KR100279374B1 - Power supply circuit of wireless modem - Google Patents

Abstract

The present invention is to control the voltage output from the DC / DC converter in the power supply circuit in the transmission mode and the reception mode to improve the energy efficiency of the battery in the time-division duplex (TDD) wireless modem, The present invention relates to a power supply circuit of a wireless modem capable of extending the life of a battery embedded in the wireless modem. According to the present invention, an electronic switch is switched in accordance with a mode switching signal in a power supply circuit of a wireless modem, thereby providing a DC / DC converter ( 10) the feedback voltage fed back to be different according to the selected mode, and by controlling the output voltage output by the step-up method from the DC / DC converter according to the corresponding mode, thereby improving the energy efficiency of the battery This will eventually extend the life of the battery.

Description

Power supply circuit of wireless modem

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply circuit of a wireless modem. In particular, in a wireless modem of a time division duplexing (TDD) system, a DC / DC converter inside a power supply circuit in a transmission mode and a reception mode to improve energy efficiency of a battery. The present invention relates to a power supply circuit of a wireless modem that can extend the life of a battery embedded in the wireless modem by controlling the voltage output from the different.

In general, a time-division communication (TDD) type wireless modem bandpasses a 900 MHz radio signal from an antenna to a reception circuit unit, and a duplexer band-passes a transmission signal from the transmission circuit unit to an antenna, and a reception signal through the duplexer. And a receiving circuit section for receiving the received data and outputting the received data, and a transmitting circuit section for transmitting the transmitted data TX-D to the duplexer and providing the received data. The receiving circuit portion operates in the reception mode, and the transmission circuit portion operates in the transmission mode. The transmission mode and the reception mode are determined by the mode switching control signal, and the mode switching signal of the corresponding mode supplied from the power supply circuit. It is determined by the operating power source.

1 is a power circuit diagram of a conventional wireless modem. Referring to FIG. 1, a power circuit of a conventional wireless modem receives a voltage of a built-in battery B, and compares an internally set reference voltage with a feedback voltage Vfb. DC / DC converter 10 for stepping up and outputting voltage by PWM method, and voltage divider circuit for dividing the output voltage of DC / DC converter 10 to provide feed back voltage to DC / DC converter 10. A feedback voltage detector 11 comprising R1 and R2, a switch SW1 for switching between contacts a and b according to a mode switching control signal Smod in a transmission / reception mode, and a contact a of the switch SW1. The first regulator 12 and the DC / DC converter 10 which are connected to the transmit operating voltage Vtx and stabilize the voltage through the contact b of the switch SW1 to provide the receive operating voltage Vrx. And a second regulator 13 for providing the voltage Vbb by making the output voltage V1 of V1 secure. The switch SW1 is connected to the contact a in the transmission mode, while the switch SW1 is connected to the contact b in the reception mode.

In the conventional time-division communication type wireless modem power supply circuit configured as described above, a transmission operating voltage Vtx of about 4.6 V, a receiving operating voltage Vrx of about 4.0 V, and a voltage using a battery voltage Vb of about 3 V are used. For this purpose, the DC / DC converter 10 outputs a voltage of about 4.6 V, which is the same voltage in a transmission mode or a reception mode, and a mode switching control signal for implementing a time division communication method (Vbb). Smod supplies the above-mentioned voltage of 4.6V to the transmission operation voltage Vtx through the contact a of the switch SW1 in the transmission mode, and supplies the voltage V1 through the contact b of the switch SW1 in the reception mode. It stabilizes to the rated voltage necessary for the reception operation to provide the reception operation voltage (Vrx).

However, in the power supply circuit of the conventional wireless modem, the DC / DC converter in the transmission mode or the reception mode is rated at a voltage of 4.0 V or less, such as the reception operation voltage (Vrx) or the voltage (Vbb), and the transmission operation voltage is the wireless modem. It is required to be used for a short time while fired by this reception modem. In fact, although the voltage of 4.6V is always short, the output of 4.6V is always reduced, which reduces energy efficiency and shortens the battery life. There was a problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and therefore, an object of the present invention is to provide an energy efficiency of a battery in a transmission mode and a reception mode in a time division duplex (TDD) wireless modem. By controlling the voltage output from the DC / DC converter in the power supply circuit to be different, to provide a power supply circuit of the wireless modem to extend the life of the battery embedded in the wireless modem.

