Agilent Technologies E9300 manual Maximum Power Sensor To 35 C To 55 C GHz

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E9300/1B and H Power Sensor Specifications

Maximum Power

 

 

Maximum Power

 

Sensor

0°C to 35°C

35°C to 55°C

<6.0 GHz

>6.0 GHz

 

 

 

 

 

E9300/1B

30 W average

25 W average

500 W Peak

125 W Peak

 

500 Ws per pulse

500 Ws per

500 Ws per

500 Ws per

 

 

pulse

pulse

pulse

E9300/1H

3.16 W average

3.16 W average

100 W Peak

100 W Peak

 

100 Ws per pulse

100 Ws per

100 Ws per

100 Ws per

 

 

pulse

pulse

pulse

 

 

 

 

 

Power Linearity

After Zero and Calibration at ambient environmental conditions.

Sensor

Power Level

Linearity

Linearity

25°C ± 10°C

0°C to 55°C

 

 

 

 

 

 

E9300/1B

 

± 3.5%

± 4.0%

 

 

± 3.0%

± 3.5%

 

 

 

+30 dBm to +44 dBm

± 2.5%

± 3.0%

 

E9300/1H

-50 dBm to 0 dBm

± 4.0%

± 5.0%

 

0 dBm to +10 dBm

± 3.5%

± 4.0%

 

+10 dBm to +30 dBm

± 3.0%

± 3.5%

 

 

 

 

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Contents Operating and Service Guide Copyright 1999 Agilent Technologies Certification WarrantyLegal Information Exclusive Remedies Limitation of WarrantySound Emission General Safety InformationConventions SafetyPower Meter Front Panel Operation Related Publications DocumentationSensors Covered by Manual Documentation Table of Contents Standing Wave Ratio SWR and Reflection Coefficient Rho Per Introduction Typical HP E-series E9300 power sensors General Information Power Meter RequirementsSimplified Block Diagram of Diode Pair/Attenuator/Diode Pair Agilent E-Series E9300 Power Sensors in DetailGeneral Information Initial Inspection Checking Power Meter Firmware and DSP RevisionGetting Started Interconnections and Calibration Specifications Making Measurements What You’ll Find This Chapter Auto-averaging Settings Power Meter Configuration ChangesSpread Spectrum Signal Measuring Spread Spectrum and Multitone SignalsCdma IS-95A 9Ch Fwd Cdma Signal Measurements90 % Frequency GHz Typical Lower Range Calibration Factor Multitone Signal MeasurementsAchieving Stable Results with Tdma Signals Measuring Tdma SignalsPower Meter and Sensor Operation Input Settings , More Achieving Stable Results with GSM SignalsElectromagnetic Compatibility EMC Measurements Measurement Accuracy and Speed Setting the RangeAccuracy Measurement ConsiderationsSummary Speed and AveragingSpecifications and Characteristics Introduction Sensor Low Power Path High Power PathMaximum SWR E9300/1/4/A Power Sensor SpecificationsConnector Type 0C to +55C Maximum DC Voltage Maximum Power± 2.5% Power LinearityTypical Power Linearity at 25C, after zero Additional Power Zero Set Zero Drift Measurement Noise Switching PointTime E4418B E4419B Settling TimeCalibration Factor and Reflection Coefficient X2 ModeCal Factor Uncertainty General Frequency Range E9300/1B and H Power Sensor SpecificationsE9300B Typical SWR 25C ± 10C E9300H Typical SWR 10 MHz to 18 GHz 25C ± 10C Maximum Power Sensor To 35 C To 55 C GHz E9300/1B To 0 dBm To 10 dBm 10 to 20 dBm 20 to 26 dBm For larger changes refer to the following table E9300/1H DBm to 0 dBm +44 +30 dBm E9300/1B Conditions Zero Set Zero Drift2 Measurement Settling Time Typical Cal Factor Uncertainty Low Power Path Cal Factor Uncertainty High Power Path Storage and Shipment Environment ReferencesE9300/1B and H Power Sensor Specifications Service Connector Cleaning CleaningFrequency System Rho Actual Maximum Uncertainty Measurement Performance TestPerformance Test Is the illustrated parts breakdown IPB that identifies all Replaceable PartsIllustrated Parts Break down Reference Agilent Part Qty Description Designation Number LABEL, ID E9301B Principles of Operation ServiceRepair of Defective Sensor TroubleshootingDisassembly Procedure Removing Power Sensor Shell Reassembly ProcedureAsia Pacific Sales and Service OfficesEurope