KR100682034B1 - A automatic voltage regulator with battery charger - Google Patents

Abstract

An automatic voltage regulator having a battery charging function is provided to reduce a manufacturing cost and improve the degree of freedom in a system configuration by performing modularization of parts of an integrated device. An automatic voltage regulator having a battery charging function includes an automatic voltage regulator(410), a battery charging unit(420), and a control unit(430). The automatic voltage regulator(410) receives and converts AC power from a predetermined generator into DC power. The automatic voltage regulator(410) provides the DC power to a field winding, and maintains an output voltage of the generator uniformly. The battery charging unit(420) receives, rectifies and converts the AC power from the generator into the DC power. The battery charging unit(420) drops a voltage of the DC power and applies the dropped voltage to a predetermined battery. The control unit(430) detects the voltages of the generator and the battery at the same time. The control unit(430) applies and controls an output signal generated through an internal calculation to the automatic voltage regulator(410) and the battery charging unit(420).

Description

Automatic Voltage Regulator with Battery {A Automatic Voltage Regulator with Battery Charger}

1 is a block diagram showing a conventional technology,

Figure 2 is a block diagram showing an embodiment using a dual charge automatic voltage regulator according to the present invention,

3 is a view showing a dual charge automatic voltage regulator according to the present invention,

Figure 4 is a block diagram showing a control unit of the dual charge automatic voltage regulator according to the present invention,

5 is a view showing a module of the dual charge automatic voltage regulator according to the present invention,

6 is a view showing a module configuration of a dual charge automatic voltage regulator according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: battery 10,100: electric motor

20,200: engine 30,300: generator

40: automatic voltage regulator 50: charger

60, 500: field winding 400: automatic voltage regulator for charging

410: automatic voltage regulator 411: diode rectifier

413: filter capacitor 420: battery charger

421: reactor 430: control unit

431: filter unit 433: analog-to-digital converter

435: signal processor 437: digital input and output

440: battery power electronic switch 450: commercial power electronic switch

460-1,460-2, 460-3: Terminal block 461: Jumper wire

The present invention relates to an automatic voltage regulator for both charging and charging, and more particularly, to integrate the automatic voltage regulator and the charger into one device, and to modularize the parts of the integrated device to reduce manufacturing costs and improve the degree of freedom in system configuration. The present invention relates to a combined automatic voltage regulator.

  Synchronous generator systems, powered by diesel or gas engines and used for emergency, remote or commercial operation, include an automatic voltage regulator (AVR) to maintain a constant voltage and a battery and battery charger to drive the starting motor at startup. It consists of. The output voltage of the synchronous generator generates a voltage drop depending on the load, which can be adjusted by adjusting the DC current in the field winding of the generator.

The automatic voltage regulator controls the field current of the synchronous generator so that the output voltage of the generator is kept constant regardless of the load applied to the generator. In addition, when the voltage of the generator is not established at the beginning, it functions to set the voltage at the beginning by the residual voltage or a separate device.

In addition, since diesel engines and gas engines do not have the ability to start by themselves, they are started up to a certain speed by driving a starting motor with a battery. When starting, a large starting current flows, and if the battery is not sufficiently charged, starting itself becomes impossible. Therefore, even during operation or stop, the battery uses a separate charger to charge above a certain level.

In other words, the engine-driven synchronous generator system requires an automatic voltage regulator, a battery and a charger. However, the automatic voltage regulator and charger are not always operated, the automatic voltage regulator is operated only when the generator is operated and the charger is operated according to the discharge state of the battery. In addition, since the control unit and the power conversion unit are provided in the configuration of each device, these functions can be integrated, but the prior art has constructed a system for the charger and the automatic voltage regulator as shown in FIG.

Accordingly, an object of the present invention is to solve the above problems of the prior art, by integrating the automatic voltage regulator and the charger into a single device and modularizing the parts of the integrated device, reducing the manufacturing cost and system configuration It is to provide an automatic voltage regulator for charging and improving the degree of freedom.

Another object of the present invention is to provide a dual-charge automatic voltage regulator that can maintain the battery at a constant state of charge by operating by automatically selecting the generator power when the generator is in operation, commercial power when the generator is stopped operating. have.

Technical means of the present invention for achieving the above object is that the automatic voltage regulator combines a charge, and receives the AC power from a predetermined generator, converts to a DC power supply to the field winding of the generator, to maintain a constant output voltage of the generator An automatic voltage adjusting unit; A battery charger which receives the AC power from the generator, rectifies the DC power, converts the DC power, and steps down the voltage of the DC power to apply to a predetermined battery; And a controller configured to simultaneously detect the voltages of the generator and the battery and to control an output signal generated through internal operation to the automatic voltage adjusting unit and the battery charging unit.

