FI67762C - ANORDING FOR THE MAINTENANCE OF REGISTRATION WITH AN AMPERETIMMAR I AND ELECTRIC CRETE - Google Patents

Description

ΓΒΊ m, ADVERTISEMENT ^ 77 ^ 9 jSf® ^ UTLÄGGNINGSSKRIFT 0 // ΟΖ C (45) - ".. te: * Ui uyl'nr: ly U C5 1/35 '' patent n'dd ^^ rt (51) Kv.lk. * / Lnt.CI/ G 01 R 21/06 (21) Patent application - Patentansökning 791 ^ 1 6 (22) Filing date - Ansökningsdag 02.05.79 (23) Starting date - Giltighetsdag 02.05 * 79 (41) Published public - Blivit offentllg 03 1 1 -79

National Board of Patents and Registration of Finland Date of issue and hearing | ..

Patent- och registerstyrelsen '1 Ansökan utlagd och utl.skriften publlcerad>' · “·" -> (32) (33) (31) Privilege requested - Begärd prloritet 02.05.78 Sweden-Sweden (SE) 780 ^ 981-¾ ( 71) Pharos AB, S-181 81 Lidingö, Sweden-Sweden (SE) (72) Karl Gustaf Lindholm, Lidingö, Sweden-Sweden (SE) (7 * 0 Oy Borenius & C: o Ab (5 * 0 Electronic circuit device for measuring and recording the number of ampere hours - Anordning för att mált och Registrera antal amperetimmar i en elektrisk krets

The invention relates to a device for measuring and recording the number of ampere-hours running in an electronic circuit, wherein a measuring resistor is connected to the circuit, through which the load current passes.

When batteries are used as an energy source, it is desirable to know how much of the energy content has been used. In this case, it is interesting to know both the number of reserved ampere hours and the number of ampere hours taken from the battery. This allows you to know the battery charge status. The present invention comprises an apparatus for providing information thereon. The device is suitable for use in all applications where you want to know the amount of electrical energy produced or consumed.

The invention is then mainly characterized in that the measuring resistor connected to the load circuit is connected to a current generating device, the output of which is connected to a measuring capacitor belonging to a detector device, which also includes a changeover device connected to the measuring capacitor and a counter unit. is proportional to the current in the load circuit and is independent of the voltage of the measuring capacitor, and wherein in the detector each time the measuring capacitor reaches a certain value, the capacitor discharges very rapidly and the signal is passed to a counter unit. The current generating device essentially has a resistor connected in series with an operational amplifier which is feedback via a transistor. The switching device of the detector device has a multivibrator circuit with a very high input impedance, such as a CMOS gate or a programmable single-connect transistor.

The invention will be explained in more detail with the aid of the accompanying drawings, in which Figure 1 shows the basic structure of a measuring device and Figure 2 shows a more detailed form of the same device.

Figure 1 shows a battery 1 to which a load 2 is connected. A resistor 3 and through it a current generator 4 are connected to the circuit. The current coming from the current generator may be charged by the measuring capacitor in the detector device 5. The detector device is in turn connected to the calculator 6. The current generator supplies a current proportional to the current flowing through the resistor 3, i.e. load circuit current. The delivered current is still independent of the voltage of the measuring capacitor to which the current is supplied to the capacitor.

The capacitor voltage is determined, as is known, by the charge current and the charge time, whereby the capacitor voltage becomes proportional to the charge current output and the charge time, i.e. ampere hours. When the capacitor voltage has risen to a certain value, the action of the electric multivibrator element begins, which very quickly discharges the capacitor, after which the charging of the capacitor begins again. The time between each discharge thus corresponds to a certain number of ampere-hours. At each discharge, a signal is provided to a counter 6 which registers the number of discharges and thus the number of ampere hours. The calculator can be, for example, electromechanical, in which case the calculator can also be interpreted in sleep mode. Since the multivibrator element is connected via a measuring capacitor, it is important that the input impedance of this element is very high.

Figure 2 shows in more detail the structure of the measuring device. The current generator 4 has an operational amplifier 8, which in series with the resistance 7 is connected to the resistance 3. The operational amplifier is feedback via the transistor 9. This is connected to the measuring capacitor 11 in the detector device. To this capacitor 11 is connected the second input of the multivibrator circuit 10,

Claims (2)

67762 and the output of the circuit are connected to the counter unit 6. A transistor 12 is also connected in series with the resistor 15 between the output of the circuit and the capacitor 11. The second input of the multivibrator circuit is connected via a resistor 13 to the negative terminal of the battery. A capacitor 14 is connected to the second input and output of the circuit. The circuit may be a CMOS circuit or a programmable single-connect transistor. The calculator unit may be electromechanical or electrical in construction, or a combination thereof. When the voltage of the capacitor 11 has risen to a certain value, the gate 10 opens, whereby the transistor 12 starts to conduct and the signal arrives at the counter unit 6. The signal does not have to be sent every time the capacitor voltage reaches a certain value. The measuring device is of course not limited to this embodiment, as described above, but various variations are possible within the scope of the invention. A device for measuring and recording the number of ampere hours in an electronic circuit, the measuring resistor through which the load current flows is connected to the circuit, characterized in that a current generating device (4) is connected to the measuring resistor (3) and its output is connected to a measuring capacitor (11). ), which is part of a detector device which also has a switching device (10) connected to the measuring capacitor (11) and the calculator unit (6), whereby the current generating device (4) supplies the measuring capacitor with a charging current proportional to the load circuit capacitor voltage, and wherein in the detector device (5) each time the voltage of the measuring capacitor reaches a certain value, the capacitor is quickly discharged and the signal is output to the calculator unit (6), each registration of the counter unit representing a predetermined number of ampere hours. Device according to Claim 1, characterized in that the current-generating device has a resistor (7) connected to the measuring resistor (3) in series with an operational amplifier (8) which is feedback via a transistor (9).