SU453681A1 - SECONDARY POWER SOURCE - Google Patents

Description

one

The invention relates to the field of electrical engineering and can be applied in devices using the energy of a precharged capacitor bank.

Secondary power supplies are known that contain a low voltage direct current converter with high voltage with a smoothing filter, the output of which is connected to a storage capacitor via a shunt, a current limiting choke and a contactless key controlled by a relay amplifier connected to a feedback circuit for load current . The disadvantage of such sources is the inconstancy of the current consumption, which, in the presence of a smoothing filter, has a linearly increasing character. In the case of limited power of the primary power supply, this is the cause of the modulation (ripple) of the network voltage, the value of which is strictly limited.

In order to reduce the modulation of the supply voltage in the proposed source, a resistor is connected in parallel with a circuit composed of a shunt, a current-limiting droplet, a contactless key and a smoothing filter.

FIG. 1 given the scheme described by the source; in fig. 2 - curves of currents in the circuit.

The power source contains a low-voltage setp converter 1 to high-voltage dc injection voltage, a smoothing filter 2, a charging circuit consisting of a charging storage capacitor 3, a shunt 4 and a current-limiting droplet 5 and a shunt diode 6, a relay amplifier 7 having two stable states, a contactless switch 8 in the supply circuit of the charge circuit and an additional resistor 9, a shunt smoothing filter, a contactless switch, a current-limiting choke and a shunt. When power is turned on

the storage capacitor 3 is charged simultaneously in two circuits: through filter 2, switch 8, switched by amplifier 7, choke 5, shunt 4 and through an additional resistor 9. The charge on the first circuit occurs in alternating pulse and pause stages. At the first stage, the switch 8 is turned on, the output voltage of the direct current of the converter I goes into the charging circuit, the capacitor 3 is charged, and the choke 5 accumulates energy. At the second stage, the key 8 is turned off, and the charge of the capacitor continues due to the energy stored by the inductance along the circuit: choke 5 - shunt 4 - capacitor 3 - diode 6. Charging current

contour throughout the whole process fluctuates

between the two values fixed by the relay amplifier 7, and its average value remains almost constant. The current tl of consumption of this charge chain is progressively increasing. The current in the second charge value — through the resistor 9 — has a character close to exponential (see Fig. 2).

With an appropriate choice of the parameters of the relay amplifier 7 and resistor 9, the total current consumption i of both charging circuits, and therefore, the current consumption of the source during the entire charging process remains almost unchanged in magnitude.

Thus, the inclusion of resistor 9 significantly improves the current consumption of the secondary power source, reducing the modulation of the supply voltage.

The proposed source can be used in both direct and alternating current networks. In the first case, the voltage converter is a voltage inverter with a rectifier, in the second, a transformer with a rectifier.

Subject invention

A secondary power supply consisting of a low voltage direct current converter into high voltage direct current with a smoothing filter whose output is connected to a storage capacitor via a shunt, a current limiting choke and a contactless key controlled by a relay amplifier connected to a current feedback circuit load, characterized in that, in order to reduce the modulation of the supply voltage, a parallel circuit composed of a shunt, a current-limiting droplet, a contactless key and a smoothing filter , resistor on.