Telecommunications – Receiver or analog modulated signal frequency converter – With wave collector
Reexamination Certificate
2000-03-31
2004-04-13
Urban, Edward F. (Department: 2685)
Telecommunications
Receiver or analog modulated signal frequency converter
With wave collector
C455S562100, C455S013300
Reexamination Certificate
active
06721550
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to diversity receivers used in radio communication concomitant with fading.
Diversity reception has been known as means for mitigating the influence of fading in radio communication and recently, has been used widely in a radio apparatus for mobile communication such as car telephone or portable telephone in which deep fading due to movement of a station of its own or a mate station is generated.
The most general diversity receiver is of the post-detection synthesis type in which there are provided a plurality of antennas and a plurality of receiving units provided in association with individual antennas and output signals of the individual receiving units are subjected to a selection/synthesis process under a condition that, for example, output signals of higher receiving signal intensity (electric field intensity, and represented by symbol RSSI) are preferentially processed, thus producing a reception output signal. But, the post-detection synthesis type has a disadvantage that the plurality of receiving units are needed as above, with the result that the construction is complicated and increased in scale and the apparatus cost becomes high.
To eliminate the disadvantage, an antenna changeover diversity receiver has been proposed in which a single receiving unit and a plurality antennas are provided and reception is carried out by suitably switching the antennas under a suitable condition.
A conventional diversity receiver will be described with reference to the accompanying drawings.
FIG. 8
is a block diagram of the conventional antenna changeover diversity receiver. In
FIG. 8
, one of antennas
1
and
2
is selected by an antenna changeover switch
3
. A receiving unit
4
demodulates a desired signal from a high-frequency signal received through the antenna
1
or
2
and delivers a reception output signal. Antenna selecting means
15
controls the antenna changeover switch
3
when RSSI falls below a predetermined changeover threshold value to cause the antenna changeover switch
3
to transfer from one antenna now in connection (now connected to the receiving unit
4
) to the other.
For the antenna changeover diversity reception, two methods called a switch and stay method (SS method) and a switch and examine method (SE method) have been known as detailed in, for example, a literature “Base of Mobile Communication” compiled under the supervision of Okumura and Shinshi, issued by the Institute of Electronic Information and Communication Engineers of Japan, 1986.
FIG. 9
is a diagram for explaining the operation of the conventional diversity receiver. Changeover behavior pursuant to the SS method is illustrated at section (a) in FIG.
9
and changeover behavior pursuant to the SE method is illustrated at section (b) in FIG.
9
. The operation of the conventional antenna changeover diversity receiver will be described below. In
FIG. 9
, RSSI for the antenna
1
is indicated by reference numeral
10
and RSSI for the antenna
2
is indicated by reference numeral
20
. Especially, in the figure, thick curve represents RSSI for one antenna connected to the receiving unit
4
through the changeover switch
3
and thin curve represents RSSI for the other antenna disconnected from the receiving unit
4
.
It is now assumed that the antenna
1
is in connection and RSSI changes owing to fading during reception as shown at (a) and (b) in FIG.
9
. As the RSSI falls below the predetermined threshold value, a changeover signal is sent to the antenna changeover switch
3
and instead of the antenna
1
, the antenna
2
is connected to the receiving unit. Consequently, the RSSI at the receiving unit
4
traces thick curve shown in FIG.
9
.
If the distance between the antennas
1
and
2
is sufficient, the correlation between instantaneous values of RSSI for the antennas
1
and
2
is low and there is a high probability that while the RSSI for one antenna is very low, the RSSI for the other antenna is higher. Accordingly, the probability that the antenna for which the RSSI is higher is selected is high and a more excellent reception output signal than that of a receiver devoid of diversity can be obtained.
But an instance sometimes occurs in which RSSI immediately after a changeover happens to be lower than the threshold value. In such an event, pursuant to the SE method, the antenna changeover is again carried out, continuing until the RSSI becomes higher than the threshold value but pursuant to the SS method, the antenna changeover is not effected and reception by the antenna now in connection remains until the RSSI becomes higher than the threshold value. According to the aforementioned literature “Base of Mobile Communication”, an average of signal to noise (S/N) ratios in the SE method is equal to that in the SS method if changeover noise generated concomitantly with a changeover is neglected. Accordingly, in the case of radio systems or broadcasting reception in which a continuous wave of, for example, analog FM or analog AM modulation is transmitted, the SS method is often used because the number of changeover operations is smaller.
Further, for improving the characteristics of the antenna changeover diversity receiver, methods have been proposed including one as disclosed in JP-A-57-10542, according to which the frequent changeover operations are prevented by lowering the threshold value after the antenna changeover, and including another as disclosed in JP-A-6-140971, according to which when the RSSI even after the antenna changeover is below the changeover threshold value, the connection of the preceding antenna is recovers.
In the aforementioned diversity receivers, however, the reception performance is disadvantageously degraded when the fading speed becomes very low at the time that the user of cordless telephone or portable telephone stops or the user keeping still uses the telephone.
More specifically, when RSSI even after an antenna changeover falls below the changeover threshold value in the SE method shown at (b) in
FIG. 9
, changeovers occur sequentially as described above. Since the change speed of the RSSI is slow, the sequential changeover continues for a long time, Consequently, changeover noise takes place in a demodulated signal for a long time and the communication quality is degraded. In the case of transmission of digital data, a bit error due to changeover noise can be corrected by using a correction code.
In the digital transmission, however, sections generally called frames each being a unit of several of tens of bits or several of hundreds of bits are transmitted and the correctable number of bits is limited to several bits or several of tens of bits or less and the ability to correct the bit error is exceeded when the changeover occurs frequently.
On the other hand, in the case of the SS method, the frequent changeover can be avoided but when the RSSI rather lowers after the antenna changeover, that is, when the RSSI after the antenna changeover is rather degraded, connection of the antenna for which the RSSI is lower sometimes remains for a long time, thus degrading the receiving performance.
SUMMARY OF THE INVENTION
The present invention contemplates elimination of the above problems and it is an object of the present invention to provide a diversity receiver which can obtain, with simplified construction, good communication quality regardless of the fading speed.
To accomplish the above object, a diversity receiver according to a first aspect of the invention comprises an antenna changeover switch for connecting one of a plurality of antennas to deliver a receiving signal, a receiving unit connected to the antenna changeover switch to demodulate the receiving signal sent from the antenna changeover switch and detect signal intensity of the receiving signal, and antenna selecting means for comparing the receiving signal intensity detected by the receiving unit with a changeover threshold value so as to control the antenna changeover switch, wherein the antenna selecting means controls
Okada Kouta
Taromaru Makoto
Chow C.
Matsushita Electric Industrial Co. Ltd
Stevens Davis Miller & Mosher LLP
Urban Edward F.
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