JP2734773B2 - Transmit burst power control circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention is used for a burst power control circuit in a TDMA wireless communication device.

The present invention particularly relates to a burst power control circuit in a narrow band TDMA type wireless communication device in which the waveform at the time of rising and falling is controlled to minimize the spread of the spectrum and the peak power level must be changed for each burst. Use for

〔Overview〕

The present invention provides a burst power control circuit that controls the output power of a transmission power amplifier by using a trapezoidal waveform signal at the time of rise and fall, by providing a reference voltage generation circuit that defines the peak value of the trapezoidal waveform signal. The output power level of the transmission power amplifier can be set for each burst.

[Conventional technology]

Conventionally, as shown in FIG. 2, a burst power control circuit in a TDMA wireless communication device of this type has a detection circuit for detecting a trapezoidal waveform signal generated from a trapezoidal waveform generation circuit 5 and an output of a transmission power amplifier 3. By comparing the output of the transmission power amplifier 4 with the output of the transmission power amplifier 3, the rising and falling of the burst power amplified by the transmission power amplifier 3 is controlled. However, there is no means for changing the peak value of the trapezoidal waveform signal for each burst.

[Problems to be solved by the invention]

The above-described burst power control circuit in the conventional TDMA wireless communication device has a drawback that the rise and fall control can be performed but the transmission output power level cannot be controlled for each burst.

The object of the present invention is to eliminate the disadvantages mentioned above,
An object of the present invention is to provide a burst power control circuit capable of controlling a transmission power level for each burst.

[Means for solving the problem]

The present invention provides a transmission power amplifier having a control terminal for changing an output power level, a detection circuit for detecting an output of the transmission power amplifier, a trapezoidal waveform generation circuit for outputting a trapezoidal waveform signal, and A transmission burst power control circuit comprising an output and a comparison circuit for comparing the output of the trapezoidal waveform generation circuit and applying the difference to a control terminal of the transmission power amplifier, wherein the output power level of the transmission power amplifier is A reference voltage generation circuit for generating a reference voltage for setting for each burst and inputting the reference voltage to the trapezoidal waveform generation circuit, wherein the trapezoidal waveform generation circuit is configured in accordance with the magnitude of the reference voltage input from the reference voltage generation circuit. And means for limiting the peak value of the trapezoidal waveform signal generated by the operation.

Further, in the present invention, the trapezoidal waveform generating circuit includes a unit for setting rising and falling of the trapezoidal waveform in accordance with an externally input slope setting signal, and the reference voltage generating circuit is externally input. The magnitude of the reference voltage can be set according to the level setting signal.

[Action]

The peak value of the trapezoidal waveform signal generated by the trapezoidal waveform generation circuit is limited by the reference voltage generated by the reference voltage generation circuit, and the magnitude of the reference voltage generated by the reference voltage generation circuit is set for each burst. You.

Therefore, the output level of the transmission power amplifier can be set for each burst.

Further, the trapezoidal waveform generating circuit can set the rising and falling slopes of the trapezoidal waveform by an externally input slope setting signal, and the reference voltage generating circuit can control the magnitude of the reference voltage generated by the externally input level setting signal. By setting the output power level, it is possible to automatically set an arbitrary rising and falling characteristic and an output power level for each burst.

〔Example〕

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing a first embodiment of the present invention.

In the first embodiment, a transmission power amplifier 3 having an input connected to an input terminal 1 and an output connected to an output terminal 2 and having a control terminal for changing the output power level, and detects the output of the transmission power amplifier 3. A detection circuit 4; a trapezoidal waveform generating circuit 5a for outputting a trapezoidal waveform signal; A transmission burst power control circuit comprising a circuit 6 and a trapezoidal waveform generating circuit 5a for generating a reference voltage for setting the output power level of the transmission power amplifier 3 for each burst, which is a feature of the present invention.
The trapezoidal waveform generating circuit 5a includes means for limiting the peak value of the trapezoidal waveform signal generated according to the magnitude of the reference voltage input from the reference voltage generating circuit 7. I have.

