Universal impedance matching network for the subscriber line integrated circuits
First Claim
1. A codifier/decodifier filter circuit connected in a subscriber line interface circuit, the subscriber line interface circuit connected to a subscriber instrument via a tip lead and a ring lead of a subscriber loop across which a subscriber loop impedance exists and to a digital switching network, the codifier/decodifier filter circuit, comprising:
- a transmit section for converting differential voltage audio transmit signals representing voice transmissions from the subscriber instrument into encoded digital data for transmission to the digital switching network;
a receive section for converting encoded digital data representing voice signals switched through the digital switching network to differential voltage audio receive signals for transmission to the subscriber instrument;
the subscriber loop and subscriber instrument being operable to reflect the digital voltage audio signals to the transmit section;
an impedance section connected between the transmit section and the receive section disposed to provide an audio band feedback signal between the transmit section and the receive section for synthesizing a source impedance for the subscriber line circuit that matches the subscriber loop impedance;
wherein the impedance section comprises a programmable digital filter coupled to the transmit section having a transfer function equal to (R2T)(1+z−
1)/(R1(T+2C2R2)(1+(T−
2R2C2)/(T+2R2C2)z−
1)
where R2 is the second subscriber loop impedance, C2 is the subscriber loop capacitance, R1 is the first subscriber loop impedance, T is the sampling rate of the analog-to-digital converter and z is the frequency of the signal, and a summer circuit coupled between the programmable digital filter and the receive section, the summer circuit arranged to sum the single-ended audio receive signals from the digital switching network with the audio band feedback signal output by the programmable digital filter.
1 Assignment
0 Petitions
Accused Products
Abstract
A codifier/decodifier (CODEC) filter circuit (250) connected in a subscriber line interface circuit (202) includes a transmit section (264, 262, 260) for converting differential voltage audio transmit signals representing voice transmissions from the subscriber instrument (202) into encoded digital data for transmission to the digital switching network. A receive section (254, 252) coupled between the digital switching network and subscriber instrument (202) within CODEC (250) for converting encoded digital data representing voice signals switched through the digital switching network to differential voltage audio receive signals for transmission to the subscriber instrument (202). The subscriber loop and subscriber instrument (202) reflect the digital voltage audio signals to the transmit section (264, 262, 260). An impedance section (258, 256) within CODEC (250) connects between the transmit section (264, 262, 260) and the receive section (254, 252) and is disposed to provide an audio band feedback signal between the transmit section (264, 262, 260) and the receive section (254, 252) for synthesizing a source impedance for the subscriber line that matches the subscriber loop impedance. Impedance section (258, 256) includes an analog impedance scaling network (246) coupled between the transmit section (264, 262, 260) and receive section (254, 252). The impedance section (258, 256) also includes a programmable digital filter (258) coupled to the transmit section (264, 262, 260) having a transfer function equal to:
(R2T)(1+z−1)/(R1(T+2C2R2)(1+(T−2R2C2)/(T+2R2C2)z−1)
where R2 is the second subscriber loop impedance, C2 is the subscriber loop capacitance, R1 is the first subscriber loop impedance, T is the sampling rate of the analog-to-digital converter and z is the frequency of the signal. Furthermore, a summer circuit (256) provides feedback between the programmable digital filter (258) and the receive section (254, 252) by summing the single-ended audio receive signals from the digital switching network with the audio band feedback signal output by the programmable digital filter (258).
72 Citations
7 Claims
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1. A codifier/decodifier filter circuit connected in a subscriber line interface circuit, the subscriber line interface circuit connected to a subscriber instrument via a tip lead and a ring lead of a subscriber loop across which a subscriber loop impedance exists and to a digital switching network, the codifier/decodifier filter circuit, comprising:
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a transmit section for converting differential voltage audio transmit signals representing voice transmissions from the subscriber instrument into encoded digital data for transmission to the digital switching network;
a receive section for converting encoded digital data representing voice signals switched through the digital switching network to differential voltage audio receive signals for transmission to the subscriber instrument;
the subscriber loop and subscriber instrument being operable to reflect the digital voltage audio signals to the transmit section;
an impedance section connected between the transmit section and the receive section disposed to provide an audio band feedback signal between the transmit section and the receive section for synthesizing a source impedance for the subscriber line circuit that matches the subscriber loop impedance;
wherein the impedance section comprises a programmable digital filter coupled to the transmit section having a transfer function equal to (R2T)(1+z−
1)/(R1(T+2C2R2)(1+(T−
2R2C2)/(T+2R2C2)z−
1)
where R2 is the second subscriber loop impedance, C2 is the subscriber loop capacitance, R1 is the first subscriber loop impedance, T is the sampling rate of the analog-to-digital converter and z is the frequency of the signal, anda summer circuit coupled between the programmable digital filter and the receive section, the summer circuit arranged to sum the single-ended audio receive signals from the digital switching network with the audio band feedback signal output by the programmable digital filter. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for transferring data within a codifier/decodifier filter circuit connected in a subscriber line interface circuit from a subscriber instrument having a tip lead and a ring lead of a subscriber loop across which a subscriber loop impedance exists to a digital switching network, comprising the steps of:
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converting a differential voltage audio transmit signal representing a voice transmission received by a transmit section of the codifier/decodifier filter circuit from the subscriber instrument into encoded digital data for transmission to the digital switching network;
synthesizing a source impedance for the subscriber line circuit that matches the subscriber loop impedance using an impedance section coupled to the transmit section, the impedance section having a programmable digital filter having a transfer function equal to the;
(R2T)(1+z−
1)/(R1(T+2C2R2)(1+(T−
2R2C2)/(T+2R2C2)z−
1)where R2 is the second subscriber loop impedance, C2 is the subscriber loop capacitance, R1 is the first subscriber loop impedance, T is the sampling rate of the analog-to-digital converter and z is the frequency of the signal;
summing the synthesized source impedance with encoded digital data representing a voice signal switched through the digital switching network and received by a receive section of the codifier/decodifier filter circuit; and
converting the sum into a differential voltage audio receive signal for transmission to the subscriber instrument.
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Specification
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- Resources
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Current AssigneeTexas Instruments, Inc.
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Original AssigneeTexas Instruments, Inc.
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InventorsHester, Richard K., Wang, Minsheng
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current370/465
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CPC Class CodesH04M 3/005 Interface circuits for subs...
