FR2598267A1 - Device for monitoring and stopping the discharging of accumulators or cells - Google Patents

Abstract

The invention relates to a device ensuring the monitoring of the discharging of accumulators and the possible stopping of this discharging if the electrical energy likely still to be delivered reaches a certain threshold beneath which it is not desired that it should fall. The device consists of the following three elements in combination: - element 107 able to ensure on command the isolating of the circuit through which the discharging of the accumulator or cell 101 occurs in part or in full: - element 108 able to ensure, as a function of the information reaching it, control of the preceding element 107; - element 109 ensuring the monitoring of the charge contained by the accumulator or cell 101 and which, when the latter reaches a certain threshold, informs the preceding element 108 thereof.

Description

The present invention relates to a device for controlling
the discharge of the accumulators or batteries and to interrupt this discharge
age when the electrical energy still to be delivered reaches
a chosen level below which one does not wish to descend.

By way of non-limiting example, the case of an accumulator equipping
an automobile can be taken. When the motor of the latter is
stopped and there is still power consumption (lights on by
example), the battery discharges, ie the electric charge
it contains is reduced, as electricity is consumed
me. It may be desirable that this load does not fall below
of a certain level: level below which the discharge is no longer
versible, ie level from which the capacity of the accumula
is irrevocably diminished (sulfation in the case of accumulated
lead level) or level below which there is no longer a
sufficient charge to be able to restart the car or any other level.

The present invention is precisely intended to render the foregoing
achievable by ensuring control of the discharge of the accumulator and
prohibiting, unless voluntary forcing, that the load is reduced beyond the
previously defined level.

The invention comprises in combination the following three elements
- an element capable of insuring the cutting of the cir
cooked through which is partially or completely the discharge of
1 'accumulator (contact, transistor, etc. ..) .This element is
placed on the circuit that he has to eventually cut; - an element capable of ensuring, according to different information
provided to him, the command of the preceding element (circuit
electronic, electromechanical, etc ...); - an element ensuring the control of the load contained by the woumula-
and the other, when the latter falls below a certain
threshold, to inform the previous element (the current status of the techni
that offers a large number of possibilities for ensuring
discharge control: monitoring of electromotive force at.

at the terminals of the device storing electrical energy or measuring
permanent of the intensity which it debits and simultaneous calculation ,. from
of this measure, of the charge still emmagaeine, or supervillan
this of its chemical state, etc ...

 Other features, objects and advantages of the invention will be apparent from the following description with reference to FIG. 1 given solely by way of example, which is a diagram of the device according to the invention. .

The diagram of the device shown in FIG. 1 comprises: the battery or battery 101; circuits 102 and 103 constituting the load circuits of the accumula ~
battery or battery 101; the load 103 of the circuit 1023 - the load 105 of the circuit 104; the device according to the invention 106 with its three elements in combination with
107, 108, and 109.

 The element 107 is inserted on the load circuit 104 and is able to open and close this circuit on command of the element 108, reaching the link 110 between 108 and 107.

The element 108 provides this control according to the information reaching it via the links 111 between 109 and 108 and 112. By the link 111 arrives a characteristic information of the state of the charge of the accumulator or battery 101, this element in particular being able to inform the element 108 that the charge of the battery or battery Wl has fallen below a certain threshold. By the link 112 it receives other information that is useful for the control of the element 107 to have or nent to operate the sectioning load circuit 104. These others; information may, in a non-limiting manner, beings - the prohibition made to the device according to the invention 106 to be active
in the case where, whatever the condition of the charge of the accumulator or
the 10th we want the latter to continue to debit, to the extent of what
is possible in the load circuit 104 (for example an automobile
bile we want to run or try to run
normally the load circuit 104, whatever the state of the battery,
the load 104 may for example include the headlights or the
circuits serviced by the contact position of the ignition switch or
still any other load .. ;;!) 3 ele circuit load 104 is or is not sectionnt by the device sui
1063 - any other information necessary for the element 108 to have to ensure
the command of element 107 :.

