KR100344216B1 - Common apparatus of frequency multiplier in radio equipment - Google Patents

Abstract

The frequency multiplier sharing apparatus in the disclosed wireless communication device multiplies both oscillation signals of the oscillator of the transmitter and the receiver by using one frequency multiplier.

One frequency multiplier is provided, and when transmitting data, the transmitting oscillator is oscillated according to the transmission data outputted by the microcomputer while the transmitting power is supplied to the transmitting oscillator, the frequency multiplier and the power amplifier under the control of the microcomputer. When the oscillation signal of the transmitting oscillator is multiplied by the frequency multiplier and amplified by the power amplifier, it is transmitted.When receiving data, the receiving oscillator, the frequency multiplier, and the receiving power are supplied to the receiving unit. The frequency multiplier multiplies the oscillation signal of the receiving oscillator to generate a local oscillation signal, and the generated local oscillation signal is applied as a local oscillation signal to the receiver to receive predetermined data.

Description

Common apparatus of frequency multiplier in radio communication equipment

The present invention relates to a frequency multiplier sharing apparatus in a wireless communication device that transmits a signal of a predetermined frequency and receives a signal of a predetermined frequency as the user easily operates the key while operating the key. Particularly, the present invention relates to a frequency multiplier sharing apparatus. And a frequency multiplier sharing apparatus in a wireless communication device that multiplies all oscillation signals of a receiver to generate a signal having a desired frequency.

In general, a transmitter for transmitting a signal of a predetermined frequency oscillates according to predetermined data to be transmitted to generate a signal of a predetermined frequency, multiplies the signal of a predetermined frequency generated by the oscillator, converts it into a high frequency signal, and then transmits the signal.

The receiving unit mixes a local oscillation signal with a signal of a predetermined frequency received through an antenna, converts it into an intermediate frequency signal (hereinafter, abbreviated as 'IF'), detects the IF signal, and detects predetermined data. The predetermined local oscillation signal operates an oscillator to generate a signal of a predetermined frequency, multiplies the generated signal of a predetermined frequency by a frequency multiplier to generate a local oscillation signal of a desired frequency.

On the other hand, a portable transmission / reception device that does not transmit and receive at the same time, for example, a portable transmission / reception device such as a vehicle remote start / anti-theft device that remotely starts the vehicle and checks the remote start state and theft of the vehicle. When the user presses a key, the transmitter operates the transmitter to send a signal of the pressed key to remotely start the vehicle, and when the key is not pressed, the receiver operates to receive a signal such as a remote starting state of the vehicle and whether the vehicle is stolen or not. It is displaying.

As described above, portable transmitter / receivers having both a transmitter and a receiver and not driving the transmitter and the receiver at the same time are provided with a frequency multiplier in the transmitter and the receiver respectively so that the oscillation signal is multiplied by a desired frequency signal. There are various problems such as the complicated structure, many parts are required, and the production cost of the product is increased and the size of the product is limited.

Accordingly, an object of the present invention is to provide a frequency multiplier sharing apparatus in a wireless communication device that multiplies all of the oscillation signals of a transmitter and a receiver by sharing one frequency multiplier.

According to the frequency multiplier sharing apparatus in the wireless communication device of the present invention for achieving the above object, when predetermined data is generated according to an input key signal and the transmission of the generated data is controlled, A microcomputer controlling reception of data at set time intervals and controlling alarming and display of the received data; A key input unit which generates a key signal according to a user's operation to input and transmit the key signal to the microcomputer; A display unit for outputting an alarm sound and displaying received data according to the control of the microcomputer; A transmit / receive antenna for transmitting and receiving a signal of a predetermined frequency; A receiving unit for detecting predetermined data from a signal of a predetermined frequency received through the transmitting / receiving antenna and inputting the predetermined data to the microcomputer; A reception oscillator for generating an oscillation signal by oscillating a reception control signal output by the microcomputer with power; A transmission oscillator for oscillating as power is supplied and for varying and outputting an oscillation frequency according to transmission data output by the microcomputer; A frequency multiplier that multiplies the oscillation signal of the reception oscillator and outputs it as a local oscillation signal to the receiver, and multiplies the oscillation signal of the transmission oscillator and outputs it as a transmission signal; A power amplifier configured to multiply the oscillation signal of the oscillator for transmission by using the frequency multiplier to amplify the output signal and output the power to the transmission / reception antenna; And supplying power for transmission to the transmitting oscillator, frequency multiplier, and power amplifier under the control of the microcomputer when transmitting data, and outputting the receiving unit under the control of the microcomputer when receiving data. Characterized in that the power supply for supplying the receiving power to the receiving unit and the frequency multiplier as a receiving power control signal.

