Filter with controlled offsets for active filter selectivity and DC offset control

US 6,429,733 B1
Filed: 05/13/1999
Issued: 08/06/2002
Est. Priority Date: 05/13/1999
Status: Expired due to Term

First Claim

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1. In a filter for filtering selected frequencies from a differential input signal wherein the differential input signal has a positive input signal and a negative input signal, the filter effectively removing a first frequency from the differential input signal while effectively passing a second frequency, the filter having a positive input terminal for receiving the positive input signal of the differential input signal and a negative input terminal for receiving the negative input signal of the differential input signal, wherein the improvement comprises:

comparing means for comparing the positive input signal and the negative input signal, and providing a control signal that is related to the difference between the positive input signal and the negative input signal;

filter means for filtering the control signal, said filtering means substantially preventing the control signal from tracking the difference between the positive input signal and the negative input signal at the second frequency, while substantially allowing the control signal to track the difference between the positive input signal and the negative input signal at the first frequency, said filter means including matched capacitors; and

offset means for receiving the control signal and for providing one or more offset signals to the positive input terminal and the negative input terminal of the filter, the one or more offset signals effectively removing the difference between the positive input signal and the negative input signal of the differential input signal at the first frequency, and not substantially affecting the difference between the positive input signal and the negative input signal of the differential input signal at the second frequency, the first frequency being higher than the second frequency.

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Abstract

A filter is disclosed that actively controls one or more filter characteristics, such as the cut-off frequency of a selected filter pole, while minimizing the value of selected filter components such as the capacitor components. This helps improve the performance, reliability and yield of the filter. The filter rejects a selected frequency component or frequency band by actively providing an offset signal that effectively cancels the rejected frequency component or frequency band, while allowing the remaining frequency components or frequency bands to pass relatively freely to the output of the filter. The offset signal may also be used to actively reject a DC offset voltage or current from the input signal.

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25 Claims

1. In a filter for filtering selected frequencies from a differential input signal wherein the differential input signal has a positive input signal and a negative input signal, the filter effectively removing a first frequency from the differential input signal while effectively passing a second frequency, the filter having a positive input terminal for receiving the positive input signal of the differential input signal and a negative input terminal for receiving the negative input signal of the differential input signal, wherein the improvement comprises:
- comparing means for comparing the positive input signal and the negative input signal, and providing a control signal that is related to the difference between the positive input signal and the negative input signal;
  
  filter means for filtering the control signal, said filtering means substantially preventing the control signal from tracking the difference between the positive input signal and the negative input signal at the second frequency, while substantially allowing the control signal to track the difference between the positive input signal and the negative input signal at the first frequency, said filter means including matched capacitors; and
  
  offset means for receiving the control signal and for providing one or more offset signals to the positive input terminal and the negative input terminal of the filter, the one or more offset signals effectively removing the difference between the positive input signal and the negative input signal of the differential input signal at the first frequency, and not substantially affecting the difference between the positive input signal and the negative input signal of the differential input signal at the second frequency, the first frequency being higher than the second frequency.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. A filter according to claim 1, wherein the one or more offset signals cause both the positive input signal and the negative input signal to have a predetermined DC reference voltage component at the first frequency.
  - 3. A filter according to claim 1, wherein said comparing means comprises a differential amplifier circuit having a positive input port, a negative input port, a positive output port and a negative output port, the positive input port is coupled to the positive input terminal of the filter, and the negative input port is coupled to the negative input terminal of the filter.
  - 4. A filter according to claim 3, wherein said offset means comprises a differential pair of transistors each having a gate, the gate of a first one of the differential pair of transistors is coupled to the positive output port of the differential amplifier circuit, and the gate of a second one of the differential pair of transistors is coupled to the negative output port of the differential amplifier circuit.
  - 5. A filter according to claim 4, wherein said filter means includes a first filter having one of the matched capacitors coupled to the positive output port of the differential amplifier circuit.
  - 6. A filter according to claim 5, wherein said filter means further includes a second filter having another one of the matched capacitors coupled to the negative output port of the differential amplifier circuit.
  - 7. A filter according to claim 5 wherein said first filter includes an inductance element.
  - 8. A filter according to claim 5 wherein said first filter includes a resistance element.
  - 9. A filter according to claim 6 wherein said first filter and said second filter provide the same impedance.

