DE2710752A1 - Power regulator for RF communications transmitter - uses directional coupler to automatically reduce transmitter power as mismatch to load increases - Google Patents

Abstract

The power regulator, for an RF communications transmitter, automatically reduces the transmitter's power as the degree of mismatch to the antenna increases. Overload of the individual amplifier stages is thus prevented. A directional coupler (3) is located between the load (4) and the output of the transmitter's amplifier (2). The coupler produces two output voltages: one proportional to the forward power (Uv) and the second proportional to the reflected power (Ur). The two outputs (5, 6 and 7, 8) are combined and used to regulate the output power. The combining operation may be simple addition.

Description

DESCRIPTION

Circuit for regulating the output power of a radio frequency news transmitter It is known to use a control circuit in the case of high-frequency news transmitters the consumer, generally an antenna, supplied output power to one to regulate predetermined constant value. This is between the transmitter output and the consumer a directional coupler is arranged, the first output of which, the one of the leading Output proportional voltage with the device provided in the transmitter linked in this way to set the transmitter output power via a conventional control circuit is that the output power of the transmitter is at a predetermined constant value is regulated. It is also known to use the directional couplers of this type second output, which emits a voltage proportional to the returning power, to be assigned to a further additional control circuit in the transmitter, through the larger Mismatching of the complex consumer over the then occurring, the returning Power proportional voltage of the transmitter is switched off automatically. Through this an overload and thus possibly damage to the individual amplifier stages, in particular the output stage 1 prevented. When operating such transmitters, however, is often even before such extreme mismatches of the consumer are reached Risk of damage to individual amplifier stages. Then again, sometimes it is even necessary, despite major mismatches by the consumer to carry out a message transmission, which can only be achieved by reducing the modulation of the damaged transmitter levels is possible.

Previously, the user had to manually switch to the one assigned to the control circuit Setpoint setting device reduce the output power of the transmitter accordingly.

It is the object of the invention to show a simple measure with which with such news channels the output power automatically accordingly the increase in the mismatch of the consumer is reduced.

This task is based on a circuit according to the preamble the main claim solved by the characterizing features of this main claim. Advantageous further developments result from the subclaims.

According to the invention, the is in such news transmitters with a downstream Directional coupler for output power control provided additional directional coupler output, at which one of the declining power and thus the mismatching of the consumer proportional voltage arises, in addition to regulating the output power with exploited, so that an automatic reduction of the output power with increasing mismatching of the consumer with a minimum of additional circuit effort is possible. In order to avoid incorrect regulation by coupling interference voltages that can be coupled into the directional coupler via the consumer to avoid it is advantageous to use this second directional coupler output within the meaning of the dependent claims assign an additional frequency selection device.

The invention is described below with reference to schematic drawings an exemplary embodiment explained in more detail.

1 shows the basic circuit diagram of a conventional high-frequency message transmitter with control circuit according to the invention. The processed in a tax level 1 and If necessary, modulated transmission frequency fs is transmitted via a mostly multi-stage amplifier 2 is amplified and via a directional coupler connected to the output of the output stage 3 supplied to the complex consumer 4 with a leading power Pv. Of the Consumer 4 is generally an antenna, but it can also be a downstream, reflective power amplifier or the like.

Act. At the first output formed by connections 5 and 6 the directional coupler 3 produces an alternating voltage proportional to the forward power Pv and much more. At the second output of the directional coupler formed by the connections 7 and 8 3 a further alternating voltage ur arises, which one in the event of a mismatch between the consumer 4 and the output of the final amplifier 2 that occurs Power is proportional to Pr. These two of the leading and returning services proportional alternating voltages uv and ur are after rectification in the diodes 9 and 10 summed up (sum uz) and as a controlled variable for setting the output power Pv of amplifier 2 used. The amplifier 2 has this in a known manner means for adjusting the transmitter output power, generally one Device for reducing the modulation of the power amplifier stages present in the transmitter. This power setting device is controlled by a control loop that is included in the embodiment shown comprises a voltage comparator 11, on the one hand the controlled variable u z and, on the other hand, one of the desired transmitter output power proportional reference voltage u5 is supplied. If there are deviations between u, z and Us, the power setting in amplifier 2 is readjusted accordingly.

Performance The summation of the forward or backward proportional rectified voltages uv and ur takes place in the exemplary embodiment shown simply by connecting the two directional coupler outputs in series. If the the signals at the outputs corresponding to the forward or reverse power of the directional coupler are available as currents, these can be done in an analogous manner by interposing appropriate current summing circuits to form a proportional one Total output current can be summed.

