FR2815510A1 - Mobile telephone improved transmitter having transmission channel/modulator and amplifier chain first amplifier field/second amplifier field continuous amplifier range covering. - Google Patents

Abstract

The mobile telephone (1) has a transmission channel (6) and a modulator (13) and a signal transmitted to an amplifier chain (19). the chain has a first amplifier (20) following a first field and in cascade with a second amplifier (21) covering a second field. The two amplifiers cover a continuous amplifier field.

Description

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La présente invention a pour objet un téléphone mobile avec un émetteur perfectionné. Elle s'applique ainsi au domaine de la téléphonie mobile. Le but de l'invention est d'obtenir une amplification, pour une dynamique donnée d'un signal à émettre dans une voie d'émission du téléphone mobile, avec un nombre réduit d'éléments. Ceci permet ainsi de réduire un encombrement dans le téléphone mobile, un poids de l'ensemble et aussi une consommation, ce qui augmente une autonomie du téléphone mobile. Mobile phone with advanced transmitter

The present invention relates to a mobile telephone with an improved transmitter. It thus applies to the field of mobile telephony. The object of the invention is to obtain an amplification, for a given dynamic range of a signal to be transmitted in a transmission path of the mobile telephone, with a reduced number of elements. This thus makes it possible to reduce a bulk in the mobile telephone, a weight of the assembly and also a consumption, which increases the autonomy of the mobile telephone.

 Currently, several structures are known for making a transmission channel for a mobile phone. A first structure, the best known, consists in amplifying the signal to be transmitted for the first time at an intermediate frequency. Indeed, this intermediate frequency is lower than the transmission frequency, which makes it possible to have a less strong constraint on the amplifier which operates at this frequency. Secondly, this signal, amplified for the first time, is transposed to a transmission frequency.

Finally, this transposed signal is amplified a second time, with a lower gain because the amplifier concerned operates at a frequency much higher than the intermediate frequency. Thus, the gain dynamics which the mobile phone amplifier must be able to provide on transmission is distributed over two frequencies (the intermediate frequency and the transmission frequency).

 A second, less common structure is also known, which consists in obtaining the desired dynamics with a single frequency. For this, this second structure uses a single amplifier which ensures this dynamic. In this case, the frequency is the transmission frequency of the signal to be transmitted. Thus, this second structure essentially comprises a modulator modulating a carrier at the transmission frequency. The modulated signal is then transmitted to an amplifier ensuring the required dynamics, this amplified signal is finally transmitted at the end of the chain to a radiating device such as an antenna for example.

 These two structures present problems. Indeed, the first structure requires a frequency transposition and therefore the presence of a mixer, for example, but also of filtering devices, upstream and downstream of this mixer. These components come at a cost. They also induce a

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 consumption which results in a limitation of the autonomy of the mobile phone.

 The second structure does not require these additional components. However, a dynamic demanded by networks for new generation mobile telephones, such as that imposed by the UMTS standard (Universal Mobile Telephony System in English for universal mobile telephone system) for example, can be of the order of 80 dB.

However, such a second structure is normally implemented for transmission channels according to which the dynamics are limited to about forty dB at most. Consequently, a use of this second structure with such a dynamic imposes on the amplifier a certain number of additional constraints. The amplifier must be perfectly linear in all the dynamics of the signal which implies a particularly important consumption.

Indeed, in the case of mobile telephony according to the UMTS standard, the access technique is of the CDMA type (Code Division Multiple Access in English for multiple access distributed by code), that is to say that each signal to be transmitted is multiplied by a code. Under these conditions, two different signals each multiplied by a different code can be broadcast on the same frequency band. Consequently, in order to ensure correct discrimination, that is to say a good signal-to-noise ratio, a higher dynamic range is required with the UMTS standard since all the signals originating from all the mobile telephones in a cell must be received by a base station with the same level. Now, a perfectly linear operation of an amplifier in class A requires polarization of the amplifier with a current corresponding to the maximum amplification.

This polarization is too great for the needs that one has of it when the power requested in transmission is low. Such polarization therefore leads to too high average consumption. In addition, such an amplifier operates at a high frequency, higher than the GigaHertz. Consequently, it is necessary to provide shielding around this amplifier. Making a mobile phone with this second structure is therefore more complex and more delicate.

 The present invention proposes to produce a mobile telephone with a new transmission channel by solving the problems of the first and of

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 the second structure. This mobile phone according to the invention implements a transmission channel with a single frequency and divides the dynamic into several ranges, each of which is provided by a different amplification mode. Thus, consumption of the amplification means is attenuated and a structure of the transmission channel is reduced thanks to a reduced number of elements.

d'amplification continue plus grande que la première plage ou la deuxième plage. The present invention therefore provides a mobile telephone comprising a transmission channel with a modulator modulating a carrier, at a transmission frequency, and producing at the output of this modulator a modulated signal transmitted to an amplification chain producing a power signal. to be transmitted, with a given power value, characterized in that this chain comprises a first amplification means, with a gain evolving according to a first amplification range, in cascade with a second means, with an amplification gain evolving according to a second amplification range, these two ranges making it possible to cover a total range

continuous amplification greater than the first range or the second range.

téléphone mobile selon l'invention. The present invention will be better understood on reading the description which follows and on examining the accompanying figure. These are presented for information only and in no way limit the invention. The figure shows: - Figure 1: a simplified block diagram of a transmission channel for a

mobile telephone according to the invention.