10. In a filter for filtering selected frequencies from a differential input signal wherein the differential input signal has a positive input signal and a negative input signal, the filter effectively removing a first frequency from the differential input signal while effectively passing a second frequency, the filter having a positive input terminal for receiving the positive input signal of the differential input signal and a negative input terminal for receiving the negative input signal of the differential input signal, wherein the improvement comprises:
- comparing means for comparing the positive input signal and the negative input signal, and providing a control signal that is related to the difference between the positive input signal and the negative input signal, said comparing means including a differential amplifier circuit having a positive input port, a negative input port, a positive output port and a negative output port, the positive input port is coupled to the positive input terminal of the filter, and the negative input port is coupled to the negative input terminal of the filter;
  
  filter means for filtering the control signal, said filtering means substantially preventing the control signal from tracking the difference between the positive input signal and the negative input signal at the second frequency, while substantially allowing the control signal to track the difference between the positive input signal and the negative input signal at the first frequency;
  
  said filter means including a first filter coupled to the positive output port of the differential amplifier circuit, and a second filter coupled to the negative output port of the differential amplifier circuit, wherein the said first filter includes a fist capacitor and said second filter includes a second capacitor, the first capacitor and the second capacitor are matched capacitors;
  
  offset means for receiving the control signal and for providing one or more offset signals to the positive input terminal and the negative input terminal of the filter, the one or more offset signals effectively removing the difference between the positive input signal and the negative input signal of the differential input signal at the first frequency, and not substantially affecting the difference between the positive input signal and the negative input signal of the differential input signal at the second frequency, the first frequency being higher than the second frequency.

11. A filter for filtering selected frequencies from a differential input signal, wherein the differential input signal has a positive input signal and a negative input signal, the filter effectively removing a first frequency from the differential input signal while effectively passing a second frequency, the filter having a positive input terminal for receiving the positive input signal of the differential input signal and a negative input terminal for receiving the negative input signal of the differential input signal, the filter comprising:
- comparing means for comparing the positive input signal and the negative input signal of the differential input signal, and providing a control signal that is related to the difference between the positive input signal and the negative input signal, said comparing means including a differential amplifier circuit having a positive input port, a negative input port, a positive output port and a negative output port, the positive input port is coupled to the positive input terminal of the filter, and the negative input port is coupled to the negative input terminal of the filter;
  
  filter means for filtering the control signal, said filtering means substantially preventing the control signal from tracking the difference between the positive input signal and the negative input signal at the second frequency, while substantially allowing the control signal to track the difference between the positive input signal and the negative input signal at the first frequency;
  
  offset means for receiving the control signal and for providing one or more offset signals to the positive input terminal and the negative input terminal of the filter, the one or more offset signals effectively removing the difference between the positive input signal and the negative input signal of the differential input signal at the first frequency, and not substantially affecting the difference between the positive input signal and the negative input signal of the differential input signal at the second frequency; and
  
  said offset means including a differential pair of transistors each with a gate terminal, a source terminal and a drain terminal, the gate terminal of a first one of the differential pair of transistors is coupled to the positive output port of the differential amplifier circuit, the gate of a second one of the differential pair of transistors is coupled to the negative output port of the differential amplifier circuit, the drain terminal of the first one of the differential pair of transistors is coupled to the positive input signal of the filter, the drain terminal of the second one of the differential pair of transistors is coupled to the negative input signal of the filter, the source terminal of the first one of the differential pair of transistors is coupled either directly or indirectly to a voltage supply, and the source terminal of the second one of the differential pair of transistors is coupled either directly or indirectly to the voltage supply.
- View Dependent Claims (12, 13, 14, 15)
- - 12. A filter according to claim 11, wherein the one or more offset signals cause both the positive input signal and the negative input signal to have a predetermined DC reference voltage component at the first frequency.
  - 13. A filter according to claim 11, wherein said filter means includes a first filter coupled to the positive output port of the differential amplifier circuit and a second filter coupled to the negative output port of the differential amplifier circuit.
  - 14. A filter according to claim 13, wherein said first filter and said second filter provide an impedance that is frequency dependent.
  - 15. A filter according to claim 14, wherein said first filter and said second filter each include a capacitance element.

16. A method for filtering a first frequency from a differential input signal while allowing a second frequency to pass relatively freely therethrough, wherein the differential input signal includes a positive input signal and a negative input signal, the method comprising the steps of:
- comparing the positive input signal and the negative input signal of the differential input signal;
  
  providing a control signal that is related to the difference between the positive input signal and the negative input signal;
  
  filtering the control signal to substantially prevent the control signal from tracking the difference between the positive input signal and the negative input signal at the second frequency, but substantially allowing the control signal to track the difference between the positive input signal and the negative input signal at the first frequency, wherein the control signal is filtered using at least a pair of matched capacitors, the first frequency being higher than the second frequency; and
  
  providing offset signals, controlled by the control signal, to effectively cancel out the differential input signal, the offset signals effectively canceling out the differential input signal only when the control signal substantially tracks the difference between the positive input signal and the negative input signal.

