WO1996000908A1 - Process for checking the voltage supply of battery-operated electronic equipment - Google Patents

Process for checking the voltage supply of battery-operated electronic equipment Download PDF

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Publication number
WO1996000908A1
WO1996000908A1 PCT/DE1995/000751 DE9500751W WO9600908A1 WO 1996000908 A1 WO1996000908 A1 WO 1996000908A1 DE 9500751 W DE9500751 W DE 9500751W WO 9600908 A1 WO9600908 A1 WO 9600908A1
Authority
WO
WIPO (PCT)
Prior art keywords
supply voltage
led
analog
voltage
microprocessor
Prior art date
Application number
PCT/DE1995/000751
Other languages
German (de)
French (fr)
Inventor
Bernhard Förstl
Claus Peter
Original Assignee
Siemens Aktiengesellschaft
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Siemens Aktiengesellschaft filed Critical Siemens Aktiengesellschaft
Publication of WO1996000908A1 publication Critical patent/WO1996000908A1/en

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Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R19/00Arrangements for measuring currents or voltages or for indicating presence or sign thereof
    • G01R19/165Indicating that current or voltage is either above or below a predetermined value or within or outside a predetermined range of values
    • G01R19/16533Indicating that current or voltage is either above or below a predetermined value or within or outside a predetermined range of values characterised by the application
    • G01R19/16538Indicating that current or voltage is either above or below a predetermined value or within or outside a predetermined range of values characterised by the application in AC or DC supplies
    • G01R19/16542Indicating that current or voltage is either above or below a predetermined value or within or outside a predetermined range of values characterised by the application in AC or DC supplies for batteries
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R31/00Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
    • G01R31/36Arrangements for testing, measuring or monitoring the electrical condition of accumulators or electric batteries, e.g. capacity or state of charge [SoC]
    • G01R31/3644Constructional arrangements
    • G01R31/3647Constructional arrangements for determining the ability of a battery to perform a critical function, e.g. cranking
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R31/00Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
    • G01R31/36Arrangements for testing, measuring or monitoring the electrical condition of accumulators or electric batteries, e.g. capacity or state of charge [SoC]
    • G01R31/3644Constructional arrangements
    • G01R31/3648Constructional arrangements comprising digital calculation means, e.g. for performing an algorithm
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B47/00Operating or controlling locks or other fastening devices by electric or magnetic means
    • E05B2047/0097Operating or controlling locks or other fastening devices by electric or magnetic means including means for monitoring voltage, e.g. for indicating low battery state
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07CTIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE
    • G07C9/00Individual registration on entry or exit
    • G07C9/00174Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys
    • G07C2009/00753Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys operated by active electrical keys
    • G07C2009/00769Electronically operated locks; Circuits therefor; Nonmechanical keys therefor, e.g. passive or active electrical keys or other data carriers without mechanical keys operated by active electrical keys with data transmission performed by wireless means

Definitions

  • the invention relates to a method for checking a battery-operated electronic device for sufficient supply voltage according to claim 1 or 2 - in particular a hand transmitter of a remote-controlled vehicle locking system.
  • a voltage test device is known from DE-OS 30 11 499, in which the voltage to be tested is fed to a comparator via a bridge circuit, one branch of which consists of a series circuit of a resistor with a diode.
  • a battery monitoring circuit is known from DE-OS 42 41 523, which has a measuring circuit for one or more cells of the battery, which comprises at least one microprocessor with its A / D converter inputs the outputs of a resistance bridge circuit fed by the cells to be measured are connected.
  • a battery-operated hand-held transmitter with a microprocessor for a remote-controlled vehicle locking system according to claim 1 or 2 is known, which has a battery test device.
  • This battery test device compares the battery voltage determined by means of a voltmeter circuit with a predetermined voltage threshold value and emits an alarm signal when the measured battery voltage is lower than the predetermined voltage threshold value.
  • microprocessors used in such battery-operated devices are generally not fully utilized and have sufficient free storage capacity for additional programs and data.
  • analog / digital converters are integrated in many of these microprocessors at the intended
  • microprocessors are not used or only to a small extent. Otherwise, a proposed microprocessor without an analog / digital converter can be easily replaced with one with an Ar.alog / digital converter without great additional effort.
