SU748660A1 - Device for dc supply of load - Google Patents

Description

one .,

This invention relates to consumer power supply systems, direct current energy; installed primarily on J vehicles and mobiles.

When creating devices for ensuring the buffer operation of direct current generators with alkaline batteries for a total load, there are difficulties in matching them with the number of voltages between themselves and the load due to the specificity of alkaline batteries required for charging a much larger excess. | g charge of charge with respect to their nominal value by comparison) co. lead.

A method is known which assumes that the voltage of the power supply source is matched to the required battery charging voltage by switching individual groups of battery batteries from the serial connection (occurring during battery operation to load) to parallel connection of groups (for example, two parallel groups) when charging batteries, batteries from a DC source, when part JQ

the voltage of the source is quenched on the ballast resistors 1.

However, this method is uneconomical and to the singer He never seems to be used on vehicles where it is impossible to use power sources with sufficiently large power.

Another well-known solution provides for the inclusion of an alkaline kad: a battery in parallel with a lead-acid battery (with the same nominal voltage) when operating on a load and disconnecting a Christmas tree from the load using a switching device at its earad from a constant generator t6ka 2T.

This solution also has a drawback - the normal charge of the cadmium – nickel – batt Christmas tree is not ensured and, since the DC generator conforming to the voltage with the load and with the lead battery in nalsnals, cannot provide the required voltage overload charging an alkaline battery and, therefore, does not provide recovery of lost capacity. In addition, I.1. Due to the fact that the necessary overvoltage of the voltage is not provided, the charge is low, and this, in the case of the use of alkaline batteries, leads to a gradual decrease in the capacity of the battery and to its systematic underloading, which can Disable battery In a number of technical solutions, two DC sources are used in the system, with one source being used to operate on a load and the other to charge a battery with a corresponding switch device and system operation mode. With this solution, it is possible that the air condition should be matched to the voltage conditions of the system operation for the load and the battery charge mode, thus ensuring that the optimum optimum voltage is exceeded when charging the battery 3 and the disadvantage of this technical solution is the need to include The scheme of two sources of direct current with different rated voltages, which complicates the system and increases the weight of the device, as a result, it is an obstacle to the use of such a system on transPONTIC means, where due to bounds on weight and dimensions apply qji current sources of limited power. : There are known devices in which the regulation of the charging current of a battery by means of charging voltage is applied by applying feedback on current or coupling Ts and. The disadvantage of these devices is the fact that a current source with a high nominal voltage, significantly higher than the nominal voltage of the battery and the load, is necessary. For this. excessive voltage is extinguished and power is dissipated unnecessarily on circuits with an adjustable transistor, which is included in the battery charge circuit. Due to the disadvantages indicated, these schemes cannot be applied in a system with a limited power source. The known circuit where the booster current source is used is p1) i. the charge of the battery, it turns off when the battery runs at a load l1. The disadvantage of this circuit is the absence of a stabilizing battery. battery charge, as a result of which it is impossible to ensure optimum battery charge mode and improve the efficiency of using the power of a direct current source. In addition, an additional source is required in OL. An additional source .. The most. B. ;; .. The software for the invention of a technical entity is a device containing a direct current source, a load, and an accumulator.