FIG. 1 shows a mobile telephone 1 in radio link by means of an antenna 2 with a base station 3 controlled by a telephone exchange 4 of a mobile telephone network 5. This telephone 1 comprises a transmission channel 6 and a reception channel 7, these two channels 6 and 7 being connected to the antenna 2 by means of a switching means 8. This means 8 can take the form of a duplexer filter or even a switching device. Channels 6 and 7 are controlled by a microprocessor 9 controlled by a management program 10 stored in a program memory 11. The various elements of the telephone 1 are linked together by a bus 12 of commands, addresses and data. The telephone 1 communicates, in one example, with the network 5 using the protocol defined by the UMTS standard.

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Thus, channel 6 is responsible for transmitting signals, speech and signaling, to station 3 and this at a given power. Channel 7 is responsible for receiving signals, speech and signaling, transmitted by station 3. It is the exchange 4 which indicates to telephone 1 the power value with which the signal must be transmitted by this telephone 1. Channel 7 therefore receives power information which is processed by microprocessor 9 in order to adjust channel 6 accordingly. However, the architecture of the channel 7 is not detailed further in order not to add to the description.

 Channel 6 comprises a modulator 13 receiving at a first input 14 a carrier produced by an oscillator 15. This carrier, at the transmission frequency, is modulated by modulating signals 1 and Q, for example present at inputs 16 and 17 respectively of the modulator 13.

Thus, the modulator 13 produces, at an output 18, a modulated signal. This modulated signal is transmitted to an amplification chain 19. This chain 19 produces a power signal to be transmitted. A power value of this power signal to be transmitted is determined by the exchange 4 which transmits it via the station 3. This value is received by the channel 7. The frequency of the signal delivered by the modulator 13, and in all cases admitted at the entry of the chain 19, is the central frequency of the transmission frequency band, without intermediate transposition.

 The chain 19 comprises a first amplification means 20 cooperating with a second amplification means 21. The means 20 makes it possible to amplify a signal according to a first amplification range, that is to say that a power value of the signal thus amplified is included in this first range. The gain associated with this means 20 can vary between a first minimum value and a first maximum value. The means 21 makes it possible to amplify a signal according to a second amplification range, that is to say that a power value of the signal thus amplified is included in this second range. The gain associated with this means 21 can vary between a second minimum value and a second maximum value.

 In addition, these two ranges thus make it possible to cover a total range of continuous amplification greater than the first range or the second range. This continuous total range can be obtained by juxtaposing the first range and the second range with or without overlap. A

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 juxtaposition with overlapping of a few dB is still preferable to that without overlapping, that is to say that the two ranges become contiguous. In these two cases the total amplification range is continuously adjustable. Indeed, an adjustment of these amplification means is in particular less delicate.

 In one example, we wish to make the telephone 1 with a channel 19 which allows a dynamic range of 80 dB with the minimum power value-55 dBm and the maximum power value 24 dBm. A gain associated with means 20 can then vary continuously between -20 dB and +20 dB. The means 20 is for example in this case an amplifier with continuously variable gain between these two values. A gain associated with means 21 is then either -25 dB or +14 dB. In one example, the means 21 is a switched gain amplifier, or comprises two different switched gain amplifiers. The gain of the means 21 then evolves by discontinuous jumps. In this example, a first gain range is obtained using the gain at -25 dB from means 21, and a second range is obtained using the gain at +14 dBm from means 21. In addition, a signal power value In this example, the modulated signal presented at the input of chain 19 is -10 dBm. Thus, for the first range, the signal dynamics range from -55 dBm to -15 dBm and for the second range, from -16 dBm to +24 dBm.

 The 80 dB dynamic range of the signal is therefore obtained in this example by juxtaposing the first and second amplification ranges with an overlap of 1 dB. If a variation in the gain of the medium 20 had been from -25 dB to +20 dB, an overlap would have been 11 dB. Thus, a dynamic of the signal associated with the means 20 is of the order of around forty dB, the total range being obtained by an offset of this dynamic using the means 21. Consequently, a linearity constraint of the means 20 is less strong than if the latter's amplification range had been 80 dB. Likewise, shielding is not necessary due to the low rejection rate of the output of amplifier 21 on its own input. In addition, maximum consumption takes place only when the second range is selected, that is to say that which produces the signals with the highest powers. Preferably, the overlap is as low as possible: it leads to the least strong constraints, for example it is

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 less than or equal to 2% of the dynamic range.