And the receiving unit; A tuning unit for tuning and outputting a signal of a predetermined frequency received through the transmission / reception antenna; An LNA for low noise amplifying the output signal of the tuning unit; A mixer for mixing the local oscillation signal with an output signal of the LNA and converting it into an IF signal; And an IF / detector / amplifier for generating a reception power control signal according to the reception control signal output by the microcomputer, IF amplifying the output signal of the mixer, detecting and amplifying predetermined data, and inputting the amplified signal to the microcomputer. Consists of the power supply unit; Power supply; First power switching means for supplying power for reception to the receiver and the frequency multiplier by switching the power of the power source according to the received power control signal output by the IF / detector / amplifier; A booster for boosting the power of the power supply source and supplying it to the microcomputer as operating power and outputting the power as a transmission power; And a second power switching means for switching the transmission power output by the booster according to the control of the microcomputer to supply the transmission oscillator, the frequency multiplier and the power amplifier as an operating power source. A backflow prevention diode for preventing a backflow of the power supply is respectively provided between the power supply for transmission and the power supply for reception output by the supply unit.

1 is a circuit diagram showing the configuration of a preferred embodiment of a frequency multiplier sharing apparatus in a wireless communication device of the present invention.

* Description of the symbols for the main parts of the drawings *

10 microcomputer 11: key input unit

12: alarm / indicator 13: transmit / receive antenna

14 receiving unit 15 receiving oscillator

16: oscillator for transmission 17: frequency multiplier

18: power amplifier 19: power supply

141: synchronization unit 142: LNA

143: Mixer 144: IF / Detector / Amplifier

191: power source 192: first power switching means

193 booster 194 second power switching means

Hereinafter, a frequency multiplier sharing apparatus in a wireless communication device of the present invention will be described in detail with reference to the accompanying drawings.

1 is a circuit diagram showing the configuration of a preferred embodiment of a frequency multiplier sharing apparatus in a wireless communication device of the present invention.

Here, reference numeral 10 denotes a microcomputer for controlling the overall operation of the frequency multiplier sharing apparatus in the wireless communication device.

The microcomputer 10 generates the predetermined data according to the input key signal and controls the transmission of the generated data, and controls the reception of the data at a preset time interval when the data is not transmitted. To control the alarm and display.

Reference numeral 11 denotes a key input unit which generates a key signal according to a user's operation and inputs and transmits the signal to the microcomputer 10. Reference numeral 12 denotes an alarm sound under the control of the microcomputer 10 and receives received data. It is a display unit to display.

Reference numeral 13 denotes a transmission / reception antenna for transmitting and receiving a signal of a predetermined frequency, and reference numeral 14 detects predetermined data from a signal of a predetermined frequency received through the transmission / reception antenna 13 to the microcomputer 10. This is a receiver to input.

The receiver 14 includes a tuner 141 for tuning and outputting a signal of a predetermined frequency received through the transmit / receive antenna 13, and an LNA for low noise amplifying the output signal of the tuner 141. (Low Noise Amplifier) 142, a mixer 143 for mixing a local oscillation signal (LOC) into an IF signal by mixing the output signal of the LNA 142, and the reception control output by the microcomputer 10. IF / RS for generating received power control signal PCS according to the signal RDR, IF amplifying the output signal of the mixer 143, detecting and then amplifying the predetermined data, and inputting it to the microcomputer 10. Detector / amplifier 144.

Reference numeral 15 is a reception oscillator for generating an oscillation signal by oscillating the reception control signal RDR output from the microcomputer 10 to an operating power source, and the reference numeral 16 oscillates as power is supplied. A transmission oscillator for varying and outputting an oscillation frequency in accordance with predetermined transmission data output by 10).