  • a function display lamp in the form of a light-emitting diode is already present in most devices of the type described. If a light-emitting diode is not present, then this or another electrode, along with an electrically conductive connection, is the only additional component required in order to be able to carry out the battery control method according to the invention with the aid of the microprocessor.
  • the invention is explained in more detail with reference to an exemplary embodiment of a hand transmitter of a remote-controlled vehicle locking system which is shown schematically in the drawing.
  • a microprocessor ⁇ P is arranged within this hand-held transmitter H, which may have the size of a check card or may be integrated into a key of a mechanical locking system, via the connections + V- Q D and -VQD is connected to a supply voltage V ⁇ and in addition to other connections, not shown, has an analog / digital input A / D and a further connection P. Both connections can be switched on and off via semiconductor switches S1 and S2 arranged in the microprocessor.
  • connection point L between the LED and the resistor R is connected via the analog / digital input A / D of the microprocessor ⁇ P and via the semiconductor switch S2 to an analog / digital converter ADW in the microprocessor ⁇ P.
  • the handheld transmitter H is connected via a button T, which is connected on one side to the connection + VDD and on the other side directly or via further components to an input of the microprocessor ⁇ P, or via a request signal from a vehicle (not shown). Receiver activated.
  • the semiconductor switches S1 current flows through the diode
  • the nominal value for ⁇ ) D is 6V.
  • a property of a diode, even a light-emitting diode, is that the voltage V ⁇ gp dropping across it is almost constant.
  • V ⁇ ED 1.8V.
  • the supply voltage V Q D is at a nominal value of 6V
  • V rest > SW can be determined with a positive comparison result that the current supply voltage V ßD (actual value) is sufficient.
  • the light-emitting diode LED can light up continuously or intermittently for a predetermined time if a positive comparison result has been achieved in a test process.
  • the circuit or the program can also be designed such that the light-emitting diode LED lights up continuously or intermittently for a predetermined time if a negative comparison result has been achieved in a test process, ie if the supply voltage V ⁇ is no longer sufficient and the hand transmitter H threatens to cease operation.
  • the circuit or the program can also be designed such that after one or more negative comparison results, the analog / digital input A / D or the further connection P and thus the light-emitting diode LED through the switches S1 and S2 up to one Battery change can be switched off.
  • the above invention has been described with the aid of a battery-operated hand-held transmitter of a remote-controlled vehicle locking system, in which a sufficient battery voltage is extremely important, since the vehicle doors can no longer be opened or can no longer be closed if there is insufficient voltage.
  • the invention can be used in all battery-operated devices equipped with a microprocessor, for example in portable radio or television receivers or in remote control transmitters for these devices, etc. use to warn of an existing voltage undersupply.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Tests Of Electric Status Of Batteries (AREA)
  • Selective Calling Equipment (AREA)

Abstract

A process is disclosed for checking the voltage supply of battery-operated electronic equipment provided with a microprocessor, in particular the hand emitter of a remote controlled vehicle closing system. The constant voltage applied to a light-emitting diode (LED) or the like which acts as a pilot lamp is used as auxiliary reference voltage, based on which the battery voltage is compared with a predetermined threshold value in order to determine if the voltage supply is sufficient or not, or the absolute value of the battery voltage is calculated.

Description

Beschreibungdescription
Verfahren zum Prüfen eines batteriebetriebenen, elektroni¬ schen Gerätes auf ausreichende Versorgungsspannung.Method for checking a battery-operated, electronic device for sufficient supply voltage.
Die Erfindung betrifft ein Verfahren zum Prüfen eines bat¬ teriebetriebenen, elektronischen Gerätes auf ausreichende Versorgungsspannung nach Anspruch 1 oder 2 - insbesondere eines Handsenders einer ferngesteuerten Fahrzeug-Schließ- anläge.The invention relates to a method for checking a battery-operated electronic device for sufficient supply voltage according to claim 1 or 2 - in particular a hand transmitter of a remote-controlled vehicle locking system.
Aus der DE-OS 30 11 499 ist eine Spannungsprüfvorrichtung bekannt, bei der die zu prüfende Spannung über eine Brük- kenschaltung, deren einer Zweig aus einer Serienschaltung eines Widerstandes mit einer Diode besteht, einem Kompara- tor zugeführt wird.A voltage test device is known from DE-OS 30 11 499, in which the voltage to be tested is fed to a comparator via a bridge circuit, one branch of which consists of a series circuit of a resistor with a diode.
