Microtest TSB-67 - 568A Annex E manual Impulse Noise

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Testing for noise involves turning off all LAN devices and measuring for background electrical activity in the cable. Often, noise problems can be corrected by moving the cable away from the source or removing the source, if possible. Different noise sources radiate at different frequencies. By knowing the frequency of the noise source, you are better able to pinpoint the cause of the noise. Two Noise measurements are provided: Impulse Noise and Peak-to-Peak Noise.

Impulse Noise counts the impulses detected between wires in a pair, or the center conductor and shield (when using a Coax jack). Impulse Noise measurements are used for long term monitoring of the network. They indicate spikes of electrical activity that occur at random on the network.

Peak-to-Peak Noise measures continuous noise signals, in the range of 0 to 3,000 millivolts (mV), between the wires in a pair or the center conductor and shield in the case of coax cable (when using the Coax jack).

Impulse Noise

To display the IMPULSE NOISE screen, press the Measure Cable Performance key, then select Impulse Noise.

A noise impulse is detected when it crosses the selected voltage level. When the selected voltage level is positive, impulses rising above that level are counted. When the selected voltage level is negative, impulses falling below that level are counted.

The wire pair being monitored is indicated in the upper left corner of the display.

The current time of day is displayed below the wire pair.

The box below the current time displays a graph of the impulses detected since the measurement started. The graph can span a 25-hour period with each dot across the graph representing the highest peak impulse in the last 15-minute interval.

The bar graph on the right displays the impulses per second, averaged over the last 10 seconds. E.T. indicates the Elapsed Time since the start of the test.

Count indicates the cumulative count of impulses detected since the start of the measurement. When the Count exceeds 65535, OVR (Over Range) is displayed. In an Over Range condition, the last average CPS (Counts Per Second) recorded is displayed.

CPS indicates the average counts per second since the measurement started. The maximum average counts per second is 200.0.

Press Pair (F1) to select a new pair to test. The results from the previously displayed pair are cleared from the screen.

Press Clear (F2) to restart the test and clear all history data.

Press Level (F4) to change the voltage level for detecting impulses. The results from the previously displayed pair are cleared from the screen.

Press the ESCAPE key to return to the Measure Cable Performance screen.

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Contents N t a S c a n n e r O d u c t F a m i l y E r G u i d e Introduction Ni-Cd Battery Scanner and 2-Way Injectors Charging the Scanner’s BatteryGetting Started Ready ScreenNi-Cd Battery Tips Way Injector+/2-Way Injector BatteryBattery Refresh Mode PentaScanner+ is in battery refresh modeTest Connectors Super Injector+/Super Injector BatteryHigh Voltage Protection Way Injector+/2-Way Injector LED IndicatorsPass FailWhen to Use the Injector Super Injector+/Super Injector LED IndicatorsCharging CircuitInjector Calibration Using Multiple InjectorsMod 8 Adapter Note Calibration ConnectionsPress the Extended Functions key Connections Basic Link with IDC Block and Modular 8 Jack Basic Link with Modular 8 JacksFull Channel Modular 8 Link Autotest Steps for Running Autotest Selecting the Cable TypeExtended Functions key and select Calibrate Injector Calculating NVP Editing the Cable TypeCustomizing Autotest Editing Autotest InformationEditing the Autotest Name Selecting Tests to Run During Autotest Selecting Pairs for AutotestEditing Test Limits Running AutotestAutotest Results Screen Wire Map Wire Map Test ResultsViewing Autotest Results Length Customizing Length LimitsLength Test Results Propagation Delay Test Results Propagation Delay Customizing Delay LimitsNear End Crosstalk Next Measuring Next at Both Ends of the LinkNext Test Results Customizing Next LimitsNext Detail Next GraphAttenuation Customizing Attenuation Limits Attenuation Limits and FrequencyEditing Attenuation Limits Attenuation Detail Attenuation Test ResultsAttenuation Graph Attenuation-to-Crosstalk Ratio ACRACR Test Results Customizing ACR LimitsImpedance ISO Class DCustomizing Impedance Limits Impedance Test ResultsLoop Resistance Loop Resistance Test Results Customizing Loop Resistance LimitsCapacitance Customizing Capacitance LimitsSaving Autotest Results Capacitance Test ResultsSave Sweep Data Printing Autotest ResultsViewing Autotest Results Summary Sample Autotest Report Editing, Printing & Updating Editing with the Alphanumeric KeypadEditing with the Arrow Keys Memory, then press Print F3 Printing or Downloading Test ResultsUploading Autotest Reports to Windows Terminal Printing TipsProcomm Plus for Windows Problem My printout is garbled. Why? Troubleshooting Printing ProblemsUpdating Scanner Software from the PC Downloading Software UpdatesUpdating the 2-Way Injector+/2-Way Injector Waiting for ReflashOne or more stored Autotest results have been lost World Wide Web Technical SupportPenta -C1 Download of Flash image file completeFind Cable Faults Microtest Bulletin Board System BBSFaxFacts Cross Wiring Wire Map for Both Ends of the LinkShort at the Injector End Short at the Scanner EndGraph F1 Measure Cable PerformanceNext Sweep Attenuation LimitsAttenuation Noise Length/DelayImpulse Noise Analyze LAN Traffic Peak-to-Peak NoiseLAN Traffic Display Extended Functions Setting Up the Traffic MonitorExtended Functions Menu Autotest MemoryCalibrating the Injector Autotest SetupSetting Backlight and Auto Shutoff Times Setting Up User PreferencesSetting Up Units Editing Owner/Company NameSetting Up the Printer Port Setting the Date and TimeSelecting a Graphics Printer Displaying Injector Information Appendix a SpecificationsTracing a Cable Locating an Office Cable DropUser Interface Wire MapEnvironmental Measurement PortsLength Near-End Crosstalk NextAttenuation Loop Resistance ImpedanceCapacitance Impulse NoisePower Control Rechargeable BatteryHigh Voltage Input/Protection LED DisplaysWay Injector+ Next Measurement Performance Specifications Super Injector+/Super Injector Physical CharacteristicsFeatures Working with 150 Ohm Cables Appendix B 150 ohm CablesCreating a Cat 5 Test for Token Ring EnvironmentCable Pin-outs Appendix C Cable Pin-outsPress Save F1 Serial Cable DB-9 Female to DB-9 Male Pin-outsAppendix D Working with Coaxial Cable Length/Delay Test Results Peak-to-Peak Noise Test Results Impulse Noise Test Results
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