Method and circuit for creating phantom sources using phase shifting circuitry
First Claim
1. A circuit arrangement, comprising:
- a first input and a second input for receiving, respectively, a left channel input signal and a right channel input signal of an input stereo signal;
first phase shifting means coupled to the first input for phase shifting the left channel input signal;
second phase shifting means also coupled to the first input for phase shifting the left channel input signal;
third phase shifting means coupled to the second input for phase shifting the right channel input signal;
fourth phase shifting means also coupled to the second input for phase shifting the right channel signal;
first summing means having a first input coupled to an output of the first phase shifting means, a second input coupled to an output of the third phase shifting means, and an output for providing a left channel output signal; and
second summing means having a first input coupled to an output of the fourth phase shifting means, a second input coupled to an output of the second phase shifting means, and an output for providing a right channel output signal;
and wherein for the first and second summing means, a different gain is applied to each different input of the first and second summing means.
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Abstract
In portable stereo radio receivers and television receivers, the loudspeakers therein may be separated only by a limited amount. This severely restricts the stereo image created by the loudspeakers. A circuit arrangement for creating an expanded stereo image may be incorporated in such receivers. This circuit arrangement includes, for each stereo channel, a first and a second all-pass 0°-180° phase shifter, wherein the first phase shifter shifts the input signal by 90° at a frequency of 10 KHz, while the second phase shifter shifts the input signal by 90° at a frequency of 100 Hz. The output from the first phase shifter in the left channel is combined with the output from the second phase shifter in the right channel to form the left channel output signal. Similarly, the output from the first phase shifter in the right channel is combined with the output from the second phase shifter in the left channel to form the right channel output signal.
26 Citations
8 Claims
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1. A circuit arrangement, comprising:
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a first input and a second input for receiving, respectively, a left channel input signal and a right channel input signal of an input stereo signal; first phase shifting means coupled to the first input for phase shifting the left channel input signal; second phase shifting means also coupled to the first input for phase shifting the left channel input signal; third phase shifting means coupled to the second input for phase shifting the right channel input signal; fourth phase shifting means also coupled to the second input for phase shifting the right channel signal; first summing means having a first input coupled to an output of the first phase shifting means, a second input coupled to an output of the third phase shifting means, and an output for providing a left channel output signal; and second summing means having a first input coupled to an output of the fourth phase shifting means, a second input coupled to an output of the second phase shifting means, and an output for providing a right channel output signal; and wherein for the first and second summing means, a different gain is applied to each different input of the first and second summing means. - View Dependent Claims (2, 3, 5)
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4. A circuit arrangement, comprising:
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a first input and a second input for receiving respectively, a left channel input signal and a right channel input signal of an input stereo signal; first phase shifting means coupled to the first input for phase shifting the left channel input signal; second phase shifting means also coupled to the first input for phase shifting the left channel input signal; third phase shifting means coupled to the second input for phase shifting the right channel input signal; fourth phase shifting means also coupled to the second input for phase shifting the right channel signal; first summing means having a first input coupled to an output of the first phase shifting means, a second input coupled to an output of the third phase shifting means, and an output for providing a left channel output signal; and second summing means having a first input coupled to an output of the fourth phase shifting means, a second input coupled to an output of the second phase shifting means, and an output for providing a right channel output signal. and wherein; the first, second, third and fourth phase shifting means each comprises an all-pass 0°
-180°
phase shifter;an amount that an input signal is phase shifted is dependent on the frequency of the input signal applied to the phase shifter; and the first and fourth phase shifting means each applies a phase shift of 90 degrees when an input signal applied thereto has a frequency of 10 KHz. - View Dependent Claims (7)
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6. A circuit arrangement, comprising:
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a first input and a second input for receiving. respectively, a left channel input signal and a right channel input signal of an input stereo signal; first phase shifting means coupled to the first input for phase shifting the left channel input signal; second phase shifting means also coupled to the first input for phase shifting the left channel input signal; third phase shifting means coupled to the second input for phase shifting the right channel input signal; fourth phase shifting means also coupled to the second input for phase shifting the right channel signal; first summing means having a first input coupled to an output of the first phase shifting means, a second input coupled to an output of the third phase shifting means, and an output for providing a left channel output signal; and second summing means having a first input coupled to an output of the fourth phase shifting means, a second input coupled to an output of the second phase shifting means, and an output for providing a right channel output signal, and wherein; the first, second, third and fourth phase shifting means each comprises an all-pass 0°
-180°
phase shifter;an amount that an input signal is phase shifted is dependent on the frequency of the input signal applied to the phase shifter; and the second and third phase shifting means each applies a phase shift of 90 degrees when an input signal applied thereto has a frequency of 100 Hz.
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8. A circuit arrangement, comprising:
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a first input and a second input for receiving, respectively, a left channel input signal and a right channel input signal of an input stereo signal; first phase shifting means coupled to the first input for phase shifting the left channel input signal; second phase shifting means also coupled to the first input for phase shifting the left channel input signal; third phase shifting means coupled to the second input for phase shifting the right channel input signal; forth phase shifting means also coupled to the second input for phase shifting the right channel input signal; first summing means having a first input coupled to an output of the first phase shifting means, a second input coupled to an output of the third phase shifting means, and an output for providing a left channel output signal; second summing means having a first input coupled to an output of the forth phase shifting means, a second input coupled to an output of the second phase shifting means, and an output for providing a right channel output signal; and wherein for the first and second summing means, a different gain is applied to each different input of the first and second summing means; and wherein each summing means and each phase shifting means include an operational amplifier.
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Specification