KR20020062481A - Output power stablization circuit and method for use in a mobile phone supporting amps - Google Patents

Abstract

PURPOSE: A circuit and method for stabilizing an output power of a mobile communication terminal which supports an AMPS(Advanced Mobile Phone System) type is provided to stabilize all output powers by adjusting a gain of a scaling amplifier according to a power level of a requested transmission signal and connecting the output of the scaling amplifier to a power amplifier, a driver amplifier, or an IF(Intermediate Frequency) AGC(Automatic Gain Control) amplifier. CONSTITUTION: A power amplifier(11) amplifies a power of a transmission signal. A scaling amplifier(12) adjusts a bias voltage of the power amplifier(11). A control unit(100) controls a gain of the scaling amplifier(12) according to a power level of a requested transmission signal for controlling the change quantity of the bias voltage of the power amplifier(11). The control unit(100) heightens the gain of the scaling amplifier(12) in case that the power level is high for heightening the change quantity of the bias voltage of the power amplifier(11).

Description

Output power stabilization circuit and method of mobile communication terminal supporting Amps method {OUTPUT POWER STABLIZATION CIRCUIT AND METHOD FOR USE IN A MOBILE PHONE SUPPORTING AMPS}

The present invention relates to a mobile communication terminal, and more particularly, to a circuit and a method for stabilizing an output power of a mobile communication terminal supporting an Amps (AMPS) scheme.

In general, a mobile communication terminal supporting an Advanced Mobile Phone System (AMPS) scheme includes a circuit for stabilizing output power as shown in FIG. 1.

1 is a view showing the configuration of a mobile communication terminal including an output power stabilization circuit according to the prior art.

Referring to FIG. 1, a mobile communication terminal according to the prior art includes a power amplifier 11, a scaling amplifier 12, a rectifier circuit 13, and an antenna 14. Note that the gain of the scaling amplifier 12 is fixed at this time.

Now, assuming there is an output from a driver amplifier (not shown), this output is applied to the input of the power amplifier 11 and amplified. At this time, if the output power of the power amplifier 11 is low, compensation is made by the scaling amplifier 12. That is, when the output power of the power amplifier 11 is low, the scaling amplifier 12 increases the output voltage of the power amplifier 11 as a result of increasing the bias voltage of the power amplifier 11. On the contrary, when the output power of the power amplifier 11 is high, the scaling amplifier 12 lowers the bias voltage of the power amplifier 11 and consequently lowers the output power of the power amplifier 11.

As described above, the output power stabilization circuit according to the prior art does not have a big problem when the output power of the power amplifier is high. However, when the output power of the power amplifier is low, the gain of the scaling amplifier is fixed, and thus the gain of the power amplifier changes a lot even in the small fluctuation of the output power.

Accordingly, an object of the present invention is to provide a circuit and a method for stabilizing output power of a mobile communication terminal supporting an AMPS scheme.

Another object of the present invention is to provide a circuit and a method for improving stability even at low output power of a power amplifier in a mobile communication terminal supporting an AMPS scheme.

The controller of the mobile communication terminal according to the present invention for achieving these objects adjusts the gain of the scaling amplifier in consideration of the output power of the current power amplifier. The control unit can increase the output gain of the scaling amplifier when a high output power is required, and lower the gain of the scaling amplifier when a low output power is required, thereby achieving stability of output for all output powers. Make sure

1 is a view showing the configuration of an output power stabilization circuit of a mobile communication terminal according to the prior art.

2 is a diagram illustrating a configuration of an output power stabilization circuit of a mobile communication terminal according to an embodiment of the present invention.

3 is a diagram illustrating a configuration of an output power stabilization circuit of a mobile communication terminal according to another embodiment of the present invention.

4 is a diagram illustrating a configuration of an output power stabilization circuit of a mobile communication terminal according to another embodiment of the present invention.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. It should be noted that the same reference numerals and the same elements in the drawings are represented by the same reference numerals and symbols as much as possible even if shown on different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

2 is a view showing the configuration of the output power stabilization circuit of the mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 2, a mobile communication terminal according to an embodiment of the present invention includes a power amplifier 11, a scaling amplifier 12, a rectifier circuit 13, and an antenna. 14 and the controller 100. That is, the mobile communication terminal according to an embodiment of the present invention further includes a control unit 100 unlike the mobile communication terminal according to the related art shown in FIG. 1. The controller 100 performs a function of adjusting the gain of the scaling amplifier 12 and may be implemented as a microprocessor.