 According to an exemplary embodiment of the invention, the means 20 is an amplifier 22 with variable gain. For this, the amplifier 22 has an input 23 for adjusting the gain connected to the bus 12, in particular by means of a digital to analog converter not shown. The adjustment signal is produced by the microprocessor 9 controlled by a program 24 for adjusting the power as a function in particular of the value requested by the network 5.

dB et la sous-voie 26 comporte un amplificateur 28 avec un gain de-25 dB. Les sorties des deux amplificateurs 27 et 28 sont reliés entre elles et forment la sortie du moyen 21. To obtain two gain values, the means 21 can comprise several amplification sub-channels. In the previous example, the means 21 makes it possible to obtain two gains. Thus, the means 21 comprises two sub-channels 25 and 26. The sub-channel 25 comprises an amplifier 27 with a gain of 14

dB and sub-channel 26 includes an amplifier 28 with a gain of -25 dB. The outputs of the two amplifiers 27 and 28 are interconnected and form the output of the means 21.

The term amplifier signifies any means allowing a desired gain to be obtained. Thus, the gain of -25 dB can be obtained using a network of resistors for example, thus forming an attenuator.

In addition, the means 20 and the means 21 are arranged in cascade in the chain 19. Consequently, the sub-channels 25 and 26 are connected to an output 29 of the means 20 via a switching means 30.

gain de 6 dB et la sous-voie 25 doit être sélectionnée. In one example, this means 30 consists of two transistors (not shown) controlled in a complementary manner. Control of this means 30 is ensured by the microprocessor 9 controlled by the program 24. For example, if the network requests a power of +10 dBm, then the program 24 determines in which amplification range this power is and therefore what is the sub-channel to be selected but also what is the gain with which the amplifier 22 must be adjusted. Thus, in the previous example the amplifier 22 must have a

gain of 6 dB and sub-channel 25 must be selected.

In another variant, the means 21 comprises an amplifier with several different operating points, that is to say several possible polarizations and therefore several jumps. In this variant, the means 30 and the architecture in several sub-channels become unnecessary.

 In all cases, the recommended constructions have the advantage

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 that the means 21 can be integrated, produced on a general integrated circuit, that of the microprocessor 9 and of the memory 11 for example, which notably increases the reliability of the assembly. In an alternative embodiment of the telephone 1, the oscillator 15 produces a signal for which the frequency corresponds to a fraction of the carrier frequency, for example half. Oscillator 15 is then followed by multiplying frequency 31 by the inverse of this fraction, that is two in this example. This has the effect of protecting the oscillator against power returns at the same frequency, which would have the effect of disturbing the operation of the oscillator 15. Indeed, in particular if the circuit of the means 21 is integrated, and if we do not want to shield it, we avoid the return of power emanating from the antenna on oscillator 15.

 In addition, the telephone 1 includes, at the output of the chain 19, and before the means 8, an adaptation means 32 making it possible to avoid any signal return from the antenna 2 in the channel 6. This means 32 can take the form of a circulator, for example, which is a directive element, that is to say that it has only one direction of circulation of the signal.

Claims (10)

 1-Mobile telephone (1) comprising a transmission channel (6) with a modulator (13) modulating a carrier, at the transmission frequency, and producing at the output of this modulator a modulated signal transmitted to a chain (19) amplification producing a power signal to be transmitted, of a given power value, characterized in that this chain comprises a first amplification means (20), with a gain evolving according to a first amplification range, in cascade with a second amplification means (21), with a gain varying according to a second amplification range, these two ranges making it possible to cover a total range of continuous amplification greater than the first range or the second range.  2-Telephone according to claim 1 characterized in that the second means comprises several sub-channels (25,26) for amplification in parallel, one of which is selected by means of a switching means (30) connecting an output ( 29) from the first means to an input of an amplification sub-channel.

 3-Telephone according to claim 1 characterized in that the second means comprises an amplifier with several different operating points. 4-Telephone according to one of claims 1 to 3, characterized in that it operates according to the UMTS standard. 5-Telephone according to one of claims 1 to 4, characterized in that the total amplification range is distributed over two overlapping ranges.  6-Telephone according to claim 5, characterized in that the overlap is less than 2% of the dynamic range of a signal to be amplified.  7-Telephone according to one of claims 1 to 6, characterized in that the second means comprises an integrated circuit in a general electronic integrated circuit of the telephone.

 8-Telephone according to one of claims 1 to 7, characterized in that the modulator is connected at the input to the output of a frequency doubler.  9-Telephone according to one of claims 1 to 8 characterized in that the gain of one means changes continuously and the gain of the other means changes by discontinuous jumps. <Desc / Clms Page number 9>  10. - Telephone according to one of claims 1 to 9 characterized in that it comprises a circulator interposed between the amplification chain and an antenna of this mobile phone.