Agilent N8480 Series Thermocouple Power Sensors Data Sheet The N8480 Series thermocouple power sensors are amongst Agilent s most accurate and reliable sensors. These will eventually replace the 8480 Series thermocouple range only better with EEPROM and extended frequency and power ranges. Features High accuracy with excellent linearity and noise specifications Wide dynamic range in a single sensor Autodownload of calibration factor and corrections from EEPROM Option CFT of the sensors are available for full codecompatibility with the 8480 Series Broad compatibility with existing power meters: PSeries (N9A/2A), EPMP Series (E446A/7A) and EPM Series (N93A/4A, E448B/9B) Accurate, repeatable measurements Here s how: Excellent linearity (% approx.) and noise specifications. The sensors low further enhances accuracy by minimizing mismatch uncertainty. As if this weren t enough, these sensors also come with dualrange power for greater sensitivity to fluctuating signals, in particular. With high accuracy and stability, the N8480 helps you test confidently, faster. Calibrationeasy testing During test, calibrating your sensor is an essential step, yet it shouldn t be taking too much of your time and effort. With the N8480 sensors, there s no need for cumbersome keyingin of calibration factor (CF), nor concern for manual input errors. That s because CF, linearity and temperature corrections are all stored in the sensors EEPROM autodownloaded on calibration. Efficient calibration procedure makes for efficient testing overall, with N8480. One sensor, WIDEST range Pick an N8480 sensor any one and you ll see how its wide dynamic range equip you for various applications: metrology labs, radar, mobile radio, TDMA, GSM, WCDMA and WiMAX TM, among others. With up to 55 dbm wide dynamic range, the N8480 Series offers you the widest thermocouple sensor power range in the industry. System integration can be a pain, but not with the N8480 The N8480 Series sensors are backward compatible with Agilent s leading range of power meters, including the PSeries, EPM P Series and EPM Series. All that s needed is a simple firmware upgrade that s downloadable from the website, for free. Codewise, 00% of SCPI codes used on the ESeries sensors are reusable on the N8480, and this includes most of the ones used on the 8480 Series. For code migration from the 8480 Series, CFT options of the N8480 sensors and these will behave much like the 8480 Series sensors they replace.
Specification definitions There are two types of product specifications: Warranted specifications Characteristic specifications Warranted specifications Warranted specifications are covered by the product warranty and apply over 0 C to 55 C, unless otherwise noted. Warranted specifications include Measurement Uncertainty calculated with 95% confidence. Characteristic specifications Characteristic specifications are not warranted. They describe product performance that is useful in the application of the power sensors by giving typical, but non warranted performance parameters. These characteristics are shown in italics or denoted as typical, nominal or approximate. Characteristic information is representative of the product. In many cases, it may also be supplemental to a warranted specification. Characteristic specifications are not verified on all power sensors. The types of characteristic specifications can be placed in two groups: The first group of characteristic types describes 'attributes' common to all products of a given model or option. Examples of characteristics that describe 'attributes' are product weight, and 50 W input Type N connector. In these examples product weight is an approximate value and a 50 W input is nominal. These two terms are most widely used when describing a product's 'attributes'. The second group of characteristic types describes 'statistically' the aggregate performance of the population of products. These characteristics describe the expected behavior of the population of products. They do not guarantee the performance of any individual product. No measurement uncertainty value is accounted for in the specification. These specifications are referred to as typical. Conditions The power meter and sensor meet its specifications when: Stored for a minimum of two hours at a stable temperature within the operating temperature range, and turned on for at least 30 minutes. The power meter and power sensor are within their recommended calibration periods. Used in accordance to the information provided in the power meter s user's guide. 2
Performance characteristics Specifications stated hereon refer to all N8480 Series power sensors, unless otherwise stated. The term standard refers to all N8480 Series sensors except Option CFT. Frequency and Dynamic Power Range Sensor Option Sensor Model Frequency Range Dynamic Power Range Standard N848A 0 MHz to 8 GHz 00 khz to 6 GHz 0 MHz to 26.5 GHz Option 33 0 MHz to 33 GHz 35 dbm to +20 dbm 50 MHz to 50 GHz 26.5 GHz to 40 GHz 33 GHz to 50 GHz N848B 0 MHz to 8 GHz 00 khz to 6 GHz 5 dbm to +44 dbm N848H 0 MHz to 8 GHz 00 khz to 6 GHz 5 dbm to +35 dbm Option CFT N848A 0 MHz to 8 GHz 00 khz to 6 GHz Option 33 0 MHz to 26.5 GHz 0 MHz to 33 GHz 30 dbm to +20 dbm 50 MHz to 50 GHz 26.5 GHz to 40 GHz 33 GHz to 50 GHz N848B 0 MHz to 8 GHz 00 khz to 6 GHz 0 dbm to +44 dbm N848H 0 MHz to 8 GHz 00 khz to 6 GHz 0 dbm to +35 dbm Damage Level Sensor Model Damage Level (Average Power) Damage Level(Peak Power) N848A +25 dbm 5 W/2 μs N848B +49 dbm 500 W/ μs N848H +40 dbm 00 W/ μs 3
Maximum Sensor Model Frequency Band (25 C ± 0 C) Maximum (0 C to 55 C) N848A 0 MHz to 30 MHz.37.57 30 MHz to 50 MHZ.4 50 MHz to 2 GHz. 2 GHz to 2.4 GHz 2.4 GHz to 8 GHz.23.25 00 khz to 300 khz.54.57 300 khz to MHz.7.7 MHz to 2 GHz.06.06 2 GHz to 6 GHz.07 0 MHz to 50 MHz.33.53 50 MHz to 00 MHz. 00 MHz to 2 GHz.05.07 2 GHz to 2.4 GHz.4.4 2.4 GHz to 8 GHz.9.20 8 GHz to 26.5 GHz.26.28 26.5 GHz to 33 GHz.32.36 50 MHz to 00 MHz.0 00 MHz to 2 GHZ.05.07 2 GHz to 2.4 GHz.0.0 2.4 GHz to 8 GHz 8 GHZ to 26.5 GHz.22.22 26.5 GHz to 40 GHz.30.30 40 GHz to 50 GHz.34.33 26.5 GHz to 40 GHz.40.40 33 GHz to 50 GHz.50.50 N848B 0 MHz to 2 GHz.09.0 2 GHz to 2.4 GHz.4.8 2.4 GHz to 8 GHz.23.28 00 khz to 2 GHz.0 2 GHz to 6 GHz.8 N848H 0 MHz to 8 GHz 8 GHz to 2.4 GHz.22.22 2.4 GHz to 8 GHz.32.4 00 khz to 6 GHz.3.4. Only applicable for Option 033 4
.20.8.4.04.03.2.0.06.04.02 0 2 4 6 8 0 2 4 6 8.02.0 0 2 3 4 5 6 Typical, 0 MHz to 8 GHz (25 C±0 C) for N848A sensor Typical, 00 khz to 6 GHz (25 C±0 C) for sensor.20.8.4.2.20.8.4.2.0.0.06.04.02 0 5 0 5 20 25 30 35.06.04.02 0 0 20 30 40 50 60 Typical, 0 MHz to 26.5 GHz (25 C±0 C) for sensor Typical, 50 MHz to 50 GHz (25 C ±0 C) for power sensor.4.22.36.3.26.2.20.8.4.2..06 33 36 39 42 45 48 5.0.06.04 26.5 29 3.5 34 36.5 39 4.5 Typical, 33 GHz to 50 GHz (25 C ±0 C) for power sensor Typical, 26.5 GHz to 40 GHz (25 C ±0 C) for power sensor 5
