JP2990730B2 - Wireless transceiver - Google Patents

Description

Description: BACKGROUND OF THE INVENTION The present invention relates to a radio transmission / reception device, and more particularly to a radio transmission / reception device in which a radio high frequency unit and a modulation / demodulation unit are configured separately.

[Conventional technology]

FIG. 3 is a block diagram of a transfer part of a transmission / reception intensity monitor voltage of a conventional wireless transmission / reception device.

The wireless high-frequency unit 21 of this system uses the transmission intensity monitor voltage
A / D converter 3, parallel / serial converter 4, amplitude modulator 5, carrier oscillator 27 for V ₁ transfer, A / D converter 36 for reception intensity monitor voltage transfer, parallel / serial conversion A modulator 37, an amplitude modulator 39, a carrier wave oscillator 38, and an adder 35 for multiplexing both voltage data.
The transmission power monitor phone bandpass filter 4 _1, 4 ₂ for separating the carrier of the reception intensity monitor voltage, amplitude modulation demodulator 9,40 for demodulating each of the data from the carrier and the serial / parallel converter 10, 33 And D / A converters 11 and 34, and a modulation / demodulation unit from the radio high-frequency unit 21 using two carriers.
The transmission intensity monitor voltage and the reception intensity monitor voltage were transferred to 28 by digital transmission.

[Problems to be solved by the invention]

In the above-described conventional wireless transmitting / receiving apparatus, the wireless high-frequency unit converts the transmission / reception intensity monitor voltage from analog data to analog data and then converts the data from parallel data to serial data using a separate parallel / serial converter. After amplitude-modulating the carrier wave with a serial signal,
Each signal was added and transmitted. In the modulation section,
After separating the transferred signal through a band-pass filter, the amplitude modulation is demodulated, the serial data is converted to parallel data by the decoder, and the D / A conversion is used to reproduce the original monitor voltage. Since the carrier frequencies of the amplitude modulation are different, two circuits having the same configuration are required, the circuit scale is increased, and there is a possibility that interference may occur between the respective transfer circuits and transfer may not be possible.

SUMMARY OF THE INVENTION An object of the present invention is to provide a wireless transmission / reception apparatus that uses only one carrier wave, simplifies a circuit configuration, and has no possibility of interference between transmission / reception intensity monitor voltages.

[Means for solving the problem]

In the wireless transmission / reception device of the present invention, the wireless high-frequency unit includes a single A / D converter and unit data of a transmission intensity monitor voltage and a reception intensity monitor voltage in the transmission / reception intensity monitor voltage transfer portion. Means for alternately inputting the data to the A / D converter, a converter for parallel / serial conversion of the output data of the A / D converter, and means for setting an address for distinguishing the transmission intensity monitor voltage and the reception intensity monitor voltage for each data. The modulation / demodulation unit has an amplitude modulation demodulator and a transmission intensity monitor according to an address set in a transmission / reception intensity monitor voltage transfer / reception unit. Means for separating the data into a voltage and a reception intensity monitor voltage; two serial / parallel converters for respectively performing serial / parallel conversion on the data separated by the separating means; It has been the data has two D / A converter for converting D / A.

[Action]

The transmission intensity monitor voltage and the reception intensity monitor voltage are alternately input to the A / D converter for each signal unit in the radio high frequency unit, and the digitally converted data contains an address for distinguishing the transmission intensity monitor voltage and the reception intensity monitor voltage. Is transferred by one carrier, and the data received by the modulation / demodulation unit is separated into a transmission intensity monitor voltage and data of a reception intensity voltage by an address, decoded, and reproduced into a voltage. The double circuit is only a serial / parallel converter and a D / A converter in the reproducing stage.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram of a transmission / reception strength monitor voltage transfer portion of an embodiment of a wireless transmission / reception apparatus of the present invention, and FIG.
FIG. 3 is a diagram showing serial data transferred from the wireless high-frequency unit 1 to the modem unit 8 shown in FIG.

