Pulse or digital communications – Spread spectrum
Reexamination Certificate
1998-10-29
2002-10-01
Pham, Chi (Department: 2631)
Pulse or digital communications
Spread spectrum
C375S136000, C375S142000
Reexamination Certificate
active
06459721
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a receiving apparatus for receiving a spread spectrum signal, specifically a multi-code spread spectrum signal.
2. Related Background Art
A spread spectrum communication system employing a direct sequence spread method is a method of generating, from a base-band signal of a digital signal to be transmitted, a base-band signal having a significantly wide band width with respect to original data. This is accomplished by using a spread code sequence, such as a pseudo noise code (a PN code). Furthermore, modulation, such as PSK (Phase Shift Keying) or FSK (Frequency Shift Keying), is performed to convert the base-band signal into an RF (Radio Frequency) signal so as to transmit the RF signal. A receiver unit uses the same spread code as that used in a transmitter unit to perform a despread operation to perform correlation with the received signal so as to convert the received signal into a narrow-band signal having a band width that corresponds to the original data. Then, a normal data demodulation is performed so that the original data is reproduced.
Since the spread spectrum communication system employs a significantly wide transmission band width with respect to the information band width as described above, the foregoing system cannot realize an unsatisfactorily low transmission speed as compared with a typical narrow band width modulation system if the transmission band width is within a certain condition. To overcome the foregoing problem, a multi-code method has been employed. The foregoing method includes the steps of converting a high-speed information signal into low-speed parallel data, spread-modulating the parallel data in different spread code sequences so as to add data, and converting the data into an RF signal that is then transmitted, so that high speed data transmission is realized under a predetermined condition of the transmission band width without deterioration in the spread rate in the spread modulation.
FIG. 31
shows the structure of a transmission mechanism adapted to the foregoing method. Supplied data is converted into n parallel data items by a serial-parallel converter
301
. Each converted data is, by a multiplier group consisting of n multipliers
302
-
1
to
302
-n, multiplied by n different spread code outputs from a spread-code generator
303
so as to be converted into wide band spread signals over n channels. Then, the outputs from the respective multipliers are added by an adder
304
so as to be provided to a high-frequency transmitter stage
305
. The added wide spread base-band signals are, by the high-frequency transmitter stage
305
, converted into a transmission frequency signal having an appropriate central frequency so as to be transmitted by a transmission antenna
306
.
FIG. 32
shows the structure of a receiver. The signal received by an antenna
401
is appropriately filtered and amplified by a high-frequency signal processor
402
so as to be converted into a signal having an intermediate frequency. The intermediate-frequency signal is distributed to n channels connected in parallel to correspond to the spread codes. In each channel, the correlation of the input signal with outputs from spread code generator group
404
-
1
to
404
-n is detected in correlator group
403
-
1
to
403
-n so as to be despread, the spread code generator group
404
-
1
to
404
-n corresponding to the channels of the correlator group
403
-
1
to
403
-n. Synchronization of the despread signal is established at each channel in synchronizing circuit group
405
-
1
to
405
-n so that the code phases and clocks of the spread code generators are made to coincide with one another. The despread signals are also demodulated in demodulator group
406
-
1
to
406
-n so that data is reproduced. Then, reproduced data is converted into serial data in serializer
407
so that the original information is reproduced.
However, since the correlator at each demodulation channel acts as the intermediate frequency stage, the conventional structure suffers from a problem in that the size of the circuit cannot be reduced.
SUMMARY OF THE INVENTION
An object of the present invention is to reduce the size of a structure required for receiving a multi-code spread spectrum signal.
Another object of the present invention is to accurately receive a multi-code spread spectrum signal.
Another object of the present invention is to accurately synchronize a multi-code spread spectrum signal.
Another object of the present invention is to realize high-speed communication.
Another object of the present invention is to provide a spread spectrum signal receiving apparatus for, and a method of converting, a received signal into a base-band signal, detecting a spread code from the base-band signal, and demodulating the base-band signal on the basis of a plurality of spread codes in synchronization with the detection of the spread code.
Other and further objects, features and advantages of the invention will be evident from the following detailed description of the preferred embodiments taken in conjunction with the attached drawings.
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Kanda Tetsuo
Kato Ichiro
Mochizuki Norihiro
Moritomo Kazuo
Myojo Toshihiko
Bayard Emmanuel
Canon Kabushiki Kaisha
Fitzpatrick ,Cella, Harper & Scinto
Pham Chi
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