Differential line driver circuit
First Claim
1. A differential line driver circuit for driving a line signal output via a signal line, said circuit comprising:
- a first input terminal and a second input terminal for the application of an input signal, a fully differential operational amplifier having an inverting signal input connected to the first input terminal, a non-inverting signal input connected to the second input terminal, a first signal output for providing an amplified output signal in phase with the input signal, and a second signal output for providing an amplified output signal in phase opposition with the input signal, gain adjusting impedances for adjusting the gain of the differential line driver circuit, the gain adjusting impedances being connected between an input terminal of the line driver circuit and a signal input of the operational amplifier, a first feedback impedance connected between the inverting signal input of the operational amplifier and the first signal output of the operational amplifier, a second feedback impedance connected between the non-inverting signal input of the operational amplifier and the second signal output of the operational amplifier, a first matching impedance connected between the first signal output of the operational amplifier and a first output terminal of the line driver circuit, and a second matching impedance connected between the second signal output of the operational amplifier and a second output terminal of the line driver circuit, a first positive-feedback impedance connected between the first output terminal of the line driver circuit and the non-inverting signal input of the operational amplifier, and a second positive-feedback impedance, connected between the second output terminal of the line driver circuit and the inverting input of the operational amplifier, the output impedance of the line driver circuit being matched to the impedance of the line.
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Accused Products
Abstract
A differential line driver circuit having an output impedance matched to the line impedance includes first and second input terminals for the application of an input signal, a fully differential operational amplifier having inverting and non-inverting signal inputs connected to first and second input terminals respectively, first and second signal outputs providing in-phase and quadrature amplified output signals, and gain adjusting impedances connected between the input terminals and the amplifier'"'"'s signal inputs. First and second feedback impedances connect between inverting and non-inverting signal inputs of the amplifier and its first and second signal outputs. First and second matching impedances connect first and second amplifier outputs to corresponding output terminals of the line-driver circuit. First and second positive-feedback impedances connect the first and second output terminals of the line driver circuit to the non-inverting and inverting inputs of the amplifier.
18 Citations
12 Claims
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1. A differential line driver circuit for driving a line signal output via a signal line, said circuit comprising:
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a first input terminal and a second input terminal for the application of an input signal, a fully differential operational amplifier having an inverting signal input connected to the first input terminal, a non-inverting signal input connected to the second input terminal, a first signal output for providing an amplified output signal in phase with the input signal, and a second signal output for providing an amplified output signal in phase opposition with the input signal, gain adjusting impedances for adjusting the gain of the differential line driver circuit, the gain adjusting impedances being connected between an input terminal of the line driver circuit and a signal input of the operational amplifier, a first feedback impedance connected between the inverting signal input of the operational amplifier and the first signal output of the operational amplifier, a second feedback impedance connected between the non-inverting signal input of the operational amplifier and the second signal output of the operational amplifier, a first matching impedance connected between the first signal output of the operational amplifier and a first output terminal of the line driver circuit, and a second matching impedance connected between the second signal output of the operational amplifier and a second output terminal of the line driver circuit, a first positive-feedback impedance connected between the first output terminal of the line driver circuit and the non-inverting signal input of the operational amplifier, and a second positive-feedback impedance, connected between the second output terminal of the line driver circuit and the inverting input of the operational amplifier, the output impedance of the line driver circuit being matched to the impedance of the line. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
the gain adjusting impedances, the feedback impedances, the positive feedback impedances, and the matching impedances is a complex impedance. -
11. The differential line driver circuit as claimed in one of the preceding claims, wherein the impedance values of at least one impedance selected from the group consisting of
the matching impedances, the feedback impedances, the positive feedback impedances, and the adjusting impedances are switched over by switching devices. -
12. The differential line driver circuit as claimed in claim 1, wherein the fully differential operational amplifier further comprises a common mode signal input.
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Specification