.07.06.05.04.03.02.0 0 2 4 6 8 0 2 4 6 8 20.028.026.024.022.020.08.06.04.02.0 0 2 3 4 5 6 7 Typical, 0 MHz to 8 GHz (25 C ±0 C) for N848B power sensor Typical, 00 khz to 6 GHz (25 C ±0 C) for power sensor.24.22.20.8.4.2.0.06.04.02 0 2 4 6 8 0 2 4 6 8 20.09.07.06.05.04.03.02.0 0 2 3 4 5 6 7 Typical, 0 MHz to 8 GHz (25 C ±0 C) for N848H power sensor Typical, 00 khz to 6 GHz (25 C ±0 C) for power sensor 6
Power linearity* The N8480 Series power sensors' linearity is negligible except for the power range specified in the table below. Sensor Model Power Range Linearity (25 C ± 0 C) Linearity (0 C to 55 C) N848A dbm to <+5 dbm ±0.52% ±0.80% +5 dbm to +20 dbm ±0.80% ±.90% N848B +29 dbm to <+39 dbm ±0.52% ±0.80% +39 dbm to +44 dbm ±.66% ±2.75% N848H +7 dbm to <+30 dbm ±0.77% ±.05% +30 dbm to +35 dbm ±2.84% ±3.93% *after zero and calibration at ambient environment conditions Typical N848A/2A/5A and /AQ power linearity at 25 C, after zero and calibration with associated measurement uncertainty 0.5 Power level dbm to +20 dbm Measurement uncertainty ±0.35% % Error 5 0 0 5 0 5 20 25 0.5 Input Power (dbm) Typical N848B/2B power linearity at 25 C, after zero and calibration with associated measurement uncertainty.0 0.8 0.6 0.4 Power level 29 dbm to 40 dbm Measurement uncertainty ±0.35% % Error 0.2 0 0.2 5 0 5 20 25 40 dbm to 44 dbm ±.2% 0.4 0.6 0.8.0 Input Power (dbm) Typical N848H/2H power linearity at 25 C, after zero and calibration with associated measurement uncertainty.0 0.8 0.6 0.4 Power level 7 dbm to 30 dbm Measurement uncertainty ±0.60% % Error 5 0.2 0 0.2 5 0 5 20 25 30 dbm to 35 dbm ±2.39% 0.4 0.6 0.8.0 Input Power (dbm) 7
Zero set, zero drift and measurement noise Sensor Model Sensor option Range Condition (RH) Zero set Zero drift 2 Measurement noise 3 N848A Upper 20% 70% +/63 nw <+/7 nw < 4 nw Standard Lower 20% 70% +/25 nw <+/3 nw < 80 nw Option CFT N/A 20% 70% +/63 nw <+/7 nw < 4 nw N848B Standard Option CFT Upper Lower N/A 20% 70% 20% 70% 20% 70% +/63 μw +/25 μw +/63 μw <+/7 μw <+/3 μw <+/7 μw < 4 μw < 80 μw < 4 μw N848H Standard Option CFT Upper Lower N/A 20% 70% 20% 70% 20% 70% +/6.3 μw +/2.5 μw +/6.3 μw <+/0.7 μw <+/0.3 μw <+/0.7 μw <.4 μw < 8 μw <.4 μw Effects of averaging on noise: Averaging over to 024 readings is available for reducing noise. The table below provides the measurement noise for a particular sensor with the number of averages set at 6 (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: N848A power sensor, normal mode, number of averages = 4 Measurement noise calculation: <80 nw x 2.75 = <220 nw No. of averages Noise multiplier Normal mode x2 mode 5.5 6.5 2 3.89 4.6 4 2.75 3.25 8.94 2.3 6.63 32 0.85 64 0.6 0.72 28 0.49 0.57 256 0.34 0.4 52 0.24 0.29 024 0.7 0.2. RH is the abbreviation for relative humidity. 2. Within one hour after zero set, at a constant temperature, after a 24hour warmup of the power meter with sensor connected. 3. The number of averages at 6 for Normal mode and 32 for x2 mode, at a constant temperature, measured over a oneminute interval and two standard deviations. 8