Reference numeral 17 multiplies the oscillation signal of the receiving oscillator 15, outputs it to the mixer 143 of the receiver 14 as a local oscillation signal LOC, and multiplies the oscillation signal of the transmitting oscillator 16. The frequency multiplier 17 multiplies the oscillation signal of the oscillator 16 for transmission, and amplifies the transmission signal outputted by the frequency multiplier 17 to the transmission / reception antenna 13. A power amplifier that outputs and transmits.

Reference numeral 19 is a power supply unit for supplying a reception power supply and a transmission power supply.

The power supply unit 19 switches the power of the power supply source 191 according to a power supply source 191 which is a battery and a received power control signal PCS output by the IF / detector / amplifier 144. A first power switching means 192 for supplying operating power to the tuner 141, the LNA 142 and the mixer 143 of the receiver 14, and the frequency multiplier 17, and the power supply source 191. A booster 193 for boosting the power and supplying it to the microcomputer 10 as an operating power and outputting the power as a transmission power, and transmitting power for output from the booster 193 to the control of the microcomputer 10. And a second power switching means 194 for switching the oscillator 16, the frequency multiplier 17 and the power amplifier 18 as operating power.

In the description of the drawings, reference numerals D1 to D4 denote backflow prevention diodes for preventing the backflow of the power supply and the oscillation signal.

The frequency multiplier sharing apparatus in the wireless communication device of the present invention configured as described above, when the battery which is the power source 191 of the power supply unit 19 is mounted, the power of the power source 191 is IF / detection of the receiver 14. Is applied to the booster 193 of the amplifier 144 and the power supply unit 19. The booster 193 boosts the power of the power supply 191 to supply the microcomputer 10 as operating power and the microcomputer 10 ) Will operate normally.

In such a state, when a user operates a predetermined key of the key input unit 11 and inputs a key signal to the microcomputer 10, the microcomputer 10 transmits predetermined data according to the input key signal. 16, and outputs a switching control signal to the second power switching means 194 of the power supply unit 19 to bring the second power switching means 194 into a conducting state.

Then, the transmission power boosted by the booster 193 is applied to the transmission oscillator 16 and the power amplifier 18 through the second switching means 194 and again through the diode D4. 17) is applied as an operating power source.

When operating power is applied to the transmitting oscillator 16, the frequency multiplier 17, and the power amplifier 18 in this manner, the transmitting oscillator 16 oscillates and the microcomputer 10 outputs predetermined data. The oscillation frequency is varied and output, and the output oscillation signal is multiplied by being input to the frequency multiplier 17 through the diode D2, and is amplified by the power amplifier 18 and then transmitted through the transmit / receive antenna 13. Is sent.

On the other hand, when the predetermined signal is not transmitted, the microcomputer 10 performs a reception operation at a predetermined time interval, for example, at an interval of 10 seconds, thereby determining whether the predetermined data is received. The reception control signal RDR is output at predetermined time intervals.

The reception control signal RDR output by the microcomputer 10 is applied to the reception oscillator 15 as an operating power source so that the reception oscillator 15 outputs the oscillation and the oscillation signal of a predetermined frequency, and the receiver 14 The IF / detector / amplifier 144 is applied to the IF / detector / amplifier 144 to output the reception power control signal PCS.

According to the received power control signal PCS output from the IF / detector / amplifier 144, the first power switching means 192 of the power supply unit 19 is brought into a conductive state, and the power of the power supply source 19 is reset. The first power switching means 192 and the diode D3 are applied to the tuner 141, the LNA 142, and the mixer 143 of the receiver 14 through the first power switching means 192 as operating power. It is applied to the frequency multiplier 17 as an operating power source.

Here, when the predetermined data is transmitted, the boosting power of the booster 193 is supplied to the frequency multiplier 17 as the operating power, and when the data is received, the low voltage of the power supply source 191 is supplied to the frequency multiplier 17. Supplying the power to the operation power source requires high power when transmitting data, and when receiving, it is possible to sufficiently receive predetermined data even at low power and to reduce power consumption.