Other features, objects and advantages of the invention will emerge from the detailed description of an embodiment given by way of non-limiting example which follows, with reference to the appended drawings in which: FIG. 2 is a diagram representing the principle of the mode of
the detailed description of which is made elsewhere; FIG. 3 is an example of element referenced 108 in FIG.
and 208 in FIG. 2, according to the embodiment whose description
detailed description will be made; FIG. 4 is an example of element referenced 109 in FIG.
209 in Figure 2, according to the embodiment of which the description
detailed will be made.

In the diagram of the principle of the embodiment shown in Figure 2, there is: - referenced 201, the battery or cell referenced 101 in Figure 1; - referenced 202 and 204, the circuits constituting the circuits loads of
the accumulator or battery 201, referenced 102 and 104 in Figure 1; - referenced 203, the load of the circuit 202, referenced 103 in Figure 1; - referenced 205, the load of the circuit 204, referenced 105 in Figure I; - referenced 206, the device according to the invention referenced 106 on the
Figure r, with its three elements in combination 207, 208 and 209, res
respectively referenced T07 108 and 109 in Figure 1
The element 207 is a electromechanical relay bîstable, that is to say an electromechanical relay with two stable positions; in the embodiment which is the subject of the present detailed description, this relay consists of a single coil, and each time this coil is subjected to a voltage pulse, the movement of its mobile armature tilts the mechanism commander opening or closing the contact
from the stable position in which he was, to sOn other stable position
where it will stay until the coil reQO2ve a new
voltage pulse; in other words, the open (respectively closed) contact to the pulse will change to closed (respectively open), and
will remain so, even when the impulse has ceased, and
next drive. The tension of the coil of this relay is that of the accu-
emulator or battery 201.

The element 208 generates the voltage impuIsions to be applied to the coil of the electromechanical relay biistable constituting the element 207 to obtain its operation. These pulses arrive via the links 210T and 2102 between the elements 208 and 207. The element 208 generates them
according to the information reaching him via the links 2111 between 209 and 208, 2121, 2122 and 2123.

 By the link 2111 it receives information characteristic of the state of the charge of the accumulator or battery 201, information generated by the element 209 for controlling the charge of the battery or battery 201, this element being able in particular to to indicate to the element 208 that the charge of the accumulator or battery 201 has fallen below a certain threshold.

 By the link 2121 he receives information about the possible prohibition on the device according to the invention 206 to be active. This prohibition is controlled by establishing the contact by means of the switch F, which has the effect of sending through the link 2121 to the element 208 the voltage of the battery or battery 201.

 Through the link 2122 it receives the information that the charging circuit 204 is or is not severed by the device according to the invention ~ tion 206. The link 2122 is simply connect to the output terminal of the relay contact bistable electroinechanical constituting the element 207 (terminal connected to the load 205 of the circuit 204) g if the contact is closed (the current can arrive at the load 205), it arrives via the link 2z92 to the element 208 the voltage of the accumulator or battery 201.

 Through the link 2123, he receives the information that when the device according to the invention 206 has not severed the load circuit 204, the part 2051 of the load 205 of the circuit 204 is or is not - thundered by switch C. The link. 2123 is simply connected to the output terminal of the contact of the switch C (terminal connected to the load 2051 of the load 205) g if the contact is closed (the current can reach the load 2051), and if the following device the invention 206 has not cut the load circuit 204, it arrives through the link 2123 to the element 208 the voltage of the accumulator or battery 201.

 The element 208 is also in relation to the element 209 by the links.

2112 and 2113 sounds (power supplies of the element 209 which is also characteristic of the voltage across the battery or battery 201) and with the pole - of the battery or battery 201 by the link 2120.