Aus der DE-OS 42 41 523 ist eine Batterie-Überwachungs¬ schaltung bekannt, welche für jeweils eine oder mehrere Zellen der Batterie eine Meßschaltung aufweist, die aus we¬ nigstens einem Mikroprozessor besteht, mit dessen A/D-Wand- ler-Eingängen die Ausgänge einer von den zu messenden Zel¬ len gespeisten Widerstandsbrückenschaltung verbunden sind.A battery monitoring circuit is known from DE-OS 42 41 523, which has a measuring circuit for one or more cells of the battery, which comprises at least one microprocessor with its A / D converter inputs the outputs of a resistance bridge circuit fed by the cells to be measured are connected.
Aus der US-PS 4,737,784 ist ein batteriebetriebener Hand¬ sender mit einem Mikroprozessor für eine ferngesteuerte Fahrzeug-Schließanlage nach Anspruch 1 oder 2 bekannt, wel¬ che eine Batterieprüfeinrichtung aufweist. Diese Batterie¬ prüfeinrichtung vergleicht die mittels einer Voltmeter- Schaltung ermittelte Batteriespannung mit einem vorgegebe¬ nen Spannungs-Schwellwert und gibt ein Alarmsignal ab, wenn die gemessene Batteriespannung niedriger als der vorgege¬ bene Spannungs-Schwellwert ist.From US Pat. No. 4,737,784 a battery-operated hand-held transmitter with a microprocessor for a remote-controlled vehicle locking system according to claim 1 or 2 is known, which has a battery test device. This battery test device compares the battery voltage determined by means of a voltmeter circuit with a predetermined voltage threshold value and emits an alarm signal when the measured battery voltage is lower than the predetermined voltage threshold value.
Solche bekannten Batterieprüfeinrichtungen benötigen zum Erzeugen einer langzeit-konstanten Referenzspannung umfang reiche Schaltungen, mit Konstantstrom- oder Konstantspan- nungsquellen, Mikroprozessoren oder dergleichen, was insbe¬ sondere bei kleinen Handsteuergeräten neben hohen Kosten auch zu Platzproblemen führen kann.Known battery test devices of this type require extensive amounts in order to generate a long-term constant reference voltage rich circuits with constant current or constant voltage sources, microprocessors or the like, which can lead to space problems in addition to high costs, in particular in the case of small handheld control devices.
Es ist deshalb eine Aufgabe der Erfindung, e n Verfahren für eine Batterieprüfung anzugeben, welches mittels des vorhandenen Mikroprozessors und einer minimalen Zahl von zusätzlichen Bauelementen durchführbar ist.It is therefore an object of the invention to provide a method for a battery test which can be carried out by means of the existing microprocessor and a minimal number of additional components.
Diese Aufgabe wird erfindungsgemäß durch die in Anspruch 1 oder Anspruch 2 genannten Merkmale gelöst.This object is achieved by the features mentioned in claim 1 or claim 2.
Die in solchen batteriebetriebenen Geräten verwendeten Mi¬ kroprozessoren (Mikrocomputer oder Mikrocontroller) sind in der Regel nicht voll ausgelastet und haben ausreichend freie Speicherkapazität für zusätzliche Programme und Da¬ ten. Außerdem sind in viele dieser Mikroprozessoren Ana- log/Digital-Wandler integriert, die bei den vorgesehenenThe microprocessors (microcomputers or microcontrollers) used in such battery-operated devices are generally not fully utilized and have sufficient free storage capacity for additional programs and data. In addition, analog / digital converters are integrated in many of these microprocessors at the intended
Anwendungen der Mikroprozessoren nicht oder nur in geringem Umfang benutzt werden. Andernfalls ist ein v rgesehener Mi¬ kroprozessor ohne Analog/Digital-Wandler leicht und ohne großen Mehraufwand durch einen solchen mit Ar.alog/Digital- Wandler zu ersetzen.Applications of the microprocessors are not used or only to a small extent. Otherwise, a proposed microprocessor without an analog / digital converter can be easily replaced with one with an Ar.alog / digital converter without great additional effort.
