Method to generate different frequency signals in a digital radio telephone
First Claim
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1. A method of selectively operating a digital radio telephone in one of at least two different frequency bands, comprising the steps of:
- performing an initial step of initially selecting the radio telephone to operate in a selected one of the at least two different frequency bands by installing a plurality of frequency filter means individual ones of which are selected in accordance with the selected one of the at least two different frequency bands;
producing a first signal (F1) of a first frequency and producing a second signal (F2) of a second frequency that differs from the first frequency;
when receiving with the digital radio telephone,conveying a received signal (FRX) to a first mixer, wherein the received signal is mixed with the first signal (F1);
when the radio telephone is initially selected to operate in a first one of the at least two frequency bands,the step of initially selecting provides a first frequency filter means having an input coupled to an output of the first mixer, the first frequency filter means having a predetermined filtering characteristic for selecting a signal at a first desired frequency as a first intermediate frequency signal (IF1);
when the radio telephone is initially selected to operate in a second one of the at least two frequency bands,the step of initially selecting provides a second frequency filter means having an input coupled to the output of the first mixer, the second frequency filter means having a predetermined filtering characteristic for selecting a signal at a second desired frequency as the first intermediate frequency signal (IF1);
conveying the first intermediate frequency signal (IF1) to a second mixer, wherein the first intermediate frequency signal (IF1) is mixed with the second signal (F2);
when the radio telephone is initially selected to operate in the first one of the at least two frequency bands,the step of initially selecting provides a third frequency filter means having an input coupled to an output of the second mixer, the third frequency filter means having a predetermined filtering characteristic for selecting a signal at a third desired frequency as a second intermediate frequency signal (IF2);
when the radio telephone is initially selected to operate in the second one of the at least two frequency bands,the step of initially selecting provides a fourth frequency filter means having an input coupled to the output of the second mixer, the fourth frequency filter means having a predetermined filtering characteristic for selecting a signal at a fourth desired frequency as the second intermediate frequency signal (IF2); and
conveying the second intermediate frequency signal (IF2) to a demodulator for demodulation;
whereinthe first frequency filter means is provided, when the radio telephone is initially selected to operate on a lower one of the at least two frequency bands, such that the first intermediate frequency signal (IF1) has a frequency that is a difference between the frequency of the first signal (F1) and the frequency of the received signal (FRX), wherein the frequency of the received signal is less than the frequency of the first signal;
whereinthe second frequency filter means is provided, when the radio telephone is initially selected to operate on a higher one of the at least two frequency bands, such that the first intermediate frequency signal (IF1) has a frequency that is a difference between the frequency of the received frequency (FRX) and the frequency of the first signal (F1), wherein the frequency of the received signal is greater than the frequency of the first signal;
whereinthe third frequency filter means is provided, when the radio telephone is initially selected to operate on the lower one of the at least two frequency bands, such that the second intermediate frequency (IF2) has a frequency that is a difference between the frequency of the second signal (F2) and the frequency of the first intermediate frequency signal (IF1), wherein the frequency of the second signal is greater than the frequency of the first intermediate signal, and whereinthe fourth frequency filter means is provided, when the radio telephone is initially selected to operate on the higher one of the at least two frequency bands, such that the second intermediate frequency (IF2) has a frequency that is a difference between the frequency of the first intermediate frequency signal (IF1) and the frequency of the second signal (F2), wherein the frequency of the first intermediate frequency signal is greater than the frequency of the second signal;
when transmitting with the digital radio telephone,mixing the first and second signals (F1 and F2) with a third mixer;
when the radio telephone is initially selected to operate in the first one of the at least two frequency bands,the step of initially selecting provides a fifth frequency filter means having an input coupled to an output of the third mixer, the fifth frequency filter means having a predetermined filtering characteristic for selecting a signal at a fifth desired frequency as a transmission signal (FTX);
when the radio telephone is initially selected to operate in the second one of the at least two frequency bands,the step of initially selecting provides a sixth frequency filter means at the output of the third mixer, the sixth frequency filter means having a predetermined filtering characteristic for selecting a signal at a sixth desired frequency as the transmission signal (FTX); and
conveying the transmission signal (FTX) to an antenna for transmission;
whereinthe fifth frequency filter means is provided, when the radio telephone is initially selected to operate on the lower one of the at least two frequency bands, such that the transmission signal (FTX) has a frequency that is a difference between the frequency of the first signal (F1) and the frequency of the second signal (F2); and
whereinthe sixth frequency filter means is provided, when the radio telephone is initially selected to operate on the higher one of the at least two frequency bands, such that the transmission signal (FTX) has a frequency that is the sum of the frequency of the first signal (F1) and the frequency of the second signal (F2).
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Abstract
A method of generating the different frequency signals required in transmission and reception in a digital radio telephone for operation on at least two different frequency bands. According to the method the mixing frequencies (F1, F2) are selected so that from the frequencies obtained as the mixing results it will always be possible to select the intermediate frequencies (IF1, IF2) required in reception and the transmission frequency (FTX) required in transmission for a radio telephone operating on the desired frequency band.