The control unit may include a filter unit for filtering and outputting signals applied from the automatic voltage adjusting unit and the battery charger unit; An analog-digital converter for converting the signal received from the filter unit into a digital signal and outputting the digital signal; A signal processing processor which receives a digital signal from the analog-digital converter, performs a control operation and a protection function, and modulates and outputs a pulse width of the digital signal; And a digital input / output unit for outputting a digital signal received from the signal processing processor.

In particular, the dual-charge automatic voltage regulator is characterized in that configured to receive the commercial power automatically under the control of the controller when the generator is stopped, or the commercial power under the control of the user.

In addition, the dual charge automatic voltage regulator is characterized in that the automatic voltage regulator and the battery charger and the control unit to produce a module.

Each module is characterized in that it is provided with two terminal blocks, respectively, to be coupled to each other.

The control unit is configured to automatically recognize the coupling when the automatic voltage adjusting unit and the battery charging unit are combined.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing an embodiment using a dual charge automatic voltage regulator according to the present invention is composed of a motor 100, an engine 200, a generator 300, a dual charge automatic voltage regulator 400.

The electric motor 100 operates by receiving a driving voltage from the charged battery 1, and the engine 200 is connected to the electric motor 100 by a belt or the like. When the electric motor 100 operates, the electric motor 100 is driven together. The generator 300 is connected in series with the shaft of the engine 200 to operate as the engine 200 is driven to generate power, and the dual-charge automatic voltage regulator 400 is the generator 300. It is configured to charge the battery 1 while keeping the output voltage constant of.

3 is a diagram illustrating a dual charge automatic voltage regulator according to the present invention, and includes an automatic voltage regulator 410, a battery charger 420, and a controller 430.

In addition, the automatic voltage adjusting unit 410 receives AC power from the generator 300, converts / smoothes it into DC power, and applies the field winding to the field winding to maintain the output voltage of the generator 300 at a constant level. The 420 is configured to receive AC power from the generator 300 to rectify and convert the AC power into DC power, reduce the voltage pulsation of the DC power, and reduce the voltage pulsation to apply the AC power to the battery 1.

In addition, the control unit 430 detects the voltages of the generator 300 and the battery 1 at the same time and applies the output signal generated through internal operation to the automatic voltage adjusting unit 410 and the battery charging unit 420. It is configured to control.

Hereinafter, the charging and controlling automatic voltage regulator will be described in more detail.

The automatic voltage adjusting unit 410 receives AC power from the generator 300 power or commercial power, and these power inputs can be automatically selected by two magnetic contactors 440 and 450. When the two power inputs are input at the same time, the overcurrent may flow due to the magnitude of the voltage or the phase difference. Therefore, it is necessary to interlock the two power supplies so that the two switches 440 and 450 are not applied at the same time.

Interlocking here means that if a circuit of the high priority side is turned ON, other circuits will not open and operate.

On the other hand, the AC power input to the automatic voltage regulator 410 is converted to direct current by the diode rectifier 411, smoothed by the filter capacitor 413 is applied to the generator 300 through the account winding 460. The output voltage of the generator 300 is kept constant.

At this time, the current direction of the automatic voltage adjusting unit 410 is one direction. However, since the inductance of the generator field winding 460 is very large, it is necessary to apply a reverse voltage when the current needs to be reduced quickly. Therefore, a 1/4 upper limit chopper is usually applied to detect the field current. A voltage sensor is installed to detect the current sensor and DC voltage.

In addition, since the battery charger 420 shares a DC terminal, a diode rectifier and a filter capacitor are not required separately, and the battery charger 420 is configured as a step-up and converter because the step-up is required when charging and the step-up is required when discharging. The reactor 421 is provided at the output terminal as an energy storage element to reduce the pulsation of the flowing current and at the time of boosting, and a sensor for detecting the voltage and the current of the battery 1 is provided, respectively.

4 is a block diagram illustrating a configuration of the controller 430. Referring to the controller 430 with reference to the controller 430, the controller 430 is a terminal voltage Vgen of the generator 300 and the field winding 450. As shown in FIG. The field current, the voltage of the DC terminal (Vdc), the voltage (Vbat) of the battery 1 and the current (Ibat) of the battery 1 is input.

Then, the received signals are filtered by the filter unit 431 and then applied to the signal processor 435 through an analog-digital converter 433 to perform respective control operations and protection functions, and digital signals. It modulates and outputs the pulse width of.

In addition, the power applied to the dual-purpose automatic voltage regulator 400 through the digital input / output unit 437 of the controller 430 may be selected as an automatic mode or a manual mode.

