Teledyne 2002 instruction manual High and Low Set Point Modes, CAL Mode

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This will not correct the calibration if the tube has become contaminated or damaged. This reset will not affect the gas selection, units or setpoints.

Also see unit’s mode for default calibration restoration.

3.3.High and Low Set Point Modes

The Model 2002 provides TTL outputs for process control. The I/O cable is attached via a 9-pin sub-D connector to the rear panel of the control unit. The pinout is shown in Figure 4.2.

To view the high set point, place the Model 2002 in the HIGH mode by pressing the MODE switch to illuminate the HIGH light and no other mode light. The display will show the set point selected. During normal operation the alarm light will illuminate and the TTL output (pin # 3) will go high (+5 V) if the pressure exceeds the set point.

Similarly, to view the low set point access LOW mode by pressing the mode switch until the LOW light is lit and no other mode light is illuminated. During normal operation, the LOW light will illuminate and the LOW alarm TTL output (pin # 4) will go high (+5 V) if the pressure becomes less than the set point.

The alarm lights cannot indicate an alarm condition while in the set point modes. Therefore, it is advisable not to leave the instrument in these modes for extended periods.

To adjust a set point, press the mode switch until the set point is viewed. Then simultaneously press the UP and DOWN switches. The active mode light will now flash indicating that the interlock has been bypassed and the set point can be adjusted. The display shows the present set point.

Enter the new set point by using the UP and DOWN switches. Press and hold the UP switch to increase the set point and the DOWN switch to decrease the setpoint. Allow a few seconds for the circuitry to respond. Holding the button for and extended period of time, it will increase the adjustment rate. Release the button and press again to get finer control of the exact trigger point.

At this point, the new set point is in temporary memory. If the instrument were unplugged now, the Model 2002 would revert back to the original set point upon restarting. Return the 2002 to the RUN mode to store the set point in permanent memory.

Once the interlock has been bypassed in the HIGH mode, it will stay active until the CAL mode is entered. This will allow the user to set both setpoints without repeating the interlock bypass.

3.4.CAL Mode

Optimal performance of the Model 2002 is achieved by performing in situ adjustments to the calibration coefficient in the CAL mode. There are three calibration coefficients. These are the zero coefficient, the midrange coefficient and the atmosphere coefficient. Once a tube has been fully calibrated the midrange coefficient should never need further adjustment, but it may be helpful to adjust the zero coefficient or the atmosphere coefficient under certain situations. Even though the operator inputs may be identical for adjustment of all three coefficients, microprocessor will detect the power level of the tube and adjust the proper coefficient for pressure level of the adjustment.

The CAL MODE presupposes that the operator is applying a known pressure of the correct gas composition (see GAS MODE). The factory calibration points are 800 Torr, 7 Torr, and <1e-6 Torr. The users calibration points are not required to be exactly those values, but should be somewhat close, and must be within the ranges shown in the following figure. The HPM-2002 detects the voltage signal within the sensor tube, which is converted and displayed as a pressure reading. The resulting pressure reading determines which of the three coefficients will be adjusted.

To adjust a calibration coefficient press the MODE switch until the CAL light is illuminated. Then simultaneously press the up and down switch. The CAL light will now flash indicating that the interlock has been bypassed and the calibration can be adjusted. Press and hold the up switch to increase the displayed value or the DOWN switch to decrease the displayed value. If the switch is held down for an extended period of time the adjustment rate will start to increase. Release the switch and then press and hold again to regain finer control of the displayed number.

Model 2002 Vacuum Gauge

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Contents Teledyne Hastings Manual Print History Table of Contents Model 2002 Sensors FeaturesGeneral Information Model 2002 Control UnitSpecifications Receiving Inspection InstallationTransducer Installation Quick StartPanel Mount Instructions Control Unit InstallationInitial Operation Transducer Cable AttachmentFront Panel Operation Overall Functional DescriptionScientific Notation RUN ModeSpeed Adjust Normal OperationCAL Mode High and Low Set Point ModesPage Midrange Coefficient Adjustment GAS ModeAtmosphere Coefficient Adjustment Units Mode Default Calibration RestorationRemote Zero Input Rear Panel DescriptionAnalog Output Voltage to pressure conversion example TTL Outputs Power Entry ModuleModel Rear Panel Detail Piezoresistive Sensor Theory of OperationDual Sensor Emodiment = ΔRL Pirani Sensor Et = Es + Er + EgEg = Kg DT As/Dx Dual Sensor Operation RS-232-E Interface Specifications Communications Option BoardInterface Connector Pin Assignments for RS-485 For RS-485 Half Duplex 2 wireInterrogation Commands Parameter Modification CommandsCalibration Adjustment Commands Reset / Restore Commands Device StatusRelay Connector Pin Assignment Relay Board SpecificationsRelay Interface Option Board 20 mA Interference Connector Pin Assignments MA Interface Option BoardOperation 0-10V Interface Connector Pin Assignmets 10V Interface Option Board= PTorr Channel1 Troubleshooting Guide Warranty Repair Policy Non-Warranty Repair PolicyDiagrams and Drawings Model 2002 Vacuum Gauge Model Outline Dimensions Model 2002 Vacuum Gauge Model 2002 Vacuum Gauge
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2002 specifications

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