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2 Claims
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1. A method of selectively operating a digital radio telephone in one of at least two different frequency bands, comprising the steps of:
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performing an initial step of initially selecting the radio telephone to operate in a selected one of the at least two different frequency bands by installing a plurality of frequency filter means individual ones of which are selected in accordance with the selected one of the at least two different frequency bands; producing a first signal (F1) of a first frequency and producing a second signal (F2) of a second frequency that differs from the first frequency; when receiving with the digital radio telephone, conveying a received signal (FRX) to a first mixer, wherein the received signal is mixed with the first signal (F1); when the radio telephone is initially selected to operate in a first one of the at least two frequency bands, the step of initially selecting provides a first frequency filter means having an input coupled to an output of the first mixer, the first frequency filter means having a predetermined filtering characteristic for selecting a signal at a first desired frequency as a first intermediate frequency signal (IF1); when the radio telephone is initially selected to operate in a second one of the at least two frequency bands, the step of initially selecting provides a second frequency filter means having an input coupled to the output of the first mixer, the second frequency filter means having a predetermined filtering characteristic for selecting a signal at a second desired frequency as the first intermediate frequency signal (IF1); conveying the first intermediate frequency signal (IF1) to a second mixer, wherein the first intermediate frequency signal (IF1) is mixed with the second signal (F2); when the radio telephone is initially selected to operate in the first one of the at least two frequency bands, the step of initially selecting provides a third frequency filter means having an input coupled to an output of the second mixer, the third frequency filter means having a predetermined filtering characteristic for selecting a signal at a third desired frequency as a second intermediate frequency signal (IF2); when the radio telephone is initially selected to operate in the second one of the at least two frequency bands, the step of initially selecting provides a fourth frequency filter means having an input coupled to the output of the second mixer, the fourth frequency filter means having a predetermined filtering characteristic for selecting a signal at a fourth desired frequency as the second intermediate frequency signal (IF2); and conveying the second intermediate frequency signal (IF2) to a demodulator for demodulation;
whereinthe first frequency filter means is provided, when the radio telephone is initially selected to operate on a lower one of the at least two frequency bands, such that the first intermediate frequency signal (IF1) has a frequency that is a difference between the frequency of the first signal (F1) and the frequency of the received signal (FRX), wherein the frequency of the received signal is less than the frequency of the first signal;
whereinthe second frequency filter means is provided, when the radio telephone is initially selected to operate on a higher one of the at least two frequency bands, such that the first intermediate frequency signal (IF1) has a frequency that is a difference between the frequency of the received frequency (FRX) and the frequency of the first signal (F1), wherein the frequency of the received signal is greater than the frequency of the first signal;
whereinthe third frequency filter means is provided, when the radio telephone is initially selected to operate on the lower one of the at least two frequency bands, such that the second intermediate frequency (IF2) has a frequency that is a difference between the frequency of the second signal (F2) and the frequency of the first intermediate frequency signal (IF1), wherein the frequency of the second signal is greater than the frequency of the first intermediate signal, and wherein the fourth frequency filter means is provided, when the radio telephone is initially selected to operate on the higher one of the at least two frequency bands, such that the second intermediate frequency (IF2) has a frequency that is a difference between the frequency of the first intermediate frequency signal (IF1) and the frequency of the second signal (F2), wherein the frequency of the first intermediate frequency signal is greater than the frequency of the second signal; when transmitting with the digital radio telephone, mixing the first and second signals (F1 and F2) with a third mixer; when the radio telephone is initially selected to operate in the first one of the at least two frequency bands, the step of initially selecting provides a fifth frequency filter means having an input coupled to an output of the third mixer, the fifth frequency filter means having a predetermined filtering characteristic for selecting a signal at a fifth desired frequency as a transmission signal (FTX); when the radio telephone is initially selected to operate in the second one of the at least two frequency bands, the step of initially selecting provides a sixth frequency filter means at the output of the third mixer, the sixth frequency filter means having a predetermined filtering characteristic for selecting a signal at a sixth desired frequency as the transmission signal (FTX); and conveying the transmission signal (FTX) to an antenna for transmission;
whereinthe fifth frequency filter means is provided, when the radio telephone is initially selected to operate on the lower one of the at least two frequency bands, such that the transmission signal (FTX) has a frequency that is a difference between the frequency of the first signal (F1) and the frequency of the second signal (F2); and
whereinthe sixth frequency filter means is provided, when the radio telephone is initially selected to operate on the higher one of the at least two frequency bands, such that the transmission signal (FTX) has a frequency that is the sum of the frequency of the first signal (F1) and the frequency of the second signal (F2). - View Dependent Claims (2)
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Current AssigneeNokia Mobile Phones UK Limited (Nokia Corporation)
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Original AssigneeNokia Mobile Phones UK Limited (Nokia Corporation)
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InventorsVaisanen, Risto
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Primary Examiner(s)Eisenzopf, Reinhard J.
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Assistant Examiner(s)VO, NGUYEN THANH
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Application NumberUS08/221,537Time in Patent Office782 DaysField of Search455/78, 455/75, 455/76, 455/84, 455/86, 455/142, 455/180.1, 455/180.2, 455/183.1, 455/188.1, 455/188.2, 455/189.1, 455/190.1, 455/207, 455/314, 455/177.1 , 455/266, 455/340, 455/339, 455/54.1, 455/338, 455/83, 375/219, 379/58US Class Current455/76CPC Class CodesH03D 7/16 Multiple-frequency-changingH03D 7/163 the local oscillations of a...H04B 1/005 adapting radio receivers, t...H04B 1/406 with more than one transmis...
