JPS6243372B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a transmission power control device that automatically controls the transmission level of a transmitter.

A conventional device of this type is shown in FIG. 1 is a power amplifier that amplifies the signal amplified by the drive amplifier 1 that excites and amplifies the input signal to a required transmission power level; 4 is a low frequency wave that removes harmonics of the transmission signal output from the power amplifier 2; 5 is an antenna that radiates the output signal of the low-frequency wave generator 4 into the air, and 3 is the traveling wave of the transmission signal output from the power amplifier 2, the output impedance of the power amplifier 2, and the low-frequency wave generator 4.
Alternatively, a CM coupler detects a reflected wave signal caused by a mismatch with the input/output impedance of the antenna 5, and a CM coupler 6 detects the traveling wave detected by the CM coupler 3 and outputs a DC voltage proportional to its level. A detector 7 detects the reflected wave signal detected by the CM coupler 3 and outputs a DC voltage proportional to the level thereof; 8 a detected voltage output by the detector 7; A DC voltage adder 9 adds the detected voltage outputted by the detector 6, and a DC voltage adder 9 is configured so that the change in the output voltage of the current/voltage adder 8 and the change in the output of the drive amplifier 1 are opposite to each other, that is, the drive amplifier 1 This is a current controller that performs negative feedback control of the current supplied to the

Next, the operation will be explained. The input signal is amplified by the drive amplifier 1, and the output signal thereof is amplified by the power amplifier 2. The output signal of the power amplifier 2 passes through the low frequency wave generator 4 and is radiated into the air from the antenna 5. Transmission power control is performed to maintain the level of the radiation output, that is, the transmission output, at a predetermined value, or to prevent damage to the power amplifier due to mismatch on the output side of the power amplifier 2. That is, the traveling wave on the output side of the power amplifier 2 is detected by the CM coupler 3, and the detected traveling wave is converted by the detector 6 into a DC voltage proportional to the power of the traveling wave. Further, the reflected wave caused by the mismatch between the output impedance of the power amplifier 2 and the input/output impedance of the low frequency filter 4 or the antenna is also detected by the CM coupler 3, and the detected reflected wave is transmitted to the detector 7. is converted into a DC voltage proportional to the reflected wave power. Here, when there is no reflected wave, the output voltage of the detector 6 is passed through the DC voltage adder 8 to the current controller 9.
The current controller 9 operates so that the change in the applied voltage is opposite to the change in the output of the drive amplifier 1, and the output of the power amplifier 2, that is, the antenna output, is maintained at the same level. On the other hand, the output voltage of the detector 7 is a voltage proportional to the reflected wave power,
When the reflected wave level is high, this voltage becomes high and is applied to the current controller 9 through the DC voltage adder 8. At this time, the current controller 9 reduces the current supplied to the drive amplifier 1 to prevent the power amplifier 2 from being destroyed.

Since the conventional transmission power control device is configured as described above, even when the current supplied to the power amplifier 2 is small and there is some surplus in its transmission capacity, the transmission output of the power amplifier is unnecessarily reduced due to the reflected wave component. There was a drawback.

This invention was made in order to eliminate the above-mentioned drawbacks of the conventional technology.A drive amplifier and a power amplifier are connected in cascade, the reflected wave level on the output side of the power amplifier is detected, and the detected reflected wave level is detected. By multiplying the output of the wave level by the output corresponding to the current supplied to the power amplifier, and feeding back the multiplied output to the drive amplifier as the reflected wave level, the transmission capability of the power amplifier can be sufficiently increased. An object of the present invention is to provide a transmission power control device that can prevent unnecessary reductions in transmission power.