Darüber hinaus ist bei den meisten Geräten der beschriebe¬ nen Art eine Funktionsanzeigelampe in Form einer Leuchtdi¬ ode bereits vorhanden. Sollte eine Leuchtdiode nicht vor- handen sein, so ist diese oder eine andere E ode, neben ei¬ ner elektrisch leitenden Verbindung das einzige zusätzlich benötigte Bauelement, um mit Hilfe des Mikroprozessors das erfindungsgemäße Verfahren der Batteriekontrclle durchfüh¬ ren zu können. Die Erfindung wird anhand eines in der Zeichnung schema¬ tisch dargestellten Ausführungsbeispiels eines Handsenders einer ferngesteuerten Fahrzeug-Schließanlage näher erläu- tert. Innerhalb dieses Handsenders H, welcher etwa die Grö¬ ße einer Scheck-Karte aufweisen kann oder in einen Schlüs¬ sel eines mechanischen Schließsystems integriert sein kann, ist ein Mikroprozessor μP angeordnet, der über die An¬ schlüsse +V-QD und -VQD an einer Versorgungsspannung V^ liegt und neben anderen, nicht gezeigten Anschlüssen einen Analog/Digital-Eingang A/D und einen weiteren Anschluß P aufweist. Beide Anschlüsse sind über im Mikroprozessor an¬ geordnete Halbleiterschalter Sl und S2 zu- und abschaltbar.In addition, a function display lamp in the form of a light-emitting diode is already present in most devices of the type described. If a light-emitting diode is not present, then this or another electrode, along with an electrically conductive connection, is the only additional component required in order to be able to carry out the battery control method according to the invention with the aid of the microprocessor. The invention is explained in more detail with reference to an exemplary embodiment of a hand transmitter of a remote-controlled vehicle locking system which is shown schematically in the drawing. A microprocessor μP is arranged within this hand-held transmitter H, which may have the size of a check card or may be integrated into a key of a mechanical locking system, via the connections + V- Q D and -VQD is connected to a supply voltage V ^ and in addition to other connections, not shown, has an analog / digital input A / D and a further connection P. Both connections can be switched on and off via semiconductor switches S1 and S2 arranged in the microprocessor.
Zwischen die Anschlüsse + r) und P des Mikroprozessors μP ist außerhalb desselben die Reihenschaltung einer Leuchtdi¬ ode LED mit einem Widerstand R geschaltet. Der Verbindungs¬ punkt L zwischen Le chtdicde LED und Widerstand R ist über den Analog/Digital-Eingang A/D des Mikroprozessors μP und über den Halbleiterεchalter S2 mit einem Analog/Digital- Wandler ADW im Mikroprozessor μP verbunden.Between the connections + r) and P of the microprocessor μP, the series circuit of a light-emitting diode LED with a resistor R is connected outside it. The connection point L between the LED and the resistor R is connected via the analog / digital input A / D of the microprocessor μP and via the semiconductor switch S2 to an analog / digital converter ADW in the microprocessor μP.
Der Handsender H wird über einen Taster T, welcher auf der einen Seite mit dem Anschluß +VDD und auf der anderen Seite direkt oder über weitere Bauelemente mit einem Eingang des Mikroprozessors μP verbunden ist, oder über ein Anforde¬ rungssignal aus einem nicht dargestellten Fahrzeug-Empf n¬ ger aktiviert.The handheld transmitter H is connected via a button T, which is connected on one side to the connection + VDD and on the other side directly or via further components to an input of the microprocessor μP, or via a request signal from a vehicle (not shown). Receiver activated.
Beispielsweise zu Beginn jeder Aktivierung oder zu Beginn jeder n-ten Aktivierung des Handsenders H werden die Halb¬ leiterschalter Sl (es fließt Strom durch die Diode) und S2 geschlossen und damit die am Analog/Digital-Eingang A/D an¬ liegende Restspannung rest = V^ - VLED dem Analog/Digi- tal-Wandler ADW zugeführt, welcher sie in einen digitalen Wert - mit dem Istwert der Versorgungsspannung V^p als Re¬ ferenzspannung - umwandelt.For example, at the beginning of each activation or at the beginning of every nth activation of the hand-held transmitter H, the semiconductor switches S1 (current flows through the diode) and S2 are closed, and thus the residual voltage res present at the analog / digital input A / D t = V ^ - V LED is fed to the analog / digital converter ADW, which converts it into a digital Value - converted with the actual value of the supply voltage V ^ p as reference voltage.