Switching point The N8480 Series power sensors (standard only, ie. excluding Option CFT) have two measurement ranges: a lower power range and upper power range. The power meter automatically selects the proper power level range. To avoid unnecessary switching when the power level is near the switch point, switching point hysteresis has been added. N848A/82A/85A/87A and /AR power sensors This hysteresis causes the lower power range to remain selected until approximately 0.5 dbm as the power level is increased. Above this power, the upper power range is selected. Likewise, the upper power range remains selected until approximately.5 dbm as the signal level decreases. Below this power, the lower power range is selected. N848/2B power sensors This hysteresis causes the lower power range to remain selected until approximately 29.5 dbm as the power level is increased. Above this power, the upper power range is selected. Likewise, the upper power range remains selected until approximately 28.5 dbm as the signal level decreases. Below this power, the lower power range is selected. N848/2H power sensors This hysteresis causes the lower power range to remain selected until approximately 7.5 dbm as the power level is increased. Above this power, the upper power range is selected. Likewise, the upper power range remains selected until approximately 6.5 dbm as the signal level decreases. Below this power, the lower power range is selected. N848/2/5/7A and /AR excluding Option CFT N848/2B excluding Option CFT N848/2H excluding Option CFT AUTO (default range): Upper power range: Lower power range: Switching point hysteresis: AUTO (default range): Upper power range: Lower power range: Switching point hysteresis: AUTO (default range): Upper power range: Lower power range: Switching point hysteresis: 35 to +20 dbm to +20 dbm 35 to dbm 0.5 db typical 5 to +44 dbm +29 to +44 dbm 5 to +29 dbm 0.5 db typical 5 to +35 dbm +7 to +35 dbm 5 to +7 dbm 0.5 db typical 9
Settling time Manual filter, 0dB decreasing power step for normal and x2 modes (not across switching point) No. of averages Settling time (s) Normal mode x2 mode 0.5 0.5 2 0.2 0.8 4 0.3 0.22 8 0.5 0.35 6. 0.55 32.9. 64 3.4.9 28 6.6 3.5 256 3 6.9 52 27 4.5 024 57 33 Auto filter, default resolution, 0dB decreasing power step for normal and x2 modes (not across switching point) x2 mode Normal mode Max dbm Typical settling times 50 ms 80 ms 400 ms 50 ms 200 ms s 20 db 0 db 0 db Sensor dynamic range 3.6s 6.6s 0 db 6.6s 3.5s 5 db Min dbm. Settling time: 0 to 99% settled readings over the GPIB Calibration factor and reflection coefficient Calibration factor (CF) and reflection coefficient (Rho) data is unique to each sensor. The CF corrects for the frequency response of the sensor. The Agilent EPM Series, EPMP Series and PSeries power meters automatically read the CF data stored in the sensor s EEPROM and use it to make the corrections. Reflection coefficient (Rho or ) relates to the according to the following formula: = + Typical measurement uncertainties of the calibration factor (CF) are listed in the following table. There is only one set of CF data used for both high and low range of each sensor. The typical measurement uncertainty data listed in the table is meant to help users on the measurement uncertainty estimation. These values are only a guideline and are not to be used in any accurate uncertainty calculations. For accurate measurement uncertainty values, please refer to the measurement report [] of the specific sensor [] Only applicable with the purchase of Option A7 or Option A6J. 0