The transmission / reception strength monitor voltage transfer portion of the wireless transmission / reception device includes an input voltage switching unit 2, an A / D converter 3, a parallel / serial converter 4, an address setting unit 6,
The modulator / demodulator 8 includes an amplitude modulator / demodulator 9, an address setting unit 12, serial / parallel converters 10 and 13, and D / A converters 11 and 14. . Input voltage changeover unit 2 is input to the transmission power monitor voltages V ₁ and the reception intensity monitor voltage V ₂ the A / D converter 3 alternately at a predetermined period. A
The / D converter 3 converts the input voltage into a digital signal and outputs it. The parallel / serial converter 4 is an address setter 6
Then, the encoder 15 is formed, and as shown in FIG. 2, the data A ₁ and A ₂ are added to the respective data B ₁ and B ₂ that have been digitized at predetermined intervals and serially converted, and are output. The amplitude modulator 5 modulates the carrier output from the carrier generator 7 with the output of the encoder 15 and outputs the result. Amplitude modulation demodulator 9
Demodulates and extracts the communication wave from the received wave. The serial / parallel converters 10 and 13 and the address setter 12 constitute a decoder 16, and the decoder 16 outputs the output of the amplitude modulation demodulator 9 to the output of the address setter 12 which outputs the same address as the address setter 6. The data of the address that matches the data is collected by the respective serial / parallel converters 10 and 13, converted into parallel data, and output. D / A converter 11, 34 outputs a respective voltage data is converted to parallel as the reception intensity monitor voltage V ₂ and the transmission power monitor voltages V ₁ to analog conversion.

 Next, the operation of the present embodiment will be described.

Transmission power monitor voltages V ₁ and the reception intensity monitor voltage V ₂ is switched at every predetermined timing by the input voltage switch 2 is converted parallel A / D. The A / D-converted parallel data is converted into serial data by the encoder 15 and addresses A ₁ and A ₂ for distinguishing between a transmission intensity monitor voltage and a reception intensity monitor voltage are added to the transmission intensity monitor voltage B ₁ is output together with the received intensity monitor voltage B _2.
The serial data is modulated by the amplitude modulator 5 on the carrier output from the carrier carrier for amplitude modulation 7 and is continuously transferred to the modem 8. The modulation / demodulation unit 8 demodulates the amplitude-modulated signal, and the demodulated serial data is converted into parallel / data by the decoder 16. At this time, the decoder 16 provides an address for distinguishing the transmission intensity monitor voltage and the reception intensity monitor voltage set by the encoder 15.
A ₁ and A ₂ are output, and identification is confirmed by checking the address coincidence of two consecutively transferred signals, and only the monitor voltage of the same address is converted into parallel data. The parallel data output from the decoder 16 is D / A-converted and reproduced to the original transmission intensity monitor voltage V ₁ and original reception intensity monitor voltage V ₂ , respectively.

〔The invention's effect〕

As described above, the present invention switches the transmission intensity monitor voltage and the reception intensity monitor voltage in a predetermined cycle in the radio high frequency unit, A / D converts each of them, and distinguishes each monitor voltage when transferring. The address setting is performed, and the modem unit checks this address setting and identifies each monitor voltage,
The carrier frequency used for transmission can be only one type, the frequency bandwidth required for signal transmission can be reduced, and since it is one type of carrier, two types of carrier frequencies are used. Therefore, there is an effect that interference that is likely to occur in the transfer circuit due to the above is eliminated, and the circuit scale can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a transmission / reception strength monitor voltage transfer portion of an embodiment of a wireless transmission / reception apparatus of the present invention, and FIG. 2 (a).
FIG. 3B is a diagram showing serial data transferred from the radio high-frequency unit 1 to the modem unit 8 shown in FIG. 1, and FIG. 3 is a block diagram of a transfer portion of a transmission / reception intensity monitor voltage of a conventional radio transmission / reception device. It is. 1 ... wireless high frequency unit, 2 ... input voltage switch, 3 ... A / D converter, 4 ... parallel / serial converter, 5 ... amplitude modulator, 6 ... address setting device, 7 ... Carrier oscillator, 8: Modulator / demodulator, 9: Amplitude modulation demodulator, 10: Serial / parallel converter, 11: D / A converter, 12: Address setting device, 13: Serial / parallel converter , 14: D / A converter, 15: Encoder, 16: Decoder, 17: Address, 18: Serial data.

Claims (1)

(57) [Claims] 1. A radio transmitting / receiving apparatus of a system in which a radio high frequency section and a modulation / demodulation section are configured separately, and a transmission intensity monitor voltage and a reception intensity monitor voltage are transferred from the radio high frequency section to the modulation / demodulation section. One A / D converter, a unit for alternately inputting unit data of a transmission intensity monitor voltage and a reception intensity monitor voltage to the A / D converter, and A converter for parallel / serial conversion of output data of the D converter, a unit for setting an address for distinguishing a transmission intensity monitor voltage and a reception intensity monitor voltage for each data, one carrier oscillator, and one amplitude modulator The modulation / demodulation unit has an amplitude modulation demodulator, a transmission intensity monitor voltage and a reception intensity monitor signal in accordance with an address set in the transmission / reception intensity monitor voltage transfer / reception unit. And a serial / parallel converter for serially / parallel-converting the data separated by the separating unit, and two D / A converters for D / A-converting the parallel-converted data. Wireless transceiver.