1 is a power circuit diagram of a conventional wireless modem.

2 is a power circuit diagram of a wireless modem according to the present invention.

3 is a timing diagram of a mode switching control signal of FIG. 2.

Explanation of symbols on the main parts of the drawings

10: DC / DC converter

11,21: feedback voltage detector

12: first regulator

13: 2nd regulator Q1: NPN transistor

B: Battery Vb: Battery Voltage

Vtx: Transmit operating voltage Vrx: Receive operating voltage

Vfb: Feedback voltage Smod: Mode switching control signal

As a technical means for achieving the object of the present invention described above, the circuit of the present invention step-up (step-up) the voltage of the battery to a predetermined voltage according to the comparison result of the feedback voltage and the internal reference voltage A DC / DC converter; The first and second resistors connected in series between the output terminal of the DC / DC converter and the ground, the fourth resistor connected in parallel to the second resistor, and a mode switching control signal to turn on / off the operation; A feedback voltage detecting unit including an electronic switch for controlling parallel connection between a fourth resistor and a second resistor, and connecting a connection point of the first and second resistors to a feedback voltage detection terminal of the DC / DC converter; A switch for connecting the common contact c to the contact a by the transmission mode selection signal among the mode switching control signals, and the common contact c to the contact b by the reception mode selection signal; A first regulator for stabilizing a voltage through the contact point b of the switch to a reception operating voltage; A second regulator for stabilizing the output voltage of the DC / DC converter to a power supply voltage; Characterized in having a.

Hereinafter, a power supply circuit of a wireless modem according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

FIG. 2 is a power circuit diagram of a wireless modem according to the present invention. Referring to FIG. 2, the power circuit of the wireless modem according to the present invention is based on a comparison result between a feedback voltage Vfb and an internal reference voltage. A first DC / DC converter 10 for boosting the voltage Vb to a predetermined voltage through a step-up method, and a first connection connected in series between an output terminal of the DC / DC converter 10 and a ground; In response to the second resistor R1 and R2, the fourth resistor R4 connected in parallel to the second resistor R2, and the mode switching control signal Smod, the fourth resistor R4 is turned on and off. An electronic switch for interrupting parallel connection between R4) and the second resistor, and feedback connecting the connection points of the first and second resistors R1 and R2 to the feedback voltage detection terminal of the DC / DC converter 10; The common contact c is connected to the contact a by the voltage detector 21 and the transmission mode selection signal TX of the mode switching control signal Smod, and the reception mode selection signal RX is used. A switch SW1 for connecting the common contact c to the contact b, a first regulator 12 for stabilizing a voltage through the contact b of the switch SW1 to the reception operating voltage Vrx, and the DC / DC converter. And a second regulator 13 for stabilizing the output voltage V1 at (10) to the power supply voltage Vbb.

The electronic switch is composed of a transistor Q1 performing a turn-on / turn-off operation by a mode switching control signal, and may also be configured by an electronic switch such as an SCR.

3 is a timing diagram of the mode switching control signal of FIG. 2. Referring to FIG. 3, the mode switching control signal Smod used in the present invention is a transmission mode selection signal TX to perform a time division communication method. And the reception mode selection signal RX are repeated at predetermined time intervals, the transmission mode selection signal TX and the reception mode selection signal RX may be repeated at the same time interval. The selection signal RX continues for a long time, and the transmission mode select signal TX is generated for a short time or is generated only when the user selects a transmission mode.

Operation according to the circuit of the present invention configured as described above will be described in detail below based on the accompanying drawings.

2 and 3, a mode switching control signal Smod as shown in FIG. 3 is provided in a wireless modem employing a time division communication method. The mode switching signal Smod is provided with a transmission mode selection signal. (TX) and a reception mode selection signal (RX). The transmission mode selection signal (TX) is a signal having a high level. Therefore, the feedback voltage detection unit shown in FIG. NPN transistor Q1, which is an electronic switch in 21, is turned on and at the same time. The common contact c of the switch SW1 is connected to the contact a.

Accordingly, the output voltage V1 of the DC / DC converter 10 is divided by the feedback voltage detector 21, and the feedback voltage Vfb by the divided voltage of the feedback voltage detector 21 is the DC / DC converter ( 10) to the feedback voltage detection stage.

