CS265939B1 - Connected to evaluate and signal battery disconnection or loss - Google Patents

Abstract

The connection solves the problem of evaluating the disconnection or loss of capacity of a battery connected as a backup source. The problem is solved by a connection in which the power supply is connected via the primary winding of the coupling transformer to the battery. The primary winding here represents a load for the alternating voltage generator. Depending on the state of the battery, a sinusoidal voltage is generated in the secondary winding, which forms a resonant circuit with the resonant capacitor. This is then fed into the evaluation circuit. The connection can be used in automation, security and other technology.

Description

The invention relates to a circuit for evaluating and signaling the loss of capacity or disconnection of a battery as a backup power supply from a power supply device.

Known solutions are mostly based on monitoring the change in voltage or current ripple on the line. to the battery, which does not necessarily indicate a correct evaluation of the disconnection or loss of battery capacity. Another solution is given, for example, in Λ0 209 361. However, the internal generator must be powered from the secondary circuits and the power supply must be separated from the battery by a choke.

The above-mentioned drawbacks are eliminated by the circuit according to the invention, where one output of the power supply is connected to the corresponding terminal of the accumulator by the primary winding of the coupling transformer. The output of the AC voltage generator is then connected in parallel to the primary winding and a resonant capacitor and evaluation circuit are connected in parallel to the secondary winding.

The connection according to the invention is easy to implement and simple. The evaluation circuit is galvanically isolated and can be terminated by a transistor, which will sing, eg by a computer, the disconnection of the battery. The circuit is resistant to external interference and allows you to signal the disconnection of the battery and the loss of its capacity.

The connection for evaluation and signaling of disconnection or loss of battery capacity is shown in Fig. 1 and Fig. 2 is an example of implementation.

Involvement of the invention according to FIG. 1, comprises a power source 2> which is the primary winding 51 of the coupling, the transformer 2 is connected to a corresponding terminal, the battery 2 · parallel with the primary winding 51 is then connected to the output of the AC generator voltage 2 ^and the secondary winding 52 resonant capacitor 2 and evaluation circuit 2 are connected in parallel ·

2 Nápa'jecí source used to power the devices connected to it, and to charge and maintain the battery 2 Battery 2 · ^e j energy source to power the device when power failure 2 · connected to a power source 2 through the primary winding 52 »which can be connected in a positive or a negative branch. The power supply 2 also supplies the AC generator 3, the output of which is connected to the primary winding 51 and the battery 2. The primary winding 51 represents the load for the AC generator 3 and when the battery 2 is connected it is short-circuited for AC voltage and is not indicated in the secondary winding 52. Tension. The secondary winding 52 together with the resonant capacitor 6 forms a resonant capacitor 2 forming a resonant circuit tuned to the frequency of the AC voltage generator 2. When the battery 2 is disconnected, or if its internal resistance increases, a sinusoidal voltage is then generated on the coupling capacitor 2, which is fed to the evaluation circuit 2. This circuit can be terminated by a switching transistor, which closes. resistors on the way to battery 2 or loss of battery capacity 2.

The implementation of the connection for evaluation and signaling of disconnection or loss of battery capacity is shown in Fig. 2. A power supply device is connected in parallel to the power supply 2, which is not shown in the figure and the supply voltage of the AC generator 3 with the operational amplifier 32 · Terminal 352 is the inverting input, terminal 357 is the non-inverting input, terminal 356 is the ground. Resistors 32, 33 represent a 1: 1 divider. The second capacitor 34, the second resistor 38 and the resistor trimmer 36 determine the frequency of the AC generator 3, the output of which is connected via the coupling resistor 37 and the third capacitor 39 to the primary winding 51 of the coupling transformer 5. The resistor trimmer 36 sets the frequency so that the secondary winding is 52 with resonant capacitor 6 in resonance. Diak 41 protects diode 42 against overvoltage, Zener diode 43 represents decision level, fourth capacitor 44 is integrating and resistors 45 and 46 supply power to switching transistor 47. Output of evaluation circuit 2 is then connected to terminals 48 and 21. Terminal 353 is supply input and terminal 354 is the output of operational amplifier 35.

The described connection can be used wherever it is necessary to check the permanent connection and action ^{- the} capabilities of a spare source, such as in the control panels of electrical fire and security technology, as well as in the control panels of telegraph, telephone and others.

Claims (1)

Circuit for evaluating and signaling the disconnection or loss of battery capacity, characterized in that one output of the power supply (1) is connected by a primary winding (51) of the coupling transformer (5) to a corresponding battery terminal (2), parallel to the primary winding (51); the output of the AC voltage generator (3) is connected, while a resonant capacitor (6) and an evaluation circuit (4) are connected in parallel to the secondary winding (52).