Anritsu MA24106A, 0701012 manual Appendix a Connector Care and Handling

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Appendix A — Connector Care and Handling

Anritsu MA24106A Power Sensors are high-quality precision laboratory instruments and should receive the same care and respect afforded to such instruments. Follow the precautions listed below when handling or connecting these devices. Complying with these precautions will guarantee longer component life and less equipment down time due to connector or device failure. Also, such compliance will ensure that Power Sensor failures are not due to misuse or abuse – two failure modes not covered under the Anritsu warranty.

Beware of destructive pin depth mating connectors

Destructive pin depth of mating connectors is the major cause of failure in the field. When an RF component is mated with a connector having a destructive pin depth, damage will usually occur to the RF component connector. A destructive pin depth is one that is too long in respect to the reference plane of the connector (Figure A-1,left).

The center pin of a precision RF component connector has a precision tolerance. The mating connectors of various RF components may not be precision types. Consequently, the center pins of these devices may not have the proper pin depth. The pin depth of DUT connectors should be measured to assure compatibility before attempting to mate them with Power Sensor connectors. An Anritsu Pin Depth Gauge or equivalent can be used for this purpose (Figure A-1,right)

Figure A-1. Pin Depth

If the measured connector is out of tolerance in the “+” region, the center pin is too long (see Table A-1,below). Mating under this condition will likely damage the precision RF component connector. If the test device connector measures out of tolerance in the “–” region, the center pin is too short. This should not cause damage, but it will result in a poor connection and a consequent degradation in performance.

Table A-1.Allowable DUT connector pin depth

Connector Type	Pin Depth Gage Model #	Pin Depth (inches)	Pin Depth Gage Readout

N-Male	SC3825	0.207 +0.030	0.207 +0.000
		–0.000	–0.030
N-Female	SC3825	0.207 +0.000	0.207 +0.000
		–0.030	–0.030

MA24106A UG

A-1

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Contents True-RMS, 50 MHz to 6 GHz MA24106A USB Power Sensor User GuideUpdates Anritsu Company Software License Agreement Page Table of Contents Table of Contents General Information Preparation for Storage/Shipment Preparation for Storage/ShipmentInstallation Driver InstallationHardware and Software Requirements Anritsu Power Meter Installation Driver InstallationLicense Agreement Installation Driver InstallationSoftware will then install to the selected location Found New Hardware Wizard Select the hardware type Computer, and then click Next Click Have Disk..., and then click Next 14.Found New Hardware Wizard Click Finish to close the wizard Page Graphical User Interface Using the Power SensorButtons Using the Power Sensor ButtonsData Entry Fields Using the Power Sensor Display Window Display WindowStatus Bar Tools Menu Menu Bar Using the Power SensorMenu Bar File MenuDataLogging Menu Data Logging Menu10. Data Logging Power GraphTime, X-axis 30 minutes 14.Offset Entry Screen Offset Table16. Open Dialog MA24106A UG 17.Offset Table Menu Offset Table Off Status Session RestoreMaking Measurements Basic Power MeasurementConnecting the DUT Using the Power Sensor Making MeasurementsApplying a Calibration Factor Correction Making Measurements Using the Power SensorZeroing the Sensor Calibrating the Sensor±0.20 dB ±0.15 dB ±0.10 dB ±0.05 dB ±0.01 dB DBm Noise Number Averages Needed forMessage Description Resolution Error StatesTime Varying Signals Measurement Considerations Using the Power SensorNoise and Averaging High Crest Factor Signals peak to average ratioMultitone Signals Using the Power Sensor Measurement ConsiderationsSettling Time Uncertainty of a Measurement Using the Power Sensor Uncertainty of a MeasurementNoise Calculations at 12 dBm 16 mW Uncertainty of a Measurement Using the Power SensorUncertainty Adjusted Specification Uncertainty ExampleRemote Operation Commands Summary Command DescriptionRemote Operation Remote Operation Command Details Remote Operation Command DetailsFREQ? Remote Operation Remote Operation Command DetailsHAT Required Equipment Sensor Operational TestsTest Procedure Vswr PretestVswr Pretest Sensor Operational Tests Sensor Operational Tests Calibration Factor Test Calibration Factor TestMA24106A Calibration Factor Test Sensor Operational TestsSensor Operational Tests Linearity Test Linearity TestApply Linearity Test Sensor Operational TestsSensor Operational Tests Linearity Test +20 +15 +10 Adjust per Max Min Delta E11 E12 Measurement Results 2 GHz Measurement Results 6 GHz Beware of destructive pin depth mating connectors Appendix a Connector Care and HandlingConnector Care and Handling Avoid over torquing connectorsAvoid applying excessive power Cleaning connectorsUsing the Demo Application Appendix B Sample Visual Basic CodeDemo Application Using the Demo Application Sample Visual Basic Code Sample Visual Basic Code Using the Demo Application Delay routine Appendix C Serial Port Compatibility For Anritsu Power Meter 1.0 OnlyMethod 3-Remapping a Serial Port Method 1-Download Updated SoftwareFigure C-2.System Properties Serial Port CompatibilityFigure C-3.Device Manager Method 3-Remapping a Serial PortFigure C-4.Advanced Settings for COM Port Close all windows that you have opened up to this point Upgrading the Firmware Appendix D Upgrading the FirmwareUpgrading the Firmware Figure D-3.Firmware Upgrade DialogFigure D-5.Open File Dialog Figure D-7 Symbols Symbols to LIndex Index-2 MA24106A UG To SUSB To Z