17. A filter for filtering selected frequencies from an input signal, the filter effectively removing a first frequency from the input signal while effectively passing a second frequency, the filter having an input terminal for receiving the input signal, the filter comprising:
- control means for providing a control signal that is related to the difference between the input signal and a reference signal; and
  
  offset means for receiving the control signal, the offset means having at least one transistor with a gate terminal, a source terminal and a drain terminal, the gate terminal being coupled to the control signal, the drain terminal being coupled to the input signal of the filter, and the source terminal being coupled either directly or indirectly to a voltage supply, the at least one transistor for providing an offset signal to the input terminal of the filter to effectively cancel out the input signal at the first frequency, while not substantially affecting the input signal at the second frequency, wherein said offset means includes a filter means for filtering the control signal, said filter means substantially preventing the control signal from tracking the input signal at the second frequency, while substantially allowing the control signal to track the input signal at the first frequency.
- View Dependent Claims (18, 19)
- - 18. A filter according to claim 17 wherein said control means comprises a differential amplifier circuit having a first input port and a second input port, the input signal being provided to the first input port and the reference signal being provided to the second input port.
  - 19. A filter according to claim 17 wherein said control means comprises a buffer circuit having a single input port for receiving the input signal.

20. A filter for filtering selected frequencies from an input signal, the filter effectively removing a first frequency from the input signal while effectively passing a second frequency, the filter having an input terminal for receiving the input signal, the filter comprising:
- control means for providing a control signal that is related to the difference between the input signal and a reference signal;
  
  offset means having at least one transistor with a gate terminal, a source terminal and a drain terminal, the gate terminal being coupled to the control signal, the drain terminal being coupled to the input signal of the filter, and the source terminal being coupled either directly or indirectly to a voltage supply, the at least one transistor for providing a corresponding offset signal to the input terminal of the filter; and
  
  filter means for filtering the control signal, said filtering means substantially preventing the control signal from tracking the input signal at the second frequency, while substantially allowing the control signal to track the input signal at the first frequency, the first frequency being higher than the second frequency.
- View Dependent Claims (21, 22, 23, 24)
- - 21. A filter according to claim 20, wherein said reference signal is ground.
  - 22. A filter according to claim 21, wherein said control means includes a buffer circuit having a single input port for receiving the input signal.
  - 23. A filter according to claim 22, wherein the buffer is a non-inverting buffer.
  - 24. A filter according to claim 22, wherein the buffer is an inverting buffer.

25. A method for filtering a first frequency from an input signal while allowing a second frequency to pass relatively freely therethrough, wherein neither the first frequency or second frequency are DC signals, the method comprising the steps of:
- providing a control signal that is related to the difference between the input signal and a reference signal;
  
  filtering the control signal to substantially prevent the control signal from tracking the difference between the input signal and the reference signal at the second frequency, but substantially allowing the control signal to track the difference between the input signal and the reference signal at the first frequency; and
  
  actively providing an offset signal, controlled by the control signal, to effectively cancel out the input signal, the offset signal effectively canceling out the input signal only when the control signal substantially tracks the difference between the input signal and the reference signal, wherein said offset signal is provided by the drain terminal of at least one transistor having a gate terminal, a source terminal and the drain terminal, with the gate terminal coupled to the control signal, the drain terminal coupled to the input signal, and the source terminal coupled either directly or indirectly to a voltage supply.

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Current Assignee
Honeywell Incorporated (Honeywell International Inc.)
Original Assignee
Honeywell International Inc.
Inventors
Pagliolo, Joseph P., Yates, Steven B.
Primary Examiner(s)
Cunningham, Terry D.
Assistant Examiner(s)
NGUYEN, LONG T

Application Number

US09/311,246
Time in Patent Office

1,181 Days
Field of Search

327/551-555, 327/557-559, 327/307, 327/52, 327/54, 327/65, 327/67, 327/77, 327/87, 327/89, 327/336, 327/345, 330/9, 330/85, 330/294, 330/260, 330/253-254
US Class Current

327/552
CPC Class Codes

H03H 11/0422 using transconductance ampl...

H03H 2011/0488 Notch or bandstop filters

Filter with controlled offsets for active filter selectivity and DC offset control

First Claim

2 Assignments

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Abstract

82 Citations

25 Claims

Specification

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Filter with controlled offsets for active filter selectivity and DC offset control

First Claim

2 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

82 Citations

25 Claims

Specification

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Solutions

Use Cases

Quick Links