frequency response of the sensor. The EPM power meter automatically reads the CF data stored in the sensor and uses it to make the corrections. For power levels greater than 0 dBm, add 0.5%/dB to the calibration factor uncertainty speciﬁcation. Reﬂection coefﬁcient (Rho) relates to the SWR according to the following formula: SWR = 1 + Rho/1 - Rho Maximum uncertainties of the CF data are listed in Table 5a, for the E4412A power sensor, and Table 5b for the E4413A power sensor. The uncertainty analysis for the calibration of the sensors was done in accordance with the ISO/TAG4 Guide. The uncertainty data reported on the calibration certiﬁcate is the expanded uncertainty with a 95% conﬁdence level and a coverage factor of 2. Table 5a. E4412A calibration factor uncertainty at 1mW (0 dBm) Frequency 10 MHz 30 MHz 50 MHz 100 MHz 1.0 GHz 2.0 GHz 4.0 GHz 6.0 GHz 8.0 GHz 10.0 GHz 11.0 GHz 12.0 GHz 14.0 GHz 16.0 GHz 18.0 GHz Table 5b. E4413A calibration factor uncertainty at 1mW (0 dBm) Frequency 50 MHz 100 MHz 1.0 GHz 2.0 GHz 4.0 GHz 6.0 GHz 8.0 GHz 10.0 GHz 11.0 GHz 12.0 GHz 14.0 GHz 16.0 GHz 17.0 GHz 18.0 GHz 20.0 GHz 24.0 GHz 26.0 GHz 28.0 GHz Uncertainty(%) 1.8 1.8 Reference 1.8 1.8 2.4 2.4 2.4 2.4 2.4 2.4 2.4 2.4 2.6 2.6 Uncertainty(%) Reference 1.8 1.8 2.4 2.4 2.4 2.4 2.6 2.6 2.8 2.8 2.8 2.8 2.8 3.0 3.0 3.0 3.0 Applies to sensors with serial preﬁx US 3848 or greater E4412A E4413AE-Series CW power sensor speciﬁcations (continued) 11 Power linearity General Table 6 PowerTemperature (25 °C ±5 °C)Temperature (0 °C to 55 °C) ±3% ±4.5% –70 –35 –20 –10 +10 +20 ±4% +3% A B 100 pW to 10 mW (–70 dBm to +10 dBm) 10 mW to 100 mW (+10 dBm to +20 dBm) Power Level Used as Reference (dBm) Figure 1. Relative mode power measurement linearity with EPM Series power meter/E-Series CW power sensor at 25 °C ± 5 °C (typical) The chart in Figure 1 shows the typical uncertainty in making a relative power measurement, using the same power meter channel and the same power sensor to obtain the reference and the measured values. Example A illustrates a relative gain (ampliﬁer measurement). Example B illustrates a relative loss (insertion loss measurement). This chart assumes negligible change in frequency and mismatch occur when transitioning from the power level used as the reference to the power level being measured. Example A: P = 10(P)/10 x 1 mW P = 10 6/10 x 1 mW P = 3.98 mW 3% x 3.98 mW = 119.4 μW Example B: P = 10 (P)/10 x1 mW P = 10 -35/10 x 1 mW P = 316 nW 3% x 316 nW = 9.48 nW where P = power in Watts, and (P) = power in dBm Dimensions: E4412A: 130 mm L x 38 mm W x 30 mm H E4413A: 102 mm L x 38 mm W x 30 mm H Weight: 0.18 kg (0.4 lb). +20 +10 +6 –20 –35 –70 Power Level Being Measured (dBm) ±7% ±10%12 E-Series average power sensor speciﬁcations The E-Series E9300 power sensors have two independent measurement path as shown: Table 7 Table 8 Model E9300A E9301A E9304A E9300B E9301B E9300H E9301H Frequency range 10 MHz to 18 GHz 10 MHz to 6 GHz 9 kHz to 6 GHz 10 MHz to 18 GHz 10 MHz to 6 GHz 10 MHz to 18 GHz 10 MHz to 6 GHz –60 dBm to +20 dBm wide dynamic range sensors –30 dBm to +44 dBm wide dynamic range sensors –50 dBm to +30 dBm wide dynamic range sensors Maximum SWR (25 °C ± 10 °C) 10 MHz to 30 MHz: 1.15 30 MHz to 2 GHz: 1.13 2 GHz to 14 GHz: 1.19 14 GHz to 16 GHz: 1.22 16 GHz to 18 GHz: 1.26 10 MHz to 30 GHz: 1.15 30 MHz to 2 GHz: 1.13 2 GHz to 6 GHz: 1.19 9 kHz to 2 GHz: 1.13 2 GHz to 6 GHz: 1.19 10 MHz to 8 GHz: 1.12 8 to 12.4 GHz: 1.17 12.4 to 18 GHz: 1.24 10 MHz to 6 GHz: 1.12 10 MHz to 8 GHz: 1.15 8 to 12.4 GHz: 1.25 12.4 to 18 GHz: 1.28 10 MHz to 6 GHz: 1.15 Maximum SWR (0 to 55 °C) 10 MHz to 30 MHz: 1.21 30 MHz to 2 GHz: 1.15 2 GHz to 14 GHz: 1.20 14 GHz to 16 GHz: 1.23 16 GHz to 18 GHz: 1.27 10 MHz to 30 MHz: 1.21 30 MHz to 2 GHz: 1.15 2 GHz to 6 GHz: 1.20 9 kHz to 2 GHz: 1.15 2 GHz to 6 GHz: 1.20 10 MHz to 8 GHz: 1.14 8 to 12.4 GHz: 1.18 12.4 to 18 GHz: 1.25 10 MHz to 6 GHz: 1.14 10 MHz to 8 GHz: 1.17 8 to 12.4 GHz: 1.26 12.4 to 18 GHz: 1.29 10 MHz to 6 GHz: 1.17 Maximum power +25 dBm (320 mW) average; +33 dBm peak (2 W) (< 10 μsec) +25 dBm (320 mW) average; +33 dBm peak (2 W) (< 10 μsec) +25 dBm (320 mW) average; +33 dBm peak (2 W)(< 10 μsec) 0 to 35 °C: 30 W avg 35 to 55 °C: 25 W avg < 6 GHz: 500 W pk > 6 GHz: 125 W pk 500 W.μS per pulse 0 to 35 °C: 30 W avg 35 to 55 °C: 25 W avg < 6 GHz: 500 W pk > 6 GHz: 125 W pk 500 W.μS per pulse 3.16 W avg 100 W pk 100 W.μS per pulse 3.16 W avg 100 W pk 100 W.μS per pulse Connector type Type-N (m) Type-N (m) Type-N (m) Type-N (m) Type-N (m) Type-N (m) Type-N (m) “A” sufﬁx sensors –10 to +20 dBm –60 to –10 dBm “B” sufﬁx sensors +20 to +44 dBm –30 to +20 dBm “H” sufﬁx sensors 0 to +30 dBm –50 to 0 dBm High power path Low power path Speciﬁcations are valid ONLY after proper calibration of the power meter and apply for CW signals unless otherwise stated. Speciﬁcations apply over the temperature range 0 °C to 55 °C unless otherwise stated, and speciﬁcations quoted over the temperature range 25 °C ±10 °C, conform to the standard environmental test conditions as deﬁned in TIA/EIA/ IS-97-A and TIA/EIA/IS-98-A [1].E-Series average power sensor speciﬁcations (continued) 13 Typical SWR, 10 MHz to 18 GHz (25 °C ±10 °C) for E9300A and E9301A sensors Typical SWR, 9 kHz to 6 GHz (25 °C ±10 °C) for E9304A sensors SWR SWR 1.2 1.18 1.16 1.14 1.12 1.1 1.08 1.06 1.04 1.02 1 1.2 1.15 1.1 1.05 1 0.01 2.00 4.00 6.00 8.00 10.00 12.00 14.00 16.00 18.00 0 1 2 3 4 5 6 Frequency GHz Frequency GHz 0 2 4 6 8 10 12 14 16 18 0 2 4 6 8 10 12 14 16 18 Frequency GHz Frequency GHz 1.20 1.15 1.10 1.05 1.00 1.2 1.15 1.1 1.05 1 SWR SWR Typical SWR, 10 MHz to 18 GHz (25 °C ±10 °C) for E9300B and E9301B sensors Typical SWR, 10 MHz to 18 GHz (25 °C ±10 °C) for E9300H and E9301H sensors2 1/9 1/7 1/5 1/3 1 .1/3 .1/5 .1/7 .1/9 .2 Qpxfs!)eCn* .21!!!!!!!!!!.6!!!!!!!!!!!!!1!!!!!!!!!!!!!6!!!!!!!!!!!!21!!!!!!!!!!26!!!!!!!!!!!!31!!!!!!!!!!!36!!!!!!!!!!41 &!Fssps E-Series average power sensor speciﬁcations (continued) 14 Power linearity * Sensor E9300A, E9301A, E9304A E9300B, E9301B E9300H, E9301H Power range –30 to –20 dBm –20 to –10 dBm –10 to 0 dBm 0 to +10 dBm +10 to +20 dBm Measurement uncertainty Measurement uncertainty Measurement uncertainty Power –60 to –10 dBm –10 to 0 dBm 0 to +20 dBm –30 to +20 dBm +20 to +30 dBm +30 to +44 dBm –50 to 0 dBm 0 to +10 dBm +10 to +30 dBm Linearity (25 °C ±10 °C) ±3.0% ±2.5% ±2.0% ±3.5% ±3.0% ±2.5% ±4.0% ±3.5% ±3.0% Linearity (0 °C to 55 °C) ±3.5% ±3.0% ±2.5% ±4.0% ±3.5% ±3.0% ±5.0% ±4.0% ±3.5% after zero and calibration at ambient environmental conditions Table 9 Typical E9300A/01A/04A power linearity at 25 °C, after zero and calibration, with associated measurement uncertainty 0.5 0.4 0.3 0.2 0.1 0 -0.1 -0.2 -0.3 -0.4 -0.5 Power (dBm) -30 -26 -22 -18 -14 -10 -8 -2 2 6 10 14 18 20 % Error Typical E9300B/01B power linearity at 25 °C, after zero and calibration, with associated measurement uncertainty Typical E9300H/01H power linearity at 25 °C, after zero and calibration, with associated measurement uncertainty Power (dBm) Power (dBm) % Error % Error 1 0.8 0.6 0.4 0.2 0 -0.2 -0.4 -0.6 -0.8 -1 1 0.8 0.6 0.4 0.2 0 -0.2 -0.4 -0.6 -0.8 -1 -10 -5 0 5 10 15 20 25 30 -10 -5 0 5 10 15 20 25 30 Power range –6 to 0 dBm 0 to +10 dBm +10 to +20 dBm +20 to +26 dBm Power range –26 to –20 dBm –20 to –10 dBm –10 to 0 dBm 0 to +10 dBm +10 to +20 dBm +20 to +26 dBm ± 0.65% ± 0.55% ± 0.45% ± 0.31% ± 0.9% ± 0.8% ± 0.65% ± 0.55% ± 0.45% ± 0.31% ±0.9% ±0.8% ±0.65% ±0.55% ±0.45%E-Series average power sensor speciﬁcations (continued) 15 Effects of change in temperature on linearity If temperature changes and you choose not to re-calibrate the sensor, add the following power linearity error to the linearity specs in Table 9: For small changes in temperature Typical maximum additional power linearity error = ±0.15%/°C (valid after zeroing the sensor) Figure 2 shows the typical uncertainty in making a relative power measurement, using the same power meter channel and same power sensor to obtain the