Then, the signal of the predetermined frequency that the receiving oscillator 15 oscillates and outputs is input to the frequency multiplier 17 through the diode D1 and multiplied to a predetermined frequency, and then the local oscillation signal LOC to the mixer 143. A signal of a predetermined frequency, which is applied to the signal received through the transmission / reception antenna 13, is tuned by the tuning unit 141, is low noise amplified by the LNA 142, and is mixed by the mixer 143. After mixing with a local oscillation signal (LOC) to generate an IF signal, the generated IF signal is IF amplified by the IF / detector / amplifier 144, predetermined received data is detected, and the detected predetermined received data is amplified. It is input to the microcomputer 10.

When the predetermined data received in this way is input to the microcomputer 10, the microcomputer 10 determines the received data received and controls the alarm / indicator 12 according to the determination result to output a predetermined alarm sound. And display.

In addition, in implementing this invention, it can change and implement in various ways.

That is, as the microcomputer 10 outputs the reception control signal RDR, the IF / detector / amplifier 144 of the reception unit 14 outputs the reception power control signal PCS to the first power switching means 192. The conduction and output of the power of the power supply 191 are described as an example, but the reception control signal RDR output from the microcomputer 10 is directly applied to the first power switching means 192 to switch. The first power switching means 192 is configured to apply the power to the tuning unit 141, the LNA 142, the mixer 143 and the IF / detector / amplifier 144 of the receiving unit 14 as an operating power source. It can be modified in various ways.

As described above, according to the present invention, since only one frequency multiplier is provided to multiply both the transmission frequency signal of the transmitter and the local oscillation signal of the receiver, the circuit configuration is simplified, and the number of components required can be reduced to reduce the size. have.

Claims (4)

A microcomputer controlling transmission and reception and controlling alarms and display of received data; A receiver which detects predetermined data from a signal of a predetermined frequency received through a transmission / reception antenna and inputs the same to the microcomputer; A reception oscillator for generating an oscillation signal by oscillating a reception control signal output by the microcomputer with power; A transmission oscillator for oscillating as power is supplied and for varying and outputting an oscillation frequency according to transmission data output by the microcomputer; By multiplying the oscillation signals of the receiving oscillator and the transmitting oscillator selectively input, the oscillating signals of the receiving oscillator are multiplied and output as a local oscillation signal to the receiver, and the oscillating signals of the transmitting oscillator are multiplied. A frequency multiplier outputting the signal as a transmission signal; A power amplifier configured to multiply the oscillation signal of the oscillator for transmission by using the frequency multiplier to amplify the output signal, and then transmit the received signal through a transmission / reception antenna; And The power supply for supplying the transmission power to the transmitting oscillator, the frequency multiplier and the power amplifier when transmitting data, and the supplying power to the receiving unit and the frequency multiplier under the control of the microcomputer when receiving data. Frequency multiplier sharing device in a wireless communication device, characterized in that consisting of a supply. The apparatus of claim 1, wherein the receiving unit; A tuning unit for tuning and outputting a signal of a predetermined frequency received through the transmission / reception antenna; An LNA for low noise amplifying the output signal of the tuning unit; A mixer for mixing the local oscillation signal with an output signal of the LNA and converting it into an IF signal; And An IF / detector / amplifier for controlling the power supply to output power for reception according to a reception control signal output from the microcomputer, and for amplifying, detecting, and amplifying the output signal of the mixer and inputting it to the microcomputer Frequency multiplier sharing device in a wireless communication device, characterized in that consisting of. The apparatus of claim 1, wherein the power supply unit; Power supply; First power switching means for switching the power of the power supply source in accordance with the control signal to supply power for reception to the receiver and the frequency multiplier; A booster for boosting the power of the power supply source and supplying it to the microcomputer as operating power and outputting the power as a transmission power; And And a second power switching means for switching the transmission power output by the booster under the control of the microcomputer to supply the transmission oscillator, the frequency multiplier and the power amplifier as operating power. Frequency multiplier sharing device. The method according to claim 1 or 3, And a backflow prevention diode for preventing a backflow of the power between the frequency multiplier and the transmission power and the reception power output by the power supply unit, respectively.