JP2599740B2 - Disconnection detection device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a disconnection detecting device which is suitably implemented, for example, for detecting disconnection of a stump lamp of an automobile.

BACKGROUND ART A typical prior art vehicle stop-lamp disconnection detection device 31 is shown in FIG. The disconnection detection device 31 detects disconnection of the lamps 32a and 32b (collectively, the lamp 32),
This is to warn the driver or the like to prevent an accident due to disconnection of the lamp 32.

The disconnection detecting device 31 includes a lamp 32 serving as a load and a resistor R2.
, A comparator, a relay, and a capacitor. The configuration including the comparators 34 and 37, the relay 35, and the constant current source 38 is realized by, for example, an integrated circuit 39.

The lamp 32 is supplied with electric power from a battery via a stop switch S2 and a resistor R2. Terminal T5 of resistor R2
Is connected to the specific level generator 33, and the terminal T6 is connected to the comparator
Connected to 34 inverting input terminals. Specific level generator 33
Generates a voltage level as described later and supplies the voltage level to the non-inverting input terminal of the comparator 34. The comparator 34 compares the voltage level of the terminal T6 with the voltage level from the specific level generator 33.

The signal A2 output from the comparator 34 is given to the relay 35,
In the relay 35, the switching mode is controlled as described later. Terminal 35a of relay 35 is connected to constant current source 38, and terminal 35b is grounded via capacitor 36.

The comparator 37 outputs the voltage level of the terminal 35b and the reference level V _REF.
And a disconnection detection signal output from the comparator 37.
B2 is led out to a warning device or the like. The disconnection detection signal B2 is also supplied to the relay 35, and the relay 35 connects between the terminals 35a and 35b when at least one of the signals A2 and B2 output from the comparators 34 and 37 is at a low level. Conduct.

Since the relationship between the input voltage level of the lamp 32 and the current value is not linear, the specific level generator 33
The voltage level is corrected according to the input voltage level to 32 and output to comparator 34.

FIG. 5 is a graph for explaining the operation of the disconnection detecting device 31, and will be described below with reference to FIG.

The relationship between the voltage level of the power supply of the lamp 32 and the supplied current is indicated by a line l1, and a line l2 indicates a case where one of the lamp 32a and the lamp 32b is disconnected due to the disconnection. For example, if the power supply is at voltage level V1,
A current I1 flows through R2. At this time, for example, if the lamp 32a is disconnected, the current I2 flows through the resistor R2, and
The voltage drop at R2 is small.

Accordingly, the voltage level of the terminal T6 rises and exceeds the specific level generated by the specific level generator 33. At this time, the signal A2 output from the comparator 34 becomes low level.

In the relay 35, when the signal A2 is at a low level, the terminal
The conduction between the terminal 35a and the terminal 35b is established, and electric charges are stored in the capacitor 36 by the current generated by the constant current source 38. When the capacitor 36 is charged, the voltage level of the terminal 35b increases. In the comparator 37, this voltage level is equal to the reference level V _REF
Is exceeded, a disconnection detection signal B2 that becomes low level is output. In a warning device (not shown), the disconnection detection signal B2
When the signal is at the low level, the disconnection of the lamp 32 is warned.

Thereafter, when the foot is released from the brake pedal or the stop switch S2 is turned off, the signal A2 from the comparator 34 goes high. However, disconnection detection signal B2
Is at a low level, the relay 35 keeps on, and the disconnection detection signal B2 does not change. Therefore, the lamp
The warning of the disconnection at 32 cannot be stopped unless the power is turned off by operating an ignition key switch (not shown).

Problems to be Solved by the Invention In the disconnection detecting device 31, for example, when the fluctuation of the power supply voltage or the noise is repeated, the integrated circuit 39 malfunctions and the capacitor 36 may be charged. Also, when the voltage level V1 of the power supply drops to the voltage level V2 as shown by the line l1 in FIG. 5, there is a time delay until the lamp current becomes a steady current, so that even if the lamp 32 is not disconnected, The current drops from the current I1 to the current I3, and thereafter gradually approaches the steady current I2. When such a situation occurs, the disconnection detecting device 31 may perform exactly the same operation as when the lamp 32 is disconnected.

In such prior art, once a disconnection is detected, the disconnection detection signal B2 does not change from the low level even if the detection is erroneous. Therefore, it is warned that the lamp 32 is disconnected until the ignition key is removed.

Also, when replacing the broken lamp 32, remove the ignition key after replacement, insert it again and start the car,
If the brake pedal or the like is not subsequently depressed, the warning of the disconnection is not released, and it cannot be confirmed that the lamp 32 has been normally operated.

An object of the present invention is to provide a disconnection detecting device that can return to a normal operation together with power supply to a load even when a disconnection is detected due to, for example, a malfunction.

