KR950003469B1 - Cellular phone of car adapter option - Google Patents

Abstract

The cellular phone is provided for controlling the RF transmitting output power and level after detecting phone stand alone status. The phone comprises a power coupler (3) input RF input signal; a car adapter (21) generating the booster installation signal connected with the high gain antenna; a tri state detection circuit (22) monitoring the car adaptor connection state and the output of the booster; and a control voltage generator (23).

Description

Car Adapter Option Portable Cell Phone

1 is a connection diagram of a conventional portable cell phone and a 3W subwoofer.

2 is a block diagram of the output path and level control circuit of the present invention portable cellular phone.

* Explanation of symbols for main parts of the drawings

21: car adapter 22: three-state detection circuit

23: control voltage generation circuit D / A: digital / analog converter

OP1, OP2: Comparator

The present invention detects three states such as the presence or absence of a portable cellular phone with a car adapter as an option and the use of a portable phone alone, and according to each state, the RF transmission output of the portable cellular phone A car adapter option portable cell phone adapted to control a path and a level is provided.

Referring to the accompanying drawings, the output path and the level control method of the portable phone when the car adapter is mounted in the conventional car adapter option portable cellular phone are as follows.

FIG. 1 is a connection diagram of a conventional portable cellular phone and a 3W booster. As shown therein, an RF input terminal 1 is connected to a power amplifier 2, and the power amplifier 2 is a power combiner 3. And the water supply container 4 are connected to the operating terminal COM of the RF relay 5, which is connected to the driving battery 14 and the control signal terminal of the car adapter 11. After the fixed terminal Nc is connected to the mobile phone internal antenna 6, the fixed terminal No is connected to the high gain antenna 13 for the vehicle through the 3W booster 12 in the car adapter 11. RF power control code switching circuit 8 connected to the booster mounting signal from the car adapter 11 and to which the 3-bit control code of the microprocessor 10 is connected is connected to the power in the power combiner 3. After a 3-bit control code is connected to the control voltage generating circuit 9 connected through the detector 7, the control voltage generating circuit 9 is It is configured in connection with the power amplifier 2.

The output path and level control method of the conventional car adapter option portable cellular phone configured as described above will be described below.

When the portable cell phone is used alone, since the portable phone and the car adapter 11 are separated, the booster mounting signal is in a high potential ("1") state, so that the control voltage in the RF power control code switching circuit 8 The control signal of the 3-bit (8-channel) control code is supplied to the generation circuit 9, whereby the transmission output of the portable phone is controlled in eight steps at intervals of 4 dB, and the control signal path of the RF relay 5 is also opened. Since the RF relay 5 is in a state in which the movable terminal COM is connected to one fixed terminal Nc, the transmission output is connected to the portable phone internal antenna 6.

In addition, when the portable cellular phone is mounted and used in the 3W booster 12 of the car adapter 11, the booster mounting signal applied from the car adapter 11 to the portable phone has a low potential ("0"). Since the 3-bit control code transmitted from the RF power control code switching circuit 8 to the control voltage generation circuit 9 is fixed to " 100 " (HLL), the transmission output of the portable cellular phone is fixed to one state. In addition, since the relay control signal is also supplied and the RF relay 5 operates, the transmission output path becomes the fixed terminal (No) on the other side of the movable terminal (COM), and the car phone output through the 3W booster (12) in the car adapter (11). Amplification control is connected to the high gain antenna 13 for the vehicle.

However, in the conventional apparatus as described above, a high-gain vehicle antenna cannot be used without an expensive 3W booster, and RF power for fixing the output level of the portable phone to one state when the portable cellular phone is mounted in a car adapter The control cord switching circuit is required, and even when mounted on a car adapter, the power supply of the portable phone has a defect that requires the use of a battery.

In view of such a conventional deficiency, the present invention enables the use of a high-gain car antenna even without using a 3W booster, and in this case, a portable cellular phone can be used to extend the battery life of the mobile phone itself. Invented the output path and level control circuit of the phone, which will be described in detail with reference to the accompanying drawings as follows.