Wenn beispielsweise 8 bit für die Versorgungsspannung V^p zur Verfügung stehen, so wird der jeweilige Istwert der Versorgungsspannung in 2^ = 256 Schritte zu je V]3D/256[V] geteilt. Der Nennwert für τ)D sei in diesem Beispiel 6V.If, for example, 8 bits are available for the supply voltage V ^ p, the actual value of the supply voltage is divided into 2 ^ = 256 steps of V ] 3D / 256 [V]. In this example, the nominal value for τ) D is 6V.
Eine Eigenschaft einer Diode, auch einer Leuchtdiode ist, daß die an ihr abfallende Spannung V^gp nahezu konstant ist. Sie beträgt bei der verwendeten Leuchtdiode beispiels¬ weise V^ED = 1,8V.A property of a diode, even a light-emitting diode, is that the voltage V ^ gp dropping across it is almost constant. For the light-emitting diode used, it is, for example, V ^ ED = 1.8V.
Liegt beispielsweise die Versorgungsspannung VQD auf einem Nennwert von 6V, so betrag" die Restspannung Vres^- = VpD - VLED = 4.2V, die im Analog.''Digital-Wandler ADW in einen di¬ gitalen Wert "179", entsprechend einer Spannung von 179 Stufen zu je 6V/256 = 179* I .0234375V, umgewandelt wird. Liegt die Versorgungsspannung VßD hingegen bei 3V, so be- trägt die Restspannung VreΞ+- in diesem Fall 1.2V (= 102 Schritte zu je 3V/256 = 102*0.0117188V) .For example, if the supply voltage V Q D is at a nominal value of 6V, then "the residual voltage V res ^ - = Vp D - V LED = 4.2V, that in the analog." The digital converter ADW is converted into a digital value "179", corresponding to a voltage of 179 steps, each with 6V / 256 = 179 * I. 0234375 V. If, on the other hand, the supply voltage V ßD is 3V, it is Residual voltage V reΞ + - in this case 1.2V (= 102 steps of 3V / 256 = 102 * 0.0117188V).
Wird ein Schwellwert SW = 102, entsprechend einer Mindest- versorgungsspannung von 3V, vorgegeben, und der digitale Wert der ermittelten Rest≤pannung Vres^- mit diesem Schwell¬ wert SW verglichen, so kann bei positivem Vergleichsergeb¬ nis Vrest > SW festgestellt werden, daß die augenblicklich anliegende Versorgungsspanr.ung VßD (Istwert) ausreichend ist. Dazu bedarf es weder der Kenntnis des genauen Wertes der als "Hilfs-Referenzspar.nung" dienenden, an der Leucht¬ diode abfallenden konstanten Spannung VLE^, noch des genau¬ en Wertes der Versorgungsspannung V^p.If a threshold value SW = 102, corresponding to a minimum supply voltage of 3 V, is specified and the digital value of the residual voltage V res ^ - determined is compared with this threshold value SW, then V rest > SW can be determined with a positive comparison result that the current supply voltage V ßD (actual value) is sufficient. This does not require knowledge of the exact value of the constant voltage VLE ^ which is used as "auxiliary reference voltage" and drops across the light-emitting diode, nor of the exact value of the supply voltage V ^ p.
Will man jedoch zusätzlich den genauen Wert der Versor- gungsspannung V^p erhalten, so ist dazu der genaue Wert der an der Leuchtdiode LED abfallenden Spannung V^O 0-m Bei spiel 1.8V) erforderlich. Dieser kann gemessen und im Mi¬ kroprozessor abgespeichert werden, beispielsweise bei der Endkontrolle vor Auslieferung des Gerätes. Aus dem zuvor ermittelten digitalen Wert der Restspannung vrest kann das Verhältnis res-(-/V) ) (beispielsweise 179/256 = 0.7) und aus diesem und dem gespeicherten Wert VLJ?£, kann der absolute Wert der Versorgungsspannung V^p gemäß der FormelHowever, if one also wants to obtain the exact value of the supply voltage V ^ p, the exact value of the voltage V ^ O 0- m dropping at the LED LED is game 1.8V) required. This can be measured and stored in the microprocessor, for example during the final inspection before delivery of the device. From the previously determined digital value of the residual voltage v rest, the ratio res - (- / V)) (for example 179/256 = 0.7) and from this and the stored value VLJ? £, the absolute value of the supply voltage V ^ p can be determined in accordance with of the formula
DDM = vLED[v]/ ( i-vrest/vDD) DD M = v LED [v] / (iv rest / v DD )
(beispielsweise: VDD[V] = 1.8V/ (1-0.7) = 1.8/0.3 = 6V) berechnet werden.(for example: V DD [V] = 1.8V / (1-0.7) = 1.8 / 0.3 = 6V) can be calculated.