reference and the measured values, and assumes that negligible change in frequency and mismatch error occur when transitioning from the power level used as the reference to the power level being measured. For large changes in temperature Table 10 Figure 2. Relative mode power measurement linearity with an EPM Series power meter, at 25 °C ±10 °C (typical) A+20 dBm B+44 dBm, H+30 dBm +20 dBm, 0 dBm -30 dBm, -50 dBm 60 dBm A-60 dBm +20 dBm –10 dBm ±2% ±2% ±1% ±1% +20 dBm +44 dBm +30 dBm 0 dBm B-30 dBm H-50 dBm -10 dBm Measured Power Sensor E9300A, E9301A, E9304A E9300B, E9301B E9300H, E9301H Power –60 to –10 dBm –10 to 0 dBm 0 to +20 dBm –30 to +20 dBm +20 to +30 dBm +30 to +44 dBm –50 to 0 dBm 0 to +10 dBm +10 to 30 dBm Additional power linearity error (25 °C ± 10 °C) ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% Additional power linearity error (0 to 55 °C) ±2.0% ±2.5% ±2.0% ±2.0% ±2.5% ±2.0% ±2.0% ±2.5% ±2.0%16 E-Series average power sensor speciﬁcations³(continued) Switch point data The E9300 power sensors have two paths as shown in Table 7. The power meter automatically selects the proper power level path. To avoid unnecessary switching when the power level is near the switch point, switching point hysteresis has been added. Example with E9300 “A” sufﬁx sensors: Hysteresis causes the low power path to remain selected until approximately –9.5 dBm as the power level is increased. Above this power, the high power path will be selected. The high power path will remain selected until approximately –10.5 dBm is reached as the signal level decreases. Below this power, the low power path will be selected. Switching point linearity: Typically ±0.5% ( ±0.02 dB) Switching point hysteresis: 0.5 dB typical E9300 sensor sufﬁx A B H Table 11 Conditions 1 Lower power path (15% to 75% RH) Lower power path (75% to 95% RH) High power path (15% to 75% RH) High power path (75% to 95% RH) Lower power path (15% to 75% RH) Lower power path (75% to 95% RH) High power path (15% to 75% RH) High power path (75% to 95% RH) Lower power path (15% to 75% RH) Lower power path (75% to 95% RH) High power path (15% to 75% RH) High power path (75% to 95% RH) Zero set 500 pW 500 pW 500 nW 500 nW 500 nW 500 nW 500 μW 500 μW 5 nW 5 nW 5 μW 5 μW Zero drift 2 150 pW 4,000 pW 150 nW 3000 nW 150 nW 4 μW 150 μW 3000 mW 1.5 nW 40 μW 1.5 μW 30 mW Measurement noise 3 700 pW 700 pW 500 nW 500 nW 700 nW 700 nW 500 μW 500 μW 7 nW 7 nW 5 μW 5 μW 1. RH is the abbreviation for relative humidity. 2. Within 1 hour after zero set, at a constant temperature, after a 24-hour warm-up of the power meter with power sensor connected. 3. The number of averages at 16 for normal mode and 32 for x2 mode, at a constant temperature, measured over a one minute interval and two standard deviations.17 E-Series average power sensor speciﬁcations (continued) Calibration factor (CF) and reﬂection coefﬁcient (Rho) Calibration factor and reﬂection coefﬁcient data are provided at frequency intervals on a data sheet included with the power sensor. This data is unique to each sensor. If you have more than one sensor, match the serial number on the Certiﬁcate of Calibration (COC) with the serial number on the power sensor you are using. The CF corrects for the frequency response of the sensor. The EPM Series power meter automatically reads the CF data stored in the sensor and uses it to make the corrections. Reﬂection coefﬁcient (Rho) relates to the SWR according to the following formula: SWR = (1 + Rho)/(1 - Rho) Maximum uncertainties of the CF data are listed in tables 12a and 12b, for each individual measurement path (high power and low power, as shown in Table 7). The uncertainty analysis for the calibration of the sensors was done in accordance with the ISO Guide. The uncertainty data reported on the calibration certiﬁcate is the expanded uncertainty with a 95% conﬁdence level and a coverage factor of 2. General Dimensions: 130 mm L x 38 mm W x 30 mm H Weight: 0.18 kg (0.4 lbs) Table 12a.³;\|tC§;µt³f;Mµ§³¾M[§µ;tµt[ª³\|Å³Å[§³;µr Table 12b.³;\|tC§;µt³f;Mµ§³¾M[§µ;tµt[ª³rtjr³Å[§³;µr References: [1] TIA is the Telecommunications Industry Association; EIA is the Electronic Industries Association. TIA/EIA/IS-97-A is the recommended minimum performance standards for base stations supporting dualmode wideband spread spectrum cellular mobile stations. TIA/EIA/IS- 98-A is the recommended minimum performance standards for dual-mode wideband spread spectrum cellular mobile stations. Frequency 10 MHz to 30 MHz 30 MHz to 500 MHz (E9304A: 9 kHz to 500 MHz) 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz Frequency 10 MHz to 30 MHz 30 MHz to 500 MHz (E9304A: 9 kHz to 500 MHz) 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz Uncertainty (%) (25 °C ±10 °C) ± 1.8% ±1.6% ±1.8% ±1.7% ±1.8% ± 2.0 % Uncertainty (%) (25 °C ±10 °C) ± 2.1% ±1.8% ±2.3% ±1.8% ±1.9% ± 2.2 % Uncertainty (%) (0° to 55 °C) ±2.2% ±2.0% ±2.5% ±2.0% ±2.0% ±2.2% Uncertainty (%) (0° to 55 °C) ±4.0% ±3.0% ±4.0% ±2.1% ±2.3% ±3.3%8480 Series diode and thermocouple power sensor speciﬁcations 18 The 8480 Series sensors provide extraordinary accuracy, stability and SWR over a wide range of frequencies (100 kHz to 110 GHz) and power levels –70 dBm to +44 dBm. Calibration factor uncertainties Table 13. Typical measurement uncertainties of Calibration Factor (CF) data printed on the power sensor Frequency 100 KHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz 18 GHz to 26.5 GHz 26.5 GHz to 33 GHz 33 GHz to 34 GHz 34 GHz to 35 GHz 35 GHz to 40 GHz 40 GHz to 45 GHz 45 GHz to 50 GHz Frequency 100 KHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz 18 GHz to 26.5 GHz 26.5 GHz to 33 GHz 33 GHz to 34 GHz 34 GHz to 35 GHz 35 GHz to 40 GHz 40 GHz to 45 GHz 45 GHz to 50 GHz Frequency 100 KHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz 18 GHz to 26.5 GHz 26.5 GHz to 33 GHz 33 GHz to 34 GHz 34 GHz to 35 GHz 35 GHz to 40 GHz 40 GHz to 45 GHz 45 GHz to 50 GHz 8487A 1.38 1.34 1.41 1.59 1.69 2.23 2.58 2.73 2.73 2.73 3.67 4.33 8483A 1.59 1.39 1.41 1.41 1.46 8481D 0.77 0.81 0.81 0.97 1.20 1.72 8485D 1.24 1.26 1.35 1.63 1.83 2.45 2.94 8487D 1.33 1.35 1.41 1.62 1.73 2.25 2.55 3.08 3.08 3.08 4.28 4.72 R8486D 2.47 2.42 2.42 2.42 Q8486D 2.85 2.85 2.85 2.84 2.84 Q8486A 3.12 3.40 3.12 3.15 3.34 R8486A 2.79 2.93 2.93 2.93 8481H 0.86 0.88 0.87 0.98 1.36 1.71 8481B 1.48 1.48 1.48 1.54 1.71 1.99 8482H 0.91 0.81 0.92 0.88 0.95 8482B 1.50 1.44 1.51 1.48 1.53 8482A 0.87 0.8 0.8 0.8 0.9 8481A 0.81 0.78 0.78 0.92 1.16 1.59 8485A 1.29 1.26 1.35 1.61 1.77 2.47 3.35* 25ºC ± 3ºC 25ºC ± 3ºC 25ºC ± 3ºC * These uncertainties only apply to Option 033.8480 Series diode and thermocouple power sensor speciﬁcations (continued) 19 Maximum SWR and power linearity Model 8481B 8482B 8481H 8482H 8485A Option 8485A-033 8481A 8482A 8483A (75-ohm) R8486A Q8486A V8486A W8486A 8487A Frequency range 10 MHz to 18 GHz 100 kHz to 4.2 GHz 10 MHz to 18 GHz 100 kHz to 4.2 GHz 50 MHz to 26.5 GHz 26.5 MHz to 33 GHz 10 MHz to 18 GHz 100 kHz to 4.2 GHz 100 kHz to 2 GHz 26.5 GHz to 40 GHz 33 GHz to 50 GHz 50 GHz to 75 GHz 75 GHz to 110 GHz 50 MHz to 50 GHz Maximum SWR 10 MHz to 2 GHz: 1.10 2 GHz to 12.4 GHz: 1.18 12.4 GHz to 18 GHz: 1.28 100 kHz to 2 GHz: 1.10 2 GHz to 4.2 GHz: 1.18 10 MHz to 8 GHz: 1.20 8 GHz to 12.4 GHz: 1.25 12.4 GHz to 18 GHz: 1.30 100 kHz to 4.2 GHz: 1.20 50 MHz to 100 MHz: 1.15 100 MHz to 2 GHz: 1.10 2 GHz to 12.4 GHz: 1.15 12.4 GHz to 18 GHz: 1.20 18 GHz to 26.5 GHz: 1.25 26.5 GHz to 33 GHz: 1.40 10 MHz to 30 MHz: 1.40 30 MHz to 50 MHz: 1.18 50 MHz to 2 GHz: 1.10 2 GHz to 12.4 GHz: 1.18 12.4 GHz to 18 GHz: 1.28 100 kHz to 300 kHz: 1.60 300 kHz to 1 MHz: 1.20 1 MHz to 2 GHz: 1.10 2 GHz to 4.2 GHz: 1.30 100 kHz to 600 kHz: 1.80 600 kHz to 2 GHz: 1.18 26.5 GHz to 40 GHz: 1.40 33 GHz to 50 GHz: 1.50 50 GHz to 75 GHz: 1.06 75 GHz to 110 GHz: 1.08 50 MHz to 100 MHz: 1.15 100 MHz to 2 GHz: 1.10 2 GHz to 12.4 GHz: 1.15 12.4 GHz to 18 GHz: 1.20 18 GHz to 26.5 GHz: 1.25 26.5 GHz to 40 GHz: 1.30 40 GHz to 50 GHz: 1.50 Power linearity1 +35 dBm to + 44 dBm: (±4%) +35 dBm to + 44 dBm: (±4%) +25 dBm to + 35 dBm: (±5%) +25 dBm to + 35 dBm: (±5%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±2%) –30 dBm to + 10 dBm: (±1%) (±2%) +10 dBm to + 20 dBm: (±3%) Maximum power 0 °C to 350 °C: 30 W avg2 35 °C to 550 °C: 25 W avg 0.01 to 5.8 GHz: 500 W pk 5.8 to 18 GHz: 125 W pk 500 W.