2 is a diagram illustrating the output path and level control circuit of the portable cellular phone according to the present invention. As shown therein, the RF input terminal 1 is connected to the power amplifier 2 so that the power amplifier 2 is connected to the power combiner 3. And connected to the mobile terminal (COM) of the RF relay 5 through the water supply container (4), one fixed terminal (Nc) of the RF relay 5 is connected to the portable phone internal antenna (6) and the other fixed The terminal No is connected to the high gain antenna 13 for the vehicle through the car adapter 21 and the 3W booster 12 therein, and the booster mounting signal from the car adapter 21 is supplied to the comparator OP1. The other fixed terminal (No), which is input to the inverting input terminal of the RF relay 5 and connected to the car adapter 21 of the RF relay 5, passes through the condenser C1, and then again passes through the coil L1. After connecting to (7.5V), the resistor (R12) is connected to the non-inverting input terminal of the comparator (OP1) through the resistors (R13) and (R14). In this case, the tri-state sensing circuit 22 is configured to supply the driving voltage and the relay switching signal voltage to the RF relay 5, and the output terminal of the comparator OP1 which is the output side of the tri-state sensing circuit 22. Is connected to the Inhibit terminal (INH) of the 3-bit digital / analog converter (D / A) of the control voltage generator circuit 23, and the base is connected to the ground through an emitter and a resistor (R10). The resistor R11 is connected to the base of the transistor TR1, and the collector of the transistor TR1 is connected through the resistor R8 and then the power supply 5V terminal through the variable resistor VR1 and the resistor R9 and the above. Connect the non-inverting input terminal of the comparator OP2 in common with the 8-channel output side through the resistors R0 to R7 of the 3-bit digital / analog converter D / A, respectively, and supply the power of the power combiner 3 to power. It detects through the detector 7 and is connected to the inverting input terminal of the comparator OP2, the connection of the comparator OP2 The output terminal was configured to be connected to the power amplifier 2 as the output side of the control voltage generating circuit 23.

The output path and level control method of the inventive car adapter option portable cellular phone configured as described above will be described below.

When the portable phone is used alone without the portable phone connected to the car adapter 21, the RF relay switching signal voltage is not applied from the car adapter 21, so the movable terminal COM of the RF relay 5 ) Is connected to one fixed terminal Nc connected to the portable phone internal antenna 6, and the output signal of the 3-state sensing circuit 22 is not powered from the vehicle battery and the booster mounting signal is opened. The low potential signal is applied to the non-inverting input terminal of the comparator OP1, the high potential is applied to the inverting input terminal, and the low potential signal is outputted to the output terminal thereof. Accordingly, the switching transistor TR1 in the control voltage generation circuit 23 is applied. ) Is off, and the low potential is applied to the INH bit of the digital / analog converter D / A, and according to the 3-bit control codes A, B, and C of the microprocessor 10, Resistor (R0 to R7) is contacted via transducer (D / A) Selectively connected to the terminal X, a control voltage according to the control codes A, B, and C is generated, and then applied to the non-inverting input terminal of the comparator OP2, and by the output signal of the comparator OP2. The gain of the power amplifier 2 is controlled.

In addition, when the high gain antenna 13 for the vehicle is used without the 3W booster 12 while the portable cellular phone is connected to the car adapter 21, the vehicle battery is provided through the RF coaxial connector of the car adapter 21. 7.5 (V) power generated by is applied to the RF relay 5 switching signal voltage of the portable cellular phone, and the other fixed terminal to which the movable terminal COM of the RF relay 5 is connected to the car adapter 21. (No), and thus the output of the portable phone is connected to the high gain antenna 13 for the vehicle through the car adapter 21, wherein the non-inverting of the comparator (OP1) of the three-state sensing circuit 22 The battery terminal voltage of the vehicle (7.5V) is divided by the resistors (R13) and (R14) at the input terminal, and 3 (V) is applied.The booster mounting signal is the open signal at the inverting input terminal. The low potential signal is output to the output terminal of the comparator OP1. Therefore, at this time, as described above, the switching transistor TR1 of the control voltage generation circuit 23 is turned off, and a low potential is applied to the inhibit bit INH of the 3-bit digital / analog converter D / A. Therefore, the transmission output level is automatically controlled in eight steps according to the control codes A, B, and C of the microprocessor 10.