 Next, the operation of the first embodiment will be described.

The reference voltage generation circuit 7 outputs a reference voltage corresponding to the output level of the transmission power amplifier 3 to be set according to the detection characteristics of the detection circuit 4. Then, the level of the peak of the trapezoidal waveform signal generated by the trapezoidal waveform generation circuit 5a is limited by the output of the reference voltage generation circuit 7. Thus, the rising and falling slopes of the trapezoidal waveform signal from the trapezoidal waveform generating circuit 5a are always constant, and only the peak level becomes a reference voltage from the reference voltage generating circuit 7. Based on this, the result of detection of the transmission output power of the transmission power amplifier 3 by the detection circuit 4 is compared by the comparison circuit 6, and the result is fed back to the control terminal for changing the output power level of the transmission power amplifier 3. . Thus, the signal applied from the input terminal 1 is subjected to appropriate burst modulation and output from the output terminal 2.

FIG. 2 is a block diagram showing a second embodiment of the present invention.

The second embodiment is different from the first embodiment in FIG. 1 in that the trapezoidal waveform generation circuit 5a, which is a feature of the present invention, has a trapezoidal waveform rising and falling in response to a slope setting signal 11 input from the outside. Trapezoidal waveform generation circuit including means for setting fall
Instead of 5b, the reference voltage generation circuit 7 is replaced with a reference voltage generation circuit 7a including a means (not shown) for setting the magnitude of the reference voltage according to a level setting signal 12 input from the outside.

According to the second embodiment, the burst shape is arbitrarily set, and in combination with the burst setting circuit that outputs the corresponding slope setting signal 11 and level setting signal 12, the rising and falling and output power of each burst There is an advantage that the level can be set automatically.

〔The invention's effect〕

As described above, the present invention generates the reference voltage for setting the output power level of the transmission power amplifier for each burst, and controls the peak value of the trapezoidal waveform generation circuit, thereby enabling the transmission for each burst. There is an effect that the output power level of the power amplifier can be set.

Further, by enabling the trapezoidal waveform generation circuit and the reference voltage generation circuit to be externally controlled by a burst setting signal, there is an effect that arbitrary burst characteristics can be automatically set.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a first embodiment of the present invention. FIG. 2 is a block diagram showing a second embodiment of the present invention. FIG. 3 is a block diagram showing a conventional example. DESCRIPTION OF SYMBOLS 1 ... Input terminal, 2 ... Output terminal, 3 ... Transmission power amplifier, 4 ... Detection circuit, 5, 5a, 5b ... Trapezoidal waveform generation circuit, 6 ... Comparison circuit, 7, 7a ... Reference Voltage generation circuit, 11
…… Inclination setting signal, 12 …… Level setting signal.

Claims (2)

(57) [Claims] 1. A transmission power amplifier having a control terminal for changing an output power level, a detection circuit for detecting an output of the transmission power amplifier, a trapezoidal waveform generation circuit for outputting a trapezoidal waveform signal, and the detection circuit And a comparison circuit for comparing the output of the transmission power amplifier with the output of the trapezoidal waveform generation circuit and applying the difference to the control terminal of the transmission power amplifier. The output power level of the transmission power amplifier A reference voltage generation circuit for generating a reference voltage for setting the value for each burst and inputting the reference voltage to the trapezoidal waveform generation circuit, wherein the trapezoidal waveform generation circuit adjusts the magnitude of the reference voltage input from the reference voltage generation circuit. A transmission burst power control circuit, comprising: means for limiting a peak value of a trapezoidal waveform signal generated in response thereto. 2. The trapezoidal waveform generating circuit includes means for setting the rise and fall of a trapezoidal waveform in accordance with an externally input slope setting signal, and wherein the reference voltage generating circuit includes an externally input level. 2. The transmission burst power control circuit according to claim 1, further comprising means for setting a magnitude of the reference voltage according to the setting signal.