In the exemplary element referenced 108 in FIG. 1 and 208 in FIG. 2 represented in FIG. 3, a reference circuit 300 is distinguished which, according to the output state of the logic circuit
3T0, generates the voltage to be applied to the coil of the electromechanical relay
bistable constituting the e-Element 207 transmitted by the links 2101 and
2102; this circuit can be realized as the example that is given on the
figure 3 where we find:. a transistor referenced 301g:
a basic resistance referenced 302 of a
value such that the transistor 301 operates in saturation mode.

réalise la fonction

bétant une variable logique valant 1 s'il y a une tension correspondant
au niveau logique 1 parvenant par la liaison 2121 et 0 dans le cas con-
traire; c'est l'élément 209 qui détermine la tension parvenant par la
liaison 2121, et cette tension est au niveau logique 1 lorsque la charge
de l'accumulateur ou pile 201 est descendue en dessous d'un certain
seuil; # étant une variable logique valant 1 s'il y a une tension parvenant par
la liaison 2123 et 0 dans le cas contraire; # vaut donc I si le disposi-
tif suivant l'invention 206 n'a pas sectionné le circuit charge 204 et
si la partie 2051 de la charge 205 du circuit 204 n'est pae sectionnee
par l'interrupteur C;
r étant une variable logique valant 1 s'il y a une tension parvenant
par la liaison 2122 et 0 dans le cas contraire; 9t vaut donc I et le
circuit charge 204 n'est pas sectionné par le dispositif suivant l'in~
invention 206;
étant une variable logique valant 1 s'il y a une tension parvenant par
la liaison 2121 et 0 dans le cas contraire;; # vaut donc 1 si le disposi
tif suivant l'invention 206 a été neutralisé par fermeture de l'inter
rupteur F.when the output of logic circuit 310 is at level I (presence
a voltage on this output);
a diode / 303 intended to limit the overvoltage
at the collector of the transistor when the latter is blocked; a referenced circuit 310 which is a logic circuit which, depending on the variables

perform the function

setting a logical variable equal to 1 if there is a corresponding voltage
at the logic level 1 reaching the link 2121 and 0 in the case
milk; it is the element 209 that determines the voltage coming through the
connection 2121, and this voltage is at logic level 1 when the load
of the accumulator or battery 201 has come down below a certain
threshold; # being a logical variable equal to 1 if there is a voltage coming through
link 2123 and 0 otherwise; # is therefore worth I if the
according to the invention 206 did not cut the load circuit 204 and
if the part 2051 of the load 204 of the circuit 204 is not sectioned
by the switch C;
r is a logical variable equal to 1 if there is a voltage reaching
by the link 2122 and 0 in the opposite case; 9t is therefore I and the
204 load circuit is not cut by the following device in ~
invention 206;
being a logical variable worth 1 if there is a voltage coming through
the link 2121 and 0 in the opposite case; # is therefore 1 if the provision
tif according to the invention 206 was neutralized by closing the inter
breaker F.

on vérifie bien que:

on voit donc que le circuit référencé 300 génerera une tension aux bor nes de la bobine du relai électromécanique bistable constituant l'elé ment 207 dans deux situations: la situation

et la Situation

la situation

est réalisée si les quatre conditions suivantes sont réalisées: : . le circuit charge 204 n'est pas sectionné par De dispositif suivant l'invention 206 (r);
la charge de l'accumulateur ou pile 101 est descendue en. This circuit can be realized as the example that is given on the figu
re 3 where there are ten NANI gates> which realize s in the following way:

we check that:

it can therefore be seen that the circuit referenced 300 will generate a voltage at the terminals of the coil of the electromechanical bistable relay constituting the element 207 in two situations: the situation

and the situation

the situation

is performed if the following four conditions are fulfilled: the load circuit 204 is not cut by the device according to the invention 206 (r);
the charge of the accumulator or battery 101 is lowered to.