μs per pulse 0 °C to 350 °C: 30 W avg2 35 °C to 550 °C: 25 W avg 0.01 to 5.8 GHz: 500 W pk 5.8 to 18 GHz: 125 W pk 500 W.μs per pulse 3.5 W avg, 100 W pk 100 W.μs per pulse 3.5 W avg, 100 W pk 100 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 10 W pk 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 200 mW avg, 40 W pk (10.μs per pulse, 0.5% duty cycle) 200 mW avg, 40 W pk (10.μs per pulse, 0.5% duty cycle) 300 mW avg, 15 W pk 30 W.μs per pulse Connector type Type-N(m) Type-N(m) Type-N(m) Type-N(m) APC-3.5mm(m) APC-3.5mm(m) Type-N (m) Type-N (m) Type-N (m) (75-ohm) Waveguide ﬂange UG-599/U Waveguide ﬂange UG-383/U Waveguide ﬂange UG-385/U Waveguide ﬂange UG-387/U 2.4 mm (m) Weight 0.8 kg (1.75 lb) 0.8 kg (1.75 lb) 0.2 kg (0.38 lb) 0.2 kg (0.38 lb) 0.2 kg (.38 lb) 0.2 kg (.38 lb) 0.2 kg (0.38 lb) 0.2 kg (0.38 lb) 0.2 kg (0.38 lb) 0.26 kg (0.53 lb) 0.26 kg (0.53 lb) 0.4 kg (0.9 lb) 0.4 kg (0.9 lb) 0.14 kg (.28 lb) Table 14 25-Watt sensors, 1 mW to 25 W (0 dBm to +44 dBm) 3-Watt sensors, 100 μW to 3 W (–10 dBm to +35 dBm) 100-mW sensors, 1 μW to 100 mW (–30 dBm to +20 dBm) 1. Negligible deviation except for those power ranges noted. 2. For pulses greater than 30 W, the maximum average power (Pa) is limited by the energy per pulse (E) in W.μs according to Pa = 30-0.02 E.20 8480 Series diode and thermocouple power sensor speciﬁcations (continued) Model 8481D3 8485D3 Option 8485D-033 8487D3 R8486D3 Q8486D3 Frequency range 10 MHz to 18 GHz 50 MHz to 26.5 GHz 50 MHz to 33 GHz 50 MHz to 50 GHz 26.5 GHz to 40 GHz 33 GHz to 50 GHz High-sensitivity sensors, 100 pW to 10 μW (–70 dBm to –20 dBm) Maximum SWR 10 MHz to 30 MHz: 1.40 30 MHz to 4 GHz: 1.15 4 GHz to 10 GHz: 1.20 10 GHz to 15 GHz: 1.30 15 GHz to 18 GHz: 1.35 0.05 GHz to 0.1 GHz: 1.19 0.1 GHz to 4 GHz: 1.15 4 GHz to 12 GHz: 1.19 12 GHz to 18 GHz: 1.25 18 GHz to 26.5 GHz: 1.29 26.5 GHz to 33 GHz: 1.35 0.05 GHz to 0.1 GHz: 1.19 0.1 GHz to 2 GHz: 1.15 2 GHz to 12.4 GHz: 1.20 12.4 GHz to 18 GHz: 1.29 18 GHz to 34 GHz: 1.37 34 GHz to 40 GHz: 1.61 40 GHz to 50 GHz: 1.89 26.5 GHz to 40 GHz: 1.40 33 GHz to 50 GHz: 1.40 Power linearity1 –30 dBm to –20 dBm: (±1%) –30 dBm to –20 dBm: (±2%) –30 dBm to –20 dBm: (±2%) –30 dBm to –20 dBm: (±2%) –30 dBm to –25 dBm: (±3%) –25 dBm to –20 dBm: (±5%) –30 dBm to 25 dBm: (±3%) –25 dBm to –20 dBm: (±5%) Maximum power 100 mW avg, 100 mW pk 100 mW avg, 100 mW pk 100 mW avg, 100 mW pk 100 mW avg, 100 mW pk 10 W.μs per pulse 100 mW avg, or pk 40 V dc max 100 mW avg, or pk 40 V dc max Connector type Type-N (m) APC-3.5mm (m) APC-3.5mm (m) 2.4 mm (m) Waveguide ﬂange UG-599/U Waveguide ﬂange UG-383/U Weight 0.16 kg (0.37 lb) 0.2 kg (.38 lb) 0.2 kg (.38 lb) 0.2 kg (0.38 lb) 0.26 kg (0.53 lb) 0.26 kg (0.53 lb) 1. Negligible deviation except for those power ranges noted. 2. For pulses greater than 30 W, the maximum average power (Pa) is limited by the energy per pulse (E) in W.μs according to Pa = 30-0.02 E. 3. Includes 11708A 30 dB attenuator for calibrating against 0 dBm, 50 MHz power reference. The 11708A is factory set to 30 dB ±0.05 dB at 50 MHz, traceable to NIST. SWR < 1.05 at 50 MHz. N8480 Series thermocouple power sensor speciﬁcations The N8480 Series power sensors are replacing the 8480 Series thermocouple range. Detailed speciﬁcations on the N8480 Series can be found in the “Agilent N8480 Series Power Sensors Data Sheet”, literature number 5989-9333EN.Agilent Email Updates www.agilent.com/ﬁnd/emailupdates Get the latest information on the products and applications you select. www.lxistandard.org LXI is the LAN-based successor to GPIB, providing faster, more efficient connectivity. Agilent is a founding member of the LXI consortium. 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The complete list is available at: www.agilent.com/find/contactus © Agilent Technologies, Inc. 2009 Printed in USA, November 2, 2009 5965-6382E Product specifications and descriptions in this document subject to change without notice. Remove all doubt Our repair and calibration services will get your equipment back to you, performing like new, when promised. You will get full value out of your Agilent equipment through- out its lifetime. Your equipment will be serviced by Agilent-trained technicians using the latest factory calibration procedures, automated repair diagnostics and genuine parts. You will always have the utmost confidence in your measurements. For informa- tion regarding self maintenance of this product, please contact your Agilent office. Agilent offers a wide range of additional expert test and measurement services for your equipment, including initial start-up assistance, onsite education and training, as well as design, system integration, and project management. For more information on repair and calibration services, go to: www.agilent.com/find/removealldoubtAgilent E4418B/E4419B EPM Series Power Meters, E-Series and 8480 Series Power Sensors Data SheetWhy Agilent’s power meters and sensors? )[\|t;C\|[P³rtjrs[§f§tj³ª\|¾µtª Ä[§È³Å[§³[µ[§³;S³ª[ª§³f§³ jt\|[µ³Mªtªµ[µ\|È³S[\|tÄ[§ª³j§[;µ³§[ª¾\|µª³ ³ª¾§[³tÄ[ªµ[µ³f§³;È³È[;§ª³µ³M[ S[sM;µtCt\|tµÈ³C[µÅ[[³Å[§³[µ[§ª³§[S¾M[ª³µr[³[[S³f§³§[sMStj³µ³\|È³µr;µP³;\|\|³ jt\|[µ³ Å[§³[µ[§ª³;§[³C;MzÅ;§SsM;µtC\|[³Åtµr³ªµ³\|[j;MÈ³Å[§³ª[ª§ª [³ª[MtftM³;\|tM;µtO³[³§tjrµ³ª\|¾µt jt\|[µ³ff[§ª³;³ÅtS[³ª[\|[Mµt³f³Å[§³[µ[§ª³;S³ª[ª§ª³f§³§;MµtM;\|\|È³;\|\|³;\|tM;µt³[[Sª^ Åt§[\|[ªª³M¾tM;µtªP³§;S;§³¾\|ª[³[;ª¾§[[µªP³M[µ³µ[ªµ³;S³§[ \|C;\|³[µÅ§z³ª¾§µ ³;µµ[§³År[§[³È¾³;§[P³ jt\|[µ³tª³Mtµµ[S³µ³jtÄtj³È¾³µr[³¼isr¾§³ª¾§µ³È¾³[[S³§[j;§Stj³ ¾§³§S¾MµªP³;\|tM;µtª³§³ª[§ÄtM[ª ¡ jt\|[µ¤ª³Å[§³[µ[§ª³r;Ä[³\|j³C[[³§[MjtÊ[S³;ª³ µr[³tS¾ªµ§È³ªµ;S;§S³f§³)³;S³tM§Å;Ä[³ Å[§³[;ª¾§[[µª¢ 2E4418B/9B EPM Series power meter: applications and compatible sensors for average power measurements Signal characteristics > Typical application examples > Themocouple sensors Diode sensors Diode sensors compensated for extended range Two-path diode-stack sensors CWModulated Wireless standards CW Pulse/ averaged Radar/ navigation AM/FM proﬁled Mobile radio TDMA GSM EDGE NADC IDEN 802.11a/b/g MCPA HiperLan2 WiMAX cdmaOne Bluetooth® W-CDMA cdma2000® Metrology lab Sensor technology 8480A/B/H, N8480A/B/H, R/Q8486A, N8486AR/AQ 8480D, V8486A, W8486A E4412A/3A FM only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only Avg.only E9300 Series Power –30 to +44 dBm –30 to +44 dBm –5 to +44 dBm N848XB Series E930XB Series U200XB Series N848XH Series E930XA/H Series U200XH Series 848XA Series N848XA Series E930XA Series E441XA Series 848XD Series U200XA Series –15 to +35 dBm –50 to +30 dBm –50 to +30 dBm –30 to +20 dBm –35 to +20 dBm –60 to +20 dBm –60 to +20 dBm –70 to +20 dBm –70 to –20 dBm 9 kHz 100 kHz 10 MHz 50 MHz 2 GHz 4.2 GHz 6 GHz 18 GHz 26.5 GHz 24 GHz 33 GHz 40 GHz 50 GHz 75 GHz 110 GHz E9300B E9301B U2000B U2001B N8482H N8482B N8481H N8481B E9300H E9300A E9301H OPT-H25 E9304A OPT-H19 V8486AW8486A U2000H U2001H U2002H N8485A N8487A N8486AR N8486AQ N8481A N8482A 8483A (75ohm) E9300A OPT-H24 E9301A E9304AOPT-H18 OPT-H33 E4413A U2000A U2001A U2002A U2004A E4412A 8487D Q8486D R8486D 8485D OPT33 8481D OPT 33 Frequency Legend 848XD Average Diode Sensor N848X Average Thermocouple Sensors 848X Thermocouple Sensor E441X 1-Path Diode CW- only Sensor E930X 2-Path Diode True- Average Sensor U200X USB Sensors 3E4418B/9B EPM Series power meter performance characteristics Speciﬁcations describe the instrument’s warranted performance and apply after a 30-minute warm-up. These speciﬁcations are valid over its operating/environmental range unless otherwise stated and after performing a zero and calibration procedure. Supplemental characteristics (shown in italics) are intended to provide additional information, useful in