Um zu prüfen, ob die so ermittelte Versorgungsspannung V^p für die Versorgung des Gerätes H ausreicht, kann diese mit einem vorgegebenen Schwellwert SW (beispielsweise SW' = 3V^ verglichen werden. Eine ausreichende Versorgungsspan- nung V^p wird bei einem positiven Vergleichsergebnis Vp^ > SW' festgestellt. Diese Methode erfordert jedoch mehr Re¬ chenschritte als die zuvor beschriebene Methode, um zu dem gleichen Ergebnis zu gelangen.In order to check whether the supply voltage V ^ p determined in this way is sufficient for supplying the device H, it can be compared with a predefined threshold value SW (for example SW '= 3V ^. A sufficient supply voltage V ^ p will result in a positive comparison result Vp ^> SW ', but this method requires more arithmetic steps than the previously described method in order to arrive at the same result.
Die Leuchtdiode LED kann für eine vorgegebene Zeit kontinu¬ ierlich oder intermittierend aufleuchten, wenn bei einem PrUfvorgang ein positives Vergleichsergebnis erzielt wurde. Die Schaltung bzw. das Programm kann aber auch so ausgebil¬ det sein, daß die Leuchtdiode LED für eine vorgegebene Zeit kontinuierlich oder intermittierend aufleuchtet, wenn bei einem Prüfvorgang ein negatives Vergleichsergebnis erzielt wurde, d.h., wenn die Versorgungεspannung V^ nicht mehr ausreichend ist und der Handsender H seinen Betrieb einzu¬ stellen droht. Des weiteren kann die Schaltung bzw. das Programm auch so ausgebildet sein, daß nach einem oder mehreren negativen Vergleichsergebnissen der Analog/Digital-Eingang A/D oder der weitere Anschluß P und damit die Leuchtdiode LED durch die Schalter Sl bzw. S2 bis zu einem Batteriewechsel abge¬ schaltet werden.The light-emitting diode LED can light up continuously or intermittently for a predetermined time if a positive comparison result has been achieved in a test process. However, the circuit or the program can also be designed such that the light-emitting diode LED lights up continuously or intermittently for a predetermined time if a negative comparison result has been achieved in a test process, ie if the supply voltage V ^ is no longer sufficient and the hand transmitter H threatens to cease operation. Furthermore, the circuit or the program can also be designed such that after one or more negative comparison results, the analog / digital input A / D or the further connection P and thus the light-emitting diode LED through the switches S1 and S2 up to one Battery change can be switched off.
Die vorstehende Erfindung wurde anhand eines batteriebe- triebenen Handsenders einer ferngesteuerten Fahrzeug- Schließanlage beschrieben, bei welcher eine ausreichende Batteriespannung äußerst wichtig ist, da sich bei Span- nungs-Unterversorgung die Fahrzeugtüren entweder nicht mehr öffnen oder nicht mehr schließen lassen. Die Erfindung läßt sich jedoch bei allen batteriebetriebenen, mit einem Mikro¬ prozessor ausgerüsteten Geräten, beispielsweise bei tragba¬ ren Rundfunk- oder Fernsehempfängern oder bei Fernsteuer¬ sendern für diese Geräte u.s.w. anwenden, um vor einer be¬ vorstehenden Spannungs-Unterversorgung zu warnen. The above invention has been described with the aid of a battery-operated hand-held transmitter of a remote-controlled vehicle locking system, in which a sufficient battery voltage is extremely important, since the vehicle doors can no longer be opened or can no longer be closed if there is insufficient voltage. However, the invention can be used in all battery-operated devices equipped with a microprocessor, for example in portable radio or television receivers or in remote control transmitters for these devices, etc. use to warn of an existing voltage undersupply.

