SU982120A1 - Electric circuit for evaluating and signalling disconnection or battery capacity loss asstandby source from supplied device - Google Patents

Description

The invention relates to electrical circuits for evaluating and signaling disconnection or loss of battery capacity as a backup source from a powered device. To assess and signali- ₅ tion applied internal oscillator with respective chains.

Known solutions require parallel - • connection of the battery to the other power supply point with a modern assessment of changes in pulsations in the connecting node. These changes are caused by a loss of battery capacity or a shutdown. Because current selection oscillations io- 15 power supply can, fluctuations of the input voltage and other factors further changes emerge pulsations in the connecting node that may be erroneously determined to be shutdown or po- ²⁰ save battery capacity and may lead to false alarms.

To eliminate this drawback in the electric circuit, the essence of which is the inclusion of an internal generator of forced voltage at the input of the evaluation circuit, an attenuator with a control circuit is connected between the internal generator and the evaluation circuit, to which a battery with a parallel connected power source is connected.

The forced voltage from the internal generator has a much larger amplitude than the ripple value of the power source, the fluctuations of which during evaluation and signaling do not act as interference. The circuit then only signals a battery shutdown or loss of capacity.

In FIG. 1 shows a block diagram of the proposed circuits; in FIG. 2 is a specific diagram of the proposed electrical circuits.

The output of the power source 1 (Fig. 1), having the character of a current source, with which the battery 2 is connected in parallel ₍ connected to the input of the control circuit 3, the output of which is connected to the input of the attenuator 5. To the input of the attenuator 5 at 3 is also connected the output of the internal gene "Rhatore 4. output attenuator 5 is connected to the input of a computing element 6, the output of which is connected to the input of the alarm element 7. The control circuit 3 controls depending on the state of the battery 'attenuator 5 which defines _a passage from the internal signal generator 4 into a counting-decisive element 6, controlling so depending on the state of the battery 2 the alarm element 7.

The energy from the power source 1 (Fig. 2) with the battery 2 connected in parallel is intended not only to power the device U _n , but also as an information carrier for the control circuit 3 represented by the primary winding 8 of the transformer 10, which transforms the impedance at the measurement point 29 connected with a primary winding 8, into the secondary winding 9. · The isolation capacitor 11 of the battery 2 protects the power source 1 and the battery 2 from short circuit. The impedance at the input point of the estimate 30, associated with the secondary winding 9 of the transformer 10, depends on the state of the battery 2 and on its connection - diodes 22,23, a discharge capacitor

24, discharge resistance 25 and switching transistor 26. If the impedance transformed from the measuring point 29 to the input evaluation point 30 allows the signal from the generator 4 to pass through the attenuator 5 to the computing element 6, charging is performed using the first and second diodes 2 2, 2 3 of the charging capacitor 24 with a parallel connected discharge resistance 25, and as a result, the operation of the switching transistor 26. The latter turns on.

, 5 an alarm element 7, which is represented by a light-emitting diode 28 connected to a switching transistor 26 through a protective resistance 27.

₂₀ The invention can be used in cases where it is necessary to monitor the state of connecting and charging the battery as a backup power source, such as ₍ for example, in central 2j stations of electric fire and security alarm systems, telegraph and telephone central stations, measuring centers, etc.

on or off. The internal oscillator 4 consists of an operational amplifier 14 connected to the upper resistance of the voltage divider 12 and the lower resistance of the voltage divider 13, and then to the negative feedback resistance 16 together with the freezing capacitor 15 and the positive feedback resistance 17. The signal of the generator passes through the limiting resistance 19 and the first isolation capacitor 18 into the input -. 40th evaluation point 30. The limiting resistance 19, the first isolation capacitor 18 and the secondary winding 9 of the transformer 10 form an attenuator 5 connected to the counter-resistive element 6 through the second isolating capacitor 20 and the protective resistance 21. The counting-decisive element 6 consists from the first and second

Claims (1)

The output of the internal oscillator 4 is connected. The output of the attenuator 5 is connected to the input of the counting element 6, the output of which is connected to the input of the alarm element 7. The control circuit 3 controls depending on the state of the battery - axle 5j which determines the passage. signal from the internal generator 4 to the counting-decisive element 6, which controls, in envy, the condition of the battery 2, the signaling element 7. The energy from the power source 1 (Fig 2) with a parallel-connected battery 2 is intended not only for power supply mustache U, but also as an information carrier for control circuit 3, represented by the primary winding 8 of the transformer 10, which transforms the impedance at measuring point 29 connected to the primary winding 8 to the secondary winding 9. Battery isolating capacitor 11 1 and battery 2 short-circuited. The impedance at the input point of evaluation 30, associated with the secondary winding 9 of transformer 10, depends on the state of battery 2 and its connection to the disconnect J-circuit. The internal generator 4 consists of an operational amplifier 14 in conjunction with an upper resistance of voltage divider 12 and a lower resistance of voltage divider 13, then from the negative resistance 16 of the feedback together with the clock capacitor 15 and the opposite side 17 of the positive feedback. The generator signal passes through the limiting resistor 19 and the first coupling capacitor 18 to the input point O1. 30. The limiting resistance 19, the first separating cog-capacitor 18 and the secondary winding 9 of the transformer 10 form a weakening 5 connected to the calculating element 6 and protective resistance 21. The counter-decisive element 6 consists of the first and second diodes 22,23, the discharge capacitor 24, the discharge resistance 25 and the switching transistor 26. If imped a transformable TOCH1SH from the measuring point 29 at the input evaluation 30 allows the passage of the signal from the generator 4 via the attenuator 5 in countable reschayuschy element 6, the charging takes place by means of first and gztorogo. diodes 22, 23 of the charge capacitor 24 with a parallel-connected discharge resistance 25, and as a result of this - the operation of the switching transistor 26. The latter includes. alarm element 7, which is represented by a light-emitting diode 28 connected to a switching transistor 26 through a protective resistance 27. The invention can be used in cases where monitoring of the connection and charging of the battery as a backup power source is necessary electrical fire and burglar alarm stations, telegraph and telephone central stations, measurement centers, etc. The invention circuit for evaluating and signaling disconnecting or loss of battery capacity as a spare source from a powered device, which means that the control circuit 3 is connected to the battery and power supply 1, the output of which is connected to the attenuator 5 and the input of the internal generator 4 is connected to its input The output of the attenuator 5 is connected with a counting element 6, to the conclusion of which an alarm element 7 is attached. It is recognized as an invention according to the results of an examination carried out by the Office for the Invention of the Czechoslovak Socialist Republic.