Car electronic control system and method for controlling the...

Electrical transmission or interconnection systems – Vehicle mounted systems – Automobile

Reissue Patent

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Details

C180S287000, C340S870030, C340S870030, C340S426110, C701S002000

Reissue Patent

active

RE038338

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to an electronic control system for performing remote control over a car or vehicle with use of a radio signal such as radio wave or infrared ray, called keyless entry and more particularly, to an electronic control system for car remote control which switches between its sleep and operational modes as well as to a multiplex communication system employed for the electronic control system.
As a system for controlling supply of power to this type of electronic control system not having a remote control function, it is known as disclosed in JP-A-63-71451 to stop a terminal clock when power supply is unnecessary.
Also disclosed in JP-A-5-32142 is a system, when a microcomputer-controlled system is put in its sleep mode, for also causing a power supply for a watch dog timer to be automatically turned OFF, thus realizing reduction in its current consumption. Further, when it is desired to provide a remote control function to the electronic controller, such a power control system as to follow is considered.
An exemplary schematic arrangement of the power control system is shown in
FIG. 1
wherein reference numeral
50
′ denotes an electronic controller. An antenna
54
′ receives a radio wave signal issued from a transmitter T carried by a car driver and sends the radio wave signal to a tuner
55
′. The tuner
55
′ in turn, when receiving the radio wave signal from the antenna
54
′, modulates the radio wave signal into a digital signal and sends the digital signal to a microprocessor unit (MPU)
56
′. The MPU
56
′ judges the signal received from the tuner
55
′ to control a trunk lid opener motor
60
′ or the like. Numeral
58
′ denotes a low-frequency oscillation circuit and numeral
59
′ denotes a high-frequency oscillation circuit. The MPU operates with a high frequency clock received from the high-frequency oscillation circuit
59
′ for the purpose of performing high-speed calculating operation in a usual operational mode; whereas, the MPU operates with a low frequency clock received from the low-frequency oscillation circuit
58
′ for the purpose of suppressing current consumption in a sleep mode. Control signals
62
′ and
63
′ act to stop the low- and high-frequency oscillation circuits
58
′ and
59
′ respectively. In the illustrated example, even in the sleep mode, the MPU operates at a low speed to monitor the signal received from the tuner.
Such another system as shown in
FIG. 2
is also considered. That is, the system is arranged so that the output signal of the tuner
55
′ is processed by a signal processing circuit
65
not by the MPU
56
′ to be applied to the MPU as a wake-up signal and a control signal for the MPU.
With the above prior art control unit for receiving the radio wave signal and controlling power supply based on the received signal, various types of electromagnetic waves are present in the air so that, even when the tuner fails to receive the normal radio wave signal, the tuner can issue an output signal. To avoid this, power supply to the tuner is intermittently carried out from an intermittent power supply
53
′ shown in
FIG. 1
or
2
to reduce a current to be consumed by the tuner. Further, for preventing noise from waking up the control unit, the unit judges whether or not the output signal of the tuner is normal on the basis of only first part of the entire tuner output signal within a time duration shorter than an intermittent time duration. When the control unit judges that the tuner output signal is normal, the control unit shifts the clock of the MPU to a higher frequency clock for usual operation and also causes the intermittent power supply circuit to supply power continuously in the example of FIG.
1
. In the example of
FIG. 2
, when a processing circuit
65
judges that the tuner signal is normal, the MPU starts its operation to perform the usual operation, and also causes the intermittent power supply
53
′ to supply power continuously. Since the tuner signal having such a waveform as shown in
FIG. 3
is judged as not normal, the MPU will not perform the usual operation. When the tuner signal is such a pulse signal having a relatively wide pulse width as shown in FIG.
4
and first one (A) of pulses in the pulse signal is normally input, on the other hand, the MPU performs the usual operation and causes the intermittent power supply
53
′ to continuously supply power to the tuner, thus reducing current consumption. In either example, in order to judge whether or not the tuner signal is normal, the oscillation circuits of the MPU are required in the example of
FIG. 1
while the oscillation circuit of the processing circuit is required in the example of FIG.
2
. In addition, even when the pulses in the tuner signal are followed by a noise pulse signal having a relatively small pulse width as in
FIG. 4
, that is, even when it is later judged as unnecessary to start or wake up the MPU, the MPU is already put in the usual control operation after the once normal judgement. For this reason, the MPU can be put in the sleep mode only after a re-sleeping procedure is carried out. In this way, in the prior art, the low-frequency oscillation circuit is operated even in the sleep mode so that, even when it is unnecessary to wake up the system, the entire system is put in the usual operation, thus disabling realization of sufficiently reduced current consumption.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an electronic control system and method which can sufficiently suppress current consumption even in a high-noise application environment, and also to provide a multiplex communication system using the electronic control system or method.
In order to attain the above object, when a wake-up signal is input, an MPU is first operated even when the wake-up signal is a noise signal to merely judge whether or not the input signal is normal, and only after the MPU reliably judges that the input signal is a normal signal, the MPU is shifted to its usual operation. Further, when judging that the input signal is the noise signal prior to input of the full tuner signal, the MPU immediately shifts to a sleep mode.
With such an arrangement as mentioned above, since the need for provision of an oscillation circuit to a circuit for judgement of whether to be a wake-up signal can be eliminated, current consumption in the sleep mode can be suppressed. Further, even after the MPU starts its operation, the MPU is not shifted to a usual control operation until the MPU judges that the wake-up signal is normal. Thus, as soon as the MPU judges that the input signal is the noise signal, the MPU can be immediately shifted to the sleep mode, whereby the time duration of operation of the MPU can be minimized and current consumption can be suppressed even in a high noise state.


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