KR20060124241A - Restarting apparatus and method for ecu - Google Patents

Abstract

A restarting device and method of an engine control unit are provided to stably restart the engine control unit in a PWL(Power Latch) state by generating a high-level reset signal for resetting a program of a microprocessor and then rebooting the microprocessor by the reset signal. A restarting device of an engine control unit includes a regulator(11) outputting battery voltage supplied from the outside according to a connection state signal of an ignition key, output signals of plural wake-up sources, and a PWL signal supplied from the outside; a microprocessor(13) woken up according to the output voltage of the regulator to output the PWL signal for controlling the output voltage of the regulator and generate a reset signal when the output voltage of the regulator is kept at a high state after the pre-set watchdog time; and a timer(15) for counting the pre-set watchdog time when the microprocessor generates the PWL signal, to generate the reset signal by the microprocessor when the output voltage of the regulator is in a high state after the watchdog time.

Description

RESTARTING APPARATUS AND METHOD FOR ECU}

1 is a diagram showing the configuration of a restart apparatus of an engine control unit of the present invention.

2 and 3 are diagrams illustrating output signals of respective units of FIG. 1.

4 is a flowchart illustrating a restart process of the engine control unit according to the present invention.

<Explanation of symbols about main part of drawing>

11: regulator 13: microprocessor

15: timer

The present invention relates to an apparatus and method for restarting an engine control unit, and more particularly, to an apparatus and method for enabling the engine control unit to be safely restarted in a power latched state.

In an engine control unit which normally controls the engine using a 32-bit microprocessor, the microprocessor wakes up when 5 V is supplied from a regulator that outputs a stabilized voltage using a battery power supplied from an external source. Will be activated. The microprocessor then executes a pre-stored program. At this time, the microprocessor generates a control signal for driving a plurality of electrical appliances connected to the output side of the engine control unit. A plurality of electrical appliances receiving the control signal operate.

At this time, when the ignition key is connected to the off state and the PWL (Power latch) signal for controlling the regulator from the microprocessor is output at a low level, the regulator's output voltage gradually decreases. At this time, the microprocessor enters a power latch state. That is, the power latch is a state in which the microprocessor is operated to operate the electronic device for a predetermined time even when the ignition key is turned off. For example, when the water temperature is higher than the set value, the cooling fan is operated to lower the water temperature beyond the set value. It means the time to stop the microprocessor after driving.

For example, in a vehicle having a wake-up source, which is a sensor for detecting the opening and closing of a door, the microprocessor turns off the switch for controlling the power latch when the watchdog time elapses, and the ignition key It continues to detect the connection status of and restarts when the ignition key is connected on.

However, in the case of a vehicle having a plurality of wake-up sources, the microprocessor does not have a program for detecting a state of the plurality of wake-up sources, so that restart after the power latch has elapsed.

Accordingly, the present invention has been made to solve such a problem, and an object of the present invention is a power latch state in an automobile having a plurality of wake up sources, and at least one of the plurality of wake up sources is on. The present invention provides an apparatus and method for restarting an engine control unit that can safely operate an engine control unit by automatically restarting the microprocessor after a predetermined time elapses.

The restarting device of the engine control unit according to the present invention for achieving the above object,

A regulator for outputting a battery voltage supplied from an external device according to a connection state signal of an ignition key, an output signal of a plurality of wake-up sources, and a PWL signal supplied from an external device;

A microprocessor that wakes up according to the output voltage of the regulator and outputs the PWL signal for controlling the output voltage of the regulator; And

A timer for counting a predetermined time at the time when the microprocessor generates the PWL signal to generate a reset signal through the microprocessor when the output voltage of the regulator is high after a predetermined time elapses; The timer is characterized in that it is formed integrally with the microprocessor.

The microprocessor operates the timer when the ignition key is turned off to output the low level PWL signal, and resets all stored programs when the output voltage of the regulator is maintained at a high level after a predetermined time elapses. It is characterized in that it is provided to generate a reset signal for.