applying the instrument by giving typical (expected), but not warranted performance parameters. These characteristics are shown in italics or labeled as “typical”, “nominal” or “approximate”. For information on measurement uncertainty calculations, refer to Application Note 64-1C, “Fundamentals of RF and Microwave Power Measurements”, literature number 5965-6380E. Compatible power sensors: E4410 and E9300 E-Series, 8480 Series and N8480 Series average power sensors 1. National metrology institutes of member states of the Metre Convention, such as the National Institute of Standards and Technology in the USA, are signatories to the ComitÈ International des Poids et Mesures Mutual Recognition Arrangement. Further information is available from the Bureau International des Poids et Mesures, at http://www.bipm.fr/ Display resolution: Selectable resolution of 1.0, 0.1, 0.01, and 0.001dB in Log mode, or 1 to 4 digits in linear mode Default resolution: 0.01 dB in log mode, 3 digits in linear mode Measurement noise calculation: (<45 pW x 2.75) = <121 pW For speciﬁcations pertaining to the N8480 Series power sensors, please refer to the “Agilent N8480 Series Power Sensors Data Sheet”, literature number 5989-9333EN. Accuracy Power reference Measurement speed Absolute: ±0.02 dB (log) or ±0.5% (linear). Please add the corresponding power sensor linearity percentage from Tables 6, 9 and 10 (for the E-Series sensors), and Table 14 (for the 8480 Series sensors) to asses the overall system accuracy. Relative accuracy: ±0.04 dB (log) or ±1.0% (linear). Please add the corresponding power sensor linearity percentage from Tables 6, 9 and 10 (for the E-Series sensors), and Table 14 (for the 8480 Series sensors) to asses the overall system accuracy. Zero set (digital settability of zero): Sensor dependent (refer to Table 1). For E-Series sensors, this speciﬁcation applies to a zero performed when the sensor input is not connected to the POWER REF. Zero drift of sensors: Sensor dependent, refer to Table 1. For E9300 sensors, refer to Table 11 for complete data. Measurement noise: Sensor dependent, refer to Table 1 and Table 2. For E9300 sensors, refer to Table 11 for complete data. Effects of averaging on noise: Averaging over 1 to 1024 readings is available for reducing noise. Table 1 provides the measurement noise for a particular sensor with the number of averages set at 16 (for normal mode) and 32 (for x2 mode). Use the noise multiplier, for the appropriate mode (normal or x2) and number of averages, to determine the total measurement noise value. Example: 8481D power sensor, normal mode, number of averages = 4 Frequency range: 9 kHz to 110 GHz, sensor dependent Power range: –70 dBm to +44 dBm (100 pW to 25 W), sensor dependent Single sensor dynamic range: 90 dB maximum (E-Series sensors) 50 dB maximum (8480 Series sensors) 55 dB maximum (N8480 Series sensors) Display units: Absolute: Watts or dBm Relative: Percent or dB Power output: 1.00 mW (0.0 dBm). Factory set to ±0.4% traceable to the National Physical Laboratory (NPL), UK 1 . Accuracy: For two years: ±0.5% (23 ± 3 °C) ±0.6% (25 ± 10 °C) ±0.9% (0 to 55 °C) Frequency: 50 MHz nominal SWR: 1.06 maximum (1.08 maximum for Option 003) Connector type: Type-N (f), 50 Three measurement speed modes, over the GPIB, are available as shown, along with the typical maximum measurement speed for each mode. With E4418B power meter Normal: 20 readings/second x2: 40 readings/second Fast: 200 readings/second With E4419B power meter Measurement speed is reduced, for example, with both channels in FAST mode, the typical maximum measurement speed is 100 readings /second. Fast mode is for E-Series sensors only. Maximum measurement speed is obtained using binary output and in free run trigger mode. 4E4418B/9B EPM Series power meter performance characteristics (continued) Table 1 Table 2 No. of averages Noise multiplier Normal mode x2 mode 1 5.5 6.5 2 3.89 4.6 4 2.75 3.25 8 1.94 2.3 16 1 1.63 32 0.85 1 64 0.61 0.72 128 0.49 0.57 256 0.34 0.41 512 0.24 0.29 1024 0.17 0.2 Model Zero set ±500 pW ±500 nW ±5 nW ±50 pW ±25 nW ±25 μW ±2.5 μW ±50 nW ±50 μW ±20 pW ±5 μW ±30 pW ±200 nW Zero drift 1 <±150 pW <±150 nW <±1.5 nW <±15 pW <±3 nW <±3 μW <±0.3 μW <±10 nW <±10 μW <±4 pW <±1 μW <±6 pW <±40 nW Measurement noise 2 <700 pW <700 nW <7 nW <70 pW <80 nW <80 μW <8 μW <110 nW <110 μW <45 pW <10 μW <65 pW <450 nW 1. Within one hour after zero set, at a constant temperature, after a 24-hour warm-up of the power meter. 2. The number of averages at 16 for normal mode and 32 for x2 mode, at a constant temperature, measured over a one-minute interval and two standard deviations. For E-Series sensors, the measurement noise is measured within the low range. Refer to the relevant sensor manual for further information. 3. Speciﬁcation applies to the low power path, 15% to 75% relative humidity. E9300A, E9301A, E9304A 3 E9300B, E9301B 3 E9300H, E9301H 3 E4412A, E4413A N8481A, N8482A, N8485A,N8487A, N8486AQ, N8486AR N8481B, N8482B N8481H, N8482H 8481A, 8482A, 8483A, 8485A, 8487A, R8486A, Q8486A 8481B, 8482B 8481D, 8485D, 8487D 8481H, 8482H R8486D, Q8486D V8486A, W8486A 5 Settling time 1 Table 3 No. of averages Settling time with E-Series sensors (s) Normal mode x2 mode Settling time with N8480 Series sensors (s) Normal mode x2 mode Settling time with 8480 Series sensors (s) Normal mode x2 mode 1 0.07 0.04 0.15 0.15 0.15 0.15 2 0.12 0.07 0.2 0.18 0.2 0.18 4 0.21 0.12 0.3 0.22 0.3 0.22 8 0.4 0.21 0.5 0.35 0.5 0.35 16 1 0.4 1.1 0.55 1.1 0.55 32 1.8 1 1.9 1.1 0.9 1.1 64 3.3 1.8 3.4 1.9 3.4 1.9 128 6.5 3.4 6.6 3.5 6.6 3.5 256 13 6.8 13 6.9 13 6.9 512 27 14.2 27 14.5 27 14.5 1024 57 32 57 33 57 33 Manual ﬁlter, 10-dB decreasing power step for normal and x2 modes (not across range switch points for E-Series and N8480 Series sensors) E-Series sensors in Fast mode (using free run trigger), within the range –50 dBm to +17 dBm, the settling time is: E4418B: 10 ms 2 E4419B: 20 ms 2 1. Settling time: 0 to 99% settled readings over the GPIB 2. When a power step crosses through the sensor’s auto-range switch point, add 25 ms. Refer to the relevant sensor manual for switch point information. y3!npef Njo!eCn E4418B/9B EPM Series power meter performance characteristics (continued) 6 With E-Series E4412A/13A sensors, at 10-dB decreasing power step (not across range switch point) With E-Series E9300A/01A/04A sensors With E-Series E9300B/01B/00H/01H sensor x2 mode x2 mode x2 mode x2 mode x2 mode Normal mode Normal mode Normal mode Normal mode Normal mode Sensor dynamic range Sensor dynamic range Sensor dynamic range Sensor dynamic range Sensor dynamic range Max dBm Max dBm Max dBm E9300B/1B +40 dBm +32 dBm +26 dBm +20 dBm +10 dBm 0 dBm –10 dBm –20 dBm +20 dBm +12 dBm +6 dBm 0 dBm –10 dBm –20 dBm –30 dBm –40 dBm E9300H/1H High Power Path Low Power Path Min dBm Min dBm Min dBm Typical settling times Typical settling times Typical settling times Typical settling times Typical settling times 40 ms 70 ms 210 ms 3.4 s 40 ms 120 ms 210 ms 400 ms 40 ms 70 ms 400 ms 3.4 s 6.8 s 40 ms 120 ms 210 ms 400 ms 40 ms 70 ms 400 ms 3.4 s 6.8 s 70 ms 210 ms 400 ms 1 s 70 ms 120 ms 1 s 6.5 s 13 s 70 ms 210 ms 400 ms 1 s 70 ms 120 ms 1 s 6.5 s 13 s +10 dBm +2 dBm –4 dBm –10 dBm –20 dBm –30 dBm –40 dBm –50 dBm High Power Path Low Power Path 70 ms 120 ms 400 ms 6.5 s –40 dBm –50 dBm –60 dBm With N8480 Series sensors, at 10-dB decreasing power step (not across range switch point) With 8480 Series sensors, at 10-dB decreasing power step 150 ms 180 ms 400 ms 3.6 s 6.6 s 150 ms 180 ms 350 ms 3.5 s 150 ms 200 ms 1 s 6.6 s 13.5 s 150 ms 200 ms 500 ms 6.6 s 20 dB 10 dB 10 dB 10 dB 5 dB 20 dB 10 dB 10 dB 10 dB Auto ﬁlter, default resolution for normal and x2 modes Max dBm Min dBm Max dBm Min dBmE4418B/9B EPM Series power meter performance characteristics (continued) 7 Accessed by key entry: either hardkeys, or softkey menu, and programmable. Zero: Zeros the meter. (Power reference calibrator is switched off during zeroing). Cal: Calibrates the meter using