KR0135039Y1 - High-frequency unit circuit of wireless telephone - Google Patents

Abstract

The present invention relates to a high frequency unit circuit of a radiotelephone which maintains an optimal transmission state by adjusting the transmission output level according to the transmission distance of the radiotelephone. The remote / base set of the radiotelephone receives the transmitted signal (3) as an input. A voltage controlled oscillator 15 for modulating, first to third amplifiers 11 to 13 for transmitting the modulated signal of the voltage controlled oscillator to a B + power supply voltage having the longest transmission distance and transmitting it to the transmission antenna 5; According to the magnitude of the B + power supply voltage, a D / A converter 20 is provided to reduce the B + power supply voltages of the first to third amplifiers according to the control signals of the first and second control stages 1 and 2. The overall gain of the amplifier is the optimum gain for the range.

Description

Radio Frequency Unit Circuit of Wireless Telephone

1 is a conventional circuit diagram.

2 is an improved circuit diagram of the present invention.

3 is a D / A converter input / output table of the present invention.

* Explanation of symbols for main parts of the drawings

1,2: control terminal 5: transmission antenna

11 to 13: Amplifier 20: D / A converter

The present invention relates to a high frequency (RF) unit circuit of a wireless telephone, and particularly to a high frequency unit circuit having a D / A converter that optimizes a communication state by adjusting the transmission output level of a remote / base set to an appropriate size according to a distance. It is about.

In the prior art, as shown in FIG. 1, the voltage controlled oscillator 15 is connected to the V _T voltage input terminal 3, and the first to third amplifiers 11 to 13 are connected to the voltage controlled oscillator 15. FIG. The first control terminal 1 to the first amplifier 11 and the second control terminal 2 to the second and third amplifiers 12 and 13 in common. The high frequency unit was configured to communicate with the outside by connecting the transmitting antenna 5 to the amplifier 13.

In the above-described prior art configuration, the oscillation signals generated by the voltage controlled oscillator 15 are first to third amplifiers in order to maximize the output power output through the transmission antenna 5 so as to have the longest communication distance. (11-13) amplified and output.

That is, in order to maximize the output power due to the long communication distance, the first and second control stages 1 and 2 are made high signals to drive all of the first to third amplifiers 11 to 13. In order to reduce the output power to the lowest because the maximum output power is obtained and the communication distance is short, on the contrary, the first and second control stages 1 and 2 signal are all made low so that the first to third amplifiers 11 The minimum output power was obtained by turning off all (-13).

As described above, since the conventional technology adjusts the power level according to the call distance to the maximum or minimum by a simple control unit, a problem arises in that the proper power level cannot be adjusted at the appropriate call distance between the maximum and the minimum.

Therefore, the present invention has been devised to solve the above-described problems, and an object of the present invention is to use a digital-to-analog (D / A) converter in a wireless telephone, so that the appropriate transmission power can be varied depending on the distance of the wireless telephone. The present invention relates to a high frequency unit circuit of a radiotelephone which is divided and controlled.

The technical configuration for achieving the object of the present invention is a voltage controlled oscillator for receiving and oscillating the input signal of the remote / base set transmitter of the radiotelephone, and the modulation signal of the voltage controlled oscillator B + longest First to third amplifiers configured to supply power to a transmission antenna and a D / A converter for reducing the B + power supply voltages of the first to third amplifiers according to control signals of the first and second control terminals. The total gain of the amplifier according to the magnitude of the B + power supply voltage is characterized in that the gain of the optimum state suitable for the communication distance.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of the present invention, in which a voltage controlled oscillator 15 is connected to a remote / base set transmission input terminal 3 of a radiotelephone, and first to third amplifiers 11 to 13 are connected to the voltage controlled oscillator 15. ) Are connected in series.

The outputs of the D / A converter 20 are commonly connected to the first to third amplifiers 11 to 13, and the first and second control terminals 1 are input to the D / A converter 20. (2) is connected.

In addition, a transmission antenna 5 for data transmission is connected to an output terminal of the third amplifier 13.

In such a configuration, the signal output from the remote / base set transmitting end of the radio telephone enters the voltage controlled oscillator 15 through the input end 3.

Then, the voltage controlled oscillator 15 modulates the signal input from the remote / base set transmitting end into an appropriate oscillation signal, and the signal modulated by the voltage controlled oscillator 15 is first to third amplifiers 11 to 13. Through the transmission antenna 5 in turn, it transmits to the outside.

In this process, the gain values of the first to third amplifiers 11 to 13 are designed to be the maximum values so that the communication distance is longest, and then the power supply voltages of the first to third amplifiers 11 to 13 are set to B +. Decide on

The B + power supply voltage is supplied to the first to third amplifiers 11 to 13 through the D / A converter 20, and the D / A converter 20 is connected to the first and second control terminals of the input terminal. 1) The B + power supply voltages of the first to third amplifiers 11 to 13 are controlled by the control signal of (2).

The control of the D / A converter 20 by the first and second control stages 1 and 2 is shown as shown in FIG. 3, for example the first and second control stages 1. (2) When the control signals are all high (H), the D / A converter 20 supplies the maximum signal to the first to third amplifiers 11 to 13, and thus the first to third amplifiers 11 to 13. ) Outputs a maximum B + power supply voltage, the first control stage 1 is high (H) and the second control stage 2 is low, the D / A converter 20 is the first to third When the output voltage of the three amplifiers 11 to 13 is reduced to -0.5V, B + -0.5, and the first control stage 1 is low and the second control stage 2 is high, the D / A converter ( 20) makes the output voltages of the first to third amplifiers 11 to 13 reduced to -1V to B + -1.

When the first and second control stages 1 and 2 are both low, the D / A converter 20 supplies the lowest signal to the first to third amplifiers 11 to 13, so that the first and second control stages 1 and 2 are low. The outputs of the third to third amplifiers 11 to 13 become the lowest B + −1.5 power supply voltages.

As described above, according to the magnitude of the power supply voltage applied to the first to third amplifiers 11 to 13, the overall gain of the amplifier generates a gain of an optimum state suitable for the communication distance of the telephone, and by the gain of the optimum state. The determined power level is transmitted to the outside via the transmission antenna 5.

As described in detail above, in the prior art, since the output power level controls the function of the amplifier according to the communication distance of the wireless telephone, the communication distance is divided into two cases when the communication distance is the maximum and the lowest. Since the A + converter controls the B + supply voltage applied to the amplifier, various amplification gains are obtained, so the output power levels are divided and transmitted according to the communication distance of the radiotelephone.

Therefore, there is a beneficial effect to maintain the optimal call state suitable for the communication distance of the wireless phone than the existing technology.

Claims (1)

A voltage-controlled oscillator 15 for oscillating and modulating the remote / base set transmitter end signal 3 of the radiotelephone, and a transmission antenna 5 by making the modulation signal of the voltage-controlled oscillator the B + power supply with the longest communication distance; D to reduce the B + power supply voltage of the first to third amplifiers 11 to 13 and the first and second control terminals 1 and 2 according to the control signals of the first to third amplifiers 11 to 13. A / A converter (20) is provided so that the overall gain of the amplifier according to the magnitude of the B + power supply voltage is a gain of an optimum state suitable for the communication distance.