Calibration factor uncertainty The typical measurement uncertainties listed are not to be taken as the maximum CF measurement uncertainties. Frequency 25ºC ± 3ºC N848A N848B N848H 00 khz to 0 MHz 0 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to.2 GHz.2 GHz to 6 GHz 6 GHz to 4 GHz 4 GHz to 8 GHz 8 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 0.82 0.77 0.78 0.9.26.59.42.48.48.58.77.92 0.77 0.89 0.89.06.46.73 0.9 0.78 0.77 0.78 0.89.48.43.49.49.56 0.89 0.79 0.89 0.89.02 0.82.24.26.35.66.83 2.67 3.32.33.35.4.6.73 2.26 2.58 2.80 2.80 2.80 3.66 4.23 2.68 3.9 3.9 3.9 3.4 3.40 3.4 3.9 3.26 Frequency 25ºC ± 0ºC N848A N848B N848H 00 khz to 0 MHz 0 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to.2 GHz.2 GHz to 6 GHz 6 GHz to 4 GHz 4 GHz to 8 GHz 8 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.47.03 0.97.23.85 2.7.98.9.9.97 2.69 3.20.39.0.5.42 3.87 7.0.28.03.03.8 2.40.84.83.94 2.68 0.99 0.86 0.98.00.9 0.94.43.52.68 2.26 2.47 3.75 4.79.84 2.0 2.36 2.87 3.4 3.77 4.7 4.55 4.55 4.55 5.40 6.02 3.48 4.07 4.07 4.07 5.02 4.99 5.02 5.7 5.20 Frequency 0ºC ± 55ºC N848A N848B N848H 00 khz to 0 MHz 0 MHz to 30 MHz 30 MHz to 500 MHz 500 MHz to.2 GHz.2 GHz to 6 GHz 6 GHz to 4 GHz 4 GHz to 8 GHz 8 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 4.46.57.65 2.04 2.62 3.27 3.64 2.22 2.49 2.85 3.8 4.30 2.83.44.60.96 4.8 9.74.59 0.9.54.99 2.67.73.77 2.2 3.9.4 0.86.03.07.40.25.98 2.07 2.40 2.99 3.35 4.70 6.4 2.4 2.45 2.65 3.7 3.4 4.04 4.43 4.84 4.84 4.84 5.70 6.9 3.76 4.25 4.25 4.25 6.04 6.04 6.04 5.86 6.59
Typical CF and vs. Frequency Chart shows supplemental characteristics, intended to provide additional information, useful in applying the power sensor by giving a typical but not warranted performance parameters. Cal Factor 00 99 98 97 96 95 94 93 92.25.2.5..05 0.95 Typical CF Typical 9 0.05 4 8 2 5 8 23 27 0.9 General specifications Dimensions and weight Dimensions (WxHxL) Height (H) Length (L) Width (W) Weight Operating environment Temperature Humidity Altitude Storage conditions Temperature Humidity Altitude N848A/2A: 38 mm W x 30 mm H x 30 mm L : 38 mm W x 30 mm H x 2 mm L : 38 mm W x 30 mm H x 2 mm L : 38 mm W x 62 mm H x 52 mm L : 38 mm W x 62 mm H x 52 mm L N848B/82B: 83 mm W x 4 mm H x 283 mm L N848H/82H: 38 mm W x 30 mm H x 74 mm L N848A/2A: Net: 0.8 kg (0.40 lb) Shipping: 0.90 kg (.98 lb) : Net: 0.83 kg (0.40 lb) Shipping: 0.90 kg (.98 lb) : Net: 0.54 kg (0.34 lb) Shipping: 0.874 kg (.92 lb) : Net: 0.202 kg (0.45 lb) Shipping: 0.922 kg (2.03 lb) : Net: 0.204 kg (0.45 lb) Shipping: 0.924 kg (2.03 lb) N848B/82B: Net: 0.684 kg (.5 lb) Shipping:.404 kg (3.09 lb) N848H/82H: Net: 0.234 kg (0.52 lb) Shipping: 0.954 kg (2.0 lb) 0 C to 55 C Maximum: 95% RH at 40 C noncondensing Minimum: 5% RH at 40 C noncondensing Up to 4600 m (5,000 ft) 40 C to 70 C Up to 90% RH at 65 C noncondensing Up to 4600 m (5,000 ft) 2