internal (power reference calibrator) or external source. Reference cal factor settable from 1% to 150%, in 0.1% increments. Frequency: Entered frequency range is used to interpolate the calibration factors table. Range: 1 kHz to 999.9 GHz, settable in 1-kHz steps. Cal factor: Sets the calibration factor for the meter. Range: 1% to 150%, in increments of 0.1%. Relative: Displays all successive measurements relative to the last displayed value. Offset: Allows power measurements to be offset by –100 dB to +100 dB, settable in 0.001-dB increments, to compensate for external loss or gain. Save/recall: Store up to 10 instrument states via the save/recall menu. dBm/W: Selectable units of either Watts or dBm in absolute power; or percent or dB for relative measurements. Filter (averaging): Selectable from 1 to 1024. Auto-averaging provides automatic noise compensation. Dimensions The following dimensions exclude front and rear protrusions: 212.6 mm W x 88.5 mm H x 348.3 mm D (8.5 in x 3.5 in x 13.7 in) Weight E4418B: 4.0 kg (8.8 lb) net, 7.9 kg (17.4 lb) shipping E4419B: 4.1 kg (9.0 lb) net, 8.0 kg (17.6 lb) shipping Rear panel connectors Recorder outputs: Analog 0 to 1-Volt, 1-k output impedance, BNC connector. E4419B recorder outputs are dedicated to channel A and channel B. Remote input/output: A TTL logic level is output when the measurement exceeds a predetermined limit. TTL inputs are provided to initiate zero and calibration cycles. RJ-45 series shielded modular jack assembly connector. TTL Output: high = 4.8 V max; low = 0.2 V max TTL Input: high = 3.5 V min, 5 V max; low = 1 V max, –0.3 V min. GPIB: Allows communication with an external controller. RS-232/422: Allows communication with an external RS-232/422 controller. Male/plug 9 position D-subminiature connector. Ground: Binding post, accepts 4-mm plug or bare-wire connection. Line power Input voltage range: 85 to 264 VAC, automatic selection. Input frequency range: 50 to 440 Hz. Power requirement: Approximately 50 VA (14 W) Duty cycle: Duty cycle values between 0.001% to 99.999%, in increments of 0.001%, can be entered to display a peak power representation of measured power. The following equation is used to calculate the displayed peak power value: peak power = measured power/duty cycle. Sensor cal tables: Selects cal factor versus frequency tables corresponding to speciﬁed sensors (8480 Series only). Limits: High and low limits can be set in the range –150 dBm to +230 dBm, in 0.001-dBm increments. Preset default values: dBm mode, rel off, power reference off, duty cycle off, offset off, frequency 50 MHz, AUTO average, free run, AUTO range (for E- Series and N8480 Series sensors). Display: Selectable single and split screen formats are available. Aquasi- analog display is available for peaking measurements. The dual-channel power meter can simultaneously display any two conﬁgurations of A, B, A/B, B/A, A-B, B-A and relative. Power meter functionsGeneral speciﬁcationsE4418B/9B EPM Series power meter performance characteristics (continued) 8 The following information describes characteristic performance based at a temperature of 25 °C unless otherwise noted. General conditions: Complies with the requirements of the EMC Directive 89/336/EEC. This includes Generic Immunity Standard EN 50082-1: 1992 and Radiated Interference Standard EN 55011: 1991/CISPR11:1990, Group 1 - Class A. Interface: GBIB interface operates to IEEE 488.2. RS-232 and RS-422 serial interface supplied as standard. Command language: SCPI standard interface commands. 436A and 437B code compatible (E4418B only); 438A code compatible (E4419B only). GPIB compatibility: SH1, AH1, T6, TE0, L4, LE0, SR1, RL1, PP1, DC1, DT1, C0. Battery: Lithium polycarbon monoﬂouride, approximate lifetime 5 years at 25 °C Operating environment Temperature: 0°C to 55 °C Maximum humidity: 95% at 40 °C (non-condensing). Minimum humidity: 15% at 40 °C (non-condensing). Maximum altitude: 3000 meters (9840 feet). Storage conditions Storage temperature: –20 °C to +70 °C. Non-operating maximum humidity: 90% at 65 °C (non-condensing). Non-operating maximum altitude: 15240 meters (50,000 feet). Safety Conforms to the following product speciﬁcations: EN61010-1: 1993/IEC 1010-1: 1990 +A1/CSA C22.2 No. 1010-1: 1993 EN60825-1: 1994/IEC 825-1: 1993 Class 1 Low Voltage Directive 72/23/EEC Typical operating time: up to 3.5 hours with LED backlight on; up to 5.5 hours with LED backlight off (E4418B power meter). Charge time: 2 hours to charge fully from an empty state; 50 minutes charging enables 1 hour of operation with LED backlight on; 35 minutes charging enables 1-hr operation with LED backlight off. Power meter is operational whilst charging. Service life (to 70% of initial capacity at 25 °C): 450 charge/discharge cycles Chemistry: Nickel metal hydride Weight: 1 kg Battery Option 001 operational characteristics1 Environmental characteristicsRemote programming 1. Characteristics describe product performance that is useful in the application of the product, but is not covered by the product warranty.E4418B/9B EPM Series power meter ordering information 9 E4418B: Single-channel EPM Series power meter E4419B: Dual-channel EPM Series power meter Standard-shipped accessories Power sensor cable: E4418B has one 1.5-meter (5-ft) sensor cable. E4419B has two 1.5-meter (5-ft) sensor cables. Power cord: One 2.4-meter (7.5-ft) cable. Power plug matches destination requirements. Documentation: A hard copy of the English language User’s Guide is provided with the EPM power meter as standard, along with a CD version of the English and localized User’s Guide and Programming Guide. A selection can be made to delete the hard copy. Warranty: Included with each EPM Series power meter 1 is a standard 12- month return-to-Agilent warranty and service plan. A selection can be made to extend the initial warranty and service plan to 3 or 5 years. Standard-shipped accessories come with a 3-month warranty. Option E441xB-0B0: Delete hard copy English language User’s Guide Option E441xB-0BF: Hard copy English language Programming Guide Option E441xB-915: Hard copy English language Service Manual Option E441xB-916: Additional hard copy English language User’s Guide and Programming Guide Option E441xB-ABD: Hard copy German localization User’s Guide and Programming Guide Option E441xB-ABE: Hard copy Spanish localization User’s Guide and Programming Guide Option E441xB-ABF: Hard copy French localization User’s Guide and Programming Guide Option E441xB-ABJ: Hard copy Japanese localization User’s Guide and Programming Guide Option E441xB-004: Delete power sensor cable from standard inclusion with power meter 11730A: Power sensor and SNS noise source cable, length 1.5 meters (5 ft) 11730B: Power sensor and SNS noise source cable, length 3 meters (10 ft) 11730C: Power sensor and SNS noise source cable, length 6.1 meters (20 ft) 11730D: Power sensor cable, length 15.2 meters (50 ft) 11730E: Power sensor cable, length 30.5 meters (100 ft) 11730F: Power sensor cable, length 61 meters (200 ft) Option E441xB-908: Rackmount kit (one instrument) Option E441xB-909: Rackmount kit (two instruments) 34131A: Transit case for half-rack 2U high instruments 34141A: Yellow soft carry/operating case 34161A: Accessory pouch E9287A2 : Spare battery pack for the EPM power meter 11683A: Range calibrator Veriﬁes the accuracy and linearity of the EPM Series power meters. Outputs corresponding to meter readings of 3, 10, 30, 100 and 300 μW and 1, 3, 10, 30 and 100 mW are provided. Calibration uncertainty is ±0.25% on all ranges. Warranty and Calibration3 R-50C-011-3: Agilent Calibration Upfront Plan 3-year coverage R-50C-011-5: Agilent Calibration Upfront Plan 5-year coverage R-51B-001-3C: 1 year Return-to-Agilent warranty extended to 3 years R-51B-001-5C: 1 year Return-to-Agilent warranty extended to 5 years The E-Series and 8480 Series power sensors have a 12-month return-to- Agilent warranty and service plan. For more information, contact your local sales and service ofﬁce. Option E441xB-001: Mains power and internal rechargeable battery Option E441xB-A6J: ANSI Z540 compliant calibration test data including measurement uncertainties Option E441xB-1A7: ISO17025 compliant calibration test data including measurement uncertainties Option E441xB-002: Parallel rear panel sensor input connector(s) and front panel reference calibrator connector Option E441xB-003: Parallel rear panel sensor input connectors and rear panel reference calibrator connector Power metersDocumentationAccessories Complementary equipment Service options Cables Power Connectors Calibration test data 1. Only for EPM Series power meter with Option E441XB-001 installed. 