JP2004007149A - Transmission power controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a transmission power controller that can constantly control the power of transmitting signals even when the ambient temperature changes even in an environment in which the control of transmission power is difficult at the time of transmitting and receiving data. <P>SOLUTION: The amplification factor of an amplifier 30 is controlled in accordance with the output signal of another amplifier 32 by changing the signal (b) outputted from a control circuit 31 so as to compensate the temperature dependency of the power of the output signal of the amplifier 30, based on the variation of the resistance of the temperature-sensitive element (thermistor) 12 of a current/voltage converting circuit 13 constituted of resistors 10 and 11 and the temperature-sensitive element 12, by inputting a signal (a) outputted from the amplifier 30 and proportional to the transmission power to the control circuit 31 and outputting the signal (b) proportional to the amplification factor of the amplifier 32 from the control circuit 31. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a transmission power control device for temperature-compensating transmission power of a wireless transmitter.
[0002]
[Prior art]
FIG. 3A is a diagram illustrating a transmission device having a constant transmission power, for example, a transmission power control device in a wireless LAN (Local Area Network) device or the like. The wireless LAN device does not have a data buffering function or a MAC (Media Access Control) function so that a user can freely construct a communication control system and to reduce the cost.
[0003]
The transmission power control device shown in FIG. 3A includes an amplifier 30 for amplifying a transmission signal, a control circuit 31 for generating a control signal for controlling an output level (transmission power) of the transmission signal, and a gain control function. And an amplifier 32 comprising: The output level of the transmission signal may be detected by the amplifier 30 or may be detected by the control circuit 31.
[0004]
When a signal a proportional to the transmission power output from the amplifier 30 is input to the control circuit 31, the transmission power control device inputs a signal b based on the signal a from the control circuit 31 to the amplifier 32. The gain of the amplifier 32 is controlled based on the signal b, and the output signal is further amplified by the amplifier 30. The signal output from the amplifier 30 is maintained at a constant output level. As described above, the transmission power control device illustrated in FIG. 3A forms a control loop that outputs a constant transmission power based on the signal a and the signal b.
[0005]
[Problems to be solved by the invention]
However, as described above, the conventional transmission power control device shown in FIG. 3A allows a user to freely construct a communication control system, and also has a data buffering function and a MAC function for cost reduction. Is not provided. Therefore, it is always necessary to immediately respond to a transmission / reception request from the user side, and it is difficult to use the control circuit 31 only for transmission power control. Thus, in the conventional transmission power control device, when the ambient temperature changes, the output level of the amplifier 30 may change due to the change in the temperature.
That is, even if the output level of the amplifier 30 changes due to the temperature characteristic of the amplifier 30, if the transmitting / receiving device (for example, a wireless LAN device) is transmitting / receiving data, the control circuit 31 is exclusively used to adjust the output level. I couldn't. Therefore, a control operation that compensates for a change in the output level based on the temperature characteristic of the amplifier 30 cannot be performed.
[0006]
FIGS. 3B and 3C are diagrams showing voltage-temperature characteristics of the output signal b of the amplifier 32 and the output signal a of the amplifier 30, respectively.
In FIG. 3B, the vertical axis indicates the voltage of the signal b, and the horizontal axis indicates the ambient temperature. In FIG. 3C, the vertical axis indicates the voltage of the signal a, and the horizontal axis indicates the ambient temperature.
[0007]
As shown in FIG. 3B, the signal b has a constant voltage value even when the temperature changes, whereas the voltage value of the signal a shown in FIG. The voltage value has dropped. This is because, as described above, the control circuit 31 is used for controlling the data transmission / reception operation, and the output level is not controlled based on the temperature characteristics of the amplifier 30. As described above, in the conventional transmission power control device, when the ambient temperature changes, the transmission power cannot be controlled to be constant.
[0008]
By the way, a device in which a temperature-sensitive element (thermistor) is connected to an attenuator is known as a device for compensating for a temperature when a signal independent of temperature is desired.
FIG. 4 is a diagram showing a transmission power control device in which a temperature sensor is connected to an attenuator.
[0009]
As shown in FIG. 4, an attenuator 41 composed of a resistor 40 changes a power attenuation rate of an input signal based on a variable resistance value of a temperature sensing element 42 connected in parallel.
Thus, a transmission power control device capable of temperature compensation can be configured using the attenuator 41 and the temperature sensing element 42.
[0010]
However, when the attenuator 41 is used, there is a problem that unnecessary radiation noise is generated from the attenuator 41.
Therefore, in the present invention, in consideration of the above problems, in an environment where it is difficult to perform transmission power control during data transmission and reception, it is possible to control the transmission signal power to be constant even when the ambient temperature changes. It is an object to provide a possible transmission power control device.
[0011]
[Means for Solving the Problems]
In order to solve the above problems, the present invention employs the following configuration.
