DE10006531A1 - Method and circuit arrangement for regulating the transmission power of a transmitter - Google Patents

Abstract

The use of a regulator (3) is disclosed, for the regulation of the transmission power of a transmitter, in particular, an EDGE mobile radio transmitter, working with amplitude modulation and time multiplex operation. Said regulator is operated with a first bandwidth, which is reduced to a lower second bandwidth, during a transmission interval in which transmitted data is transmitted from the transmitter. Said second bandwidth is, in particular, lower than the transmitted bit frequency. The reduction in the bandwidth can, for example, be achieved by the switching in of a parallel capacitance (C3) in the feedback loop of the regulator (39).

Description

The present invention relates to a method according to the Preamble of claim 1 for regulating the transmission power nes transmitter, in particular a mobile radio transmitter, and a corresponding circuit arrangement according to the preamble of Claim 7.

In the field of mobile radio technology, is currently on the so-called EDGE standard ("Enhanced Data Services For GSM Evolution "), a further development of the GSM Mobile radio standards ("Global System For Mobile Communica tions "). This EDGE standard sees itself as a multiple access method a time division multiplex method ("Time Division Multiple Access ", TDMA) in which each participant only during certain transmission intervals, which are called time slots ("Slots") may be sent to a collision ver between the transmission signals of the individual participants avoid. In addition, according to the EDGE standard, every participant assigned a specific transmission or carrier frequency which the respective message bits are to be modulated, so that the multiple provided according to the EDGE standard Handle procedure in principle of a combination of a time multiplex and a frequency division multiplex method ("Frequency Division Multiple Access ", FDMA).

To implement the multiple access ver driving is required by the respective broadcaster generated transmit or output power quickly within before given time masks is changed. This as "ramping" signed change in output power is advantageous usually carried out with a power regulation in which ei ne measurement dependent on the current output power size, the current value (i.e. the actual value)  compared with a predetermined setpoint and dependent on a control variable is generated based on the comparison result the RF output power amplifier of the transmitter via a Control input is supplied to its output power ent adjust speaking.

Due to the modulati on according to the EDGE standard onsart occur during the individual broadcast time slots changes in the envelope of the transmission signal. The frequency of the resulting amplitude modulation is in the range the bit rate of GSM transmitters and thus usually in within the bandwidth of the lei provided in GSM transmitters device control, so that the use of the in GSM transmitters Partial performance control in EDGE operation Regulation of the amplitude modulation and thus too undesirable modulation distortion.

The present invention is therefore based on the object a method and a circuit arrangement for regulating the Propose the transmission power of a transmitter, which also applies to egg reliable operation when operated in accordance with the EDGE standard the transmission power is guaranteed.

This task is accomplished by a process with the characteristics of Claim 1 or a circuit arrangement with the features of claim 7 solved. The subclaims define each because preferred embodiments of the present invention dung.

According to the invention it is provided by the starting or Transmitting amplifier generates transmission power via a control loop to regulate, the bandwidth of the power regulation time is varied. During the ramping the performance re success with a high level, for example in GSM transmitters Bandwidth performed while the bandwidth of the lei performance control within the transmission intervals (transmission time slots) is reduced to a lower bandwidth, which  especially below the respective bit rate of the transmitter.

With the application of the EDGE standard, a regulation can be made the amplitude modulation during the transmission time slots ver be avoided.

The bandwidth of the power regulation can for example by using a feedback controller be varied, in particular to implement the right reduced bandwidth during the transmission time slots the Kapa is increased in the feedback branch of the controller.

The present invention is generally suitable for regulation the transmission or output power of any configured sen de-amplifier. However, it is particularly suitable for high-frequency Power amplifier advantageous, such as in Cellular devices (e.g. cell phones) are used.

The invention is described in more detail below with reference to the attached drawing based on a preferred embodiment game explained, the only figure is the simplified Setup of a circuit arrangement for regulating the transmitter an EDGE mobile radio transmitter according to a preferred Embodiment of the present invention shows.

A high-frequency power amplifier 2 is shown, which amplifies the RF input power P _IN supplied by a transmitting unit 1 with a specific amplification factor and outputs it in the form of an amplified RF output power P _OUT .

The output power P _{OUT of} the power amplifier 2 is regulated with the aid of a control circuit in order to stabilize the output power against interference and to set it to a desired value TARGET predetermined by the transmitter unit 1 . The setpoint SOLL is varied in time by the transmission unit 1 such that different output power values P _{OUT are} generated in transmission timeslots assigned to different subscribers.

The control circuit comprises a device for detecting the instantaneous value or actual value ACTUAL one of the output variables P _{OUT of} the power amplifier 2 corresponding measured variable. In the present case, a power directional coupler 6 operated with a discharge resistor R3 is provided, which couples out part of the transmission power P _OUT and an envelope curve detector 5 , consisting of a rectifying diode D with a capacitor C1 connected in parallel and a resistor connected in parallel R1, feeds.

From the envelope detector 5 or the diode D, an analog voltage obtained by rectifying the high frequency is generated and applied as the measured value corresponding to the actual value ACTUAL output power P _OUT via a resistor R2 to the inverting input of a differential amplifier 3 . At the non-inverting input of the differential amplifier 3 is set by the transmitter unit 1 setpoint SOLL, which corresponds to a specific setpoint output power of the power amplifier 2 .

The differential amplifier 3 serves as a controller and, depending on the difference between the target value TARGET and the actual value ACTUAL, generates a manipulated variable SET which is fed to a control input of the power amplifier 2 in order to adjust its output power P _OUT accordingly.

The output of the controller or amplifier 3 is connected to its inverting input via a feedback branch, which contains a controllable switch 4 and capacitors or capacitors C2 and C3. The controllable switch 4 is controlled by a control signal generated by the transmission unit 1 and is preferably designed in the form of an electronic semiconductor switch.