The power amplifier 11 amplifies the power of the signal for transmission. The output of the power amplifier 11 is radiated into the air through the antenna 14. The scaling amplifier 12 adjusts the bias voltage of the power amplifier 11. The controller 100 controls the amount of change in the bias voltage of the power amplifier 11 by controlling the gain of the scaling amplifier 12 according to the required power level of the transmission signal. For example, if the power level is high, the controller 100 increases the gain of the scaling amplifier 12 to increase the amount of change in the bias voltage of the power amplifier 11. As another example, when the power level is low, the controller 100 lowers (gains) the amount of change in the bias voltage of the power amplifier 11 by lowering the gain of the scaling amplifier 12.

When implementing the mobile communication terminal as shown in FIG. 2, the control becomes within 0.2 dB at all the outputs of the six stages (PL2-PL7) of the AMPS output. For reference, in case of using the conventional method, the output power (Pout) of the power amplifier can be controlled within 0.2dB from 6 stages (PL2-PL7) of the AMPS output to PL2-PL5 and 0.5dB in the PL6-PL7. to be.

3 is a diagram illustrating a configuration of an output power stabilization circuit of a mobile communication terminal according to another embodiment of the present invention. This embodiment is implemented by adjusting the gain of the scaling amplifier 12 shown in FIG. 2 and connecting the output of the scaling amplifier 12 to the driving amplifier 22.

Referring to FIG. 3, the mixer 21 multiplies an intermediate frequency signal for transmission by a preset frequency F and outputs a high frequency signal for transmission. The drive amplifier 22 drives and amplifies the high frequency signal from the mixer 21. The power amplifier 11 power amplifies the output of the drive amplifier 22. The output of the power amplifier 11 is radiated into the air through the antenna 14. Scaling amplifier 12 adjusts the bias voltage of drive amplifier 22 according to the gain being adjusted. The controller 100 controls the amount of change in the bias voltage of the driving amplifier 22 by controlling the gain of the scaling amplifier 12 according to the required output level of the power amplifier 11.

For example, when the power level is high, the controller 100 increases the gain of the scaling amplifier 12 to increase the amount of change in the bias voltage of the driving amplifier 22. As another example, when the power level is low, the controller 100 lowers the gain of the scaling amplifier 12 to lower the amount of change in the bias voltage of the driving amplifier 22.

4 is a diagram illustrating a configuration of an output power stabilization circuit of a mobile communication terminal according to another embodiment of the present invention. This embodiment is implemented by adjusting the gain of the scaling amplifier 12 shown in FIG. 2 and connecting the output of the scaling amplifier 12 to an intermediate frequency (IF) Automatic Gain Control (AGC) amplifier 22. will be.

Referring to FIG. 4, the mixer 31 multiplies the signal for transmission by a predetermined frequency F1 and converts the signal for transmission into an intermediate frequency signal. AGC amplifier 32 controls the gain of the intermediate frequency signal. The mixer 21 converts the output of the AGC amplifier 32 into a high frequency signal by multiplying the output of the AGC amplifier 32 by a preset frequency F2. The drive amplifier 22 drives and amplifies the output signal of the mixer 21. The power amplifier 11 power amplifies the output of the drive amplifier 22. The output of the power amplifier 11 is radiated into the air through the antenna 14. Scaling amplifier 12 adjusts the bias voltage of drive amplifier 22 according to the gain being adjusted. The controller 100 controls the amount of change in the bias voltage of the AGC amplifier 32 by controlling the gain of the scaling amplifier 12 according to the required output level of the power amplifier 11.

For example, when the power level is high, the controller 100 increases the gain of the scaling amplifier 12 to increase the amount of change in the bias voltage of the AGC amplifier 32. As another example, when the power level is low, the controller 100 lowers the gain of the scaling amplifier 12 to decrease the amount of change in the bias voltage of the AGC amplifier 32.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

As described above, the present invention controls the power at all output powers by controlling the gain of the scaling amplifier according to the power level of the transmission signal required and allowing the output of the scaling amplifier to be connected to a power amplifier, a driving amplifier or an IF AGC amplifier. There is an advantage to be made.