748660 battery, voltage converter with DC power supply with a transformer output, having several taps of turns, connected in series with the current source during battery charging, bridge rectifier, voltage control unit and control deistors. Such inclusion in the booster converter circuit allows the device to be used for operation. in a system using a source of limited power B, However, a significant disadvantage of this device is that with discrete switching of the turns of the transformer, the additional converter’s voltage, depending on the magnitude of the charging voltage, does not exclude significant current surges in the initial period of charge, the battery, and that, due to the characteristics of the charge characteristic of an alkaline battery, there is a period of practically unregulated voltage in the device during the second half of the cycle This occurs because the voltage on the alkaline battery after transferring 50-60% of the required ampere-hour to the battery during the charging process almost ceases to increase due to an increase in its degree of charge and the charging current ceases to stabilize. this device and gradually reduces-. c and further, the charge is maintained by small currents. A decrease in charge current adversely affects the capacitance which -. Ru can perceive and give an alkaline battery. in addition, in this case, the charging time is significantly increased. During operation, the most optimal is the charge mode with a constant normal charge current. In this case, it does not occur. Lowering the battery capacity during operation. In addition, the magnitude of the charge voltage depends on the temperature of the electrolyte, and in order to ensure that the charge current remains within the specified limits, it is necessary to introduce a correction for the temperature of the electrolyte. To carry out such a correction is technically difficult. This device also does not provide automatic matching on the nominal voltage of the DC source and load during operation in the buffer mode, since the voltage applied to the load is higher than the nominal voltage of the current source. The purpose of the invention. - elimination of marked n ews, i.e. improving the operating conditions of the device. To achieve the specified purpose in a device containing a dc source, battery, battery, load, booster voltage converter connected by its input to the terminals dc source, and output connected as a booster in series with the dc source to the charge circuit Yes, the battery was negative, feedback on the charging current was carried out, for which a shunt installed in series in the battery charging circuit was inserted into the device, two dividers per A voltage consisting of two potentiometers and a Zener diode connected in parallel to them and through a common resistor connected to the device’s minus bus, another common point of the potentiometers and a Zener diode is connected to the junction point of the shunt with the positive output of the booster converter. In addition, a voltage relay is connected to the terminals of the DC source, the relay contacts are switched on in parallel with the output of the voltage transformer, and the relay closing contacts are connected to the power supply circuit of this converter, and a diode connected in series to the DC bus of the constant source current. In this case, the booster converter is made with phase-impulse control of the output voltage on two synchronized multivibrators with a bridge power amplifier and with a phase-shifting synchronizing magnetic amplifier, the control winding of which is connected to the middle output of the control potentiometer and to the point of connection of the shunt with the positive terminal of the battery, to the torus battery. the bias winding of the magnetic amplifier is connected to the middle terminal of the potentimeter, displacement and to the common junction point moat, zener diode and a resistor.

The drawing shows the electrical circuit of the device for supplying the load with direct current.

The circuit contains a direct current source 1 (for example, a generator), a load 2 connected in parallel with the current source, an alkaline cadmium-nickel rechargeable battery 3 connected to the load during a decrease (or absence) of the generator voltage, a voltage boost converter 4, an output which is connected in series with a source of direct current 1 as a boost source of current when charging a battery, voltage relay 5, switching system operation mode (operation for load - battery charging i), diode 6, used as an isolating power source, shunt 7,,

used as a negative current feedback current charge current sensor, control potentiometer 8, bias potentiometer 9, zener diode 10 and resistor 11.

The scheme works as follows. During normal operation, a source of 1 CURRENT current is connected through diode 6 to load 2 and in series with the output of the boost converter 4 for charge of the battery,

0 battery 3. Relay 5 voltage is connected to the terminals of the generator. The voltage from the DC source 1 is fed to the input of the booster converter 4 through the short-circuit.

5 contacts of the relay 5. The opening contacts of the relay 5 of the voltage connect the accumulator battery 3 to the load 2 when switching the battery from charge to operation.

0

When the current source 1 is disconnected or when the voltage at its terminals drops below the permissible limit, relay 5 de-energizes and opens its circuit of the booster voltage converter with its closing contact, and connects the battery to the load with its opening contact.

When the voltage of the direct current source 1 is increased, relay 5 is activated and the load is automatically switched to power from the direct current source, and the battery charge circuit is automatically restored.

five

In the process of charging the battery 3, the amount of current flowing through the shunt 7 ,. automatically maintained constant by supplying the control voltage with negative feedback from shunt 7 and from the middle terminal of the potentiometer. 8 of the control to the control winding of the magnetic amplifier of the converter 4, the output voltage of which varies depending on the change of the feedback signal.

Using the bias potentiometer 9, the required mode of operation of the magnetic amplifier of the voltage-treating converter 4 is set, in which the phase-impulse control of the output voltage is realized. The converter is made according to the three-stage amplifier scheme.

five

The input stage - phase-shifting control magnetic amplifier - converts the control signal into a change in the saturation angle of the core of the magnetic amplifier.

