Multi-band tuner
First Claim
1. A tuner for receiving a broadcast signal on a selected channel of a group of channels in spaced frequency bands, said frequency bands including a lower band comprising a plurality of lower band channels and an upper band comprising a plurality of upper band channels, said tuner comprising:
- first filter, means having a fixed pass band tuned to pass said lower band signals;
second filter means having a fixed pass band tuned to pass said upper band signals;
third filter means having a pass band with an upper cut-off frequency below the second harmonic of the lowest frequency of said upper band;
switching means connected to said first and second filter means to provide a signal path through a selective one of said first and second filter means and said third filter means;
a mixer connected to said third filter means to receive the output signal thereof;
a local oscillator connected to said mixer to supply thereto a frequency-converting signal having a higher frequency than the highest frequency of a selected channel to convert the frequency of said selected channel in the output signal of said third filter means to an intermediate frequency band having a lowest frequency fL determined by the following conditions;
##EQU15## and ##EQU16## and one of the following;
##EQU17## where;
fB is the bandwidth of each channel,fP is the lowest frequency in the lower band,fS is the highest frequency in the lower band,fT is the lowest frequency in the upper band, andfW is the highest frequency in the upper band.
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Abstract
A tuner for receiving signals broadcast on two spaced bands, each divided into several channels, has two fixed bandpass filters, one to pass all of the channels in the lower band between the lowest frequency fP of the lowest channel and the highest frequency fS of the highest channel of the lower band, and the other to pass all of the channels in the upper frequency band between the lowest frequency fT of the lowest channel and the highest frequency fW in the highest channel of the upper band. The bandwidth of each channel is fB. The tuner includes an amplifier and a third filter to which signals of either band are supplied by selective operation of a switch. The third filter has a cut-off frequency below the second harmonic of the lowest frequency of the upper band to simplify the avoidance of image interference from second harmonic signals of the band. A tunable local oscillator supplies a heterodyning signal to the mixer to convert any selected channel of the received signal to an intermediate frequency (i.f.) band, and image interference is avoided by setting the local oscillator frequency fn required to convert channel n to the i.f. at a frequency above that channel such that the lowest frequency fL of the i.f. band satisfies the following conditions: ##EQU1##
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Citations
8 Claims
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1. A tuner for receiving a broadcast signal on a selected channel of a group of channels in spaced frequency bands, said frequency bands including a lower band comprising a plurality of lower band channels and an upper band comprising a plurality of upper band channels, said tuner comprising:
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first filter, means having a fixed pass band tuned to pass said lower band signals; second filter means having a fixed pass band tuned to pass said upper band signals; third filter means having a pass band with an upper cut-off frequency below the second harmonic of the lowest frequency of said upper band; switching means connected to said first and second filter means to provide a signal path through a selective one of said first and second filter means and said third filter means; a mixer connected to said third filter means to receive the output signal thereof; a local oscillator connected to said mixer to supply thereto a frequency-converting signal having a higher frequency than the highest frequency of a selected channel to convert the frequency of said selected channel in the output signal of said third filter means to an intermediate frequency band having a lowest frequency fL determined by the following conditions;
##EQU15## and ##EQU16## and one of the following;
##EQU17## where;
fB is the bandwidth of each channel,fP is the lowest frequency in the lower band, fS is the highest frequency in the lower band, fT is the lowest frequency in the upper band, and fW is the highest frequency in the upper band. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification