JP2000349699A - Dual mode radio repeater and radio relay method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a small and lightweight radio repeater system by receiving a digital modulating signal from a master station, generating a transmitting analog modulating signal and a transmitting digital modulating signal from the received digital modulating signal and outputting these transmitting analog and digital modulating signals. SOLUTION: A radio repeater receives a digital modulating signal that is transmitted from a master station and transmits the digital and analog modulating signals on the basis of the digital modulating signal. A digital modulating transmission radio part 211 of the radio repeater inputs an in-phase component 209 and an orthogonal component 210 of an orthogonal base band signal that undergone the digital modulation and outputs a digital modulating signal 212 via a digital modulating transmission antenna 213. An analog modulating transmission radio part 219 inputs an in-phase component 217 and an orthogonal component 218 of an orthogonal base band signal that undergone the analog modulation and outputs an analog modulating signal 220 via an analog modulating transmission antenna 221.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dual mode radio repeater that receives a digitally modulated signal, generates a digitally modulated signal to be transmitted from the signal, and generates and relays an analogly modulated signal to be transmitted.

[0002]

2. Description of the Related Art FIG. 3 shows an example of a possible structure of a master station and a wireless repeater system, and FIG. 4 shows an example of a detailed structure of the wireless repeater system.

In FIG. 3, reference numeral 301 denotes a master station for transmitting a digital modulation signal, 302 denotes a master station for transmitting an analog modulation signal, 303 denotes a repeater for relaying a digital modulation signal, and 304 denotes a relay for an analog modulation signal. FIG.

In FIG. 4, (a) shows an analog modulation repeater, 401 is an antenna, 402 is a reception signal, 403 is a reception radio section, 404 is a reception IF signal, and 40 is a reception IF signal.
Reference numeral 5 denotes an analog demodulation unit, 406 denotes an information signal, 407 denotes an analog modulation unit, 408 denotes a transmission IF signal, 409 denotes a transmission radio unit, 410 denotes a transmission signal, and 411 denotes an antenna. (B) shows a repeater for digital modulation.
12 is an antenna, 413 is a reception signal, 414 is a reception radio section, 415 is a reception IF signal, 416 is a quadrature demodulation section, 41
7 is the in-phase component of the received baseband signal, 418 is the quadrature component of the received quadrature baseband signal, 419 is the digital demodulator, 420 is the received bit stream, 421 is the digital modulator, 422 is the in-phase component of the transmitted quadrature baseband signal, 423 is an orthogonal component of the transmission orthogonal baseband signal,
424 is a quadrature modulation unit, 425 is a transmission IF signal, 426 is a transmission radio unit, 427 is a transmission signal, and 428 is an antenna.

In FIG. 3, a digitally modulated signal transmitted from a master station 301 for transmitting a digitally modulated signal is:
The digitally modulated signal is transmitted by the repeater 303 which relays the digitally modulated signal. The analog modulation signal transmitted from the master station 302 that transmits the analog modulation signal is relayed by a repeater 304 that relays the analog modulation signal, and the analog modulation signal is transmitted.

The operation of the analog modulation repeater and the digital modulation repeater will be described in detail with reference to FIG. In the analog modulation repeater of FIG. 4A, a reception signal 402 received by an antenna 401
And converted into a reception IF signal 404. The analog demodulation unit 405 receives the received IF signal 404 as an input, performs analog demodulation, and outputs an information signal 406. The analog modulator 407 receives the information signal 406 as input, performs analog modulation, and outputs a transmission IF signal 408. Transmission IF
Signal 408 is converted to transmission signal 410 by transmission radio section 409 and transmitted from antenna 411.

In the repeater for digital modulation shown in FIG. 4B, a reception signal 413 received by an antenna 412 is input to a radio reception section 414 and converted into a reception IF signal 415. Quadrature demodulation section 416 receives the received IF signal and outputs in-phase component 417 and quadrature component 418 of the received quadrature baseband signal. Digital demodulation section 419 receives in-phase component 417 and quadrature component 418 of the received quadrature baseband signal as input, performs digital demodulation, and outputs received bit stream 420. Digital modulator 421
Receives the received bit stream 420 as input, digitally modulates it, and transmits the in-phase component 422
And an orthogonal component 423.

[0008] Quadrature modulation section 424 receives in-phase component 422 and quadrature component 423 of the transmission quadrature baseband signal as input and outputs transmission IF signal 425. Transmission IF signal 42
5 is converted into a transmission signal 427 by a transmission radio section 426 and transmitted from an antenna 428.

As described above, a radio repeater for analog modulation is used as a radio repeater for achieving both transmission of signals such as voice signals and data by analog modulation and transmission of signals such as voice signals and data by digital modulation. There are ways to separate the radio repeater system for the system and the digital modulation system.

[0010]

However, when relaying is performed by such a method, a wireless repeater for analog modulation and a wireless repeater system for digital modulation are required. It is problematic in terms of weight reduction.

According to the present invention, in a radio repeater, a dual mode radio relay receiving a digital modulation signal from a master station, generating a transmission analog modulation signal and a transmission digital modulation signal from the received digital modulation signal, and outputting the same. An object of the present invention is to provide a compact and lightweight wireless repeater system.

[0012]

SUMMARY OF THE INVENTION In order to solve this problem, the present invention provides a receiver in a radio repeater system, which receives a digitally modulated signal as a received bit stream input and receives an analog modulated signal. A decoding unit that generates a bit stream to be input to the unit, an analog modulation unit that receives a bit stream output from the decoding unit, and outputs an analog-modulated quadrature baseband signal, A transmission radio unit that receives the orthogonal baseband signal as input and outputs a transmission analog modulation signal, and includes a digital modulation unit that receives the reception bit stream as input and outputs a digitally modulated orthogonal baseband signal. And the digitally modulated quadrature baseband signal as input, and By using a dual mode wireless repeater system including a transmission wireless unit that outputs a digital modulation signal, it is possible to configure a small and lightweight wireless repeater system that can support both digital modulation and analog modulation. .

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS According to a first aspect of the present invention, an information signal is digitally modulated in a master station, a digitally modulated signal is transmitted, and the digitally modulated signal is received in a repeater. A radio repeater system that obtains a bit stream, generates a digital modulation signal and an analog modulation signal from the obtained reception bit stream, and transmits the digital modulation signal and the analog modulation signal. This has the effect of making the system compact and lightweight.

According to a second aspect of the present invention, in the wireless repeater system according to the first aspect, a reception bit stream obtained by receiving a digitally modulated signal is input and input to an analog modulation unit. A decoding unit for generating an information signal; an analog signal receiving an information signal output from the decoding unit; and an analog modulation unit for outputting an analog-modulated quadrature baseband signal; and the analog-modulated quadrature baseband. A transmission radio section for receiving a signal and outputting a transmission analog modulation signal; and a digital modulation section for receiving the reception bit stream as input and outputting a digitally modulated quadrature baseband signal. A transmission radio unit that receives the orthogonal baseband signal thus input and outputs a transmission digital modulation signal. Dual-mode wireless repeater system that. By doing so, a wireless repeater system that can support both digital and analog modulation
It has the effect of being lightweight.

An embodiment of the present invention will be described below with reference to FIGS.

(Embodiment 1) FIG. 1 shows an example of a conceptual configuration diagram of a master station and a wireless repeater system according to the present embodiment. In FIG. 1, reference numeral 101 denotes a master station which outputs a digital modulation signal. , 102 indicate a repeater for outputting a digital modulation signal and an analog modulation signal.
FIG. 2 shows an example of the configuration of the repeater according to the present embodiment. In FIG. 2, reference numeral 201 denotes a receiving antenna;
2 is a reception signal, 203 is a reception radio section, 204 is an in-phase component of a reception quadrature baseband signal, 205 is a quadrature component of the reception quadrature baseband signal, 206 is a digital demodulation section,
07 is a reception bit stream, 208 is a digital modulation section, 209 is an in-phase component of a digitally modulated quadrature baseband signal, 210 is a quadrature component of a digitally modulated quadrature baseband signal, 211 is a transmission radio section for digital modulation, 212 Is a digital modulation signal, 213 is a transmission antenna for digital modulation, 214 is a decoder, 215
Is an information signal, 216 is an analog modulator, 217 is an in-phase component of an analog modulated quadrature baseband signal, 218
Is a quadrature component of an analog-modulated quadrature baseband signal, 219 is a transmission radio unit for analog modulation, 220 is an analog modulation signal, and 221 is a transmission antenna for analog modulation.

As described above, referring to FIGS. 1 and 2, the master station digitally modulates the information signal, the digitally modulated signal is transmitted, and the repeater receives the digitally modulated signal to obtain a received bit stream. A radio repeater system for generating and transmitting a digital modulation signal and an analog modulation signal from the obtained reception bit stream, and receiving the digitally modulated signal in the radio repeater system according to claim 1. An input of the obtained reception bit stream, a decoding unit for generating an information signal to be input to an analog modulation unit, an input of the information signal output from the decoding unit, and output of an analog-modulated quadrature baseband signal Analog modulating section, and the analog modulated quadrature baseband signal is input. A transmission radio unit for outputting a transmission analog modulation signal; and a digital modulation unit for receiving the reception bit stream as input and outputting a digitally modulated quadrature baseband signal, wherein the digitally modulated quadrature baseband is output. A dual mode wireless repeater system including a transmission radio unit that receives a signal and outputs a transmission digital modulation signal will be described.

FIG. 1 shows an example of a conceptual configuration diagram of a master station and a wireless repeater system according to the present embodiment. In FIG. 1, reference numeral 101 denotes a master station, and the master station 101 transmits a digital modulation signal. Reference numeral 102 denotes a repeater. The repeater 102 receives the digital modulation signal transmitted from the master station, and based on the digital modulation signal,
Transmit digital and analog modulation signals. FIG. 2 shows an example of the configuration of the repeater. The digital modulation signal transmitted from the master station is received by reception antenna 201, and reception signal 202 is obtained.

The reception radio section 203 receives the reception signal 202 and outputs an in-phase component 204 and a quadrature component 205 of the reception quadrature baseband signal. Digital demodulation unit 20
6 receives the quadrature component 204 and the in-phase component 205 of the received quadrature baseband signal as input, performs digital demodulation, and outputs a received bit stream 207.

The digital modulator 208 receives the received bit stream 207 as input, digitally modulates it, and in-phase component 209 of the digitally modulated quadrature baseband signal.
And the orthogonal component 210 are output. The digital modulation transmission radio unit 211 receives the in-phase component 209 and the quadrature component 210 of the digitally modulated quadrature baseband signal as input, outputs a digital modulation signal 212, and outputs the digital modulation signal 212 to the digital modulation transmission antenna 21.
3 is output.

The receiving decoder 214 receives the input bit stream 207 and outputs an information signal 215. The analog modulation section 216 receives the information signal 215 as input, performs analog modulation, and outputs an in-phase component 217 and a quadrature component 218 of the analog-modulated quadrature baseband signal. The analog modulation transmission radio unit 219 receives the in-phase component 217 and the quadrature component 218 of the analog-modulated quadrature baseband signal as input, outputs an analog modulation signal 220, and outputs the analog modulation signal 220 from the analog modulation transmission antenna 221. Is output. As a result, an analog modulation signal and a digital modulation signal can be transmitted by one wireless repeater, so that a separate wireless relay for analog modulation and a wireless relay for digital modulation are not required. , Light weight becomes possible.

In the present embodiment, the receiving antenna and the transmitting antenna have been described as separate structures, but the receiving antenna and the transmitting antenna may be shared.

As described above, according to the present embodiment, the master station digitally modulates the information signal, the digitally modulated signal is transmitted, and the repeater receives the digitally modulated signal to obtain a received bit stream. 2. A radio repeater system for generating and transmitting a digital modulation signal and an analog modulation signal from the obtained reception bit stream, and receiving the digitally modulated signal in the radio repeater system according to claim 1. The received bit stream obtained in the input is provided, and a decoding unit that generates an information signal to be input to the analog modulation unit is provided.The information signal output from the decoding unit is input, and the quadrature baseband signal that has been analog-modulated is input. An analog modulator for outputting the analog modulated quadrature baseband signal A transmission radio section for outputting a transmission analog modulation signal; and a digital modulation section for receiving the reception bit stream as input and outputting a digitally modulated quadrature baseband signal; A dual-mode wireless repeater system with a baseband signal as input and a transmit radio section for outputting a transmit digital modulation signal makes the wireless repeater system compatible with both digital and analog modulation compact and lightweight. It has the effect that it can be made.