On the other hand, the restarting method of the engine control unit according to the second aspect of the present invention,

In the method of operating the engine control unit for generating a control signal by the output voltage of the regulator to operate a plurality of electrical appliances,

a) operating a timer when the ignition key is switched off by a microprocessor to output a low level PWL signal;

b) supplying the regulator's output voltage to the microprocessor at a high level when at least one of the plurality of wake up sources is operated;

c) checking whether a predetermined time has elapsed through the timer and checking if the output voltage of the regulator is at a high level when a predetermined time has elapsed; And

d) generating and rebooting a reset signal for resetting a program through the microprocessor when the output voltage is at a high level.

According to the present invention, when the PWL signal of the microprocessor is outputted at the low level when the ignition key is turned off, the output voltage of the regulator in which at least one of the plurality of wakeup sources is on after a predetermined time of the timer has elapsed is high. When a high level reset signal for resetting the program of the microprocessor is generated and the microprocessor is rebooted by the generated reset signal, the engine safely in a power latched state in a vehicle having a plurality of wake-up sources. The control unit can be restarted.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a view showing the configuration of an engine control unit to which the restarting device of the engine control unit according to the present invention is applied, and FIGS. 2 and 3 are views showing output signals of respective parts shown in FIG. 1. As shown in FIG. 1, the engine control unit according to the present invention includes a plurality of wake up sources S1 -Sn, an output side of the ignition key IGN, and a plurality of wake up sources S1 -Sn. A regulator 11 connected to an output side and an output side of a microprocessor to be described later; a microprocessor 13 connected to an output side of the regulator 11; and a plurality of electrical appliances operated according to control signals of the microprocessor 13; It is provided with 17.

Here, the regulator 11 supplies a battery power supply Vcc to the PWL signal supplied from the microprocessor 13 according to the connection state signal of the ignition key IGN, the connection state signal of the ignition key IGN, and a plurality of batteries. It is provided to control the output of the battery voltage (Vcc) in accordance with the output signal of the wake-up source (S1-Sn) of.

That is, the regulator 11 includes a plurality of wake-ups operating at least one of the low-level PWL signals generated by the microprocessor 13 according to the off state of the ignition key IGN and the off state of the ignition key. The high level output voltage is supplied to the microprocessor 13 in accordance with the output signals of elements S1-Sn.

In addition, the microprocessor 13 generates a control signal for driving the plurality of electrical appliances 17 after being woken up by the output voltage of the regulator 11 and outputs the generated control signal. 17).

In addition, the microprocessor 13 is configured to generate the PWL signal at a low level when the connection state signal of the ignition key IGN is an off signal, and after the predetermined time of the preset timer 15 has elapsed. It is provided to generate a reset signal when the output voltage is high.

That is, when the ignition key IGN is in the off state, the microprocessor 13 operates the timer 15 installed therein after generating the low level PWL signal. That is, the microprocessor 13 checks whether the output voltage of the regulator 11 is high after the timer 15 has elapsed a predetermined time, and generates a reset signal for resetting the program when it is high. And reboot according to this reset signal.

In the restarting apparatus of the engine control unit of the present invention provided as described above, first, a case where a plurality of wake-up signals are all turned off will be described with reference to FIG.

First, when the ignition key IGN is switched off, the output signal of the ignition key IGN is as shown in FIG. The microprocessor 13 receiving the output signal of the ignition key IGN outputs the low level PWL signal and supplies it to the regulator 13. At this time, the PWL signal is as shown in b) of FIG.

At this time, the timer 15 is counted under the control of the microprocessor 13, and the output signal of the timer 15 is as shown in c) of FIG.

Then, the regulator 11 supplies a low level output voltage to the microprocessor 13 when the plurality of wake-up sources S1 -Sn are all off, and supplies the output voltage of the regulator 11 to FIG. 2. As shown in (d) of FIG. That is, the microprocessor 13 is shut off according to the output voltage of the low level regulator 11.

Meanwhile, a process of rebooting the microprocessor when at least one of the plurality of wake-ups S1 -Sn is operated in an on state will be described with reference to FIG. 3.

