Telecommunications – Receiver or analog modulated signal frequency converter – Noise or interference elimination
Patent
1997-09-24
1999-09-07
Le, Thanh Cong
Telecommunications
Receiver or analog modulated signal frequency converter
Noise or interference elimination
455304, H04B 110
Patent
active
059501197
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
This invention relates to an image-reject mixer, and in particular to an image-reject mixer which can be used in a wideband receiver.
Any receiver circuit must be designed such that it is able to reject signals in the image band. Typically, this involves using a filter, or tuned RF amplifier in the front end circuitry. In order to allow the receiver to receive signals over a wide range of frequencies, for example over the whole range from 100 MHz to 2 GHz, and to allow the image signal to be sufficiently well separated from the wanted signal, a very high first IF frequency might be chosen. However, this has the disadvantage that it is then difficult or impossible to obtain low-cost high-performance devices for use as the first local oscillator, which would have to operate at very high frequencies, or as the second local oscillator, which again would be operating at a very high frequency and requiring good stability. This arrangement also requires a high dynamic range in the front end, first mixer, first IF amplifier and second mixer.
As a result of these difficulties, it has been proposed to use image-reject mixing to suppress any signals present at the image frequency, without requiring a tuned RF amplifier.
A known image-reject mixer comprises: and second mixers; mixers, either the first and second local oscillator signals or the first and second RF signals being in quadrature with each other; and and second mixers, and to supply a mixer output signal.
A known image-reject mixer of this type is shown in FIG. 1. The image-reject mixer 2 includes first and second mixer circuits 4, 6. The mixers 4, 6 are driven by respective local oscillator signals which differ in phase by 90.degree.. Thus, a local oscillator signal is supplied to a splitter 8, which feeds a first local oscillator signal to the first mixer 4, and a second local oscillator signal, in quadrature with the first, to the second mixer 6. The RF input signal, including the wanted signal together with an image signal, is supplied to a second splitter 10, which feeds the first and second mixers 4, 6. The in-phase splitter 10 may easily be realised for broadband operation by either transformer or resistive splitting techniques; the former is preferable, because the latter has the disadvantage of an additional 3 dB degradation in the mixer noise figure. The output signals from the first and second mixers 4, 6 are supplied to a quadrature combiner 12, that is a device which adds one input to another, with a 90.degree. phase shift in one of the inputs. The effect of this is that the image signal is cancelled in the IF output, and appears in a second output which can be resistively terminated. (If desired, the image signal can be supplied as the output).
The quadrature combiner 12 operates at the IF frequency, and therefore only needs to be a narrow band component, which can use transformer, microstrip, Wireline (Trademark) or lumped-element techniques.
The mixers 4, 6 need to have a good dynamic range, such as can be achieved with high-level diode ring mixers, but may not be achievable with existing IC mixers.
It should be noted that the local oscillator signal could be supplied to the splitter 10, with the RF input signal being supplied in quadrature to the mixers 4, 6 through the splitter 8. However, the illustrated circuit has the advantage that it is simpler to design the required broadband 90.degree. splitter for a constant-level high strength signal such as the local oscillator signal. For example, as is well known, the splitter could be realised by the use of a higher LO frequency divided down by ECL dividers.
Using such a prior art image-reject mixer, it is possible to achieve an image rejection in the region of 20 dB. As such, prior art image-reject mixers are not suitable for use as the only image rejection mechanism in a general purpose receiver, in which image rejection of at least 60 dB may be required.
SUMMARY OF THE INVENTION
The present invention therefore seeks to provide an improved image-reject mixer.
REFERENCES:
patent: 4814715 (1989-03-01), Kasperkovitz
patent: 5033110 (1991-07-01), Harman
patent: 5369794 (1994-11-01), Martineau
patent: 5404589 (1995-04-01), Bijker et al.
patent: 5568158 (1996-10-01), Gould
Beach Mark Anthony
Kenington Peter Blakeborough
McGeehan Joseph Peter
Nix Andrew Robert
Cong Le Thanh
University of Bristol
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