Connector Programming language Safety and EMC compliance Calibration interval Warranty N848A/82A: Ntype (male) : 3.5 mm (male) : 2.4 mm (male) N848B/82B: Ntype (male) N848H/82H: Ntype (male) : Waveguide flange UG599/U : Waveguide flange UG383/U Standard: SCPI codecompatible to ESeries sensors Option CFT: SCPI codecompatible to 8480 Series sensors IEC 63262002/EN 6326:997+A:998+A3:2003 Canada: ICES00:2004 Australia/New Zealand: AS/NZS CISPR:2004 year year. See Ordering information for available options Ordering information Power sensors Standard power sensors N848A 033 N848B N848H Other sensor options Option CFT Description Standard N848A model with EEPROM feature Standard model with EEPROM feature Standard model with EEPROM feature Standard model with EEPROM feature Standard model with EEPROM feature Standard N848B model with EEPROM feature Standard model with EEPROM feature Standard N848H model with EEPROM feature Standard model with EEPROM feature Standard model with EEPROM feature Standard model with EEPROM feature Description Frequency range 0 MHz 8 GHz 00 khz 6 GHz 0 MHz 26.5 GHz 0 MHz 33 GHz 50 MHz 50 GHz 0 MHz 8 GHz 00 khz 6 GHz 0 MHz 8 GHz 00 khz 6 GHz 26.5 GHz 40 GHz 33 GHz to 50 GHz Power range 35 to +20 dbm 35 to +20 dbm 35 to +20 dbm 35 to +20 dbm 35 to +20 dbm 5 to +44 dbm 5 to +44 dbm 5 to +35 dbm 5 to +35 dbm 35 to +20 dbm 35 to +20 dbm N8480 sensors without EEPROM feature. Calibration factor data is provided on the label attached to the power sensor. The following items are shipped as standard with every power sensor: Certificate of Calibration Operating and Service Guide Product Reference CD (contains Migration Guide, Operating and Service Guide, firmware upgrades for EPM, EPMP and PSeries power meters, and upgrade procedures) 3
Ordering information (continued) Accessories, calibration and documentation options Connectors Option 00 Option 200 Cables 730A 730B 730C 730D 730E 730F E9288A E9288B E9288C N97A N97B N97C Calibration Option A7 Option A6J Warranty Option R5B003C Option R5B005C Documentation Option OB Option ABJ Description TypeN (male) connector for N848A//N848B//N848H/ 3.5mm (male) connector for 2.4mm (male) connector for Waveguide connector for / APC7 (male) connector for N848A only Description For EPM Series power meters:.5 m (5 ft), grey For EPM Series power meters: 3 m (0 ft), grey For EPM Series power meters: 6. m (20 ft), grey For EPM Series power meters: 5.2 m (50 ft), grey For EPM Series power meters: 30.5 m (00 ft), grey For EPM Series power meters: 6 m (200 ft), grey *operates up to 45 C For EPM and EPMP Series power meters:.5 m (5 ft), blue For EPM and EPMP Series power meters: 3 m (0 ft), blue For EPM and EPMP Series power meters: 0 m (3 ft), blue For PSeries power meters:.5 m (5 ft) For PSeries power meters: 3 m (0 ft) For PSeries power meters: 0 m (3 ft) Description ISO 7025 calibration with test data ANSI Z540 calibration with test data Description Extension of warranty and service plan from year to 3 years Extension of warranty and service plan from year to 5 years Description English language Operating and Service Guide Japanese localization Operating and Service Guide 4
Where does the N8480 fit in Agilent s average power sensors offering? Signal characteristics > CW Modulated CW Pulse/ averaged AM/FM profiled Wireless standards Sensor technology Typical application examples > Themocouple sensors 8480A/B/H, N8480A/B/H, R/Q8486A, /AQ Diode sensors 8480D, V8486A, W8486A Metrology lab Radar/ navigation Mobile radio TDMA GSM EDGE NADC IDEN Avg.only cdmaone Bluetooth Avg.only WCDMA cdma2000 Avg.only 802.a/b/g MCPA HiperLan2 WiMAX Avg.only Avg.only Avg.only Avg.only Avg.only Diode sensors compensated for extended range E442A/3A FM only Twopath diodestack sensors E9300 Series Avg.only Avg.only Avg.only Avg.only N848XB Series 5 to +44 dbm Power 9 khz 00 khz 0 MHz OPT 33 N848A E9300A OPTH24 E930A