0

In the intermediate stage, performed on two synchronized multivibrators, square-shaped pulses with an adjustable duty cycle are formed, which determines the average voltage value in the output cable, which is a power bridge. Multidisciplinary operation and cd with bw in time Synchronization of the operation of multivibrators is carried out through the operating winding of the magnetic amplifier ° L The moment of saturated magnetic signal about the literal is determined by the value of the feedback signal. The high power ratio of the power converter () ensures a high stability of the power source: a rd current during all t Ha-saiiHita :. :: -,,. Zener diode 10 maintains cTCHHHtiiM voltage on control potentiometer 8 and bias potentiometer 9, and thus ensures high stability of the reference voltage of the applied voltages applied to the control windings of the magnetic forces of the bodies, thus achieving the required accuracy of maintaining values of charge current. Resistor 11 is used in the 1G-Cach LBBE circuit of the voltage divider element. Thus, the introduction of a smooth voltage regulating circuit of the booster voltage converter for increasing the magnitude of the current flow can increase the useful power of the source), improve the usability of the device and batteries, and reduce losses battery capacity during operation by creating optimal conditions for charging the battery. The invention is a device for supplying a load with direct current, containing two output terminals, a battery, a constant current source, a wave booster transducer with feedback, and an output rectifier connected in series with a constant source. The current in the battery charging circuit is characterized by the fact that, in order to improve the operating conditions of devices a, a shunt is inserted into the battery charging circuit connected to the junction point of the positive with the positive terminal. 8olto incremental transducer two voltage divider consisting of soydinonNShs parallel with stabilytrochoy Dvuzs potentiometers and p-lodovytol with it connected in common resistor, the other terminal connected to the negative battery terminal, napryzhoyy relay to podalyuchennoe used. DC switch, the closure contacts of which are connected in parallel to the E-Turn of the external voltage converter, and the closing contacts are connected to the power supply circuit of this converter, and a diode connected by one terminal to the positive terminal of the DC source, and the other to the output terminal connected with a minus terminal of the volt-like transducer, while the latter is made with a phase-pulse control of the output voltage. straight zheniK two sinhroyizirovannyh multivibra.torah with bridge power amplifier and phase shifter sinhronizyruSchim magnetic amplifier, the control of which is connected .obmotka if the intermediate tap of the potentiometer and to shunt compound point C plyusovm battery terminal, and the bias winding - to another srednomu vyvodu potentiometer and to the common point connection potentiometers, Zener diode and resistor. Source1 and information taken into account in the examination 1.Technical description of the battery of the battery 5KTB-80, 173.57b.601-TO, 1972. 2.Patent of the USSR No. 291536, cl. H 02 J 7/00, 1966. 3. USSR author's certificate No. 417871, cl. H 02 J 7/34, 1566. 4. Patent of the Federal Republic of Germany 124376.6, cl. 21 p 42/02, 1973. 5. Japanese Patent No. 49-3177, cl. 57 D 1, 1974. 6. The patent of Switzerland No. 572678, cl. H 02 J- 7/34, 1976, 7. Patent of the Federal Republic of Germany No. 1160933, cl. 21 p. 51/01, 1969. 8. Authors list of the USSR No. 525936, cl. H 02 J 7/00, 1976.

Claims (1)

'' Fermup inventions Device for direct current power supply load having two output terminals, the battery, a constant current source, the voltage boost converter ¹ Nia with feedback and with the rectifier output, the included sequence 'TvLNO with DC. ............. in the charge circuit of the battery, on the basis of the fact that, in order to improve the operating conditions of the device, a shunt has been inserted into it. included in the charge circuit of the battery, connected to the junction point of the shute with the positive terminal of the boost converter, two voltage dividers, consisting of 5 connected in parallel with the zener diodes “Two potentiometers and a common resistor connected in series with it, connected by the other terminal to the negative terminal of the battery, 1Q voltage relay connected to a direct current source, the opening contacts of which are connected parallel to the output of the boost voltage converter, and the closed ones repent All the contacts are in the power supply circuit of this converter, and a diode connected with one terminal to the 'plus terminal of the DC source and the other to the output terminal connected to the negative terminal of the voltage-boost converter, is. the latter is made with phase-pulse control of the output voltage across two synchronized multivibrators with a bridge power amplifier 25 and a phase-shifting synchronizing magnetic amplifier, the control winding of which is connected to the middle terminal of one potentiometer and to the connection point of the shunt 30C with a positive terminal of the battery, and the bias winding - to the middle terminal 'of another potentiometer and to the common connection point of the potentiometers, zener diode and resistor.