First, when the ignition key IGN is switched off, the output signal of the ignition key IGN is as shown in FIG. In addition, according to the output signal of the ignition key IGN, the PWL signal of the microprocessor 13 is output at a low level, as shown in b) of FIG. 3, and the low level PWM signal is output to a regulator ( 11) is supplied.

At this time, the microprocessor 13 operates the timer 15. At this time, the output signal of the timer 15 is as shown in (c) of FIG.

Meanwhile, when at least one of the plurality of wake-up sources S1 -Sn is operated, the regulator 11 supplies a high level output voltage to the microprocessor 13, and the output voltage of the regulator 11 is As shown in d) of FIG. 3. The microprocessor 13 operates according to the output voltage of the regulator 11 shown in d) of FIG.

Subsequently, when the output voltage of the regulator 11 is high after a predetermined time has elapsed according to the output signal of the timer 15, the microprocessor 13 generates a reset signal as shown in FIG. And reboot according to this reset signal.

5 is a flowchart illustrating a restart process of the engine control unit according to the present invention. First, the microprocessor 13 detects that the ignition key is switched off (step 101) and outputs a low level PWL signal (step 103), and then the microprocessor 13 starts the timer 15. In step 105, the predetermined time is counted. When at least one of the plurality of wake-up sources S1-Sn is operated (step 107), the regulator 11 outputs a high level voltage, and this high level output voltage is supplied to the microprocessor 13. (Step 109).

Subsequently, the microprocessor 13 checks whether a predetermined time of the timer 15 has elapsed (step 111), and when the counting of the timer 15 ends after the predetermined time has elapsed, the microprocessor 13 determines the regulator. It is checked whether the output voltage of (11) is at the high level (step 113), where a reset signal is generated (step 115) when it is at the high level.

As described above, according to the present invention, when the PWL signal of the microprocessor is output to the low level when the ignition key is turned off, a regulator in which one or more wake-up sources are on after a predetermined time of the timer has elapsed. In a vehicle having a plurality of wake-up sources, a high level reset signal for resetting a program of the microprocessor is generated when the output voltage of the high voltage is high, and the microprocessor is rebooted by the generated reset signal. The effect of safely restarting the engine control unit in the power latched state is obtained.

As such, those skilled in the art to which the present invention pertains may understand that the present invention may be embodied in other specific forms without changing to the technical concept or essential features of the present invention. Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive. The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. .

Claims (4)

A regulator for outputting a battery voltage supplied from an external device according to a connection state signal of an ignition key, an output signal of a plurality of wake-up sources, and a PWL signal supplied from an external device; A microprocessor which wakes up according to the output voltage of the regulator and outputs the PWL signal for controlling the output voltage of the regulator, and generates a reset signal when the output voltage of the regulator is kept high after a predetermined time elapses. ; And And a timer for counting a predetermined time at the time when the microprocessor generates the PWL signal to generate a reset signal through the microprocessor when the output voltage of the regulator is high after a predetermined time elapses. Restarting device of the engine control unit, characterized in that. 2. The restarting apparatus of an engine control unit according to claim 1, wherein the timer is integrally formed with the microprocessor. The microprocessor of claim 1, wherein the microprocessor operates the timer when the ignition key is turned off to output the low level PWL signal, and the output voltage of the regulator is set to a high level after a predetermined time elapses of the timer. Resetting the engine control unit, characterized in that it is provided to generate a reset signal for resetting all stored programs when maintained. In the method of operating the engine control unit for generating a control signal by the output voltage of the regulator to operate a plurality of electrical appliances, a) operating a timer when the ignition key is switched off by a microprocessor to output a low level PWL signal; b) supplying the regulator's output voltage to the microprocessor at a high level when at least one of the plurality of wake up sources is operated; c) checking whether a predetermined time has elapsed through the timer and checking if the output voltage of the regulator is at a high level when a predetermined time has elapsed; And d) generating and resetting a reset signal for resetting a program through the microprocessor when the output voltage is at a high level.

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