Communications: electrical – Land vehicle alarms or indicators – Internal alarm or indicator responsive to a condition of the...
Reexamination Certificate
2003-06-17
2004-09-07
Wu, Daniel J. (Department: 2632)
Communications: electrical
Land vehicle alarms or indicators
Internal alarm or indicator responsive to a condition of the...
C340S870060, C340S870180, C455S226100, C455S226400, C455S334000
Reexamination Certificate
active
06788194
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to an antenna device adapted to use a plurality of antennas to receive electromagnetic waves and a tire pressure monitoring system including such an antenna device.
In general, electromagnetic waves received by antennas of a radio communication system include not only those which are directly received from the antenna of a transmitting system but also indirect waves which are reflected by an obstacle before being finally received. Since such indirect waves are received with a time delay corresponding to the reflection by the obstacle, they tend to interfere with each other such that the intensity of the waves reaching the receiving antennas changes periodically, becoming repeatedly weaker and stronger at a fixed frequency. This phenomenon is sometimes referred to as the phasing. In the case of a radio broadcasting, the phasing may be unpleasant to the listener but it is not totally impossible to understand the transmitted programs. In the case of a digital data communication, however, the situation is completely different because a part of the data may be lost if the phasing is too large and the receiver may have difficulty in demodulation or playback.
In view of this problem, most digital data radio (wireless) communication systems adopt a so-called “diversity communication” method as a countermeasure against the phenomenon of phasing. The “diversity communication” in this case implies the technology of synthesizing or switching among a plurality of received wave signals so as to reduce the fluctuations in the intensity level of the received wave signals. “Space diversity” is one of the diversity communication methods and is characterized as employing a plurality of antennas located at different positions to receive signals. Levels of the signals received by these antennas are compared and the antenna with the highest level of received signal (or the “reception level”) is selected such that only the signal received by this selected antenna is communicated to the signal receiving device.
On the other hand, digital data radio communication systems of different kinds are coming to be installed on vehicles such as automobiles for improving convenience and safety such as air pressure monitoring systems for monitoring the air pressure inside the tires.
Each tire for an automobile has an optimum pressure value set according to the kind of the automobile and to the kind of the tire and it is required or recommended to check the air pressure of each tire before operating the automobile. In the case of a privately owned vehicles, however, it is seldom that the tire pressures are checked before the automobile is operated. Even if the tire pressures are initially checked, the tires develop heat as the automobile is operated and the pressures tend to increase. It is therefore undeniable that most of the automobiles on the road are running with improper tire pressures although improper tire pressures adversely affect the safety of operation and the fuel consumption rate and shorten the useful life time of the tires.
Thus, air pressure monitoring systems (herein referred to as TPMS (or tire pressure monitoring system)) are coming to be used, having an air pressure monitoring sensor installed for each tire, transmitting pressure-indicating detection signals on a weak carrier wave from transmitters, comparing the transmitted signals with a standard reference range by means of a receiver and outputting a warning to the driver if the air pressure inside any tire is found to be improper.
FIG. 3
is a conceptual diagram of such a TPMS. Each tire (or the wheel, more precisely)
1
is provided with a combination air pressure sensor and transmitter (referred to as the “sensor
2
”) which also serves as an air pressure valve. Its detailed structure will not be described but it may be of any known kind adapted to detect the air pressure inside the associated one of the tires
1
and to transmit a signal indicative of the detected pressure on a weak radio wave such as within the band of 310 MHz-433 MHz. A signal receiver
4
is attached to the main body
3
of the vehicle, serving to receive the wave signals from each of the sensors
2
by means of an antenna
5
, to demodulate each of the air pressure signals, to compare it with a standard range and to output a warning through a warning lamp
6
provided on the driver's panel if the detected air pressure is deemed improper.
With a TPMS thus structured, the air pressure inside each tire can be detected on real time and a warning can be outputted to the driver as soon as an improper pressure is detected. Thus, conditions of excessive or insufficient tire pressure can be prevented, the safety of vehicle operation can be improved, unreasonable deterioration of the tires can be avoided, and the fuel consumption rate can be improved. In the United States, for example, almost all new automobiles to be sold from November, 2003 will be required to have such a system installed.
With a TPMS as described above, however, signal reception by a single antenna
5
has not always been reliable for several reasons such that the waves from the sensors
2
are weak, that the direction of wave transmission changes rapidly as the tires
1
rotate and that there are various obstacles for the wave transmission inside the automobile as well as inside the tire housing and also depending on the type of the automobile.
FIG. 4
shows an example of signal level characteristics A, B, C and D when signals from the sensors
2
for the four tires
1
of an automobile are received by a single antenna
5
. In this example, what is important is that each characteristic has a portion (hatched) F, G, H or I which is below a threshold level E and hence not detectable. The existence of such undetectable portions is probably due to rapid changes in the direction of wave transmission as the tires rotate and the existence of obstacles in the automobile, as explained above. Such undetectable portions may be eliminated if the power of signal transmission from the sensors
2
is increased but the transmission power is basically limited to be weak and since there is a limit to the power capacity of the sensors
2
, it is not a practical solution to the problem.
For eliminating such undetectable portions from received signals, Japanese Patent Publication Tokkai 5-75578, for example, has disclosed the use of an antenna device with space diversity explained above, comprising two or more antennas.
FIG. 5
shows the basic structure of a TPMS thus improved by making use of a space diversity method with a plural number n (which is
4
in this example) of antennas
5
a
,
5
b
,
5
c
and
5
d
connected to a receiver
4
through a selecting device
7
. The selecting device
7
serves to compare the intensities of waves received by these antennas
5
a
-
5
d
and to select one of them determined to be receiving the strongest wave. With a TPMS thus structured, therefore, the wave from each air pressure sensor-transmitter
2
can be received at all times such that its intensity will not become below the lowest threshold value E and the problem explained above with reference to
FIG. 4
can be obviated by placing an appropriate number of antennas
5
a
-
5
d
at appropriate locations on the main vehicle body
3
.
There is a further room for improvement, however, for such a prior art TPMS simply adopting the space diversity method as shown in FIG.
5
. For example, a prior art TPMS of this type with a certain plural n-number of antennas may be adequate for a certain kind of automobiles but it may not be adequate for an automobile of another kind, such another kind of automobile requiring a larger plural m-number of antennas to obviate the problem described above. In other words, the number of antennas and hence the number of input data to be compared by the selecting device
7
is fixed and not variable with such a prior art TPMS.
SUMMARY OF THE INVENTION
It is therefore a general object of this invention in view of the above to provide an improved TPMS w
Beyer Weaver & Thomas LLP
OMRON Corporation
Walk Samuel J.
Wu Daniel J.
LandOfFree
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