Regardless of the automatic mode and the manual mode, when the generator 300 is in operation, the battery power electronic switch 440 is selected to apply the battery power to the dual-purpose automatic voltage regulator 400.

In the automatic operation mode, the controller 430 detects the voltage of the generator 300 and determines that the generator 300 is stopped when the voltage is close to 0 [V] for a predetermined time. Select the power electronic switch 450 to automatically apply commercial power.

In the manual mode, when the generator 300 is stopped, the user selects the commercial power electronic switch 450 to apply commercial power.

Meanwhile, the dual charge automatic voltage regulator according to the present invention can be used by modularizing each part. This will be described in more detail with reference to FIG. 5.

Figure 5 is a block diagram showing the modularization of the dual charge automatic voltage regulator according to the present invention.

The automatic voltage regulator 410, the battery charger 420, and the controller 430 are manufactured as modules, respectively, and then coupled to each other using a terminal block 460-1, 460-2, and 460-3. Share and allow control signals to be transmitted simultaneously.

The controller 430 module recognizes a connection state through an internal digital input / output unit 437 when the automatic voltage adjusting unit 410 module and the battery charging unit 420 module are connected, and through this, the automatic voltage adjusting unit 410. ) And a software module associated with the battery charger 420.

In more detail, the digital input / output unit 437 of the controller 430 module is pulled down by the resistor R and is connected to the terminal block 460-3 with the control power open. In this case, when the terminal block 460-3 is open, the digital input / output unit 437 recognizes the logic as '0', which determines that the automatic voltage adjusting unit 410 module and the battery charging unit 420 module are not connected. Done.

However, since the jumper wires 461 are connected to the terminal blocks 460-1 and 460-2 of the automatic voltage regulator 410 and the battery charger 420 by using a pin, the automatic voltage regulator 410 is connected. When the terminal blocks 460-1 and 460-2 of the module and the battery charger 420 are connected to the terminal block 460-3 of the controller 430 module, the control power supply 105 is resisted through the jumper wire 461. Since the digital input / output unit 437 is recognized as a logic '1', it is recognized that the automatic voltage adjusting unit 410 module and the battery charging unit 420 module are connected to the controller 430 module.

In this way, if the modular automatic charge voltage regulator is modularized, the addition or removal of a battery charger function is very simple, so that separate wiring is not necessary, and the controller 410 automatically adjusts the automatic voltage regulator by using some auxiliary signals. Recognizing the detachment of the module and the battery charger 420 module 410 may automatically start the operation.

While specific embodiments of the present invention have been described and illustrated above, it will be apparent that the present invention may be embodied in various modifications by those skilled in the art. Such modified embodiments should not be understood individually from the technical spirit or the prospect of the present invention, but should fall within the claims appended to the present invention.

Accordingly, in the present invention, the automatic voltage regulator and the charger are integrated into one device, and the parts of the integrated device are modularized, thereby reducing manufacturing costs and improving the degree of freedom of system configuration.

In addition, when the generator is in operation, the generator power is automatically selected, and when the generator is in operation by operating automatically selected by operating, there is an advantage that can maintain the battery at a constant state of charge at all times.

Claims (6)

In the automatic voltage regulator: An automatic voltage adjusting unit which receives AC power from a predetermined generator, converts the power into DC power, supplies the field winding of the generator, and maintains the output voltage of the generator constant; A battery charger which receives the AC power from the generator, rectifies the DC power, converts the DC power, and steps down the voltage of the DC power to apply to a predetermined battery; And And a controller for detecting the voltages of the generator and the battery at the same time and controlling an output signal generated through internal operation to the automatic voltage regulator and the battery charger. The method according to claim 1, wherein the control unit, A filter unit for filtering and outputting signals applied from the automatic voltage adjusting unit and the battery charging unit; An analog-digital converter for converting the signal received from the filter unit into a digital signal and outputting the digital signal; A signal processing processor that receives a digital signal from the analog-digital converter, performs a control operation and a protection function, and modulates and outputs a pulse width of the digital signal; And And a digital input / output unit for outputting a digital signal received from the signal processor and receiving a predetermined signal. The method of claim 1, wherein the dual charge automatic voltage regulator, When the generator is in a stopped state, the automatic voltage regulator for both charges, characterized in that configured to automatically receive commercial power under the control of the control unit, or commercial power under the control of the user. The method of claim 1, wherein the dual charge automatic voltage regulator, Combined automatic voltage regulator, characterized in that for producing the automatic voltage regulator, the battery charger and the control unit as a respective module. The method according to claim 4, Wherein each module has two terminal blocks for coupling to each other. delete

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