Claims

Patentansprüche claims
1. Verfahren zum Prüfen eines batteriebetriebenen, elektro¬ nischen Gerätes (H) auf ausreichende Versorgungsspannung, insbesondere eines Handsenders einer ferngesteuerten Fahr¬ zeug-Schließanlage, mit einem Mikroprozessor (μP) , der we¬ nigstens einen Analog/Digital-Eingang (A/D) und einen wei- teren Anschluß (P) aufweist, und mit einer Diode (LED) zwi¬ schen einem Pol (+Vpp) der Versorgungsspannung (V^p) des Mikroprozessors (μP) und dem Analog/Digital-Eingang (A/D) ,1. Method for checking a battery-operated, electronic device (H) for sufficient supply voltage, in particular a hand-held transmitter of a remote-controlled vehicle locking system, with a microprocessor (μP) which has at least one analog / digital input (A / D) and a further connection (P), and with a diode (LED) between a pole (+ Vpp) of the supply voltage (V ^ p) of the microprocessor (μP) and the analog / digital input (A / D),
mit einem zwischen den nicht an dem Pol (+V^p) der Versor- gungsspannung (Vp^) liegenden Anschluß (L) der Diode (LED) und den weiteren Anschluß (P) des Mikroprozessors (μP) ge¬ schalteten Widerstand (R) ,with a resistor (R) connected between the terminal (L) of the diode (LED) not connected to the pole (+ V ^ p) of the supply voltage (Vp ^) and the further terminal (P) of the microprocessor (μP) ),
wobei während des Prüfvorgangs im Mikroprozessor (μP) der Analog/Digital-Eingang (A/D) und der weitere Anschluß (P) eingeschaltet werden,the analog / digital input (A / D) and the further connection (P) are switched on during the test process in the microprocessor (μP),
der digitale Wert der am Analog/Digital-Eingang (A/D) an¬ liegenden Spannung (Vres^-) - mit dem Istwert der Versor- gungsspannung (V^p) als Referenzspannung - ermittelt,the digital value of the voltage (V res ^ -) present at the analog / digital input (A / D) is determined using the actual value of the supply voltage (V ^ p) as the reference voltage,
mit einem vorgegebenen Schwellwert (SW) verglichen, undcompared with a predetermined threshold value (SW), and
eine ausreichende Versorgungsspannung (Vp^,1 bei einem posi- tiven Vergleichsergebnisa sufficient supply voltage (Vp ^, 1 with a positive comparison result
Vrest > SW V rest> SW
festgestellt wird. is detected.
2. Verfahren zum Ermitteln der Versorgungsspannung (Vj^) eines batteriebetriebenen, elektronischen Gerätes (H) , ins¬ besondere eines Handsenders einer ferngesteuerten Fahrzeug- Schließanlage, mit einem Mikroprozessor (μP) , der wenig¬ stens einen Analog/Digital-Eingang (A/D) und einen weiteren Anschluß (P) aufweist, und mit einer Diode (LED) zwischen einem Pol { +VDΌ ) der Versorgungsspannung (V^) und dem Ana¬ log/Digital-Eingang (A/D) ,2. Method for determining the supply voltage (V j ^) of a battery-operated electronic device (H), in particular a hand transmitter of a remote-controlled vehicle locking system, with a microprocessor (μP) which has at least one analog / digital input ( A / D) and a further connection (P), and with a diode (LED) between a pole {+ VDΌ) of the supply voltage (V ^) and the analog / digital input (A / D),
mit einem zwischen den nicht an dem Pol (+Vj}£)) der Versor¬ gungsspannung (VDD) liegenden Anschluß (L) der Diode (LED) und den weiteren Anschluß (P) des Mikroprozessors (μP) ge¬ schalteten Widerstand (R) ,with a resistor (R) connected between the terminal (L) of the diode (LED) and the further terminal (P) of the microprocessor (μP) which is not connected to the pole (+ Vj} £) of the supply voltage (VDD) ),
wobei im Mikroprozessor (μP) der Wert des Spannungsabfalls (VLED) an der Diode (LED) gespeichert ist undthe value of the voltage drop ( V LED ) on the diode (LED) being stored in the microprocessor (μP) and
während des Prüfvorgangs im Mikroprozessor (μP) der Ana- log/Digital-Eingang (A/D) und der weitere Anschluß (?) ein¬ geschaltet werden,the analog / digital input (A / D) and the further connection (?) are switched on during the test process in the microprocessor (μP),
der digitale Wert der am Analog/Digital-Eingang (A/D) an¬ liegenden Spannung (Vrest) - mit dem Istwert der Versor- gungsspannung (V^p) als Referenzspannung - ermittelt wird,the digital value of the voltage (V res t) present at the analog / digital input (A / D) is determined using the actual value of the supply voltage (V ^ p) as the reference voltage,
das Verhältnis (Vrest/VDD' der am Analog/Digital-Eingang anliegenden Spannung (Vres-) zur Versorgungsspannung (V^) gebildet wird, undthe ratio (Vrest / V DD 'of the voltage present at the analog / digital input (V res -) to the supply voltage (V ^) is formed, and
aus diesem Verhältnis der Wert der Versorgungsspannung (VQD) nach der Formelfrom this ratio the value of the supply voltage (V Q D) according to the formula
VDD = vLED/[i-vrest/vDD]V D D = v LED / [iv rest / v DD ]
berechnet wird. is calculated.
