RC-Active filters

US 4,553,103 A
Filed: 06/27/1983
Issued: 11/12/1985
Est. Priority Date: 06/29/1982
Status: Expired due to Fees

First Claim

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1. A second-order filter section comprising:

a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements and having;

a first resistance element (R_a),a first capacitance element (C_E),a first node (α

) connected to the inverting input of the amplifier via a second resistance element (R_b), to the output terminal of the amplifier via a third resistance element (R_c), and to circuit ground via a second capacitance element (C_D); and

a second node (β

) connected to the inverting input of the amplifier via a third capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a fourth capacitance element (C_G) and a fourth resistance element (R_g), and to circuit ground via a fifth resistance element (R_h),the input terminal being connected to the first node (α

) via the first resistance element (R_a) and to the second node (β

) via the first capacitance (C_E).

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Abstract

Second and third-order RC active filter sections are described both based on a similar basic twin-tee network. The circuits include a single operational amplifier and are such that the poles and zeros of the network can be adjusted with little interaction by varying resistances in sequence. It is possible to construct the sections using capacitors of wide tolerance.

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18 Claims

1. A second-order filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements and having;
  
  a first resistance element (R_a),a first capacitance element (C_E),a first node (α
  
  ) connected to the inverting input of the amplifier via a second resistance element (R_b), to the output terminal of the amplifier via a third resistance element (R_c), and to circuit ground via a second capacitance element (C_D); and
  
  a second node (β
  
  ) connected to the inverting input of the amplifier via a third capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a fourth capacitance element (C_G) and a fourth resistance element (R_g), and to circuit ground via a fifth resistance element (R_h),the input terminal being connected to the first node (α
  
  ) via the first resistance element (R_a) and to the second node (β
  
  ) via the first capacitance (C_E).

2. A second-order bandpass filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements and having;
  
  a first node (α
  
  ) connected to the inverting input of the amplifier via a first resistance element (R_b), to the output terminal of the amplifier via a second resistance element (R_c), anda second node (β
  
  ) connected to the inverting input of the amplifier via a first capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a second capacitance element (C_G) and a third resistance element (R_g), and further comprising;
  
  a connection between the input terminal and the first junction point via a third capacitance element (C_A), and a connection between the second junction point and circuit ground via a fourth resistance element (R_h).

3. A second-order filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements and having;
  
  a first node (α
  
  ) connected to the inverting input of the amplifier via a first resistance element (R_b), to the output terminal of the amplifier via a second resistance element (R_c),a second node (β
  
  ) connected to the inverting input of the amplifier via a first capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a second capacitance element (C_G) and a third resistance element (Rg), andseries resistance elements (R_x) and (R_y) connected between the input terminal and circuit ground, the junction between these series resistance elements being connected to the non-inverting input terminal of the amplifier, and further comprisinga connection between the input terminal and the first junction point via a third capacitance element (C_A), and a connection between the second junction point and circuit ground via a fourth resistance element (R_h).

4. A third-order lowpass filter section comprising a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section, a twin-tee network, comprising resistance and capacitance elements and an input network, comprising an input terminal connected to an input resistance element (R_p);
- the twin-tee network having a first node (α
  
  ) connected to that terminal of the input resistance element remote from the input terminal via a first resistance element (R_a), to the inverting input of the amplifier via a second resistance element (R_b), to the output terminal of the amplifier via a third resistance element (R_c), and to circuit ground via a first capacitance element (C_D); and
  
  a second node (β
  
  ) connected to that terminal of the input resistance element remote from the input terminal via a second capacitance element (C_E), to the inverting input of the amplifier via a third capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a fourth capacitance element (C_G) and a fourth resistance element (R_g), and to circuit ground via a fifth resistance element (R_h).
- View Dependent Claims (5, 6, 7, 8, 9)
- - 5. A third-order lowpass filter section as claimed in claim 4 wherein the input network includes an input capacitance element (C_Q) connected between circuit ground and the junction of the input resistance element with the first resistance (R_a) and second capacitance (C_E) elements.
  - 6. A third-order lowpass filter section as claimed in claim 4 wherein the product of the values of the admittance of the first resistance element (R_a) and the third capacitance element (C_F) is substantially equal to the product of the values of the admittance of the second resistance element (R_b) and the second capacitance element (C_E).
  - 7. A third order filter section as in claim 4 in further combination with m second-order sections, m being an integer.
  - 8. A plurality m of third order filter sections as in claim 4 inter-connected to provide an RC-active filter of order 3m, m being an integer.
  - 9. A third order lowpass filter section as claimed in claim 4 in further combination with a summing amplifier whose output terminal provides the network output, the inverting input terminal of the summing amplifier being connected to the output terminal of said amplifier of the lowpass filter section by a first additional resistance element (R_y), and to the input terminal of said lowpass filter section via a second additional resistance element (R_w) and to the output terminal of the summing amplifier via a third additional resistance element (R_x).