That is, a transmission power control device of the present invention is a transmission power control device that controls the power of a signal transmitted from a wireless transmitter, and an amplifier that amplifies an input signal and controls the power of the transmission signal. Generating means for generating a control signal for controlling the gain of the amplifier based on the output of the amplifier; and adjusting the control signal so as to cancel a change in the gain of the amplifier due to the temperature change in response to a change in ambient temperature. Means.
[0012]
Further, in the transmission power control device, the adjusting means includes a thermistor, and the amplifier varies an amplification factor based on a resistance value of the thermistor that changes and a control signal generated by the generating means, and adjusts an input signal. May be configured to be amplified.
This makes it possible to control the power of the transmission signal to be constant even when the ambient temperature changes.
[0013]
Further, the transmission power control device of the present invention is a transmission power control device that controls the power of a signal transmitted from a wireless transmitter, and an amplifier that amplifies an input signal and controls the power of the transmission signal. Adjusting means for adjusting the control signal so as to cancel a change in gain of the amplifier accompanying the temperature change in response to the temperature change.
[0014]
This makes it possible to control the power of the transmission signal to be constant even when the ambient temperature changes.
Further, the transmission power control device of the present invention is a transmission power control device that is provided in a wireless communication device and that cannot control the power of a transmission signal when the wireless communication device is transmitting and receiving data. An amplifier for amplifying a signal and controlling the power of the transmission signal; generating means for generating a control voltage for controlling a gain of the amplifier based on an output of the amplifier; and the wireless communication device transmitting and receiving data And adjusting means for adjusting the control voltage based on a temperature change detected by the thermistor so as to cancel a gain change of the amplifier accompanying the temperature change.
[0015]
This makes it possible to control the power of the transmission signal to be constant even when the ambient temperature changes.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram illustrating a transmission power control device according to an embodiment of the present invention. The same components as those of the conventional transmission power control device shown in FIG. 3 are denoted by the same reference numerals. Further, the transmission power control device of the present embodiment is, like the conventional transmission power control device, capable of freely constructing a communication control system by a user. (Media Access Control) function. As described above, since it does not have a data buffering function or a MAC function, it is often in a standby mode to immediately respond to a transmission / reception request from the user side. Therefore, the control circuit included in the transmission power control device of the present embodiment has a configuration in which control operations such as transmission power control cannot be performed during data communication.
[0017]
The transmission power control device shown in FIG. 1 includes an amplifier 30 for amplifying a transmission signal, a control circuit 31 for generating a control signal for controlling an output level of the transmission signal, an amplifier 32 having a gain control function, / Voltage conversion circuit 13. The output level of the transmission signal may be detected by the amplifier 30 or may be detected by the control circuit 32. If the amplifier 30 has a gain control function, the amplifier 32 may be omitted, and the control signal b from the control circuit 31 may be directly input to the amplifier 30.
[0018]
First, a signal a proportional to the transmission power output from the amplifier 30 is input to the control circuit 31. Conventionally, the voltage-temperature characteristic of the signal a at this time does not become a constant value with respect to a temperature change due to the temperature characteristic of the amplifier 30 itself, as shown in FIG. Then, based on the signal a proportional to the output of the amplifier 30, the control circuit 31 outputs a signal b for adjusting the amplification factor of the amplifier 32 so as to cancel the change of the signal a. In the conventional transmission power control device, the amplification factor of the amplifier 32 rises and falls in proportion to the magnitude of the signal b, and as a result, the output of the amplifier 30 is kept constant (see FIG. 3B). And the output of the amplifier 30 has changed according to the ambient temperature.
[0019]
The transmission power control device shown in FIG. 1 is characterized in that a current / voltage conversion circuit 13 including a resistor 10 and a resistor 11 and a temperature sensing element (thermistor) 12 is connected to an output terminal of a control circuit 31. It is a connected point. It is desirable that the temperature sensing element 12 be disposed near the amplifier 30. The signal b is a signal in which the output signal of the control circuit 31 is adjusted based on the output voltage of the current / voltage conversion circuit 13, and compensates for the power of the signal output from the amplifier 30 depending on the temperature. To change. The output signal of the amplifier 32 is input to the amplifier 30, and the output level of the output signal (transmission signal) of the amplifier 30 is kept constant.
[0020]
A constant current flows from the control circuit 31 to the resistor 10, the resistor 11, and the temperature sensing element 12 of the current / voltage conversion circuit 13, and changes in the resistance value of the temperature sensing element 12 of the current / voltage conversion circuit 13. The voltage value input to the amplifier 32 changes accordingly. Note that the resistors 10 and 11 in the current / voltage conversion circuit 13 are connected for fine adjustment of the voltage value of the voltage input to the amplifier 32, and the resistance value of the resistor 10 or 11 is , According to the temperature characteristics of the amplifier 30.