3. Verfahren nach Anspruch 2, dadurch gekennzeichnet, daß die ermittelte Versorgungsspannung (V^Q) mit einem vorge¬ gebenen Schwellwert (SW) verglichen wird und eine ausrei- chende Versorgungsspannung (V^j)) bei einem positiven Vergleichsergebnis3. The method according to claim 2, characterized in that the determined supply voltage (V ^ Q ) is compared with a predetermined threshold value (SW) and a sufficient supply voltage (V ^ j)) with a positive comparison result
VDD > SWV DD > SW
festgestellt wird.is detected.
4. Verfahren nach Anspruch 1 oder 2, dadurch gekennzeich¬ net, daß ein Prüf organg zu Beginn jeder Aktivierung oder nach einer vorgegebenen Zahl von Aktivierungen des Handsen¬ ders erfolgt.4. The method according to claim 1 or 2, characterized gekennzeich¬ net that a test is carried out at the beginning of each activation or after a predetermined number of activations of the hand transmitter.
5. Verfahren nach Anspruch 1 oder 3, dadurch gekennzeich- net, daß die Diode (LED) eine Leuchtdiode ist und daß nach einem positiven Vergleichsergebnis mit dem Schwellwert (SW, SW) die Leuchtdiode (LED) für eine vergegebene Zeit konti¬ nuierlich oder intermittierend aufleuchtet.5. The method according to claim 1 or 3, characterized in that the diode (LED) is a light-emitting diode and that after a positive comparison result with the threshold value (SW, SW) the light-emitting diode (LED) for a given time continuously or lights up intermittently.
6. Verfahren nach Anspruch 5, dadurch gekennzeichnet, daß nach einem negativen Vergleichsergebnis die Leuchtdiode (LED) für eine vorgegebene Zeit kontinuierlich oder inter¬ mittierend aufleuchtet.6. The method according to claim 5, characterized in that after a negative comparison result, the light emitting diode (LED) illuminates continuously or intermittently for a predetermined time.
7. Verfahren nach Anspruch 5 oder 6, dadurch gekennzeich¬ net, daß nach einem oder mehreren negativen Vergleichser¬ gebissen der Analog/Digital-Eingang (A/D) und der weitere Anschluß (P) abgeschaltet werden. 7. The method according to claim 5 or 6, characterized gekennzeich¬ net that the analog / digital input (A / D) and the further connection (P) are switched off after one or more negative comparative results.
PCT/DE1995/000751 1994-06-30 1995-06-09 Process for checking the voltage supply of battery-operated electronic equipment WO1996000908A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DEP4422992.5 1994-06-30
DE4422992A DE4422992C1 (en) 1994-06-30 1994-06-30 Battery supply testing for esp. electronic hand-held remote control for vehicle locking system

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WO1996000908A1 true WO1996000908A1 (en) 1996-01-11

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DE19525697A1 (en) * 1995-07-14 1997-01-16 Bayerische Motoren Werke Ag Method for supplying power to a motor vehicle
DE19618526A1 (en) * 1996-05-08 1997-11-20 Zangenstein Elektro Lock system
DE19752278A1 (en) * 1997-11-26 1999-06-02 Bosch Gmbh Robert Control for a motor vehicle with remote control or transponder
FR2775816B1 (en) * 1998-03-03 2000-09-08 Valeo Electronique IMPROVEMENTS ON REMOTE CONTROLS FOR MOTOR VEHICLES
DE102007045509B4 (en) * 2007-09-24 2011-06-22 Continental Automotive GmbH, 30165 Vehicle control unit with a supply voltage monitored microcontroller and associated method

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