DE3321649A1 - Diagnostic device for vehicle batteries - Google Patents

Description

HOFFMANN · EITLE & PARTNER

PATENT AND LAWYERS

PATENTANWÄLTE DIPL.-ING. W. EITLE DR. RER. NAT. K. HOFFMANN DIPL.-IN3. W, LEHN

DIPL.-ING. K. FDCHSLE DR. RER. NAT. B. HANSEN · DR. RER. NAT. HA. BROWN. DIPL.-ING. K. GDRG

DIPL.-ING. K. KOHLMANN · LAWYER A. NETTE

38 837 p / wh

Mitsubishi Denki Kabushiki Kaisha
Tokyo / Japan

Diagnostic device for vehicle batteries

The invention relates to a device for Diag. masticate the state of charge of a battery that is suitable to store energy that is generated by a generator, which generator by the vehicle engine is driven.

In a vehicle charging system of this type, there is a pilot lamp between the initial excitation terminal and the voltage detection terminal of the voltage regulator connected, so that from the observation of the pilot lamp it can be determined whether the charging system is working adequately or not. When the battery is charged or is discharged by an electrochemical change, the connection voltage and the internal resistance of the battery depend on the state of charge. The charging function depends on the ambient temperature, the specific weight and the Acidity of the electrolyte and a number of charging and

Cycles to which the battery has been subjected. So the condition of the battery is of complicated variable Factors dependent. Accordingly, it is impossible to determine the condition of the battery in detail just by observing the pilot lamp to determine.

The object of the invention is to eliminate the aforementioned difficulties and to provide a battery diagnostic device in which various battery data are periodically displayed in a predetermined period of time.

To solve this problem, the status of the battery is displayed periodically within a predetermined time unit based on the existing valuation and the changes in these values over time. The internal resistance of the battery, from which the functioning of the battery can be derived is calculated so that the service life of the Battery can be determined and displayed.

Further details, features and advantages of the invention emerge from the following description of the in the drawing purely schematically illustrated embodiment. The only drawing shows a block diagram a diagnostic device for a vehicle battery.

An embodiment of this invention will now be made with reference to the single figure of the accompanying drawing described. The only figure is a block diagram showing a diagnostic device according to the invention finding for a vehicle battery. In the figure, the reference numeral 1 denotes a generator with an armature 1a and a field coil 1b. The reference numeral 2 denotes a rectifier which comprises a plurality of diodes, to rectify the outputs of generator 1, i.e.

5 the three-phase alternating current outputs of the armature 1a. That

β α β

3321643

Reference number 3 denotes a voltage regulator with diodes 306 and 314, transistors 307, 308, resistors 311, 312, 313, a comparator 310 and a reference voltage source 315. The voltage regulator also has a voltage detection terminal a, a terminal b which is connected to the field coil Tb in order to permit a controlled field current, a ground connection c and a connection d for supplying a current which is suitable to initially excite the generator. The reference number 4 denotes a conventional battery, the reference number 5 a pushbutton switch which is closed in order to start an internal combustion engine (not shown). The reference numeral 6 denotes a pilot lamp which is connected between the terminals a and d and is switched on or off, depending on the voltage difference between these terminals (the voltage difference is large at the time of engine start). Numeral 7 denotes a microcomputer for controlling the charging system. The microcomputer 7 includes an analog-to-digital converter (A / D converter) for converting analog level input signals (battery data) relating to the battery A into digital signals. In addition, the microcomputer 7 includes a central calculating unit for reading the output of the A / D converter at a predetermined period or sampling frequency to make the diagnosis according to a diagnostic program.

Furthermore, in the figure, the reference number 8 denotes a display unit for displaying the diagnosis result, which is output from the microcomputer or control section 7. Numeral 9 denotes a sensor for detecting a current flowing through the negative terminal of the battery 4 and for applying it Data to the control section 7. The reference numeral 10 denotes

draws another sensor for determining the specific gravity of the electrolyte in the battery 4 and to apply the data to the microcomputer. Finally, reference numeral 11 denotes a conventional one Internal combustion engine starter.

The operation of this device will now be described. The microcomputer 7 reads the voltage at the positive terminal (Terminal) of the battery 4 and the output signals of the sensors 9 and 10 at certain intervals to the Display the state of the battery in accordance with a diagnostic program and thereby diagnose the battery 4. This diagnosis includes a determination of the condition of the rectifier side from the terminal voltage of the Battery. (A) When the signal from the sensor 10 is not equal to a predetermined value when the push button switch 5 is turned on, it is indicated that the battery 4 is excessively discharged. (b) When the voltage of the battery and the output signals of the sensors 9 and 10 are equal to predetermined values when the internal combustion engine is started is, it is determined that the battery 4 is normally charged. (c) If the polarity of the signal of the Sensor 9 does not change within a sufficiently long time period for the internal combustion engine to be started, after the push button switch 5 has been turned on, it is found that the battery 4 is not charged because the starting process fails and the generator 1 does not work or the rectifier 2 is out of operation, (d) if the internal combustion engine is started, the signal of the sensor 10 indicates the charging of the battery 4 and it is the connection voltage of the battery 4 is determined to be saturated, so the battery 4 is properly charged, (e) When the internal resistance of the battery 4 is larger as its predetermined value which is in the state of the ratio of the signal from the sensor 9 and the change

the connection voltage of the battery is calculated that the battery 4 is properly charged, this means that the performance of the battery 4 is reduced. Other states of the battery 4 may be made of combinations of the above states to be attached to the control section 7 Signals are determined and from the changes in them as a function of time. The results the diagnosis are fed to the display unit 8, where they are then displayed.

In the embodiment described above, three signals constituting the battery data are input to the microcomputer entered to diagnose the battery. Instead, additional voltages, currents and Temperatures of other parts for diagnosing the battery can be entered with higher accuracy.

It is clear from the foregoing description that, according to the invention, various battery data in a microcomputer of a predetermined frequency so that the state of the charging system inclusive the battery from the existing values and the changes in this data over time is shown. The internal resistance of the battery is calculated and there are various symptoms of the battery diagnosed and displayed. The device according to the invention is therefore particularly suitable for maintenance the battery is very effective.

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Claims (2)

Claims Battery diagnostic device, labeled by a first device for determining a terminal voltage, one by the output of a Generator (1) charged battery (4), a second device for determining the charging and discharging currents the battery, a microcomputer (7) for storing the outputs of the first and second devices at predetermined intervals to determine the state of charge and the internal resistance of the battery and so to diagnose the service life of the battery and a display unit (8) for displaying the diagnostic results of the microcomputer. · ;; ··· ;: 3321049 2. Apparatus according to claim 1, characterized in that a third device for Determining an electrochemical parameter of the battery and attaching an output to the Microcomputer is provided.