At this time, the feedback voltage Vfb due to the divided voltage is lowered in the transmission mode and higher in the reception mode. First, if the mode switching control signal Smod is the transmission mode selection signal TX, the feedback voltage detector 21 At the same time, the NPN transistor Q1 is turned on and the contact a of the switch SW1 is connected. Accordingly, the output voltage V1 of the DC / DC converter 10 is the second resistor R2 and the fourth resistor R4. The voltage across the sum resistors R2 // R4 of the?) Is detected as the feedback voltage. On the other hand, when the mode switching control signal Smod is the reception mode selection signal RX, the NPN transistor Q1 of the feedback voltage detection unit 21 is turned off and the contact b of the switch SW1 is connected. In the output voltage V1 of the DC / DC converter 10, a voltage applied to the second resistor R2 is detected as a feedback voltage.

The feedback voltage is input to the feedback voltage detection stage of the DC / DC converter 10. In this case, the DC / DC converter 10 compares the feedback voltage with a preset internal reference voltage and compares the result with each other. Accordingly, the duty ratio of the pulse train is adjusted by the PWM method, and the output voltage (V1) is output to be different from each other according to the corresponding mode. For example, in the transmission mode, the output voltage is adjusted to about 4.6V and is output. In this case, the output voltage is output at approximately 4.0V, and the detailed description of the internal operation of the DC / DC converter 10 is omitted in the same relation as in the prior art, that is, the output voltage of the DC / DC converter 10 in the transmission mode, that is, The voltage of about 4.6V is provided as the transmission operation voltage through the contact a of the switch SW1, and the output voltage of the DC / DC converter 10 in the reception mode, that is, the voltage of about 4.0V is applied to the switch SW1. After regulation through contact point b of After the stabilizer 12 is stabilized, it is provided with a receiving operating voltage.

On the other hand, the transmission operation voltage, the reception operation voltage, and the common voltage supplied by the power supply circuit of the wireless modem are the highest at about 4.6V, and then the reception operation voltage and the common voltage at about 4.0V.

As described above, in the present invention, the feedback voltage Vfb provided from the feedback voltage detector 21 to the DC / DC converter 10 is different depending on the selected mode, and accordingly, the feedback voltage Vfb is output from the DC / DC converter. The voltage V1 is different depending on the mode.

Specifically, as shown in FIG. 3, in the transmission mode selected for a short time compared with the reception mode, a voltage of about 4.5V is supplied for supplying the operating rated voltage required in the transmission mode, but for a relatively long time. In the selected reception mode, by outputting a voltage of about 4.0V for supplying the operating rated voltage required in the reception mode, the battery energy efficiency can be improved, and thus the battery life can be extended.

According to the present invention as described above, in the time-division duplexing (TDD) wireless modem, the voltage output from the DC / DC converter inside the power supply circuit in the transmission mode and the reception mode to improve the energy efficiency of the battery By controlling to be different, there is a special effect that can extend the life of the battery embedded in the wireless modem.

The above description is only a description of one embodiment of the present invention, the present invention is capable of various changes and modifications within the scope of the configuration.

Claims (2)

A DC / DC converter 10 for boosting the voltage Vb of the battery B to a predetermined voltage according to a comparison result between the feedback voltage Vfb and the internal reference voltage through a step-up method; First and second resistors R1 and R2 connected in series between the output terminal of the DC / DC converter 10 and ground, a fourth resistor R4 connected in parallel to the second resistor R2, And an electronic switch which is turned on / off in accordance with a mode switching control signal Smod to control the parallel connection between the fourth resistor R4 and the second resistor, and the first and second resistors R1 and R2. A feedback voltage detection unit (21) which connects the connection point of the < RTI ID = 0.0 >) < / RTI > A switch SW1 for connecting the common contact c to the contact a by the transmission mode selection signal TX of the mode switching control signal Smod, and the common contact c to the contact b by the reception mode selection signal RX. ; A first regulator 12 which stabilizes the voltage through the contact b of the switch SW1 to the reception operation voltage Vrx; A second regulator 13 for stabilizing the output voltage V1 of the DC / DC converter 10 to a power supply voltage Vbb; Power supply circuit for a wireless modem characterized in that it comprises a. The power supply circuit of claim 1, wherein the electronic switch comprises a transistor configured to perform a turn-on / turn-off operation by a mode switching control signal.