VIBRATING FORK LIQUID LEVEL SWITCH WITH VERIFICATION

Abstract

A vibrating fork liquid level switch includes a vibrating fork assembly arranged to vibrate at a first frequency when in contact with a process fluid and at a second frequency when in contact with air. A drive circuit connected to the vibrating fork assembly is configured to drive the vibrating fork assembly into oscillation. Sense circuitry senses an oscillation frequency of the vibrating fork assembly. Output circuitry provides a first output when the sensed oscillation is at the first frequency and a second output when the sensed oscillation is at the second frequency. Control circuitry controls power applied to the vibrating fork assembly by the drive circuit between a first and a second power level. Verification circuitry verifies the oscillation frequency of the vibrating fork assembly when power applied to the vibrating fork assembly by the drive circuitry is changed.

Description

Claims

1. A vibrating fork liquid level switch, comprising: a vibrating fork assembly arranged to vibrate at a first frequency when in contact with a process fluid and at a second frequency when in contact with air;a drive circuit connected to the vibrating fork assembly configured to drive the vibrating fork assembly into oscillation;sense circuitry configured to sense an oscillation frequency of the vibrating fork assembly;output circuitry configured to provide a first output when the sensed oscillation is at the first frequency and a second output when the sensed oscillation is at the second frequency;control circuitry configured to control power applied to the vibrating fork assembly by the drive circuit between a first and a second power level; andverification circuitry configured to verify the oscillation frequency of the vibrating fork assembly when power applied to the vibrating fork assembly by the drive circuitry is changed.

2. The vibrating fork liquid level switch of claim 1 including a switch operated by the control circuitry to selectively disconnect the drive circuit from the vibrating fork assembly, and thereby control the power applied to the vibrating fork assembly.

3. The vibrating fork liquid level switch of claim 2 wherein the verification circuitry measures a first oscillation frequency of the vibrating fork assembly when the switch is closed.

4. The vibrating fork liquid level switch of claim 3 where in the control circuit opens the switch for a period of time and subsequently closes the switch, and the verification circuity measures a second oscillation frequency of the vibrating fork assembly when the switch is subsequently closed.

5. The vibrating fork liquid level switch of claim 4 including a frequency comparator that verifies the oscillation frequency of the vibrating fork assembly by comparing the first and second oscillation frequencies.

6. The vibrating fork liquid level switch of claim 1 wherein the control circuitry adjusts a power level applied by the drive circuit to the vibrating fork assembly.

7. The vibrating fork liquid level switch of claim 1 wherein the control circuitry controls power applied to the vibrating fork assembly by the drive circuit to the first power level, subsequently to the second power level and subsequently to the first power level.

8. The vibrating fork liquid level switch of claim 7 wherein the verification circuitry measures the oscillation frequency when the drive circuit is at the first power level prior to the second power level.

9. The vibrating fork liquid level switch of claim 8 wherein the verification circuit measures a second oscillation frequency of the vibrating fork assembly when the drive circuit is operated at the first power level subsequent to being operated at the second power level.

10. The vibrating fork liquid level switch of claim 9 wherein the verification circuitry compares the first oscillation frequency with the second oscillation frequency and responsively provides a verification output.

11. The vibrating fork liquid level switch of claim 1 wherein the verification circuitry is implemented in a microcontroller.

12. The vibrating fork liquid level switch of claim 1 wherein a verification test by the verification circuitry is performed in response to a receipt of a command received locally.

13. The vibrating fork liquid level switch of claim 1 wherein a verification test by the verification circuitry is performed in response to a receipt of a command received from a remote location.

14. The vibrating fork liquid level switch of claim 1 wherein the first and second outputs are provided on a two-wire process control loop.

15. A method for operating a vibrating fork liquid level switch, comprising: causing a vibrating fork assembly to vibrate at a first frequency when in contact with a process fluid and at a second frequency when in contact with air;driving the vibrating fork assembly into oscillation using a drive circuit;sensing an oscillation frequency of the vibrating fork assembly; andproviding a first output when the sensed oscillation is at a first frequency and a second output when the sensed oscillation is at a second frequency;controlling power applied to the vibrating fork assembly between a first and a second power level; andverifying operation of the vibrating fork liquid level switch based upon frequency of the vibrating fork assembly when power applied to the vibrating fork assembly is changed.

16. The method of claim 15 including controlling a switch to selectively disconnect drive circuit from the vibrating fork assembly.

17. The method of claim 15 includes adjusting a power level applied by the drive circuit to the vibrating fork assembly.

18. The method of claim 15 including controlling power applied to the vibrating fork assembly to the first power level, subsequently to the second power level and subsequently to the first power level.

19. The method of claim 19 wherein verifying includes measuring the oscillation frequency when vibrating fork assembly is at the first power level prior to the second power level.

20. The method of claim 19 wherein verifying includes measuring a second oscillation frequency of the vibrating fork assembly when the drive circuit is operated at the first power level subsequent to being operated at the second power level.

21. The method of claim 20 wherein verifying includes comparing the first oscillation frequency with the second oscillation frequency and responsively provides a verification output.

22. The method of claim 15 wherein the verifying is performed in response to a receipt of a command.