Means for Solving the Problems The present invention provides a load powered by a power supply, current detecting means for detecting the level of current flowing through the load, and the current detected by the current detecting means. Comparing means for comparing a level with a predetermined specific level, in response to the output of the comparing means, when the detected current level is in a normal state that is less than the specific level,
When the battery is in a disconnected state where the detected current level is equal to or higher than the specific level, the power storage unit that is not charged, and once the voltage of the power storage unit becomes equal to or higher than a predetermined value, holds the voltage of the power storage unit. A disconnection detection circuit comprising: a disconnection detection circuit that keeps outputting a disconnection detection signal, wherein the power is supplied to the load, and the power storage unit is discharged when a normal state of the load having no output from the comparison unit is detected. A disconnection detecting device provided with a release unit.

According to the present invention, when the load is normal, the output of the current detecting means has a normal value, and the comparing means does not generate an output. Therefore, the power storage means is not charged, and the holding means does not output the disconnection detection signal.

Also, when the output of the current detecting means decreases due to disconnection of the load, noise, or the like, an output is generated from the comparing means.
The storage means is charged. And once the voltage of the storage means
When the predetermined value or more, the holding means holds the voltage, and continues to output a disconnection detection signal, the load is energized,
In addition, when the normal state of the load having no output from the comparison means is detected, the storage means is discharged by the cancellation means to cancel the holding of the output of the disconnection detection signal. Therefore, once the disconnection is detected, the disconnection detection signal is continuously output, so that the disconnection can be known at any time after the disconnection is detected, and when the detection of the disconnection is due to, for example, a malfunction, etc. The output of the disconnection detection signal can be stopped when a normal state is detected.

Embodiment FIG. 1 is a block diagram showing a configuration of an apparatus 1 for detecting a disconnection of a stop lamp of an automobile according to an embodiment of the present invention. The disconnection detecting device 1 includes lamps 2a and 2b (hereinafter, collectively referred to as a lamp 2) as loads and a resistor R1 as a current detecting means.
A comparator 4, which is a comparing means, a NAND circuit 9, which is a releasing means, a relay 5, and a capacitor 6, which is a power storage means.
The relay 5 and the comparator 7 constitute a holding unit.

The lamp 2 is supplied with electric power from a battery via a stop switch S1 and a resistor R1. Terminal T1 of resistor R1
Is connected to the specific level generator 3, and the terminal T2 is connected to the inverting input terminal of the comparator 4. Specific level generator 3
Generates a voltage level to be described later and supplies it to the non-inverting input terminal of the comparator 4. The comparator 4 compares the voltage level of the terminal T2 with the voltage level from the specific level generator 3.

The output signal A1 of the comparator 4 is provided to the relay 5. The switching mode of the relay 5 is controlled as described later. Terminal 5a of relay 5 is connected to constant current source 8, and terminal 5b is grounded via connection point P1 and capacitor 6. Signals from the comparator 4 and the line 11 are input to the NAND circuit 9, and a signal B1 is derived to a connection point P1.

The connection point P1 is also connected to the inverting input terminal of the comparator 7, where the voltage level of the connection point P1 and the reference level
V _REF is compared. A warning is issued in a warning device or the like in accordance with the disconnection detection signal C1 output from the comparator 7.

The disconnection detection signal C1 is also supplied to the relay 5, and the relay 5 conducts between the terminals 5a and 5b when at least one of the output signals of the comparators 4 and 7 is at a low level.

In such a disconnection detecting device 1, the comparators 4, 7, NAN
The configuration including the D circuit 9 and the relay 5 is realized by, for example, an integrated circuit 10. Further, the disconnection detecting device 1 is provided with a resistor R1 due to a change in current flowing through the line 11 when the lamp 2 is disconnected.
Is detected, but the relationship between the input voltage level of the lamp 2 and the current value is not linear as shown in FIG. 5, so that the correction was made in accordance with the input voltage level to the lamp 2. The specific level is output from the specific level generator 3.

FIG. 2 is a waveform diagram showing the operation of the disconnection detection device 1,
Hereinafter, description will be made with reference to FIG.

FIG. 2 (1) is a diagram showing a switching mode of the stop switch S1, and the stop switch S1 is in a conductive state from time t1 to time t5.

When the power is turned on by operating the ignition key switch or the like and the stop switch S1 is shut off, that is, when the brake pedal is not depressed, no current flows through the line 11. As shown in FIG. 2 (2), the power of the comparator 4 is supplied from the line 11. In this state, the comparator 4 does not operate, and at this time, the signal A1 becomes high level (FIG. 2 ( 3)) Since the final stage of the NAND circuit 9 is an open collector type including the transistor Q1 as shown in FIG. 3, the output becomes high impedance, but the relay 5 is cut off in the initial state. Therefore, the capacitor 6 is not charged, and the voltage level at the connection point P1 is low (FIG. 2 (4)). Therefore, the output from the comparator 7 maintains the high level.