2. For Option E441XB-001, the 36-month warranty does not apply to the E9287A battery pack. 3. Options not available in all countries.E-Series CW power sensor speciﬁcations 10 Widest dynamic range: 100 pW to 100 mW (–70 dBm to +20 dBm) Calibration factor (CF) and reﬂection coefﬁcient (Rho) Table 4 Model Maximum SWR 10 MHz – 18 GHz 50 MHz – 26.5 GHz Maximum SWR 10 MHz to <30 MHz: 1.22 30 MHz to <2 GHz: 1.15 2 GHz to <6 GHz: 1.17 6 GHz to <11 GHz:1.2 11 GHz to <18 GHz: 1.27 50 MHz to <100 MHz: 1.21 100 MHz to <8 GHz: 1.19 8 GHz to <18 GHz: 1.21 18 GHz to 26.5 GHz: 1.26 Maximum power 200 mW (+23 dBm) 200 mW (+23 dBm) Connector type Type-N (m) APC-3.5 mm (m) Calibration factor and reﬂection coefﬁcient data are provided at 1 GHz increments on a data sheet included with the power sensor. This data is unique to each sensor. If you have more than one sensor, match the serial number on the Certiﬁcate of Calibration (COC) with the serial number on the power sensor you are using. The CF corrects for the frequency response of the sensor. The EPM power meter automatically reads the CF data stored in the sensor and uses it to make the corrections. For power levels greater than 0 dBm, add 0.5%/dB to the calibration factor uncertainty speciﬁcation. Reﬂection coefﬁcient (Rho) relates to the SWR according to the following formula: SWR = 1 + Rho/1 - Rho Maximum uncertainties of the CF data are listed in Table 5a, for the E4412A power sensor, and Table 5b for the E4413A power sensor. The uncertainty analysis for the calibration of the sensors was done in accordance with the ISO/TAG4 Guide. The uncertainty data reported on the calibration certiﬁcate is the expanded uncertainty with a 95% conﬁdence level and a coverage factor of 2. Table 5a. E4412A calibration factor uncertainty at 1mW (0 dBm) Frequency 10 MHz 30 MHz 50 MHz 100 MHz 1.0 GHz 2.0 GHz 4.0 GHz 6.0 GHz 8.0 GHz 10.0 GHz 11.0 GHz 12.0 GHz 14.0 GHz 16.0 GHz 18.0 GHz Table 5b. E4413A calibration factor uncertainty at 1mW (0 dBm) Frequency 50 MHz 100 MHz 1.0 GHz 2.0 GHz 4.0 GHz 6.0 GHz 8.0 GHz 10.0 GHz 11.0 GHz 12.0 GHz 14.0 GHz 16.0 GHz 17.0 GHz 18.0 GHz 20.0 GHz 24.0 GHz 26.0 GHz 28.0 GHz Uncertainty(%) 1.8 1.8 Reference 1.8 1.8 2.4 2.4 2.4 2.4 2.4 2.4 2.4 2.4 2.6 2.6 Uncertainty(%) Reference 1.8 1.8 2.4 2.4 2.4 2.4 2.6 2.6 2.8 2.8 2.8 2.8 2.8 3.0 3.0 3.0 3.0 * Applies to sensors with serial preﬁx US 3848 or greater E4412A E4413AE-Series CW power sensor speciﬁcations (continued) 11 Power linearity General Table 6 PowerTemperature (25 °C ±5 °C)Temperature (0 °C to 55 °C) ±3% ±4.5% –70 –35 –20 –10 +10 +20 ±4% +3% A B 100 pW to 10 mW (–70 dBm to +10 dBm) 10 mW to 100 mW (+10 dBm to +20 dBm) Power Level Used as Reference (dBm) Figure 1. Relative mode power measurement linearity with EPM Series power meter/E-Series CW power sensor at 25 °C ± 5 °C (typical) The chart in Figure 1 shows the typical uncertainty in making a relative power measurement, using the same power meter channel and the same power sensor to obtain the reference and the measured values. Example A illustrates a relative gain (ampliﬁer measurement). Example B illustrates a relative loss (insertion loss measurement). This chart assumes negligible change in frequency and mismatch occur when transitioning from the power level used as the reference to the power level being measured. Example A: P = 10(P)/10 x 1 mW P = 10 6/10 x 1 mW P = 3.98 mW 3% x 3.98 mW = 119.4 μW Example B: P = 10 (P)/10 x1 mW P = 10 -35/10 x 1 mW P = 316 nW 3% x 316 nW = 9.48 nW where P = power in Watts, and (P) = power in dBm Dimensions: E4412A: 130 mm L x 38 mm W x 30 mm H E4413A: 102 mm L x 38 mm W x 30 mm H Weight: 0.18 kg (0.4 lb). +20 +10 +6 –20 –35 –70 Power Level Being Measured (dBm) ±7% ±10%12 E-Series average power sensor speciﬁcations The E-Series E9300 power sensors have two independent measurement path as shown: Table 7 Table 8 Model E9300A E9301A E9304A E9300B E9301B E9300H E9301H Frequency range 10 MHz to 18 GHz 10 MHz to 6 GHz 9 kHz to 6 GHz 10 MHz to 18 GHz 10 MHz to 6 GHz 10 MHz to 18 GHz 10 MHz to 6 GHz –60 dBm to +20 dBm wide dynamic range sensors –30 dBm to +44 dBm wide dynamic range sensors –50 dBm to +30 dBm wide dynamic range sensors Maximum SWR (25 °C ± 10 °C) 10 MHz to 30 MHz: 1.15 30 MHz to 2 GHz: 1.13 2 GHz to 14 GHz: 1.19 14 GHz to 16 GHz: 1.22 16 GHz to 18 GHz: 1.26 10 MHz to 30 GHz: 1.15 30 MHz to 2 GHz: 1.13 2 GHz to 6 GHz: 1.19 9 kHz to 2 GHz: 1.13 2 GHz to 6 GHz: 1.19 10 MHz to 8 GHz: 1.12 8 to 12.4 GHz: 1.17 12.4 to 18 GHz: 1.24 10 MHz to 6 GHz: 1.12 10 MHz to 8 GHz: 1.15 8 to 12.4 GHz: 1.25 12.4 to 18 GHz: 1.28 10 MHz to 6 GHz: 1.15 Maximum SWR (0 to 55 °C) 10 MHz to 30 MHz: 1.21 30 MHz to 2 GHz: 1.15 2 GHz to 14 GHz: 1.20 14 GHz to 16 GHz: 1.23 16 GHz to 18 GHz: 1.27 10 MHz to 30 MHz: 1.21 30 MHz to 2 GHz: 1.15 2 GHz to 6 GHz: 1.20 9 kHz to 2 GHz: 1.15 2 GHz to 6 GHz: 1.20 10 MHz to 8 GHz: 1.14 8 to 12.4 GHz: 1.18 12.4 to 18 GHz: 1.25 10 MHz to 6 GHz: 1.14 10 MHz to 8 GHz: 1.17 8 to 12.4 GHz: 1.26 12.4 to 18 GHz: 1.29 10 MHz to 6 GHz: 1.17 Maximum power +25 dBm (320 mW) average; +33 dBm peak (2 W) (< 10 μsec) +25 dBm (320 mW) average; +33 dBm peak (2 W) (< 10 μsec) +25 dBm (320 mW) average; +33 dBm peak (2 W)(< 10 μsec) 0 to 35 °C: 30 W avg 35 to 55 °C: 25 W avg < 6 GHz: 500 W pk > 6 GHz: 125 W pk 500 W.μS per pulse 0 to 35 °C: 30 W avg 35 to 55 °C: 25 W avg < 6 GHz: 500 W pk > 6 GHz: 125 W pk 500 W.μS per pulse 3.16 W avg 100 W pk 100 W.μS per pulse 3.16 W avg 100 W pk 100 W.μS per pulse Connector type Type-N (m) Type-N (m) Type-N (m) Type-N (m) Type-N (m) Type-N (m) Type-N (m) “A” sufﬁx sensors –10 to +20 dBm –60 to –10 dBm “B” sufﬁx sensors +20 to +44 dBm –30 to +20 dBm “H” sufﬁx sensors 0 to +30 dBm –50 to 0 dBm High power path Low power path Speciﬁcations are valid ONLY after proper calibration of the power meter and apply for CW signals unless otherwise stated. Speciﬁcations apply over the temperature range 0 °C to 55 °C unless otherwise stated, and speciﬁcations quoted over the temperature range 25 °C ±10 °C, conform to the standard environmental test conditions as deﬁned in TIA/EIA/ IS-97-A and TIA/EIA/IS-98-A [1].E-Series average power sensor speciﬁcations (continued) 13 Typical SWR, 10 MHz to 18 GHz (25 °C ±10 °C) for E9300A and E9301A sensors Typical SWR, 9 kHz to 6 GHz (25 °C ±10 °C) for E9304A sensors SWR SWR 1.2 1.18 1.16 1.14 1.12 1.1 1.08 1.06 1.04 1.02 1 1.2 1.15 1.1 1.05 1 0.01 2.00 4.00 6.00 8.00 10.00 12.00 14.00 16.00 18.00 0 1 2 3 4 5 6 Frequency GHz Frequency GHz 0 2 4 6 8 10 12 14 16 18 0 2 4 6 8 10 12 14 16 18 Frequency GHz Frequency GHz 1.20 1.15 1.10 1.05 1.00 1.2 1.15 1.1 1.05 1 SWR SWR Typical SWR, 10 MHz to 18 GHz (25 °C ±10 °C) for E9300B and E9301B sensors Typical SWR, 10 MHz to 18 GHz (25 °C ±10 °C) for E9300H and E9301H sensors2 1/9 1/7 1/5 1/3 1 .1/3 .1/5 .1/7 .1/9 .2 Qpxfs!)eCn* .21!!!!!!!!!!.6!!!!!!!!!!!!!1!!!!!!!!!!!!!6!!!!!!!!!!!!21!!!!!!!!!!26!!!!!!!!!!!!31!!!!!!!!!!!36!!!!!!!!!!41 &!Fssps E-Series average power sensor speciﬁcations (continued) 14 Power linearity * Sensor E9300A, E9301A, E9304A E9300B, E9301B E9300H, E9301H Power range –30 to –20 dBm –20 to –10 dBm –10 to 0 dBm 0 to +10 dBm +10 to +20 dBm Measurement uncertainty Measurement uncertainty Measurement uncertainty Power –60 to –10 dBm –10 to 0 dBm 0 to +20 dBm –30 to +20 dBm +20 to +30 dBm +30 to +44 dBm –50 to 0 dBm 0 