FR2902889A1 - Battery`s poor connection detecting method for vehicle`s fascia, involves determining amplitude of ripples of voltage between terminals of battery, and detecting poor connection of battery, when amplitude exceeds threshold for certain time - Google Patents

Abstract

The method involves determining an amplitude of ripples of a battery voltage (Vbat) between connection terminals (2, 3) of a battery (1). The determination involves measuring the voltage at the terminals, removing a direct component, rectifying negative half-waves and averaging a signal. The determined amplitude is compared with a predetermined threshold by a comparator constituted of a microcontroller, and a poor connection of the battery is detected, when the amplitude exceeds the threshold for a certain time. An independent claim is also included for a device for detecting a poor connection of a battery.

Description

2902889

  The present invention relates to a device and a method for detecting a bad connection of a battery. In the field of electrical circuits comprising a battery, when the battery is incorrectly connected or disconnected, for example because of a poorly tightened lug, the electrical circuit is disrupted and the electrical network can then be faulty. This is particularly observable when large loads are engaged. Some network equipment may be disrupted. It is interesting to be able to detect that a battery is bad or not connected in order to signal it to the attention of a user of the electrical network or a maintenance operator. There are several known remedies for this bad connection problem. Lugs with improved mechanical interlocks can be used to prevent loosening or disconnection. However such a solution does not solve the problem completely. Other solutions exist that generally employ current sensors. This type of sensor is however expensive and difficult to implement.

  Other solutions, if necessary without a sensor, make it possible to perform an alternator-oriented diagnosis. Such methods are limited to the detection of a clear disconnection. The present invention overcomes all or part of these various disadvantages and proposes a device and a method for detecting a bad connection, including the case of a clear disconnection, without using a current sensor. The invention thus relates to a method of detecting a bad connection of a battery, comprising the following successive steps: - Determination of the amplitude of the ripples of the voltage at the terminals of the battery, - comparison of the amplitude determined with a threshold, 5 - detecting a bad connection when said amplitude exceeds said threshold for a certain time. The invention also relates to a device adapted to implement the method according to one of the preceding embodiments. Other features, details and advantages of the invention will emerge more clearly from the detailed description given below as an indication in connection with drawings in which: FIG. 1 shows a typical example of an electrical circuit according to the invention, - Figure 2 illustrates an embodiment of a device according to the invention, - Figures 3-6 show results curves. The electrical circuit of FIG. 1 comprises a battery 1 comprising two connection terminals 2, 3. It should be noted that the illustrated circuit is of the ground connection type 4 conventionally used on vehicles. The invention is applicable also to other types of electrical circuits. The circuit further comprises an alternator 5. The detection device 6 according to the invention measures the battery voltage Vbat between the lugs 2 and 3, or, which is equivalent, the voltage VRdB between the point 7 and the ground 4 via the connection 11. The electrical circuit constitutes a network which supplies various equipment 8, 9, 10. A detection of a bad connection of the battery 1 by the device 6 is transmitted by the connection 12 to the dashboard 8 in order to alert the user. user, or to a maintenance box (not shown). In such an electrical circuit, the battery 1 2902889 provides a dual role. The first role is that of energy reserve. The second role is that of buffer capacity ensuring a filtering of the voltage. Alternator 5 is a rotating machine generating alternating electrical voltage. It integrates an output bridge rectifier. The alternator voltage has multiple voltage harmonics of the rotation speed of the alternator 5 and the number of poles of said alternator 5. The amplitude of these harmonics depends on the overall capacitance present on the network. Battery 1 is the main capacity. Also, a bad connection of the battery 1 causes a significant increase in the amplitude of the voltage ripples. The principle of the invention consists in measuring the amplitude of the voltage ripples in order to detect an exceeding of a minimum threshold. The invention relates to a method for detecting a bad connection of a battery 1 based on this principle. This method makes a determination of the amplitude of the ripples of the voltage between the terminals 2, 3 of the battery 1 and then compares this amplitude with a predetermined threshold. This threshold can be determined empirically by measuring the amplitude for a lug 2, 3, of battery 1 progressively more and more loosened. A threshold can typically be set when loosening where the electrical characteristics of the network are deemed unacceptable. A bad connection is detected when said amplitude exceeds this threshold, for a certain time. This time is preferably determined empirically to avoid false detections due for example to measurement noise. The step of determining this time comprises a first step of measuring the battery voltage at the terminals 2, 3 of the battery 1, or at any equivalent measurement point 7 equivalent of the electric circuit. This measurement is then processed in order to derive a measure of amplitude 4 2902889

