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Patent: 4193035

 

http://www.google.com/patents?id=1H4wAAAAEBAJ&dq=Hermann+Berger Filed: Nov 17, 1977; Issue date: Mar 11, 1980; AM-receiver for receiving one of the sidebands of a double sideband signal by H. Berger, Patent: 4193035

Abstract | Drawing | Description | Claims

Abstract
The invention relates to an AM-receiver for receiving one of the sidebands of a double sideband signal, for example, in medium wave or short wave broadcast. Selective fading is avoided by the reception of one sideband only. The circuit can substantially be implemented from input to output in integrated circuit technology. It enables the high-grade reception of the double sideband AM-signals without crosstalk or squal.

Patent number: 4193035
Filing date: Nov 17, 1977
Issue date: Mar 11, 1980
Inventor: Hermann Berger
Assignee: U.S. Philips Corporation

U.S. Classification
455/203

International Classification
H04B 116; H04B 168

 

Citations

Patent Number

Title

Issue date

3611144

(unknown)

Oct 1971

3969675

Single side-band radio

Jul 13, 1976

Referenced by

Patent Number

Title

Issue date

4642675

Superheterodyne receiver

Feb 10, 1987

4653117

Dual conversion FM receiver using phase locked direct conversion IF

Mar 24, 1987

4683444

Generator circuit for generating two sinusoidal signals with a phase difference of 90 degrees

Jul 28, 1987

4712222

Adaptive recursive phase offset tracking system

Dec 8, 1987

5537672

System for bidirectional data transmission between a beacon and a vehicle

Jul 16, 1996

5564069

Communication for a data transmission for a moving vehicle to a stationary beacon

Oct 8, 1996

5765100

Communication diversity by image reception

Jun 9, 1998

5862456

Vehicle device for data transmission to a stationary beacon, and resultant communication system

Jan 19, 1999

7209721

Single sideband mixer and method of extracting single sideband signal

Apr 24, 2007

Claims

What is claimed is:

1. A circuit arrangement for receiving one of the sidebands of a double sideband signal, comprising two first mixing stages means for mixing the double sideband signal with each one of two locally produced radio frequency oscillations having the same frequency as the carrier frequency of said double sideband signal and phases shifted 90.degree. relative to one another, first and second low pass filter means for filtering the output signals of the two mixing stages respectively, two second mixing stages means respectively coupled to said filters for mixing the filter output signals with either one of two locally produced low-frequency oscillations having the same frequency which is at least equal to the upper frequency of the baseband signal and shifted in phase 90.degree. relative to one another, means for combining the output signals of the two second mixing stages, a third low-pass filter means coupled to said combining means for suppressing signals having a frequency above the frequency of the local low frequency oscillation, and a last mixing stage means for mixing the output signals of the third low-pass filter with one of the local low frequency oscillations.

2. A circuit arrangement as claimed in claim 1, further comprising a fourth low-pass filter coupled to said last mixing stage and having a cutoff frequency which corresponds to that of the third low-pass filter.

3. A circuit arrangement as claimed in claim 1 for receiving one from a plurality of double sideband signals whose carrier frequencies are equally spaced, wherein the frequency of the locally produced low-frequency oscillations corresponds to half the frequency spacing of two adjacent carrier frequencies.

4. A circuit arrangement as claimed in claim 1 for receiving double-sideband signals with carriers, further comprising a tunable oscillator circuit means for supplying the radio frequency oscillations, and phase control circuit means for providing that the oscillator frequency is synchronized with the received carrier frequency.

5. A circuit arrangement as claimed in claim 4, wherein the phase control circuit means comprises an input means for receiving a D.C. voltage produced by the mixing stage whose input is supplied with the locally produced radio frequency oscillation with a phase shift of approximately 90.degree. relative to the carrier oscillation.

6. A circuit arrangement as claimed in claim 1, further comprising means for using as a gain control voltage a D.C. voltage produced by the mixing stage whose input is supplied with the locally produced radio frequency oscillation having the same phase as the carrier oscillation.

7. A circuit arrangement as claimed in claim 1, wherein the third low-pass filter comprises a gyrator filter.

8. A circuit arrangement as claimed in claim 1, wherein the first and second low-pass filters comprise gyrator filters.

9. A circuit arrangement as claimed in claim 2, wherein the fourth low-pass filter comprises a gyrator filter.

10. A circuit arrangement as claimed in claim 1, further comprising a control circuit means for adjusting the oscillator for locally producing the low frequency oscillation.

11. A circuit arrangement as claimed in claim 1, wherein the combining means comprises means for providing that the output signals of the second mixing stages can optionally be added or subtracted from one another.

12. A circuit arrangement as claimed in claim 1, further comprising D.C. blocking capacitors coupled to the outputs of the first mixing stages respectively.

13. A circuit as claimed in claim 1, further comprising a control circuit means for adjusting the first attenuation pole of the third low pass filter.

 


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