to +10 dBm +10 to +30 dBm Linearity (25 °C ±10 °C) ±3.0% ±2.5% ±2.0% ±3.5% ±3.0% ±2.5% ±4.0% ±3.5% ±3.0% Linearity (0 °C to 55 °C) ±3.5% ±3.0% ±2.5% ±4.0% ±3.5% ±3.0% ±5.0% ±4.0% ±3.5% after zero and calibration at ambient environmental conditions Table 9 Typical E9300A/01A/04A power linearity at 25 °C, after zero and calibration, with associated measurement uncertainty 0.5 0.4 0.3 0.2 0.1 0 -0.1 -0.2 -0.3 -0.4 -0.5 Power (dBm) -30 -26 -22 -18 -14 -10 -8 -2 2 6 10 14 18 20 % Error Typical E9300B/01B power linearity at 25 °C, after zero and calibration, with associated measurement uncertainty Typical E9300H/01H power linearity at 25 °C, after zero and calibration, with associated measurement uncertainty Power (dBm) Power (dBm) % Error % Error 1 0.8 0.6 0.4 0.2 0 -0.2 -0.4 -0.6 -0.8 -1 1 0.8 0.6 0.4 0.2 0 -0.2 -0.4 -0.6 -0.8 -1 -10 -5 0 5 10 15 20 25 30 -10 -5 0 5 10 15 20 25 30 Power range –6 to 0 dBm 0 to +10 dBm +10 to +20 dBm +20 to +26 dBm Power range –26 to –20 dBm –20 to –10 dBm –10 to 0 dBm 0 to +10 dBm +10 to +20 dBm +20 to +26 dBm ± 0.65% ± 0.55% ± 0.45% ± 0.31% ± 0.9% ± 0.8% ± 0.65% ± 0.55% ± 0.45% ± 0.31% ±0.9% ±0.8% ±0.65% ±0.55% ±0.45%E-Series average power sensor speciﬁcations (continued) 15 Effects of change in temperature on linearity If temperature changes and you choose not to re-calibrate the sensor, add the following power linearity error to the linearity specs in Table 9: For small changes in temperature Typical maximum additional power linearity error = ±0.15%/°C (valid after zeroing the sensor) Figure 2 shows the typical uncertainty in making a relative power measurement, using the same power meter channel and same power sensor to obtain the reference and the measured values, and assumes that negligible change in frequency and mismatch error occur when transitioning from the power level used as the reference to the power level being measured. For large changes in temperature Table 10 Figure 2. Relative mode power measurement linearity with an EPM Series power meter, at 25 °C ±10 °C (typical) A+20 dBm B+44 dBm, H+30 dBm +20 dBm, 0 dBm -30 dBm, -50 dBm 60 dBm A-60 dBm +20 dBm –10 dBm ±2% ±2% ±1% ±1% +20 dBm +44 dBm +30 dBm 0 dBm B-30 dBm H-50 dBm -10 dBm Measured Power Sensor E9300A, E9301A, E9304A E9300B, E9301B E9300H, E9301H Power –60 to –10 dBm –10 to 0 dBm 0 to +20 dBm –30 to +20 dBm +20 to +30 dBm +30 to +44 dBm –50 to 0 dBm 0 to +10 dBm +10 to 30 dBm Additional power linearity error (25 °C ± 10 °C) ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% ±1.5% Additional power linearity error (0 to 55 °C) ±2.0% ±2.5% ±2.0% ±2.0% ±2.5% ±2.0% ±2.0% ±2.5% ±2.0%16 E-Series average power sensor speciﬁcations³(continued) Switch point data The E9300 power sensors have two paths as shown in Table 7. The power meter automatically selects the proper power level path. To avoid unnecessary switching when the power level is near the switch point, switching point hysteresis has been added. Example with E9300 “A” sufﬁx sensors: Hysteresis causes the low power path to remain selected until approximately –9.5 dBm as the power level is increased. Above this power, the high power path will be selected. The high power path will remain selected until approximately –10.5 dBm is reached as the signal level decreases. Below this power, the low power path will be selected. Switching point linearity: Typically ±0.5% ( ±0.02 dB) Switching point hysteresis: 0.5 dB typical E9300 sensor sufﬁx A B H Table 11 Conditions 1 Lower power path (15% to 75% RH) Lower power path (75% to 95% RH) High power path (15% to 75% RH) High power path (75% to 95% RH) Lower power path (15% to 75% RH) Lower power path (75% to 95% RH) High power path (15% to 75% RH) High power path (75% to 95% RH) Lower power path (15% to 75% RH) Lower power path (75% to 95% RH) High power path (15% to 75% RH) High power path (75% to 95% RH) Zero set 500 pW 500 pW 500 nW 500 nW 500 nW 500 nW 500 μW 500 μW 5 nW 5 nW 5 μW 5 μW Zero drift 2 150 pW 4,000 pW 150 nW 3000 nW 150 nW 4 μW 150 μW 3000 mW 1.5 nW 40 μW 1.5 μW 30 mW Measurement noise 3 700 pW 700 pW 500 nW 500 nW 700 nW 700 nW 500 μW 500 μW 7 nW 7 nW 5 μW 5 μW 1. RH is the abbreviation for relative humidity. 2. Within 1 hour after zero set, at a constant temperature, after a 24-hour warm-up of the power meter with power sensor connected. 3. The number of averages at 16 for normal mode and 32 for x2 mode, at a constant temperature, measured over a one minute interval and two standard deviations.17 E-Series average power sensor speciﬁcations (continued) Calibration factor (CF) and reﬂection coefﬁcient (Rho) Calibration factor and reﬂection coefﬁcient data are provided at frequency intervals on a data sheet included with the power sensor. This data is unique to each sensor. If you have more than one sensor, match the serial number on the Certiﬁcate of Calibration (COC) with the serial number on the power sensor you are using. The CF corrects for the frequency response of the sensor. The EPM Series power meter automatically reads the CF data stored in the sensor and uses it to make the corrections. Reﬂection coefﬁcient (Rho) relates to the SWR according to the following formula: SWR = (1 + Rho)/(1 - Rho) Maximum uncertainties of the CF data are listed in tables 12a and 12b, for each individual measurement path (high power and low power, as shown in Table 7). The uncertainty analysis for the calibration of the sensors was done in accordance with the ISO Guide. The uncertainty data reported on the calibration certiﬁcate is the expanded uncertainty with a 95% conﬁdence level and a coverage factor of 2. General Dimensions: 130 mm L x 38 mm W x 30 mm H Weight: 0.18 kg (0.4 lbs) Table 12a.³;\|tC§;µt³f;Mµ§³¾M[§µ;tµt[ª³\|Å³Å[§³;µr Table 12b.³;\|tC§;µt³f;Mµ§³¾M[§µ;tµt[ª³rtjr³Å[§³;µr References: [1] TIA is the Telecommunications Industry Association; EIA is the Electronic Industries Association. TIA/EIA/IS-97-A is the recommended minimum performance standards for base stations supporting dualmode wideband spread spectrum cellular mobile stations. TIA/EIA/IS- 98-A is the recommended minimum performance standards for dual-mode wideband spread spectrum cellular mobile stations. Frequency 10 MHz to 30 MHz 30 MHz to 500 MHz (E9304A: 9 kHz to 500 MHz) 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz Frequency 10 MHz to 30 MHz 30 MHz to 500 MHz (E9304A: 9 kHz to 500 MHz) 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz Uncertainty (%) (25 °C ±10 °C) ± 1.8% ±1.6% ±1.8% ±1.7% ±1.8% ± 2.0 % Uncertainty (%) (25 °C ±10 °C) ± 2.1% ±1.8% ±2.3% ±1.8% ±1.9% ± 2.2 % Uncertainty (%) (0° to 55 °C) ±2.2% ±2.0% ±2.5% ±2.0% ±2.0% ±2.2% Uncertainty (%) (0° to 55 °C) ±4.0% ±3.0% ±4.0% ±2.1% ±2.3% ±3.3%8480 Series diode and thermocouple power sensor speciﬁcations 18 The 8480 Series sensors provide extraordinary accuracy, stability and SWR over a wide range of frequencies (100 kHz to 110 GHz) and power levels –70 dBm to +44 dBm. Calibration factor uncertainties Table 13. Typical measurement uncertainties of Calibration Factor (CF) data printed on the power sensor Frequency 100 KHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz 18 GHz to 26.5 GHz 26.5 GHz to 33 GHz 33 GHz to 34 GHz 34 GHz to 35 GHz 35 GHz to 40 GHz 40 GHz to 45 GHz 45 GHz to 50 GHz Frequency 100 KHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz 18 GHz to 26.5 GHz 26.5 GHz to 33 GHz 33 GHz to 34 GHz 34 GHz to 35 GHz 35 GHz to 40 GHz 40 GHz to 45 GHz 45 GHz to 50 GHz Frequency 100 KHz to 10 MHz 10 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to 1.2 GHz 1.2 GHz to 6 GHz 6 GHz to 14 GHz 14 GHz to 18 GHz 18 GHz to 26.5 GHz 26.5 GHz to 33 GHz 33 GHz to 34 GHz 34 GHz to 35 GHz 35 GHz to 40 GHz 40 GHz to 45 GHz 45 GHz to 50 GHz 8487A 1.38 1.34 1.41 1.59 1.69 2.23 2.58 2.73 2.73 2.73 3.67 4.33 8483A 1.59 1.39 1.41 1.41 1.46 8481D 0.77 0.81 0.81 0.97 1.20 1.72 8485D 1.24 1.26 1.35 1.63 1.83 2.45 2.94 8487D 1.33 1.35 1.41 1.62 1.73 2.25 2.55 3.08 3.08 3.08 4.28 4.72 R8486D 2.47 2.42 2.42 2.42 Q8486D 2.85 2.85 2.85 2.84 2.84 Q8486A 3.12 