FR2547628A1 - Computer controlled drive circuit for solenoid - Google Patents

Abstract

The inductive load (1) e.g. the solenoid of an electrically operated carburettor is energised by a pulse width modulated voltage which is generated by a switching transistor (2), The voltage drop across a resistor (RM) in the transistor emitter circuit is filtered (R,C) and fed to an amplifier (3), its output forming the input to the A to D converter (4). This digitised signal is presented to the input of the microprocessor system (5), the output of which drives the solenoid controlling transistor (2), thus closing the control loop. Inductive current flowing during the transistor 'off'time is prevented from exceeding the supply voltage by a capacitor (C1) which charges during this period. A resistor (R1) limits the rate of discharge of the capacitor when the transistor switches 'on'.

Description

DEVICE FOR CONTROLLING AN ADJUSTMENT MEMBER
WITH INDUCTION IN PARTICULAR OF A CARBURETOR
The invention relates to a device for controlling an induction regulating member comprising an excitation coil, in particular of a carburetor or other similar device, by means of an intermittent control current, passing through an electronic switch and a measurement resistor connected in series therewith, a current which produces a measurement voltage thereon corresponding to the effective value of this current.

 There are already known purely electronic adjustment members6 - in particular designated as rotary double winding regulators - which are actuated by an intermittent control current, a succession of pulses with adjustable rate then being predetermined for control.

 The object of the invention is, with a device of the type indicated in the preamble, to obtain with certainty that the predetermined current with a prescribed value is ensured with the greatest possible precision in the adjustment member.

 The invention relates for this purpose to a device of this kind which is characterized in that the measurement voltage is applied, via an analog / digital converter, to a computer which is placed in the control circuit of the switch and determines the rate of operation of this switch.

 The switch and a limiting resistor with a diode mounted in parallel can advantageously be connected to the excitation coil of the regulating member and an accumulation capacitor can be connected to the resistor and to the diode. This capacitor receives, after opening the switch, the current which will still pass through the coil, so that this current can accumulate in the capacitor.

 Advantageously, the capacitor can be made of a size such that the voltage which is presented to this capacitor does not rise above the value of the voltage of the direct current source provided for the operation of the device. , otherwise there could be a return of current through the receiver, namely in particular the excitation coil of the regulating member.

 Thanks to the use of the computer, it is possible to obtain a very simple and consequently very economical assembly of the final stage provided for the adjusting member, and at the same time a very precise adjustment possibility.

 It is then advantageous for the average current which passes through the receiver (coil) also to pass through the measurement resistor RN: it is thus possible to carry out an accurate measurement of the current passing through the coil.

 The invention will be better understood with the aid of the description below and the appended drawing representing an exemplary embodiment of the invention.

 The single figure of this drawing shows an electrical circuit diagram of the control device according to the invention.

 The device as shown is used to control an induction adjustment member, comprising an excitation coil 1 this adjustment member not being shown elsewhere - for example a carburetor for a motor vehicle engine. The excitation coil 1 is crossed by an intermittent control current, which is passed through an electrical switch, constituted in the form of a transistor 2, and which comes from a direct current source, not shown, which is connected by the 'one of its two poles to ground and by its other pole to load 1.

This service current is passed through a measurement resistor RN connected to the emitter of transistor 2. There there occurs a voltage drop corresponding to the quantity which occurs in the service current. This voltage drop is filtered through a filter element consisting of a resistor R and a capacitor
C and transmitted by an amplifier 3 to an analog / digital converter 4.

 This converter 4 controls a calculator constituted in the form of a microcomputer 5. The digital signal supplied by the computer 5 at the base of the transistor 2 - signal ui corresponds to the comparison of the actual value with the prescribed value of the operating current - determines the rate of service current flow in intermittent operation.

Between the collector of transistor 2 and the excitation coil 1 a diode is provided
D and a limiting resistance Rt; these two elements are connected to an electrode of a storage capacitor C1, connected by its other electrode to ground.

 When the transistor 2 goes to its blocked state, the current flowing through the excitation coil 1 will temporarily go beyond and is then accumulated in the capacitor C1.

This capacitor is made of such a size that the voltage which then presents cannot rise above the value of the operating voltage, because otherwise there would be a return of current by the receiver 1.

 Resistor R1 limits the discharge current of capacitor C1 when it is switched on.

 In a service situation in which there must be no current flowing through the coil, compensation balancing occurs by the computer 5. In this case, the current flowing through the measurement resistor Wpl is equal to zero and the signal output to converter 4 corresponds to total compensation, This compensation is taken into account by computer 5 when comparing prescribed value - actual value0

Claims (3)

 1- Device for controlling an induction regulating member, comprising an excitation coil, in particular of a carburetor or similar device, by means of an intermittent control current, passing through an electronic switch and a measurement resistor ( tek) connected in series, current which produces a measurement voltage thereon corresponding to the effective value of this current, device characterized in that the measurement voltage is applied via an analog / digital converter (4 ) to a computer (5), which is placed in the switch control circuit and determines the rate of operation of this switch (2).  2- Device according to claim 1, characterized in that a limiting resistor (R1) and a diode (D) mounted in parallel are connected to the exciting coil (1) and an accumulation capacitor (C1) is connected to the resistance and the diode.  3- Device according to either of claims 1 and 2, characterized in that a compensation balancing is carried out by means of the computer (5) and / or the analog / digital converter (4).