10. A third-over highpass filter section comprising a single high gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,a twin-tee network comprising resistance and capacitance elements,and an input network comprising an input junction point connected to the input terminal of the section via a capacitance element (C_p '"'"'),the twin-tee network having a first node connected to the input junction point via a first resistance element (R_a '"'"') to the inverting input of the amplifier via a second resistance element (R_b '"'"'), to the output terminal of the amplifier via a third resistance element (R_c '"'"') and to circuit ground via a first capacitance element (C_D '"'"');
- and a second node connected to the input junction point via a second capacitance element (C_E '"'"'), to the inverting input of the amplifier by a third capacitance element (C_F '"'"'), to the output terminal of the amplifier via the parallel combination of a fourth capacitance element (C_G '"'"') and a fourth resistance element (R_g '"'"'), and to circuit ground via a fifth resistance element (R_h '"'"').
- View Dependent Claims (11, 12)
- - 11. A third-order highpass filter section as claimed in claim 10 wherein the input network includes an input resistance element (R_g '"'"') connected between circuit ground and the input junction point.
  - 12. A third-order highpass filter section as claimed in claim 10 wherein the product of the values of the admittance of the first resistance element (R_a '"'"') and the third capacitance element (C_F '"'"') is substantially equal to the product of the values of the admittance of the second resistance element (R_b '"'"') and the second capacitance element (C_E '"'"').

13. A second order filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements having;
  
  a first resistance element (R_a),a first node (α
  
  ) connected to the inverting input of the amplifier via a second resistance element (R_b), to the output terminal of the amplifier via a third resistance element (R_c), and to circuit ground via a first capacitance element (C_D); and
  
  a second node (β
  
  ) connected to the inverting input of the amplifier via a second capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a third capacitance element (C_G) and a fourth resistance element (Rg), and to circuit ground via a fifth resistance element (R_h),the input terminal being connected to the first node (α
  
  ) via the first resistance element (R_a).

14. A second-order filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements having;
  
  a first capacitance element (C_E),a first node (α
  
  ) connected to the inverting input of the amplifier via a first resistance element (R_b), to the output terminal of the amplifier via a second resistance element (R_c), and to circuit ground via a second capacitance element (C_D), anda second node (β
  
  ) connected to the inverting input of the amplifier via a third capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a fourth capacitance element (C_G) and a third resistance element (R_g), and to circuit ground via a fourth resistance element (R_h),the input terminal being connected to the second node (β
  
  ) via the first capacitance (C_E).

15. A second-order bandpass filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements and having;
  
  a first node (α
  
  ) connected to the inverting input of the amplifier via a first resistance element (R_b), to the output terminal of the amplifier via a second resistance element (R_c), anda second node (β
  
  ) connected to the inverting input of the amplifier via a first capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a second capacitance element (C_G) and a third resistance element (R_g), and further comprising;
  
  a connection between the input terminal and the second junction point via a fourth resistance element (R_e) and a connection between the first junction point and circuit ground via a third capacitance element (C_D).

16. A second-order bandpass filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements and having;
  
  a first node (α
  
  ) connected to the inverting input of the amplifier via a first resistance element (R_b), to the output terminal of the amplifier via a second resistance element (R_c), anda second node (β
  
  ) connected to the inverting input of the amplifier via a first capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a second capacitance element (C_G) and a third resistance element (R_g), and further comprising;
  
  a connection between the input terminal and the second junction point via a fourth resistance element (R_e) and a connection between the input terminal and the first junction point via a third capacitance element (C_A).

17. A second-order filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements and having;
  
  a first node (α
  
  ) connected to the inverting input of the amplifier via a first resistance element (R_b), to the output terminal of the amplifier via a second resistance element (R_c),a second node (β
  
  ) connected to the inverting input of the amplifier via a first capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a second capacitance element (C_G) and a third resistance element (Rg), andseries resistance elements (R_x) and (R_y) connected between the input terminal and circuit ground, the junction between these series resistance elements being connected to the non-inverting input terminal of the amplifier, and further comprising a connection between the input terminal and the second junction point via a fourth resistance element (R_e) and a connection between the first junction point and circuit ground via a third capacitance element (C_D).

18. A second-order filter section comprising:
- a single high-gain, high input impedance, inverting amplifier with low output impedance whose output terminal provides the output terminal of the section,an input terminal, anda twin-tee network, comprising resistance and capacitance elements and having;
  
  a first node (α
  
  ) connected to the inverting input of the amplifier via a first resistance element (R_b), to the output terminal of the amplifier via a second resistance element (R_c),a second node (β
  
  ) connected to the inverting input of the amplifier via a first capacitance element (C_F), to the output terminal of the amplifier via the parallel combination of a second capacitance element (C_G) and a third resistance element (Rg), andseries resistance elements (R_x) and (R_y) connected between the input terminal and circuit ground, the junction between these series resistance elements being connected to the non-inverting input terminal of the amplifier, and further comprising a connection between the input terminal and the second junction point via a fourth resistance element (R_e) and a connection between the input terminal and the first junction point via a third capacitance element (C_A).

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Litigation Campaign Assessment

Current Assignee
British Telecommunications PLC (BT Group PLC)
Original Assignee
British Telecommunications (BT Group Plc) (BT Group PLC)
Inventors
Rollett, John M.
Primary Examiner(s)
Mullins, James B.

Application Number

US06/508,187
Time in Patent Office

869 Days
Field of Search

330/107, 330/109, 330/126, 330/294, 307/520, 328/167
US Class Current

330/107
CPC Class Codes

H03H 11/1295 Parallel-T filters

H03H 11/18 Two-port phase shifters pro...

RC-Active filters

First Claim

4 Assignments

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Abstract

Citations

18 Claims

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RC-Active filters

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Citations

18 Claims

Specification

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