2 erratic or erroneous level reading, Service guide – American Magnetics 185 & 186 Liquid Level Instruments (CE-Marked) User Manual

Rev. 3

63

Service Guide

Erratic or erroneous level reading

selector requires removal of the top cover of the instrument.

Observe the same safety procedures as presented in step 2.

7.1.2

Erratic or erroneous level reading

1. Verify that the sensor is properly connected to the oscillator cable

and the extension cable (see the system diagram on page 7).

2. Verify the cabling has no breaks or cuts.

3. If the Model 185/186 suddenly reads 100% without a corresponding

level, there is a possibility of moisture in the connector at the top of

the sensor. Disconnect the BNC connection and remove any

moisture. Moisture or contaminants in any of the BNC coaxial

connectors can short out the sensor and cause a false ‘full’ level

indication or other erroneous readings. A pack of non-conductive

electrical connection lubricant (ECL or “Dielectric Tune-up

Grease”) has been included with the liquid level sensor packaging

to reduce the possibility of this occurring. Apply a small amount of

ECL to any of the BNC connectors that may be exposed to moisture.

Mate the doped connectors then remove any excess ECL from the

outside of the connector. Added protection can be achieved by

covering the doped connections with a short section of heat-shrink

tubing.

Note: MSDS sheets for the ECL are available upon request.

4. Ensure the oscillator unit is not exposed to large temperature

gradients such as those that occur near dewar vents. Extreme

temperature changes of the oscillator unit can cause readout errors.

5. Rapidly varying or sloshing liquids will sometimes make one think

the instrument is in error when it is actually operating properly.

6. Capacitance-based sensors used in cryogenic liquid systems are

sometimes exposed to humidified air when the cryogenic vessel is

emptied. This often happens when a cold trap runs out of liquid. As

the sensor warms, the electronics can show large errors (readings

greater than 20% are not uncommon). This is due to the fact that

air contains moisture which will condense between the cold sensing

tubes. This small film of moisture can cause a shorted or partially

shorted condition. The electronics may recognize this as a higher

level reading and display some positive level. As the sensor warms

over some period of time, the moisture can evaporate and the

sensor will again approach the correct reading of 0%. This condition

can also be corrected immediately if liquid nitrogen is added to the

cold trap freezing the residual moisture. This is a physical

phenomenon and does not indicate any problem with your AMI

level equipment.