Omega Vehicle Security DPS3300 manual Setup For High Scale, Setup For Low Scale, Setup For Offset

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Setup For High Scale

After setting a channel's decimal point position, the next parameter to be set is Hi Scale. This parameter determines what number will be displayed when the transducer puts out its maximum signal. For example, suppose a pressure transducer produces a 0Vdc to 10Vdc signal which corresponds to 0psi to 150psi. Then you would want the display to show 150 when 10Vdc is measured. To do this, set the Hi Scale=150.

After pushing SETUP key, the display will briefly read 'HI SCLE' (for "High Scale"), and then show the current High Scale setting. The flashing digit is the active digit. Pushing SDIGT key and keeping it pushed, will increment the digit. Releasing SDIGT key and then pushing it again will decrement the value

(SDIGT key works as a toggle -- alternating between increment and decrement). To change the next digit first push the WDIGX key. This will advance the flashing to the following digit. Use SDIGT key to change the value. After the desired High Scale setting is displayed, push SETUP key to enter that setting and go to setup Low Scale.

Setup For Low Scale

After setting a channel’s High Scale, the next parameter to be set is Low Scale. This parameter determines what number will be displayed when the transducer puts out its minimum signal. For example, suppose a pressure transducer produces a 0Vdc to 5Vdc signal which corresponds to 10psi to 75psi. In this case the display should read 10 when 0Vdc is measured. To do this, set the Lo Scale=10.

On pushing SETUP key, the display will briefly read 'LO SCLE' (for "Low Scale"), and then show the present Low Scale setting. The flashing digit is the active digit. Use SDIGT key (as described in Setup For High Scale) to change the value. After the desired Low Scale setting is displayed, push SETUP key to enter that setting and go on to setup Offset.

Setup For Offset

After setting a channel’s Low Scale, the next parameter to be set is channel offset. Offset is used for calibrating a channel to a transducer that outputs a signal other than zero at its low end. If a transducer happens to output a small signal at its low end excitation, then the OFFSET parameter is used to make the transducer's minimum signal appear to be zero e.g. if a flow transducer outputs a 0.130Vdc to 5.000Vdc signal which corresponds to a flow RATE of 0 to 40 gal./min. Then to make the 0.130Vdc correspond to a display of 0, set OFFSET =0.130.

NOTE: If the input type is CURRENT, the Offset value is entered in milliamps.

If the input type is VOLTAGE, the Offset value is entered in volts.

After pushing SETUP key at the completion of Setup For Low Scale, the display will briefly read 'OFFSEt', and then show the present Offset value. The active digit will be flashing. Use the SDIGT key (as described in Setup For High Scale) to enter a desired OFFSET value. After the desired OFFSET value is displayed, push SETUP key to go to Tare setup.

Setup For Tare

After setting a channel’s OFFSET, the next parameter to be set is channel's TARE. TARE is used if it is necessary to always subtract a value from a reading prior to displaying that reading. For example, suppose a pressure transducer always includes atmospheric pressure of 15 psi, and you only wish to display the pressure differential from atmospheric (a gage reading of 19psi is to be displayed as 4psi). To do this, enter the number you want subtracted from a measurement prior to displaying the measurement.

The display will first show 'tARE' after which the current TARE value will be displayed. Use SDIGT key (ref. Setup

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Contents Wall mount Multi-Channel Process Scanner Channel Configuration SetupSystem Configuration Display ModesPower Input Connector PIN Assignment Table of ContentsDirect Interface to Universal Relay Module Trouble Shooting Error Messages and Solutions MountingSpecifications Page Model no Description DescriptionDisplaying Parameters How to Display ParametersTo Display Perform Following Steps Mode Function Performed Elapsed Time ModeDisplay Modes High/Low Channel Mode Scan Mode Deviation Mode Setup Difference Mode Types of Deviation DisplaysSYS Parameter List CH Parameter ListSetup for Voltage or Current Input Channel ConfigurationSetup For Input Type Setup For Channel ON/OFFSetup For Low Scale Setup For High ScaleSetup For Offset Setup For TareSetup for Universal Relay Channel 1 Relay Setup For SetpointSetup For Limits Setup For DeadbandSetup For Engineering Units Setup for Thermocouple/ Thermistor/ RTD InputsTemperature units Turning Channels ON/OFFSetup Examples System ConfigurationSetup For Display Options Setup For Relay Latch/Non-Latch Setup For Display TimeSetup for Buzzer Setup For Cold Junction CalibrationInput Range Setup for current and voltage Setup For Channel CalibrationThermocouple Calibration Procedure Peaks Saving ParameterPage SYS CH Enter PasscodeSelect Channel Channel DiffLOW Channel Display Devn Channel Diff Elapsed Time IP Type Scan High ChannelThermistor CR.AL T/C K CurrentLimits RateOutputs Open Collector OptionInput Connector Output Connector Input Connector PIN Assignment PowerDirect Serial Interface to Direct Interface to Universal Relay ModuleError Messages and Solutions Trouble ShootingFactory Channel settings Slots in Terminal Compartment For Mounting Screws MountingWarranty Page M4302/0306
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