  ripple. For this, the continuous component is removed, in order to keep only the alternative part. Then the signal advantageously undergoes a rectification of the negative half waves to build a signal indicative of the amplitude of the ripple. In order to facilitate the subsequent comparison of the signal obtained with a continuous threshold, temporal averaging is performed. Advantageously, a step of filtering the low frequency values can be applied between the measurement step and the averaging step. This step can be confused with the step of removing the DC component. Advantageously, a signal amplification step performed between the measurement step and the averaging step improves the quality of the signal for the purpose of subsequent thresholding. It is still possible, after the averaging step, to perform a peak value detection accompanied by a storage of the highest value. Thus the thresholding comparing the stored peak value with the threshold is improved. This storage is reset either after a certain elapsed time, or at least after a positive detection. Referring now to Figure 2, an exemplary embodiment of a device 6 according to the invention will be described. Such a device 6 is made in electronic technology according to a preferred embodiment. Other technologies are usable. DSP, microcontroller, digital logic or software. In FIG. 2, the electronic diagram successively comprises, from left to right, five sections / functions 21-25. The first section 21 measures the battery voltage, low-frequency filtering and suppresses the DC component. The second section 22 amplifies the signal from the first section 2902889 and transmits it to the third section 23 which rectifies the negative half-waves. The fourth section 24 averages the signal from the third section 23 and transmits it to the fifth section 25. This last section makes a storage of the highest voltage value. The signal thus produced is then transmitted to a comparator (not shown) which compares with the threshold and performs the detection of bad connection. This comparator may for example be made by a microcontroller, one of whose inputs acquires the signal from section 25. FIGS. 3-6 present the results obtained with the device according to the invention. Each FIG. 3-6 shows two curves each showing a voltage versus time. The left curve shows the AC component of the battery voltage after removal of the DC component, that is to say the signal at the output of the first section 21. The curve on the right shows the signal at the output of the device after processing and before thresholding. From top to bottom, from Figure 3 to Figure 6, the positive terminal 3 of the battery 1 is progressively more and more loosened. It appears that the value of the output voltage, shown on the right curve, increases with increasing loosening. It appears that the shape and level characteristics of the output signal can be used for thresholding. This thresholding makes it possible to detect and generate an alert. This alert is effective after the threshold has been crossed for a period of time. 6

Claims (10)

  1. A method for detecting a bad connection 5 of a battery (1), characterized in that it comprises the following successive steps: -determination of the amplitude of the undulations of the voltage at the terminals (2, 3) of the battery (1), - comparison of the determined amplitude with a threshold, - detection of a bad connection when said amplitude exceeds said threshold for a certain time.   2. The detection method according to claim 1, wherein the determining step comprises the following successive steps: measuring the terminal voltage (2,   3) of the battery (1), - suppression of the DC component, - rectification of the negative half-waves, - averaging of the signal. 3. Detection method according to claim 2, wherein the determining step further comprises, between the measuring step and the averaging step, the following step: filtering the low frequency values.   4. Detection method according to claim 2 or 3, wherein the determining step further comprises, between the measuring step and the averaging step, the next step. - amplification of the signal.   5. Detection method according to any one of claims 2 to 4, wherein the determining step further comprises, after the averaging step, the next step. 35 - detection and storage of the highest value.   6. Device for detecting a bad connection of a battery (1), characterized in that it comprises: a means for determining the amplitude of the undulations of the voltage at the terminals (2, 3) of the battery (1); a comparator of the determined amplitude with a threshold; means for detecting a bad connection when said amplitude exceeds said threshold for a certain time.   7. Detection device according to claim 6, wherein said determining means further comprises: - means (21) for measuring the voltage at the terminals 15 (2, 3) of the battery (1), - means (21) method for suppressing the DC component; means (23) for rectifying the negative half-waves; means for averaging the signal.   8. Detection device according to claim 7, wherein said averaging means further comprises: a means for filtering the low frequency values. 25   9. Detection device according to claim 7 or 8, wherein the determining means further comprises an amplifier (22).   10. Detection device according to any one of claims 7 to 9, wherein the determining means 30 further comprises means (25) for storing the highest value.