below the threshold from which it is decided to operate to isolate the load circuit 204 (;
the part 2051 of the load 205 of the circuit 204 is section born by the switch C (this condition in the case of a battery equipping an automobile translating Te does that the ignition switch is not in contact position) (); the device according to the invention 206 is not neutralized by closing the switch F while a voltage is applied across the coil of the electromechanical bistable relay constituting the element 207 and the load circuit 30d is sectioned; immediately after this event ,. the condition r ((the load circuit 204 is not cut by the device according to invention 206) is no longer performed: there is no longer any voltage at the output of the logic circuit 310, therefore the referenced circuit 300 no longer generates voltage across the coil of the electromechanical bistable relay constituting the element 207, and oe relay remains in its stable position corresponding to the open position for its contact, the situation rf + is performed if the two following conditions are realized the load circuit 204 is cut by the device according to the invention 206 (1L3;
the device according to the invention 206 is neutralized by fernature of the switch F while a voltage is applied across the coil of the bistable electromechanical relay constituting the element 207, and the charge circuit 204 is closed; immediately after this event, the condition t (the load circuit 204 is cut off by the device according to the invention 206) is no longer carried out; there is no more tension at the exit of the lo circuit
Bique 310, dona the referenced circuit 300 no longer generates voltage across the coil of the electromechanical relay bistable constituting element 20Tg and this relay remains in its stable position corresponding to the closed position for its contacts a circuit referenced 320 which Its function is to transform the information coming through links 2121, 2122, 2123 cn. logic signals corresponding to the logical input variables f, r and # of the circuit 310; the transformation of the voltage arriving via the link 2121 or 2122 or 2123 into a logic voltage can for example be carried out as in FIG. 3 or there is in series a resistor referenced 321 and an assembly consisting of a Zener diode referenced 322 and a resistor referenced 323 connected in parallel; the resistor 321 and the Zener diode 322 in series provide a conventional Zener diode stabilized power supply enabling when a voltage reaches via the link 2121 or 2I22 or 2123 on the point of the resistor 321 opposite its junction point with the Zener diode 322 associating with it the stabilized voltage corresponding to the logic level 1 of the junction point of the resistor 321 and the Zener diode 322; the resistor 323 has the function, in the event that the voltage coming through the link 2121 or 2122 or 2123 is zero, to ensure that the voltage at the point of junction of the resistor 321 with the diode
Zener 32? it is also zero; a circuit referenced 330 whose function is to supply the voltages
power supply required for circuits 208 and 209; one of those ten
is also characteristic of the voltage across the accumula
battery or battery 201; the other, which is the supply of logical components,
is on the contrary stabilized3 these power supplies can be for example
performed as in Figure 3 with: for the diet likely
to supply the excitation energy of the coil of the electromechanical relay
bistable constituting element 207, two diodes 331 and 332 connected res
respectively at links 2121 and 2122 and an electrochemical capacitor
3331 the diodes 331 and 332 have the function of allowing, in the ca
where only one of the links reaches a non-zero voltage, which the
voltage of the other link remains zero; the capacitor 333 serves to eli
to eliminate any parasitic impulses;
for the supply of 8 components
in series with the two previous parallel-mounted diodes,
a resistor 334 and a Zener diode 335 in series, a power supply
stabilized by conventional zener diode; the supply voltage is ReNi-
at the point of junction between the resistor 334 and the Zener diode 335.

 The element 209 controls the charge of the battery or.

stack 201 and its link 2111 with the element 208 informs the latter whether the charge of the accumulator or battery 201 has fallen below a certain threshold, In this case, according to the other information reaching the element 208 ,. the device according to the invention 206 is possibly able to enter, by the biai of its element 207, in action, by cutting the load circuit 204.

The voltage at the terminals of the accumulator or battery 201 reaches it, when necessary, through the link of the link 2112
The supply voltage of the logical components reaches him. as necessary, through link 2113.

 The element 209 is also related to the light of the accumulator or battery 201 via the link 2110.

