Omega OSP SERIES manual Date & Real Time clock setting, Acquisition settings

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Press the <SEL> key to select the new configuration step or press the <Trigger> key to switch the instrument -Off-. The new selection will be automatically memory stored.

10.4Date & Real Time clock setting

The two following pages allow respectively date and real time updating .

Press the <SEL> key to display the date page

Set

°C

Lock

e

Press the <ENTER> key to enable the adjustment

Press the <SEL> key to select the parameter to be modified (day, month, year)

Press the <▲> or <▼> key to modify the selected parameter (blinking)

Press the <ENTER> key to acknowledge the new setting

Press the <SEL> key to enter the real time clock page

Set

°C

Lock

e

Press the <ENTER> key to enable the adjustment

Press the <SEL> key to select the parameter to be modified (hour, minute, second)

Press the <▲> or <▼> key to modify the selected parameter

Press the <ENTER> key to acknowledge the new setting

Press the <SEL> key to select the new configuration step or press the <Trigger> to switch the instrument -Off-. The new selections will be automatically memory stored.

10.5Acquisition settings

Press the <SEL> key until the following indication is displayed :

Set

°C

e

Press <ENTER> for setting the acquisition mode;

Press the <▲> or <▼> key to select the required setting: MAN, MIN, MAX or interval time for automatic acquisition ;

NOTE: MANUAL MODE DISPLAYS THE REAL TIME TEMPERATURE VALUES AND PERMITS TO STORE THE VALUE PRESSING THE <MEM>

KEY. MAX (MIN) ACQUISITION MODE DISPLAYS ONLY THE MAXIMUM (MINIMUM) VALUE AND PERMITS TO STORE THE VALUE PRESSING THE <MEM> KEY.

To change the interval time for automatic acquisition, press <SEL> to change decade and the <▲> or <▼> key to change its value.

Press <ENTER> to store the new acquisition mode. See Cap. 11 for appropriate data acquisition operation.

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Contents OSP Series Portable IR thermometers OMEGAnetSM On-Line Service Internet e-mail Info@omega.com Introductory Note Table of Contents Data Acquisition Operative Mode General Description General featuresInnovative design Instrument codes Specifications Thermocouple measuring rangesGeneral Features GeneralOptical System Target pinpointingKeyboard DisplayDigital Interface Self calibrationLogging Mode Calculated MeasurementsCase Logging Data ManagerPhysical Description Power supply Functional DescriptionMicrocontroller Battery chargerFirmware Unpacking PRE-OPERATIONAL Check ΛEM = 10.6 ∝MPower Supply How to maximize the life span of the batteryPower supply with alkaline batteries Power supply from main line ACLaser Sight Analogue inputPage How to Operate the instrument OperationsQuick Start Trigger * MEM SEL EnterHold Laser sightingUnstable temperature measurement Working band WeightAlarm settings HAL Minimum, maximum, average and difference indication Automatic Emissivity Setting Configuration Thermocouple input enabledTemperature Scale selection Technical Unit selectionDate & Real Time clock setting Acquisition settingsAmbient Temperature Compensation TAM Buzzer On/OffOSP 500/800 decimal point selection Actual Target Emissivity Ambient Temp Indicated Temp TAMFirmware revision number Instrument serial numberBattery level of charge How to operate in data acquisition mode Data Acquisition Operative ModeAcquisition by dedicated Tags Log Recall stored data Logging Data Manager InstallationProgram Architecture File HelpData EditToolbars Quick starting Copy into an open fileMove into a new file Move into an open filePress the or key to select the Tag a identification code Log Page Printer operations Options & AccessoriesSighting telescope system Filter installation Installation of the sighting deviceRed Point pinpointing system Part n DescriptionPage Application Notes Infrared energyApplications EmissivityDigital Interface Digital output wiring practiceTTL to RS 232 adapter Computer data request from OSP to PC Communication protocolComputer $00 Pyrometer measure Reading valuesComputer data setting from PC to OSP Writing valuesCommunication programs Example a Data transfer from OSP to PCExample B PC instructions to OSP Example aExample B 9Ø Chksum = DATA1 + DATA2 + DATA3 + DATA4 and &H7FMaintenance Faulty operating conditionsStorage ErrAppendix A1 How to determine an object emissivity A1.1 Typical Emissivity ValuesA1.2 Metals Typical Emissivity Values 14 µmA1.3 Non-metals Typical Emissivity Values Index Weight Working band WARRANTY/DISCLAIMER Temperature