The two capacitors C2 and C3 determined the bandwidth of the power control. During the so-called ramping, in which the transmission or output power P _{OUT of} the transmission amplifier 2 must be changed quickly within predetermined time masks, the switch 4 is open. In this case, the power control takes place with a relatively high bandwidth, as is customary, for example, in GSM transmitters, the limit frequency f _{g of} the controller 3 being expressed

defi is nated.

Within each transmission time slot, on the other hand, the switch 4 is closed by the transmission unit 1 and thus the total capacitance in the feedback branch of the controller 3 is increased by the parallel connection of the capacitors C2 and C3. By increasing the total capacitance located in the feedback branch, the bandwidth of the controller 3 is reduced accordingly, the cut-off frequency f _{g of} the controller 3 in this case being expressed by the expression

Are defined is.

The values of R2 and C2 as well as C3 are to be dimensioned such that the bandwidth of the controller 3 is reduced by closing the switch 4 below the bit rate of the respective transmission signal, so that in an EDGE transmitter within each transmission time slot a regulation of during each Sending time slot occurring amplitude modulation can be reliably avoided ver.

Claims (14)

1. A method for regulating the transmission power of a transmitter, comprising the steps

• a) detecting the instantaneous value (IST) of a measured variable corresponding to the instantaneous transmit power (P _OUT ) output by a transmit amplifier ( 2 ), and
• b) generating a manipulated variable (STELL) to be sent to the transmitter amplifier ( 2 ) using a controller ( 3 ) as a function of the ratio between the instantaneous value (ACTUAL) of the measured variable acquired in step a) and a predetermined setpoint (TARGET), to set the transmission power (P _OUT ) of the transmission amplifier ( 2 ) according to the manipulated variable, characterized in that

that the controller ( 3 ) is operated with a first bandwidth, which is reduced to a lower two-th bandwidth during a transmission interval in which transmission bits are transmitted by the transmitter. 2. The method according to claim 1, characterized, that the lower second bandwidth is chosen such that it is less than the frequency of the transmit bits. 3. The method according to claim 1 or 2, characterized in that an amplifier ( 3 ) fed back via a feedback branch (C2, C3) is used as the controller, the bandwidth of the amplifier ( 3 ) being reduced to the lower second bandwidth in that a capacity contained in the feedback branch is increased. 4. The method according to claim 3, characterized in that the bandwidth of the amplifier ( 3 ) is reduced to the lower second bandwidth in that a further capacitance (C3) for the duration of the transmission interval in parallel to a capacitance (C2) contained in the feedback branch is switched. 5. The method according to any one of the preceding claims, characterized, that the transmit bits from the transmitter during each transmit interval valls in the form of an amplitude-modulated transmission signal be det. 6. The method according to any one of the preceding claims, characterized in that from the transmitter transmit bits which are assigned to different subscribers are sent in accordance with a time-division multiplexing method, the transmit power (P _OUT ) of the transmit amplifier ( 2 ) for the subscriber for each subscriber each subscriber assigned transmission intervals is adjusted by appropriate change of the setpoint (TARGET). 7. Circuit arrangement for regulating the transmission power of a transmitter,
with an actual value detection device ( 5 , 6 ) for detecting the instantaneous value (IST) of a measured variable corresponding to the instantaneous transmission power (P _OUT ) emitted by a transmitter amplifier ( 2 ), and
with a control device ( 3 ) for generating a control variable (STELL) to be sent to the transmitter amplifier ( 2 ) in dependence on the ratio between the instantaneous value (ACTUAL) of the measured variable detected by the actual value detection device ( 5 , 6 ) and a predeterminable value Setpoint (TARGET), the transmitter amplifier ( 2 ) setting the transmit power (P _OUT ) according to the manipulated variable (STELL),
characterized,
that a control device ( 1 , 4 ) for operating the control device ( 3 ) with a first bandwidth and for reducing the bandwidth of the control device ( 3 ) to a lower second bandwidth is provided during a transmission interval in which transmission bits are transmitted by the transmitter . 8. Circuit arrangement according to claim 7, characterized, that the lower second bandwidth is chosen such that it is less than the frequency of the transmit bits. 9. Circuit arrangement according to claim 7 or 8, characterized in
that the control device in the form of a feedback branch (C2, C3) feedback amplifier ( 3 ) is designed, and
that the control device ( 1 , 4 ) is designed such that it reduces the bandwidth of the amplifier ( 3 ) to the lower second bandwidth by increasing a capacitance contained in the feedback branch. 10. Circuit arrangement according to claim 9, characterized in
that a first capacitance (C2) is arranged in the feedback branch, and
that a switch ( 4 ) controlled by the control device ( 1 ) is provided, via which a second capacitance (C3) can be connected in parallel to the first capacitance (C2). 11. Circuit arrangement according to claim 10, characterized in that the control device ( 1 ) is designed such that it reduces the bandwidth of the amplifier ( 3 ) to the lower second bandwidth by closing the controllable switch ( 4 ) for the duration of each transmission interval. 12. Use of a circuit arrangement according to one of the An say 7-11 in a transmitter from which the transmit bits during each transmission interval in the form of an amplitude modulated Send signal are sent. 13. Use according to claim 12,  characterized, that the broadcaster, particularly in accordance with the EDGE Mobile radio standard operated mobile radio transmitter is. 14. Use according to claim 12 or 13, characterized in that the transmitter is a transmitter working according to a time-division multiplexing method, with the transmitter power (P _OUT ) of the transmitter amplifier ( 2 ) for different subscribers for the transmission intervals assigned to the subscriber concerned by corresponding appropriate change of the setpoint (TARGET) is adjusted.