Digitrex 3-3000-00a-F manual Transmitter’s Signal Shape, Antenna Configuration, Signal Reception

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Depth/Locating
Antennas
Pitch/Roll
Antenna
Location and Orientation of Antennas in Receiver

Locating

Transmitter’s Signal Shape

It is important to understand some fundamental con- cepts about the transmitter’s electromagnetic signal and the way the receiver’s antennas read or receive this signal. The shape of the transmitter’s signal field is elliptical. This elliptically shaped field combined with the DigiTrak Receiver’s unique “X” antenna configura- tion results in locating the transmitter at three specific locations, not just the strongest/highest signal.

The transmitter’s electromagnetic field is made up of many “field signal lines.” As you locate, you are walking in this magnetic field and your receiver’s an- tennas are picking up signal from those field lines.

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Elliptical Shape of Transmitter Signal Field

Antenna Configuration

The DigiTrak Receiver has a total of three antennas. The single antenna near the bottom of the unit receives pitch, roll, battery, and temperature status from the transmitter. The “locating antennas” are located below the display windows and are in an “X” configuration. One of the antennas is referred to as the minus (“–”) antenna and the other as the plus (“+”) antenna. The antennas are positioned at right angles to one another (perpendicular),

each 45° to the surface below the DigiTrak Receiver. As described above, the more “in-line” the field line is with the antenna, the higher the percentage of “read” signal.

Each antenna receives a different part of the field signal. This information is processed by the receiver to provide the operator with a measurement of the transmitter’s entire signal field strength— not just a portion, as with conventional cable locators.

Signal Reception

To understand how the antennas “read” these field lines, it is useful to imagine the field line as a stream of water and the antenna as a pipe. If a stream of water is aligned parallel with the pipe, then 100% of the water will flow through the pipe. If you turn the pipe 90° to the stream of water, no water will enter the pipe. The same principle is true for the field line and the antenna; when they are parallel to one another 100% of the field line will be read by the antenna, and when they are perpendicular to one another none (0%) of the signal will be read.

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DigiTrak® Mark III Operator’s Manual

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Contents Mark III Directional Drilling Locating System Trademarks Table of Contents Remote Display System Remote Telemetry License Limited Warranty Safety Precautions Remember ViiDear Customer ViiiDigiTrak Directional Drilling Locating System IntroductionBasic DigiTrak Equipment Introduction Basic DigiTrak OperationTechnical Support 3000-00b-F DigiTrak Receiver Top View ReceiverDigiTrak Receiver Side View Showing Display Window IconsReceiver Display Window IconsOn/Off Depth Measurement Units Receiver Battery Voltage LCD TestFirmware Version Remote Channel Setting To turn the receiver onTo turn the receiver off Receiving the Transmitter’s SignalsClicking vs. Holding the Trigger Changing the Receiver’s Channel Setting To change the channelChanging the Depth Measurement Units English vs. Metric Battery Status Display for Receiver and TransmitterReceiver Battery Status Voltage Remaining To change the measurement unitsUse of Ultrasonic Measurement To Determine Actual Depth Temperature RangeUltrasonic Function Zeroing the Ultrasonics Do not calibrate if Determining 1-Point Calibration SignalCalibrating the Receiver Confirming Proper Calibration To calibrate newer receiversReceiver Using Depth Antenna Plumb Line to Mark Locate Points Depth Antenna Plumb LineFinding Firmware Version Series Firmware FunctionsProcedure for Observing the Predicted Depth Running Time Meter DisplayBatteriesAntenna Index Slot Back Front TransmitterHow a Transmitter Works DigiTrak TransmitterTemperature Overheat Temperature DisplayBattery Status Display TransmitterHow Transmitter Should Fit in Housing Sleep Mode Automatic ShutoffVerifying Proper Fit of Transmitter in Housing To install a transmitter in the housing Front End Cap of Transmitter Showing Temp Dot and Index SlotTransmitter as an Inclinometer Locating the TransmitterSensitive-Pitch Transmitters Tips for drilling with a sensitive-pitch transmitterSerial Numbers SpecificationsModel Type Length Signal Battery Temp Color Transmitter Range Type RatingRemote Display System Remote Display UnitRemote Display On/Off and Setting the ChannelTransmitter Temperature and Battery Status Remote Steering Setting up DigiTrak Receiver For Remote SteeringUsing DigiTrak Receiver for Remote Steering DataLog Capability ~ I5Battery Charger DigiTrak Battery ChargerBattery Is Battery ChargerCharging a Battery Battery Charger Control PanelIndicator Lights and Meanings Conditioning a Battery in the ChargerConditioning a Battery Manually Setup for Discharging a Battery Manually3000-00f-F Moisture and Temperature Avoidance Start-up ProcedureShutdown Procedure System Operating InstructionsSystem Operation Optimal Operating TemperaturesGeneral Maintenance Signal Interference Electrical Interference/Background Noise CheckSignal Interference Suggestions for Dealing with InterferenceReceiver Balance Check Operational TestsSelf-Test for Mark III Receivers Transmitter Tests Operational TestsReceiver Gain Test Transmitter Signal Strength Values Transmitter Distance ColorTransmitter Model Average Current mA Transmitter Salt Water Range TestCurrent Draw Test Transmitter Battery Tests 3000-00i-F Locating Locating ModeLocating Mode Trigger Held Locate Points Fnlp & Rnlp and Locate Line PLLSide View LocatingHandling the Receiver Locating the Transmitter from the Drill Using Plus/Minus Indicators for LocatingUsing Plus/Minus +/- Indicators for Locating Finding the Rear Negative Locate Point Rnlp from the DrillFinding the Positive Locate Line PLL from the Drill Fine Tuning Rnlp Location Walking Toward LeftPlus Changes To Minus Drill Fine Tuning Fnlp Walking Toward Left Finding the Front Negative Locate Point Fnlp from the DrillFinding the Transmitter and Its Depth Locating the Transmitter from the Front Locating the Transmitter from the FrontMethod for Confirming Position Method for Confirming PositionOff-Track Locating Locating on the FlyOff-Track Locating To find the Fnlp or the Rnlp Splitting the Front and Rear Negative Locate Points Four-Turn Technique Calculating Depth Based on Distance Between Fnlp & Rnlp Pitch DividerRunning off Pitch or Calculating Depth from Pitch Calculating Depth from PitchSignal Reception Transmitter’s Signal ShapeAntenna Configuration Elliptical Shape of Transmitter Signal FieldOrientation of Field Lines with Respect to Antennas Front and Rear Negative Locate PointsPositive Locate Line Above Transmitter 3000-00j-F Cable Transmitter System DigiTrak Cable Transmitter SystemCable Transmitter Label Indicating Cable-Ready Remote DisplayPower Supply Cable Transmitter Power Supply Connected to Remote DisplayCable Transmitter Remote Display with Cable Transmitter Capability Adding Batteries in SeriesViewing the Cable System Battery Status OperationTroubleshooting Problem/Concern Causes/Solutions Section to ConsultTroubleshooting Troubleshooting Troubleshooting Troubleshooting 3000-00l-F Glossary Glossary Roll Start-up = Power-up = Boot-upRemote Display Set the UltrasonicsUltrasonic Function Ultrasonic TransducersAppendix Appendix Percent Depth Increase 100Percent of Grade to Degree Conversions Pitch Transmitters Percent Degree Degree to Percent of Grade Conversions Pitch Transmitters Degrees Percent 10.0 Calculating Depth Based on Distance Between Fnlp and Rnlp 3000-00n-F Remote Telemetry License 3000-00o-F Limited Warranty Warranty Claim Procedures
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