Accordingly, the disconnection detection signal C1 output from the comparator 7 becomes high level (FIG. 2 (5)), and since the signals A1 and C1 are both high level, the relay 5 is kept off.

When the stop switch S1 is turned on at time t1, when the lamp 2 is normal, the voltage drop at the resistor R2 is sufficiently large, and the signal A1 output from the comparator 4 remains at the high level. The signal B1 output from the NAND circuit 9 is at low level, the connection point P1 is grounded via the NAND circuit 9, and the disconnection detection signal C1 from the comparator 7 is at high level.

At time t2, one of the two lamps 2, for example, lamp 2a
Is disconnected, the current on the line 11 decreases, and the voltage drop across the resistor R1 decreases. Accordingly, the voltage level at the terminal T2 rises, exceeds the specific level, and the signal A1 output from the comparator 4 goes low. That is, when the current level of the line 11 is lower than the value corresponding to the specific level, the signal A1 becomes low level. Accordingly, the relay 5 becomes conductive and the output signal B1 from the NAND circuit 9 becomes high impedance, so that the capacitor 6 is charged. Were it to rise the voltage level of the connexion connection point P1, the disconnection detection signal C1 output to警示lamp from the comparator 7 exceeds the reference level V _REF goes low, breakage of the lamp 2 is警示.

For example, when the lamp 2a is replaced, or when the previous disconnection detection is erroneous, when the lamp 2a returns to the normal state at the time t3, the current level of the line 11 becomes higher than the value corresponding to the specific level. Accordingly, the signal A1 becomes high level, and the output of the NAND circuit 9 becomes low level, that is, the ground state, so that the electric charge stored in the capacitor 6 is discharged through the NAND circuit 9. Therefore, connection point P1
Of the disconnection detection signal C1 from the comparator 7
Becomes high level. Accordingly, the relay 5 is turned off, and the warning of the disconnection is stopped in this way. In this embodiment, there is no possibility that the disconnection detection cannot be canceled without operating the ignition key switch as in the prior art.

When the lamp 2a is disconnected again at the time t4, the disconnection detection signal C1 becomes low level as in the case of the time t2,
The warning of the disconnection of the lamp 2 is given. At this time, at time t5, if the depression of the brake pedal or the like is stopped and the stop switch S1 is cut off, the signal A1 output from the comparator 4 goes high, but the line 11 goes low, so that the output of the NAND circuit 9 becomes low. Is a high level, that is, a high impedance, and the electric charge charged in the capacitor 6 is not discharged. Therefore, the connection point P1 is at a high level and the comparator 7
Is low level and the relay 5 does not change from the conductive state, so that the warning is continued.

As described above, in the present embodiment, when the disconnection detecting device 1 malfunctions due to, for example, a fluctuation in the power supply voltage or external noise, the disconnection detection can be canceled if the cause of the malfunction is eliminated. Further, for example, when the disconnected lamp is replaced while the ignition key switch is kept on, the disconnection detection can be canceled without operating the ignition key switch, and it can be confirmed that the lamp is normal.

Further, in the present embodiment, the case where the inspection is performed in connection with the detection of disconnection of the stop lamp of the car has been described.
For example, the present invention can be applied to tail lights and the like.

Effect As described above, in the disconnection detection device according to the present invention, even when the output of the disconnection detection signal is held, the load returns to normal, the power is energized, and the power storage unit is released by the release unit. Is discharged, whereby the holding means stops outputting the disconnection detection signal.

Therefore, even if a disconnection detection signal is output due to, for example, a malfunction, the normal operation can be restored together with the supply of power to the load. In addition, according to the present invention, the present invention can be applied to disconnection detection of a load that does not need to hold the output of the disconnection detection signal, so that the versatility is significantly improved.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the structure of a disconnection detecting device 1 according to one embodiment of the present invention, FIG. 2 is a waveform diagram for explaining the operation of the disconnection detecting device 1, and FIG. 9, FIG. 4 is a block diagram showing the configuration of a prior art disconnection detecting device 31, and FIG. 5 is a graph for explaining the operation of the disconnection detecting device 31. 1 ... disconnection detection device, 2 ... load, 4,7 ... comparator, 5
…… Relay, 6 …… Capacitor, 9 …… NAND circuit, R1…
…resistance

Claims (1)

(57) [Claims] 1. A load which is energized by a power supply, current detecting means for detecting a level of a current flowing through the load, and a specific level which is predetermined by the current level detected by the current detecting means. A comparison means for comparing the detected current level with the output of the comparison means, when the detected current level is less than the specific level in a normal state, the charged and detected current level is equal to or more than the specific level. When the disconnection state is a disconnection state, there is provided a storage unit that is not charged, and a holding unit that holds the voltage of the storage unit once the voltage of the storage unit becomes a predetermined value or more and continuously outputs a disconnection detection signal. A disconnection means for discharging the power storage means when a normal state of the load is detected when the load is energized and no output of the comparison means is detected. Detection device.