Solid state isolation device using opto-isolators
First Claim
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1. An isolation circuit for connecting analog transmit and receive channels in a user device to a line pair for full duplex communication on the line pair while providing an electrical isolation barrier between the user device and the line pair, comprising:
- transmit optical isolation means, having an input located on the user device side of the barrier and an output on the line side of the barrier and being responsive to signals at its input, for generating analog signals at its output linearly corresponding to analog signals at its input;
said transmit optical isolation means comprising a monolithic opto-isolator having an LED and first and second photodiodes, each photodiode, on being reverse biased, delivering a current proportional to the optical flux incident thereon, and a driver coupled between the transmit channel and said opto-isolator in a feedback configuration such that each of said first and second photodiodes delivers a current proportional to a voltage signal from the transmit channel;
receive optical isolation means, having an input located on the line side of the barrier and an output on the user device side of the barrier and being responsive to signals at its input, for generating analog signals at its output linearly corresponding to analog signals at its input;
means, devoid of coupling transformers, for coupling the input of said transmit optical isolation means to the transmit channel;
means, devoid of coupling transformers, for coupling the output of said receive optical isolation means to said receive channel; and
duplexing means, devoid of coupling transformers and coupled to the line pair, (a) for directing signals generated at the output of said transmit optical isolation means onto the line pair, (b) for directing signals on the line pair to the input of said receive optical isolation means, and (c) for preventing at least a portion of any signals on the line pair that correspond to signals generated at the output of said transmit optical isolation from reaching the input of said receive optical isolation means;
the isolation circuit being devoid of coupling transformers.
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Abstract
An isolation circuit (20) that is devoid of coupling transformers and yet suitable for use as a telephone line interface. The circuit is characterized by very wide bandwidth, low noise, and high linearity. Opto-isolators couple analog transmit and receive channels in a user device (12) across an isolation barrier (57) to a line pair for full duplex communication on the line pair. The interface circuit, which also includes a hybrid (55), includes first and second oppositely directed linear optocouplers (50,52). The first is disposed between the transmit channel and the hybrid; the second between the receive channel and the hybrid.
134 Citations
7 Claims
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1. An isolation circuit for connecting analog transmit and receive channels in a user device to a line pair for full duplex communication on the line pair while providing an electrical isolation barrier between the user device and the line pair, comprising:
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transmit optical isolation means, having an input located on the user device side of the barrier and an output on the line side of the barrier and being responsive to signals at its input, for generating analog signals at its output linearly corresponding to analog signals at its input; said transmit optical isolation means comprising a monolithic opto-isolator having an LED and first and second photodiodes, each photodiode, on being reverse biased, delivering a current proportional to the optical flux incident thereon, and a driver coupled between the transmit channel and said opto-isolator in a feedback configuration such that each of said first and second photodiodes delivers a current proportional to a voltage signal from the transmit channel; receive optical isolation means, having an input located on the line side of the barrier and an output on the user device side of the barrier and being responsive to signals at its input, for generating analog signals at its output linearly corresponding to analog signals at its input; means, devoid of coupling transformers, for coupling the input of said transmit optical isolation means to the transmit channel; means, devoid of coupling transformers, for coupling the output of said receive optical isolation means to said receive channel; and duplexing means, devoid of coupling transformers and coupled to the line pair, (a) for directing signals generated at the output of said transmit optical isolation means onto the line pair, (b) for directing signals on the line pair to the input of said receive optical isolation means, and (c) for preventing at least a portion of any signals on the line pair that correspond to signals generated at the output of said transmit optical isolation from reaching the input of said receive optical isolation means; the isolation circuit being devoid of coupling transformers. - View Dependent Claims (2, 3, 4)
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5. An isolation circuit for connecting analog transmit and receive channels in a user device to a line pair for full duplex communication on the line pair while providing an electrical isolation barrier between the user device and the line pair, comprising:
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a monolithic transmit opto-isolator having an LED and first and second photodiodes, each photodiode in said transmit opto-isolator, on being reverse biased, delivering a current proportional to the optical flux incident thereon; a transmit driver coupled between the transmit channel and said transmit opto-isolator in a feedback configuration such that each of said first and second photodiodes in said transmit opto-isolator delivers a current proportional to the voltage signal from the transmit channel; a transmit current amplifier having an input terminal coupled to said first photodiode in said transmit opto-isolator and having an output terminal; a monolithic receive opto-isolator having an LED and first and second photodiodes, each photodiode in said receive opto-isolator, on being reverse biased, delivering a current proportional to the optical flux incident thereon; a receive driver having an input terminal, said receive driver being coupled to said receive opto-isolator in a feedback configuration such that each of said first and second photodiodes in said receive opto-isolator delivers a current proportional to a voltage signal at said input terminal of said receive driver; a receive current-to-voltage amplifier coupled between said first photodiode in said receive opto-isolator and the receive channel; and duplexing means, devoid of coupling transformers and coupled to the line pair, (a) for directing signals generated at said output terminal of said transmit current amplifier onto the line pair, (b) for directing signals on the line pair to said input terminal of said receive driver, and (c) for preventing at least a portion of any signals on the line pair that correspond to signals generated at said output terminal of said transmit current amplifier from reaching said input terminal of said receive driver; the isolation circuit being devoid of coupling transformers. - View Dependent Claims (6, 7)
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Specification
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Current AssigneeCermetek Microelectronics Incorporated
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Original AssigneeCermetek Microelectronics Incorporated
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InventorsWilkison, Dennis E., Lee, Don N.
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Primary Examiner(s)NOT, DEFINED
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Assistant Examiner(s)Shehata, M.
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Application NumberUS07/775,628Time in Patent Office705 DaysField of Search379/379, 379/399, 379/405, 379/406, 379/345, 379/410, 379/402, 359/189, 359/157, 250/551US Class Current379/405CPC Class CodesH04M 7/0096 Trunk circuits