Claims (18)

In the circuit for stabilizing the output power of the mobile communication terminal that supports the Amps (AMPS) method, A power amplifier that amplifies the power of the signal for transmission; A scaling amplifier for adjusting a bias voltage of the power amplifier; And a control unit controlling an amount of change in the bias voltage of the power amplifier by controlling a gain of the scaling amplifier according to a power level of a required transmission signal. The stabilization circuit according to claim 1, wherein the control unit increases the amount of change in the bias voltage of the power amplifier by increasing the gain of the scaling amplifier when the power level is high. The stabilization circuit according to claim 1, wherein the control unit lowers the amount of change in the bias voltage of the power amplifier by lowering the gain of the scaling amplifier when the power level is low. In the circuit for stabilizing the output power of the mobile communication terminal that supports the Amps (AMPS) method, A driving amplifier for driving amplifying a high frequency signal for transmission; A power amplifier for power amplifying the output of the drive amplifier; A scaling amplifier for adjusting the bias voltage of the drive amplifier according to the gain to be adjusted; And a control unit controlling an amount of change in the bias voltage of the driving amplifier by controlling the gain of the scaling amplifier according to the required output level of the power amplifier. The stabilization circuit according to claim 4, wherein the control unit increases the amount of change in the bias voltage of the driving amplifier by increasing the gain of the scaling amplifier when the power level is high. 5. The stabilization circuit of claim 4, wherein the controller is further configured to lower the gain of the scaling amplifier when the power level is low to decrease the amount of change in the bias voltage of the driving amplifier. In the circuit for stabilizing the output power of the mobile communication terminal that supports the Amps (AMPS) method, A first frequency converter for converting a signal for transmission into an intermediate frequency signal; An automatic gain control amplifier for controlling the gain of the intermediate frequency signal; A second frequency converter for converting an output of the automatic gain control amplifier into a high frequency signal; A driving amplifier for driving amplifying the output signal of the second frequency converter; A power amplifier for power amplifying the output of the drive amplifier; A scaling amplifier for adjusting the bias voltage of the drive amplifier according to the gain to be adjusted; And a control unit controlling an amount of change in the bias voltage of the automatic gain control amplifier by controlling the gain of the scaling amplifier according to the required output level of the power amplifier. The stabilization circuit according to claim 7, wherein the control unit increases the amount of change in the bias voltage of the automatic gain control amplifier by increasing the gain of the scaling amplifier when the power level is high. The stabilization circuit according to claim 7, wherein the control unit reduces the amount of change in the bias voltage of the automatic gain control amplifier by lowering the gain of the scaling amplifier when the power level is low. In the method for stabilizing the output power of a mobile communication terminal including a power amplifier for amplifying the power of the signal for transmission, and supports the Amps (AMPS) method, Determining a gain of the scaling amplifier for adjusting the bias voltage of the power amplifier according to the required power level of the transmission signal; And controlling the amount of change in the bias voltage of the power amplifier by controlling the scaling amplifier with the determined gain. The method as claimed in claim 10, wherein the amount of change in the bias voltage of the power amplifier is increased by determining that the gain of the scaling amplifier is increased when the power level is high. 12. The method of claim 11, wherein the change amount of the bias voltage of the power amplifier is reduced by determining that the gain of the scaling amplifier is lowered when the power level is low. In the method for stabilizing the output power of a mobile communication terminal comprising a drive amplifier for driving amplification of a high frequency signal for transmission, and a power amplifier for power amplifying the output of the drive amplifier, Determining a gain of the scaling amplifier for adjusting the bias voltage of the drive amplifier according to the output level of the power amplifier required; Controlling the amount of change in the bias voltage of the drive amplifier by controlling the scaling amplifier with the determined gain. The method as claimed in claim 13, wherein the amount of change in the bias voltage of the driving amplifier is increased by determining that the gain of the scaling amplifier is increased when the power level is high. The method as claimed in claim 13, wherein when the power level is low, the amount of change in the bias voltage of the driving amplifier is reduced by determining that the gain of the scaling amplifier is lowered. A first frequency converter for converting a signal for transmission into an intermediate frequency signal, an automatic gain control amplifier for controlling gain of the intermediate frequency signal, a second frequency converter for converting an output of the automatic gain control amplifier into a high frequency signal; And a driving amplifier for driving amplifying the output signal of the second frequency converter, and a power amplifier for power amplifying the output of the driving amplifier, and for stabilizing output power of a mobile communication terminal supporting an Amps method. In the method, Determining a gain of the scaling amplifier for adjusting the bias voltage of the drive amplifier according to the output level of the power amplifier required; And controlling the amount of change in the bias voltage of the automatic gain control amplifier by controlling the gain of the scaling amplifier with the determined gain. 17. The method as claimed in claim 16, wherein when the power level is high, the amount of change in the bias voltage of the automatic gain control amplifier is increased by determining that the gain of the scaling amplifier is increased. 17. The method of claim 16, wherein when the power level is low, the amount of change in the bias voltage of the automatic gain control amplifier is reduced by determining that the gain of the scaling amplifier is lowered.