 On the example of element referenced 109 in Figure I and 209 in Figure 2 shown in Figure 4, there are: - a Zener diode 41.

a resistor 42; a NAND circuit 43 whose two inputs are connected to the junction point
the Zener diode 41 and the resistor 42.

 As long as the voltage coming through the link 2112 which is characteristic of the voltage at the terminals of the accumulator or battery 201 is greater than a certain value, the voltage at the junction point of the Zener diode 6 and the resistor 42, which is substantially the voltage coming through the link 211'2 minus the Zener voltage of the Zener diode 41, is in the voltage range corresponding to the logic level 1 for the inputs of the MAND whose output is therefore at the logic level 1.1 = 0 .

When the voltage coming through the link 2112 falls below a certain value, the voltage at the junction point of the Zener diode 41 and the resistor 42 is in the voltage range corresponding to the logic level 0 for the inputs of the NAND, or even strictly zero when the voltage coming through the link 2112 eet low to the point that the diode
Zener no longer drives; the output of the NAND is therefore at the logical level 0.0 = 4.

Claims (15)

 1. Device characterized in that it has the function of allowing the interruption of the discharge of the batteries or batteries when the electrical energy likely to be still delivered by the latter reaches a threshold below which it is not desired it goes down.  2. Device for interrupting the discharge of accumulators or batteries when the electrical energy still to be delivered by them reaches a threshold below which it is not desired that it descends characterized in that it includes in combination the following three elements: - an element capable of insuring the isolation of the cir  cooked through which is made in part or in total the discharge of  the battery or battery; - an element likely to ensure according to different information  that it is provided, the command of the preceding element; - a likely element, when the charge of the battery or battery was  a certain threshold, to communicate this information to the pre-  yield.  3. Device whose function is to permit the interruption of the discharge of an accumulator or battery when the electrical energy still capable of being delivered by the latter reaches a threshold below which it is not desired to see it go down, characterized in that 1 'energy ensuring its operation is provided by the battery or the battery for which it provides this function.  4. Device according to claim 2 characterized in that: if one locates by B07 the element capable of ensuring the isolation of the circuit 104 through which is made in part or in whole the discharge of the accumulator or stack 101; If one locates by 108 the element likely to ensure, according to different information provided to it, the control of the preceding element; if the susceptible element is identified by 109 when the charge of the accumulator or battery 101 reaches a certain threshold, it communicates the information to the preceding element; the element 107 is inserted on the load circuit 104 through which part or all of the discharging of the aocumulator or battery 101 is carried out; the element 108 controls the element IOT precedent by its link 110 with this element and according to the information reaching it by its connection lll with the element 109 and the link 112 by which the information other than those arriving by the link 111.  5. Device according to claim 4 characterized in that, among the information reaching the element 108 by the link 112 is at least one of the following information - information of the possible prohibition made to the following device  the invention 106 to be active; - information that the load circuit 104 is or is not sectioned  by the device according to the invention 106; - information that certain 2051 loads are or are not bran  on the load circuit 104.  6. Device according to claim 2 characterized in. What summer 207 ment capable of ensuring the isolation of the circuit circuit 204 through which all or part of the discharge of the accumulator or battery 201 is a bistable electromechanical relay.  7. Device according to claim 4 characterized in that it reaches the element 108 by the link 2121 information of the possible prohibition made to the device according to the invention 106 to be active, this prohibition both ordered in establishing contact by means of a  switch F which connects the link 2121 to the input terminal of the element 107 (the input terminal is its terminal on the battery or accumulator side 201).  8. Device according to claim 4, characterized in that it reaches the island 108 by the link 2122 the inftretion that the circuit load 204 is or is not severed by the following device the invention 206, and ceot in the following way: the link 2122 is connected to the output terminal of the element 107 so that the voltage of the accumulator or battery 201 arrives via the link 2122 to the element 108 according to The charging circuit 204 is or is not disconnected (the output terminal of the slot 107 is its load side terminal 205).  9. Device according to claim 4 mounted on a load circuit 204, a portion 2051 of the load 205 may be further disconnected by a switch C characterized in that it reaches the element 108 by the link 2123 the information of which when the device according to the invention 206 has not cut off the load circuit 204, the portion 2051 of the load 205 of the load circuit 204 is or is not cut by the switch C, and this in the manner next :: the link 2123 is connected to the output terminal of the contact of the switch C (charging side terminal 2D51) so that the voltage of the battery or battery 20T reaches via the link 2123 to the element 108 according to that when the device according to the invention 206 has not severed the load circuit 204 the portion 2051 of the load 205 of the load circuit 204 is or is p-sectioned by the switch C.  10. Device according to claim 2 characterized in that the ment 108 or 208 may control, depending on the various in fsrmati; ons him, the element ensuring the sectioning of the circuit through which is made in part or in whole the discharge of the accumulator or battery 107 or 207 is constituted by a driver 30Q of the element 107 or 207 ensuring the isolation of the circuit 204 through which is made in part or in whole the charge of the accumulator or battery 101 or 201, a logic circuit 310, a shaping circuit 320 of information reaching the element 108 or 208, a power supply circuit 330.  11. Device according to claims 6 and 10 characterized in that the driver circuit 300 of the bobiiie bistable electromechanical relay constituting the element 107 or 207 ensuring the isolation of the circuit 204 through which is made in part or in whole the discharge of the accumulator or battery 101 or 201 comprises: a transistor 301, a base resistor 302, and a diode 303, the base of the transistor being via the base resistor connected to the output of the logic circuit 310 and the diode being connected in parallel with the coil to be powered.  12. Device according to claims 5 and 10 characterized in that the logic circuit 310 performs the function