E9304A OPTH8 U2004A U2002A U200A U2000A 50 MHz 2 GHz N848B E930XB Series E9300B 30 to +44 dbm E930B U200XB Series U200B 30 to +44 dbm U2000B N848XH Series N848H 5 to +35 dbm E9300H E930XA/H Series E930H 50 to +30 dbm E9300A U200XH Series 50 to +30 dbm 848XA Series 30 to +20 dbm 8483A (75ohm) N848XA Series 35 to +20 dbm E930XA Series 60 to +20 dbm U200XA Series 60 to +20 dbm E9304A U2002H U200H U2000H 4.2 GHz 6 GHz 8 GHz OPTH25 OPTH9 24 GHz 26.5 GHz 33 GHz E44XA Series E443A OPT H33 70 to +20 dbm E442A 848XD Series 70 to 20 dbm 848D 8485D 8487D Q8486D R8486D OPT33 40 GHz 50 GHz V8486A W8486A 75 GHz 0 GHz Frequency Legend N848X Average Thermocouple Sensor 848XD Average Diode Sensor 848X Thermocouple Sensor E44X Path Diode CWonly Sensor E930X 2Path Diode True Average Sensor U200X USB Sensors 5
Compatible power meters The N8480 Series power sensors perform accurate, repeatable average power measurements with the following power meters: Agilent N9A/2A PSeries power meters Agilent E446A/7A EPMP Series power meters Agilent N93A/4A EPM Series power meters Single (N9A) and dual (N92A) channels High resolution color display 30 MHz video bandwidth 00 Msamples/s continuous sampling rate Timegated and freerun measurement modes Rise time, fall time, pulse width, time to positive occurrence and time to negative occurrence measurements Includes predefined configurations for WiMAX, HSDPA and DME GPIB, LAN and USB interfaces Codecompatible with EPMP and EPM Series power meters Optimized for peak power measurements and CCDF statistical analysis with the PSeries power sensors Also compatible with all ESeries, N8480 Series and 8480 Series power sensors Single (E446A) and dual (E447A) channels 5 MHz video bandwidth 20 Msamples/s continuous sampling rate Timegated and freerun measurement modes Includes predefined configurations for GSM, EDGE, NADC, iden, Bluetooth, IS95 CDMA, WCDMA and cdma2000 GPIB, RS232/422 interfaces Codecompatible with EPM Series power meters Optimized for peak power measurements with the E9320 ESeries power sensors Also compatible with the E9300 and E440 ESeries, 8480 and N8480 Series power sensors Single (N93A) and dual (N94A) channels Two optional USB channels available for fourchannel measurements Frequency range of 9 khz to 0 GHz Power range of 70 dbm to +44 dbm (depending on the attached power sensor) Fast measurement speed of 400 readings/s Industry's first color LCD screen for average power meters USB and LAN/LXIC connectivity on top of the standard GPIB Automatic frequency/power sweep measurements with the optional trigger IN/OUT feature Codecompatible with 436A, 437B (N93A only) and 438A (N94A only) power meters Optimized for average power measurements with the U2000, E9300 and E440, N8480 and 8480 Series power sensors Note: The N8480 Series is also compatible with the E448B/9B Series EPM power meters. To get your existing power meters upandrunning in supporting the N8480 Series, just download their firmware upgrades online at www.agilent.com > Technical Support > Drivers & Software > Firmware Update. Power meter EPM Series power meters EPMP Series power meters PSeries power meters Model number E448B E449B N93A N94A E446A E447A N9A N92A Compatible firmware revision A.09.0 and above A2.09.0 and above A.0.00 and above A.05.0 and above A2.05.0 and above A.05.02 and above 6
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