[0024]

According to the present invention as described above, claim 1
In the wireless repeater system according to the above, a reception bit stream obtained by receiving a digitally modulated signal is input, and a decoding unit that generates an information signal to be input to an analog modulation unit is provided, from the decoding unit A transmission radio unit that receives an output information signal as input, and outputs an analog-modulated quadrature baseband signal, and includes an analog modulation unit that receives the analog-modulated quadrature baseband signal as input and outputs a transmission analog modulation signal And a digital modulation unit that receives the received bit stream as input and outputs a digitally modulated quadrature baseband signal, receives the digitally modulated quadrature baseband signal as input, and converts a transmission digital modulation signal. A dual-mode wireless repeater system with a transmitting radio unit for output And, the small, the advantageous effect on either digital modulation and the analog modulation light can be configured compatible wireless repeater system is obtained.

[Brief description of the drawings]

FIG. 1 is a configuration conceptual diagram of a master station and a wireless repeater system according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating an example of a configuration of a repeater according to an embodiment of the present invention;

FIG. 3 is a diagram illustrating an example of a configuration of a master station and a wireless repeater system;

FIG. 4 is a diagram illustrating an example of a detailed configuration of a wireless repeater system;

[Explanation of symbols]

Reference Signs List 101 Master station that outputs digital modulation signal 102 Repeater that outputs digital modulation signal and analog modulation signal 201 Receiving antennas 202, 402, 413 Receiving signal 203, 403, 414 Receiving radio section 204, 417 In-phase of receiving quadrature baseband signal Components 205, 418 Quadrature component of received quadrature baseband signal 206, 419 Digital demodulation unit 207, 420 Received bit stream 208, 421 Digital modulation unit 209 In-phase component of digitally modulated quadrature baseband signal 210 Digitally quadrature baseband Signal orthogonal component 211 Digital modulation transmission radio section 212 Digital modulation signal 213 Digital modulation transmission antenna 214 Decoder 215,406 Information signal 216,407 Analog modulation section 217 In-phase component of analog-modulated quadrature baseband signal 218 Quadrature component of analog-modulated quadrature baseband signal 219 Analog transmission radio section 220 Analog modulation signal 221 Analog modulation transmission antenna 301 Master station 302 for transmitting digital modulation signal Master station for transmitting the analog modulation signal 303 relay for relaying the digital modulation signal 304 relay for relaying the analog modulation signal 401, 411, 412, 428 antenna 404, 415 reception IF signal 405 analog demodulation unit 408, 425 Transmission IF signal 409, 426 Transmission radio section 410, 427 Transmission signal 416 Quadrature demodulation section 422 In-phase component of transmission quadrature baseband signal 423 Quadrature component of transmission quadrature baseband signal 424 Quadrature modulation section

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Masayuki Orihashi 3-10-1, Higashi-Mita, Tama-ku, Kawasaki, Kanagawa Prefecture Inside Matsushita Giken Co., Ltd. (72) Akihiko Matsuoka 3-chome, Higashi-Mita, Tama-ku, Kawasaki-shi, Kanagawa No. 10 No. 1 Matsushita Giken Co., Ltd. F term (reference) 5K067 AA42 EE06 EE10 KK03 5K072 AA19 BB25 BB27 CC34 DD16 GG14 GG32 GG34 GG35 GG37

Claims (2)

[Claims] 1. A master station digitally modulates an information signal, a digitally modulated signal is transmitted, and a repeater receives the digitally modulated signal, obtains a reception bit stream, and, from the obtained reception bit stream, A wireless relay method for generating and transmitting a digital modulation signal and an analog modulation signal. 2. A decoding device comprising: a receiving bit stream obtained by receiving a digitally modulated signal; and a decoding unit for generating an information signal to be input to an analog modulation unit. A signal as an input, comprising an analog modulator for outputting an analog-modulated quadrature baseband signal, comprising the analog-modulated quadrature baseband signal as an input, and a transmission radio unit for outputting a transmission analog modulation signal; A transmission radio that receives the received bit stream as input and outputs a digitally modulated quadrature baseband signal, and receives the digitally modulated quadrature baseband signal as input, and outputs a transmission digital modulation signal; A dual mode wireless repeater comprising a unit.