3.40 3.12 3.15 3.34 R8486A 2.79 2.93 2.93 2.93 8481H 0.86 0.88 0.87 0.98 1.36 1.71 8481B 1.48 1.48 1.48 1.54 1.71 1.99 8482H 0.91 0.81 0.92 0.88 0.95 8482B 1.50 1.44 1.51 1.48 1.53 8482A 0.87 0.8 0.8 0.8 0.9 8481A 0.81 0.78 0.78 0.92 1.16 1.59 8485A 1.29 1.26 1.35 1.61 1.77 2.47 3.35* 25ºC ± 3ºC 25ºC ± 3ºC 25ºC ± 3ºC * These uncertainties only apply to Option 033.8480 Series diode and thermocouple power sensor speciﬁcations (continued) 19 Maximum SWR and power linearity Model 8481B 8482B 8481H 8482H 8485A Option 8485A-033 8481A 8482A 8483A (75-ohm) R8486A Q8486A V8486A W8486A 8487A Frequency range 10 MHz to 18 GHz 100 kHz to 4.2 GHz 10 MHz to 18 GHz 100 kHz to 4.2 GHz 50 MHz to 26.5 GHz 26.5 MHz to 33 GHz 10 MHz to 18 GHz 100 kHz to 4.2 GHz 100 kHz to 2 GHz 26.5 GHz to 40 GHz 33 GHz to 50 GHz 50 GHz to 75 GHz 75 GHz to 110 GHz 50 MHz to 50 GHz Maximum SWR 10 MHz to 2 GHz: 1.10 2 GHz to 12.4 GHz: 1.18 12.4 GHz to 18 GHz: 1.28 100 kHz to 2 GHz: 1.10 2 GHz to 4.2 GHz: 1.18 10 MHz to 8 GHz: 1.20 8 GHz to 12.4 GHz: 1.25 12.4 GHz to 18 GHz: 1.30 100 kHz to 4.2 GHz: 1.20 50 MHz to 100 MHz: 1.15 100 MHz to 2 GHz: 1.10 2 GHz to 12.4 GHz: 1.15 12.4 GHz to 18 GHz: 1.20 18 GHz to 26.5 GHz: 1.25 26.5 GHz to 33 GHz: 1.40 10 MHz to 30 MHz: 1.40 30 MHz to 50 MHz: 1.18 50 MHz to 2 GHz: 1.10 2 GHz to 12.4 GHz: 1.18 12.4 GHz to 18 GHz: 1.28 100 kHz to 300 kHz: 1.60 300 kHz to 1 MHz: 1.20 1 MHz to 2 GHz: 1.10 2 GHz to 4.2 GHz: 1.30 100 kHz to 600 kHz: 1.80 600 kHz to 2 GHz: 1.18 26.5 GHz to 40 GHz: 1.40 33 GHz to 50 GHz: 1.50 50 GHz to 75 GHz: 1.06 75 GHz to 110 GHz: 1.08 50 MHz to 100 MHz: 1.15 100 MHz to 2 GHz: 1.10 2 GHz to 12.4 GHz: 1.15 12.4 GHz to 18 GHz: 1.20 18 GHz to 26.5 GHz: 1.25 26.5 GHz to 40 GHz: 1.30 40 GHz to 50 GHz: 1.50 Power linearity1 +35 dBm to + 44 dBm: (±4%) +35 dBm to + 44 dBm: (±4%) +25 dBm to + 35 dBm: (±5%) +25 dBm to + 35 dBm: (±5%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±3%) +10 dBm to + 20 dBm: (±2%) –30 dBm to + 10 dBm: (±1%) (±2%) +10 dBm to + 20 dBm: (±3%) Maximum power 0 °C to 350 °C: 30 W avg2 35 °C to 550 °C: 25 W avg 0.01 to 5.8 GHz: 500 W pk 5.8 to 18 GHz: 125 W pk 500 W.μs per pulse 0 °C to 350 °C: 30 W avg2 35 °C to 550 °C: 25 W avg 0.01 to 5.8 GHz: 500 W pk 5.8 to 18 GHz: 125 W pk 500 W.μs per pulse 3.5 W avg, 100 W pk 100 W.μs per pulse 3.5 W avg, 100 W pk 100 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 10 W pk 300 mW avg, 15 W pk 30 W.μs per pulse 300 mW avg, 15 W pk 30 W.μs per pulse 200 mW avg, 40 W pk (10.μs per pulse, 0.5% duty cycle) 200 mW avg, 40 W pk (10.μs per pulse, 0.5% duty cycle) 300 mW avg, 15 W pk 30 W.μs per pulse Connector type Type-N(m) Type-N(m) Type-N(m) Type-N(m) APC-3.5mm(m) APC-3.5mm(m) Type-N (m) Type-N (m) Type-N (m) (75-ohm) Waveguide ﬂange UG-599/U Waveguide ﬂange UG-383/U Waveguide ﬂange UG-385/U Waveguide ﬂange UG-387/U 2.4 mm (m) Weight 0.8 kg (1.75 lb) 0.8 kg (1.75 lb) 0.2 kg (0.38 lb) 0.2 kg (0.38 lb) 0.2 kg (.38 lb) 0.2 kg (.38 lb) 0.2 kg (0.38 lb) 0.2 kg (0.38 lb) 0.2 kg (0.38 lb) 0.26 kg (0.53 lb) 0.26 kg (0.53 lb) 0.4 kg (0.9 lb) 0.4 kg (0.9 lb) 0.14 kg (.28 lb) Table 14 25-Watt sensors, 1 mW to 25 W (0 dBm to +44 dBm) 3-Watt sensors, 100 μW to 3 W (–10 dBm to +35 dBm) 100-mW sensors, 1 μW to 100 mW (–30 dBm to +20 dBm) 1. Negligible deviation except for those power ranges noted. 2. For pulses greater than 30 W, the maximum average power (Pa) is limited by the energy per pulse (E) in W.μs according to Pa = 30-0.02 E.20 8480 Series diode and thermocouple power sensor speciﬁcations (continued) Model 8481D3 8485D3 Option 8485D-033 8487D3 R8486D3 Q8486D3 Frequency range 10 MHz to 18 GHz 50 MHz to 26.5 GHz 50 MHz to 33 GHz 50 MHz to 50 GHz 26.5 GHz to 40 GHz 33 GHz to 50 GHz High-sensitivity sensors, 100 pW to 10 μW (–70 dBm to –20 dBm) Maximum SWR 10 MHz to 30 MHz: 1.40 30 MHz to 4 GHz: 1.15 4 GHz to 10 GHz: 1.20 10 GHz to 15 GHz: 1.30 15 GHz to 18 GHz: 1.35 0.05 GHz to 0.1 GHz: 1.19 0.1 GHz to 4 GHz: 1.15 4 GHz to 12 GHz: 1.19 12 GHz to 18 GHz: 1.25 18 GHz to 26.5 GHz: 1.29 26.5 GHz to 33 GHz: 1.35 0.05 GHz to 0.1 GHz: 1.19 0.1 GHz to 2 GHz: 1.15 2 GHz to 12.4 GHz: 1.20 12.4 GHz to 18 GHz: 1.29 18 GHz to 34 GHz: 1.37 34 GHz to 40 GHz: 1.61 40 GHz to 50 GHz: 1.89 26.5 GHz to 40 GHz: 1.40 33 GHz to 50 GHz: 1.40 Power linearity1 –30 dBm to –20 dBm: (±1%) –30 dBm to –20 dBm: (±2%) –30 dBm to –20 dBm: (±2%) –30 dBm to –20 dBm: (±2%) –30 dBm to –25 dBm: (±3%) –25 dBm to –20 dBm: (±5%) –30 dBm to 25 dBm: (±3%) –25 dBm to –20 dBm: (±5%) Maximum power 100 mW avg, 100 mW pk 100 mW avg, 100 mW pk 100 mW avg, 100 mW pk 100 mW avg, 100 mW pk 10 W.μs per pulse 100 mW avg, or pk 40 V dc max 100 mW avg, or pk 40 V dc max Connector type Type-N (m) APC-3.5mm (m) APC-3.5mm (m) 2.4 mm (m) Waveguide ﬂange UG-599/U Waveguide ﬂange UG-383/U Weight 0.16 kg (0.37 lb) 0.2 kg (.38 lb) 0.2 kg (.38 lb) 0.2 kg (0.38 lb) 0.26 kg (0.53 lb) 0.26 kg (0.53 lb) 1. Negligible deviation except for those power ranges noted. 2. For pulses greater than 30 W, the maximum average power (Pa) is limited by the energy per pulse (E) in W.μs according to Pa = 30-0.02 E. 3. Includes 11708A 30 dB attenuator for calibrating against 0 dBm, 50 MHz power reference. The 11708A is factory set to 30 dB ±0.05 dB at 50 MHz, traceable to NIST. SWR < 1.05 at 50 MHz. N8480 Series thermocouple power sensor speciﬁcations The N8480 Series power sensors are replacing the 8480 Series thermocouple range. Detailed speciﬁcations on the N8480 Series can be found in the “Agilent N8480 Series Power Sensors Data Sheet”, literature number 5989-9333EN.Agilent Email Updates www.agilent.com/ﬁnd/emailupdates Get the latest information on the products and applications you select. www.lxistandard.org LXI is the LAN-based successor to GPIB, providing faster, more efficient connectivity. Agilent is a founding member of the LXI consortium. Agilent Channel Partners www.agilent.com/find/channelpartners Get the best of both worlds: Agilent’s measurement expertise and product breadth, combined with channel partner convenience. Americas Canada (877) 894 4414 Latin America 305 269 7500 United States (800) 829 4444 Asia Pacific Australia 1 800 629 485 China 800 810 0189 Hong Kong 800 938 693 India 1 800 112 929 Japan 0120 (421) 345 Korea 080 769 0800 Malaysia 1 800 888 848 Singapore 1 800 375 8100 Taiwan 0800 047 866 Thailand 1 800 226 008 Europe & Middle East Austria 43 (0) 1 360 277 1571 Belgium 32 (0) 2 404 93 40 Denmark 45 70 13 15 15 Finland 358 (0) 10 855 2100 France 0825 010 700* *0.125 /minute Germany 49 (0) 7031 464 6333 Ireland 1890 924 204 Israel 972-3-9288-504/544 Italy 39 02 92 60 8484 Netherlands 31 (0) 20 547 2111 Spain 34 (91) 631 3300 Sweden 0200-88 22 55 Switzerland 0800 80 53 53 United Kingdom 44 (0) 118 9276201 Other European Countries: www.agilent.com/find/contactus Revised: October 1, 2009 www.agilent.com www.agilent.com/find/EPM For more information on Agilent Technologies’ products, applications or services, please contact your local Agilent office. The complete list is available at: www.agilent.com/find/contactus © Agilent Technologies, Inc. 2009 Printed in USA, November 2, 2009 5965-6382E Product specifications and descriptions in this document subject to change without notice. Remove all doubt Our repair and calibration services will get your equipment back to you, performing like new, when promised. You will get full value out of your Agilent equipment through- out its lifetime. Your equipment will be serviced by Agilent-trained technicians using the latest factory calibration procedures, automated repair diagnostics and genuine parts. You will always have the utmost confidence in your measurements. For informa- tion regarding self maintenance of this product, please contact your Agilent office. Agilent offers a wide range of additional expert test and measurement services for your equipment, including initial start-up assistance, onsite education and training, as well as design, system integration, and project management. 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