[0021]
FIGS. 2A and 2B are diagrams showing the voltage-temperature characteristics of the output signal b of the amplifier 32 in FIG. 1 and the output signal a of the amplifier 30 in FIG. 1, respectively.
In FIG. 2A, the vertical axis represents the voltage of the signal b, and the horizontal axis represents the ambient temperature. In FIG. 2B, the vertical axis represents the voltage of the signal a, and the horizontal axis represents the ambient temperature.
[0022]
As shown in FIG. 2A, the voltage value of the signal b increases as the ambient temperature increases. The voltage-temperature characteristic of signal b as shown in FIG. 2A is adjusted so as to cancel the voltage-temperature characteristic of signal a shown in FIG. 3C when there is no conventional current / voltage conversion circuit 13. Have been. That is, as shown in FIG. 2B, the signal b input to the amplifier 32 is adjusted so that the voltage value of the signal a becomes constant even when the ambient temperature changes. Specifically, a voltage obtained by superimposing the output voltage of the control circuit 31 and the output voltage of the current / voltage conversion circuit 13 is input to the amplifier 32 as a signal b.
[0023]
As described above, the transmission power control apparatus according to the present embodiment has a data buffering function and a MAC (Media Access Control) function to allow a user to freely construct a communication control system and to reduce costs. It does not have a configuration. As described above, the absence of the data buffering function and the MAC function requires an immediate response to a transmission / reception request from the user side. Therefore, the standby mode is often used, and the control circuit 31 cannot be used exclusively for transmission power control or the like. Therefore, the transmission power control device of the present embodiment includes the temperature sensitive element 12 and performs temperature compensation of the amplifier 30 and the like.
[0024]
As described above, the signal b having the voltage-temperature characteristic shown in FIG. 2B, that is, the signal whose output of the amplifier 32 cancels the temperature characteristic of the amplifier 30 (the signal whose power increases as the temperature rises) ) Is generated by the current / voltage conversion circuit 13, so that the voltage-temperature characteristic of the amplifier 30 can be canceled, and the voltage of the signal a can be kept constant as shown in FIG. . This makes it possible to keep the transmission power constant even when the ambient temperature changes.
[0025]
【The invention's effect】
According to the transmission power control device of the present invention, since the control signal of the amplifier is adjusted based on the ambient temperature, the power of the signal output from the amplifier can be kept constant without depending on the ambient temperature. It becomes possible.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a transmission power control device according to an embodiment of the present invention.
FIG. 2A is a diagram illustrating a voltage-temperature characteristic of an output signal b of an amplifier 32; 4B is a diagram illustrating a voltage-temperature characteristic of the output signal a of the amplifier 30.
FIG. 3A is a diagram illustrating a conventional transmission power control device. (B) is a diagram showing a voltage-temperature characteristic of an output signal b of the amplifier 32. 3C is a diagram illustrating a voltage-temperature characteristic of the output signal a of the amplifier 30.
FIG. 4 is a diagram showing a transmission power control device in which a temperature sensor is connected to an attenuator.
[Explanation of symbols]
10 Resistance 11 Resistance 12 Temperature sensitive element (Thermistor)
13 Current / voltage conversion circuit 30 Amplifier 31 Control circuit 32 Amplifier

Claims (4)

A transmission power control device that controls the power of a signal transmitted from a wireless transmitter,
An amplifier that amplifies an input signal and controls the power of the transmission signal;
Generating means for generating a control signal for controlling the gain of the amplifier based on the output of the amplifier;
Adjusting means for adjusting the control signal so as to cancel a gain change of the amplifier accompanying the temperature change in accordance with a change in ambient temperature;
A transmission power control device comprising: The transmission power control device according to claim 1, wherein
The adjusting means includes a thermistor,
The transmission power control device, wherein the amplifier amplifies an input signal by changing an amplification factor based on a resistance value of the thermistor that changes and a control signal generated by the generation unit. A transmission power control device that controls the power of a signal transmitted from a wireless transmitter,
An amplifier that amplifies an input signal and controls the power of the transmission signal;
Adjusting means for adjusting the control signal so as to cancel a gain change of the amplifier accompanying the temperature change in accordance with a change in ambient temperature;
A transmission power control device comprising: A transmission power control device that is provided in a wireless communication device and that cannot control the power of a transmission signal when the wireless communication device is transmitting and receiving data,
An amplifier that amplifies an input signal and controls the power of the transmission signal;
Generating means for generating a control voltage for controlling a gain of the amplifier based on an output of the amplifier;
When the wireless communication device is transmitting and receiving data, based on a temperature change detected by a thermistor, adjusting means for adjusting the control voltage so as to cancel a gain change of the amplifier accompanying the temperature change,
A transmission power control device comprising:

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