An embodiment of the present invention will be described below with reference to the drawings. In FIG. 2, numerals 1 to 7 are the same as those in the conventional FIG. 1. 10 is a current detector that detects the current supplied to the power amplifier 2 and detects a voltage proportional to the current, and 11 is this DC current detector 10.
12 is a multiplier that multiplies the voltage output from the detector 7 by the voltage output from the detector 7 and outputs the multiplied value, that is, the detected voltage of the reflected wave proportionally controlled by the current supplied to the power amplifier 2; 13 is a current controller that controls the supply current of the drive amplifier 1 based on the output of the multiplier 11. Note that these current controllers 12 and 13 operate so that the output of the drive amplifier 1 is subjected to negative feedback control, that is, when the output voltage from the detector 6 or the multiplier 11 increases, the current supplied to the drive amplifier 1 is reduced.

Next, the operation will be explained. The input signal is amplified by the drive amplifier 1, and the output signal thereof is amplified by the power amplifier 2. The output signal of the power amplifier 2 passes through a low frequency wave generator 4 and is radiated into the air from an antenna 5. Here, during normal operation, the traveling wave on the output side of the power amplifier 2 is detected by the CM coupler 3, and the detected traveling wave is converted to a DC voltage proportional to the detection level by the detector 6. is converted and output. Then, the current controller 12 operates so that the change in the output of the drive amplifier 1 is opposite to the change in the DC voltage, and the transmission output of the power amplifier 2 is maintained at a predetermined level. On the other hand, when a reflected wave is generated due to a mismatch between the output impedance of the power amplifier 2 and the input/output impedance of the low-frequency amplifier 4 or the antenna 5, this reflected wave is detected by the CM coupler 3 and is not detected. The reflected wave is converted by the detector 7 into a DC voltage proportional to its detection level and output. This output voltage is then multiplied by the output voltage of the DC current detector 10 which is proportional to the current supplied to the power amplifier 2 by the multiplier 11, and the multiplied output voltage is input to the current controller 13.
This current controller 13 operates to suppress and control the supply current of the drive amplifier 1 in accordance with the input multiplication output voltage, that is, to reduce the output of the drive amplifier 1 when the multiplication output voltage increases. That is, when both the reflected wave level and the current supplied to the power amplifier 2 are large, the current supplied to the drive amplifier 1 is reduced to lower the output of the power amplifier, thereby operating to prevent the power amplifier 1 from being destroyed. However, when the reflected wave level is high but the current supplied to power amplifier 2 is small (that is, when power amplifier 2 has extra transmission capacity), multiplier 1
Since the multiplied output voltage of 1 is relatively lower than that in the above case, the suppression control function of the current controller 13 is moderated, and the decrease in the output level of the power amplifier 2 can be reduced. This eliminates the inconvenience of unnecessary lowering of the transmission level.

Note that in the above embodiment, two current controllers 1
2 and 13 are arranged in series and each is controlled separately.However, if an adder is provided to add the output voltages of the detector 6 and the multiplier 11, and the current is controlled by the added output, current control can be achieved. One container is enough. Furthermore, the same effect can be obtained not only by controlling the current but also by controlling the power supply voltage or bias voltage of the drive amplifier 1.

As described above, according to the present invention, since the reflected wave detection level is controlled according to the current value supplied to the power amplifier, unnecessary reduction in the transmission output level is achieved without impairing the protection function of the transmitter. This has the effect that it is possible to prevent this, and to fully utilize the transmission capability of the transmitter.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a conventional transmission power control device, and FIG. 2 is a block diagram of a transmission power control device according to an embodiment of the present invention. 1... Drive amplifier, 2... Power amplifier, 3...
CM coupler, 6...detector, 7...detector, 10
...Current detector, 11...Multiplier, 12...Current controller, 13...Current controller. In addition, in the figures, the same reference numerals indicate the same or equivalent parts.

Claims (1)

[Claims] 1 A drive amplifier that excites and amplifies the input signal and a power amplifier that amplifies the output of this drive amplifier to the required transmission level are connected in cascade, and the forward wave level and reflected wave level on the output side are respectively detected and In the transmission power control device of the transmitter, which inputs negative feedback to the drive amplifier to stabilize the transmission level and prevent destruction, an output corresponding to the output of the detected reflected wave level and the current supplied to the power amplifier is provided. A transmission power control device characterized in that the multiplied output is fed back to the drive amplifier as the reflected wave level.