If, during operation of the transmitter, the consumer 4 is connected to the output of the output stage 2 is adjusted, the returning power is Pr = ° and thus also the directional coupler voltage ur = O, the control voltage u z thus only corresponds to the directional coupler voltage uv and the amplifier 2 is regulated in a known manner to a constant forward power Pv. If there is a mismatch of the consumer 4 and thus a reflection of the power, the sum voltage uz = uv + ur, i.e. a larger control voltage, is fed to the comparator 11, and this is done automatically via the amplifier's power setting device 2 the output power Pv is reduced and thus an overload and damage of the amplifier elements, e.g. transistors of amplifier 2 / despite mismatch of the consumer avoided.

The control circuit could be coupled in from neighboring broadcasting stations, Radar systems or the like on the antenna 4 are disturbed, i.e. in addition to the on the Mismatch due to the returning power in the directional coupler could be a additional power that can be traced back to this interference occurs. If such interference is outside the usable frequency band of the transmitter 1 it is sufficient to provide the output 7, 8 of the directional coupler 3 with a corresponding bandpass filter 12 assign by which is only in the usable frequency band of the Transmitter's output voltages of this directional coupler output are used for regulation will. This frequency selection may not be sufficient. It is then appropriate to carry out a sharper selection, as shown in the exemplary embodiment according to Fig. 2 is shown. In this case, the exciter 1 has an additional one Output 13, at which a compared to the set transmitter frequency f5 by one predetermined intermediate frequency ZF offset control frequency fu can be tapped. this is with common exciters, which as decadic mostly even programmable tunable Frequency synthesizers are designed, very easily possible. If this tax sender 1 is part of a combined transceiver system, it will be in the same device anyway simultaneously with the transmission frequency r. the overload frequency required for the receiver ru generated. With the offset control frequency rü there is a signal at output 8 of the directional coupler connected superimposition stage consisting of a mixer 14 with a downstream narrow-band intermediate frequency filter 15 controlled, so that in each case only the current transmitter frequency fs corresponding portion of the voltage u r for regulation is taken into account.

Under certain circumstances it can be useful via a schematic in FIG indicated threshold circuit 16 to ensure that the reflected on the Power to be reduced control voltage component only becomes effective when a predetermined voltage value is exceeded. This avoids being too small Reflections already trigger a control process.

Claims Blank page

Claims (7)

Circuit for regulating the output power of a high-frequency news transmitter with a directional coupler arranged between the transmitter output and the consumer, its first output that delivers a voltage proportional to the forward power via a control circuit with a device for setting the transmitter power connected in the sense of a regulation to constant output power, d a d u r c h e k e k e n n n n z e i c h n e t that the second, one of the declining power (Pr) proportional voltage (ur) output (7,8) of the directional coupler (3) together with the first output (5,6) is connected to the control circuit (11) that with increasingly decreasing power (pure) the output power (Pv)) automatically is decreased. 2. A circuit according to claim 1, d a d u r c h g e k e n n -z e i c n e t that the sum (uz) of the voltages (uv, ur) of the two directional coupler outputs (5,6; 7,8) of the control circuit (11) is fed as a controlled variable. 3. The circuit of claim 2, wherein the control circuit a the voltage comparator controlling the device for setting the transmitter power comprises, in which the rectified voltage proportional to the output power of the directional coupler with an adjustable reference voltage compared becomes, d u r c h e k e n n n z e i c h -n e t that the sum (u) of the rectified Voltages (uv, ur) of the two directional coupler outputs (5,6; 7,8) to the comparator (11) is supplied '. 4. Circuit according to one or more of the preceding claims 1 to 3, d a d u r c h e k e n n n z e i c h -n e t that in the control circuit (11) leading line of the second directional coupler output (7, 8) a frequency selection device (12,14,15) is switched on. 5. A circuit according to claim 4, d a d u r c h g e k e n n -z e i c h n e t that the frequency selection device is based on the frequency range of the transmitter (1) is a tuned bandpass filter (12). 6. A circuit according to claim 4 or 5 for a transmitter, in which additionally an offset control frequency is available for the transmitter output frequency stands, in particular for a combined transceiver system, d a -d u r c h g e k e n n n e i ch n e t that the frequency selection device one through the offset control frequency (fü) controlled superposition stage (14) with narrowband Intermediate frequency filter (15) comprises. 7. Circuit according to one or more of the preceding claims 1 to 6, d a d u r c h g e n n n z e i c h -n e t that the second directional coupler output (6, 7) one only after a predetermined voltage setpoint has been exceeded Control voltage emitting threshold value circuit (16) is assigned.