 b being the logical variable corresponding to the information that the charge of the accumulator or battery 201 has dropped below a certain threshold; being the logical variable corresponding to the information that, if the device according to the invention 206 has not severed the load circuit 204, the portion 2051 of the load 205 of the circuit 204 n1 is not sectioned ;; retesting the Logic variable corresponding to the information that the load circuit 2o4 is not severed by the device according to the invention 206; being the logical variable corresponding to the informati-on that the device according to the invention 206 has been neutralized.  The function is carried out according to the techniques of switching electronics.  13. Device according to claims 5 and 10, characterized in that the shaping circuit 320 of the information reaching the element 108 or 208 comprises one or more elements constituted as follows, each of these elements realizing the adaptation of information for its introduction into the logic circuit 310: a resistor 33r with, in series, a set of a Zener diode 322 and 4 'ure resistor 323 in parallel.  14. Device according to claims 2,3,5,7,8 and 10 characterized in that the supply circuit 330 comprises: two diodes 331 and 332 respectively connected to the links 2121 and 2122 with in series from their common output terminal an electrochemical capacitor 333; At the junction point of the diodes and the capacitor, there is the operating voltage capable of supplying the energy required for the element 107 or 207 so that it cuts off the circuit 104 or 204 through which part of the circuit or in all the discharge of the accumulator or battery 101 or 201; in series with the two preceding parallel-connected diodes, a resistor 334 and a Zener diode 335 in series; at the junction point of the resistor and the zener diode, there is the supply voltage of the components and logic circuits.  15. Device according to claim 2 characterized in that the élé-axent 109 or 209 likely, when the charge of the accumulator or battery 101 or 200 reaches a certain threshold, to communicate the information to the element 108 or 208 for controlling the element 107 or 207 able to break the circuit 104 or 204, through which all or part of the discharge of the accumulator or battery 101 or 201 comprises: a diode Zener 41; a resistor 42 in series with the Zener diode 41; a door NJU1ID whose two inputs are connected to the junction point of the Zener diode 41 and the resistor 42.