Fluke 875 manual Panel Meter Action During ECS Test, Meter at extreme lower end of scale

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Victoreen 875

Operators Manual

The pen clamp circuit is a clamping circuit consisting of U501, pins 8, 9 and 10 and diode CR502. It prevents pin 9 from going negative. The purpose of this is to prevent the recorder pen from being jammed against the baseline.

Electronic Check Source (ECS) Printed Circuit Board (P/N 876A-1-92, Schematic 876A-1- 30)

Due to the range of the detector (1 to 10E7 R/h), a remotely activated radioactive check source is impractical, since the source activity would be high and the shielding necessary for this source would effect detector energy response. For this reason, an electronic check source is provided. During check source operation, the detector remains connected to the system as a passive capacitive element. Since the current-voltage relation in a capacitor is such that the current is proportional to the rate of change of the applied voltage, an applied voltage, in the form of a linear ramp, will produce a steady current. It is this current which is read during the ECS test.

The ECS board (drawing 876A-1-3D) has two main functions: 1. To generate the low voltage ramp which, in the high voltage supply, develops the high voltage ramp responsible for the test current in the detector during the ECS test. 2. To monitor the current flowing during the ECS test, and recognize whether the test signifies a passing of failing condition in the circuits of the unit. One of the circuits involved in this monitoring process is actually on the power supply printed circuit board.

The voltage ramp which develops the detector current during the ECS test rises from 0 to 506 volts over three seconds, so that the rate of change of voltage is approximately 170 V/second. The capacitance of the detector is approximately 435 picofarads and therefore, the steady current during the rise of the voltage ramp is approximately 7 x 10-8amperes, which puts the panel meter at about one-third full scale. The ramp occurs when ECS is initiated for a period of about six (6) seconds, during which time the system is not acting as a radiation monitor.

The ECS test may be initiated at the will of the operator. For this purpose there is a manually operated ECS push button. If the ECS test is not initiated by the operator, it will take place automatically every 17.1 minutes. After each manually initiated test, the automatic circuits are reset so that a test will be initiated 17.1 minutes later.

In addition to causing visual alarms and relay de-energizing if circuit failures are found, the ECS test affects the panel meter as in the three cases described below. It is the processing of the voltage read by the panel meter during the ECS test that is responsible for the action of the circuits directly involved in driving the visual (green light) and relay (fail) alarm circuits. Recorder and computer outputs are muted during the ECS and will indicate zero while the test is in progress, approximately six (6) seconds.

Panel Meter Action During ECS Test

The meter action to be expected during the test period with the containment monitor operating properly can best be explained by considering three initial conditions: 1) Panel meter is resting at extreme lower end of scale; 2) Panel meter on scale but below 103 R/h; 3) Meter above 103 R/h at start of test.

1.Meter at extreme lower end of scale

In this case, the meter needle should remain motionless for about 1 second, rise to 103 R/h and remain there for about three seconds, and then fall to its initial position.

2.Meter on scale, but below 103 R/h

In this case, the meter needle should fall to zero at the beginning of the test period. It will then rise to approximately one-third full scale, and remain in this position for about four seconds. After this, it will resume its original reading, with perhaps some slight negative overshoot.

3.Meter above 103 R/h at start of test

This case is quite similar to the above except that the meter may not fall to zero at the start of the test, and at the upswing, it will take a position higher than 103 R/h, the excess depending on the ambient radiation. It will ultimately resume the same position as before the test as in item 2 above.

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Contents Victoreen High Range Containment MonitorFluke Biomedical Table of Contents Calibration and Test Procedures General Description SpecificationsIntroduction Containment MonitorTemperature Operating 40 to 120F 4 to 49C Readout Module 876A-1Rack Chassis Equipment OverviewHigh-Range Containment Monitor Detector Flexible Tubing 878-12-30TAB Pull Box AssemblyCables/Connectors/Panel Optional EquipmentHigh-Range Containment Monitor Typical Energy Response Curve Detector Typical Linearity Detector High-Range Detector, Recommended Installation Receiving InspectionProcedures, Warnings, and Cautions StorageBlank Readout Module InstallationInstallation Pull BoxSpecifications for Cable Cable SealingSpecifications for Cable Cable and Wiring InstallationDetector Test After Installation Detector Cable Inside ContainmentPower Connections P1 Ancillary WiringAll Alarms on P2 Normal Operation Shelf State Computer & RecorderOperation OperationVictoreen Readout Module 876A-1 Function DescriptionFunctional Description Negative Power Supply Operation of High Voltage Supply During ECS Test High Voltage Power Supply Normal Operation non-ECS TestFAIL/SAFE Comparison Circuit on Power Supply Board High Alarm Circuit Alert Alarm CircuitPen Clamp Fail/Safe CircuitRecorders and Computer Buffers Panel Meter Action During ECS Test Meter at extreme lower end of scaleMonitoring Circuits of The ECS Board Action of Green Safe/Reset Light and Alarm During ECS TestLow Voltage Ramp Generator Block Diagram of ECS Test Safe/Reset Sub-circuits Muting Circuits of ECS BoardBlank Calibration Maintenance, Calibration, and TroubleshootingMaintenance Test Procedure TP876A-1-108 Troubleshooting PreamplifierIMeter Board P/N 876A-1-86, Schematic 876A-1-3E Signal Input CircuitMother Board P/N 876-1-78, Schematic 876-1-3A Rear PanelTP501 TP502 +6.3 Test Point Normal Channel TestNormal Low Signal Level Channel Test High Alarm CircuitMuting Stages of the Alarm Circuits ESC Board P/N 876A-1-92, Schematic 876A-1-3D Wave Shapes on the Electronic Check Source Board Starting With Terminal H on Relay Driver Board Starting With Pins M and P on the Power Supply SchematicOverall Fail Circuitry Associated with the ECS Test Outputs of U206 Pulse Generator on the ECS Board Operation of the Latch CircuitLatch Circuit Circuit assumed initially in Pass Condition Fail ConditionNOR Pin Voltage State CommentsCalibration and Test Procedures Blank Cable and Pull Box Procedures Cable and Pull Box ProceduresVictoreen Document Number Description Applicable Drawings and Bill of MaterialsApplicable Drawings Detector Cable Out of Containment Applicable Bill of Materials Fluke Biomedical