In this case, the mobile phone uses 7.5 V supplied from the car adapter 21 as a power supply voltage, thereby saving battery power of the mobile phone itself.

In the case where the portable cellular phone is connected to the car adapter 21 and the 3W booster 12 is used to have the same performance as that of the vehicle cellular phone, it is supplied through the RF coaxial line of the car adapter 21. A voltage of 7.5 (V) switches the RF relay 5 so that the movable terminal COM is connected to the other fixed terminal No connected to the car adapter 21, whereby the portable phone output is connected to the car adapter ( 21) and a 3W booster 12 therein, connected to the high gain antenna 13 for the vehicle, wherein the 3-state sensing circuit 22 is supplied from the battery of the vehicle to the non-inverting input terminal of the comparator OP1. The power supply voltage (7.5 V) is divided by the resistors R13 and R14, and 3 (V) is applied, and the low potential signal is applied to the inverting input terminal by the low potential signal, which is a booster mounting signal. The high potential signal is output to the output terminal of OP1), and accordingly the switching circuit of the control voltage generating circuit 23 Register (TR1) is turned on, the 3-bit digital / analog converter (D / A) inhibit signal to the high-potential terminal (INH) is applied for no longer be operating. Therefore, at this time, the mobile phone output is fixed at one transmission output level by the resistor R8 by turning on the switching transistor TR1, and this output is a high gain antenna for the vehicle after the amplification and control via the 3W booster 12. Connected to (13).

As described in detail above, the present invention can use a high-gain vehicle antenna having a gain of about 5 to 6 dB greater than the internal antenna of the portable phone even without an expensive 3W booster, so that communication distance and reception sensitivity are almost the same as in a vehicle telephone. In this case, the battery of the vehicle is used to extend the battery life of the mobile phone itself, and the relay control signal pin can be reduced by using the RF transmission output path of the interface between the mobile phone and the car adapter. .

Claims (3)

The RF input signal is applied to the power combiner 3 through the power amplifier 2, and the output signal of the power combiner 3 is applied to the power detector 7 and through the transmission common unit 4 through the phone internal antenna ( 6. A portable cellular phone configured to be applied to an RF relay 5 to which 6) is connected, wherein the RF relay 5 is connected to the 3W booster 12 directly or in a vehicle according to whether the 3W booster 12 is mounted. A switching signal voltage is supplied to the RF relay 5 when the car adapter 21 connected to the high gain antenna 13 and generating a booster mounting signal and the car adapter 12 are connected; The tri-state sensing circuit 22 detecting the car adapter 21 and the output of the booster mounting signal of the car adapter 21 and the output signal of the tri-state sensing circuit 22 are connected to the car adapter 21. According to the control voltage of the microprocessor 10 to generate a control voltage And a control voltage generation circuit (23) for applying the control voltage to the power amplifier (2) as compared with the output signal of the power detector (7) after generating a power adapter. . The three-state sensing circuit 22 of claim 1, wherein the booster mounting signal of the car adapter 21 is connected to the inverting input terminal (-) of the comparator OP1 together with the power supply 5V through the resistor R15. The vehicle battery voltage from the car adapter 21 through the coil L1 is applied to the RF relay 5 as the switching signal voltage through the resistor R12, and the resistors R13 and R14, A car adapter option portable cellular phone, wherein the voltage is divided through R12 to be connected to the non-inverting input terminal of the comparator OP1. 2. The control voltage generating circuit (23) according to claim 1, wherein the control voltage generation circuit (23) has a function of digital / analog converter (D / A) in which the output signal of the three-state sensing circuit (22) converts the control code of the microprocessor (10) into an analog signal. It is applied to the bit terminal and connected to the base of the transistor TR1 through the resistors R11 and R10, and the power supply through the variable resistor VR1 and the resistor R9 is connected to the digital / analog converter D / A. The resistors R0 to R7 connected to the output terminals of the transistors and the resistors R8 connected to the collectors of the transistors TR1 and connected to the non-inverting input terminals of the comparator OP2. In addition, the car adapter, characterized in that connected to the inverting input terminal of the output signal of the power detector 7 is applied, the output signal of the comparator (OP2) is applied to the power amplifier 2 as a control voltage Optional portable cell phone.

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