Claims
- 1. A calibration circuit for a differential input preamplifier having first and second preamplifier input leads, said calibration circuit comprising:
first and second capacitors connected to respective said first and second preamplifier input leads, said first and second capacitors having different capacitance values; and a calibration signal source connected between said first and second capacitors for applying a calibration signal.
- 2. The calibration circuit of claim 1 wherein said first and second capacitors are implemented on a monolithic integrated circuit with said preamplifier.
- 3. The calibration circuit of claim 1 wherein said first and second capacitors and said calibration signal source are implemented on a monolithic integrated circuit with said preamplifier.
- 4. A calibrated preamplifier for use with a sensor, comprising:
a differential input, single-ended output amplifier; and a calibration circuit connected across first and second input leads of said differential input, single-ended output amplifier, wherein said calibration circuit applies a calibration signal to create a difference voltage between said inputs, wherein said amplifier and said calibration circuit are implemented on a monolithic integrated circuit.
- 5. The calibrated preamplifier of claim 4 wherein said calibration circuit comprises:
first and second capacitors connected to respective said first and second input leads of said amplifier, said first and second capacitors having different capacitance values; and a calibration signal source connected between said first and second capacitors for applying said calibration signal.
- 6. The calibrated preamplifier of claim 4 further including first and second input resistors connected across said first and second input leads of said differential input, single-ended output amplifier.
- 7. The calibrated preamplifier of claim 5 further including first and second input resistors connected across said first and second input leads of said differential input, single-ended output amplifier.
- 8. A sensor system comprising:
a sensor having first and second output leads; a preamplifier having first and second input leads connected to said first and second output leads of said sensor; and a calibration circuit connected across said first and second output leads of said sensor and respectively across said first and second input leads of said preamplifier, wherein said calibration circuit applies a calibration signal to create a difference voltage between said input leads such that the preamplifier output voltage indicates the presence or absence of sensor impedance.
- 9. The sensor system of claim 8 wherein said calibration circuit comprises:
first and second capacitors connected to respective said first and second input leads of said preamplifier, said first and second capacitors having different capacitance values; and a calibration signal source connected between said first and second capacitors for applying said calibration signal.
- 10. The sensor system of claim 9 wherein said preamplifier and said first and second calibration capacitors are implemented on a monolithic integrated circuit.
- 11. The sensor system of claim 9 wherein said preamplifier, said calibration circuit, and said calibration signal source are implemented on a monolithic integrated circuit.
- 12. The sensor system of claim 8 wherein said preamplifier and said calibration circuit are implemented on a monolithic integrated circuit.
- 13. The sensor system of claim 8 wherein said preamplifier includes first and second input resistors connected across said first and second input leads of said preamplifier, wherein said resistors form an analog filter with the sensor capacitance.
- 14. The sensor system of claim 9 wherein said preamplifier includes first and second input resistors connected across said first and second input leads of said preamplifier, wherein said resistors form an analog filter with the sensor capacitance.
- 15. The sensor system of claim 8 wherein said sensor is a hydrophone.
- 16. The sensor system of claim 8 wherein the capacitance values of said first and second capacitors are less than the capacitance of said sensor.
STATEMENT OF GOVERNMENT INTEREST
[0001] The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without the payment of any royalties thereon or therefore.
Divisions (1)
|
Number |
Date |
Country |
Parent |
09932565 |
Aug 2001 |
US |
Child |
10390696 |
Mar 2003 |
US |