JPH073248U - Load current control device by digital signal - Google Patents

Abstract

(57) [Abstract] [Purpose] Automatically control the current with respect to the load of lighting equipment, etc. to reduce the labor of the operator, diversify the control quality, and improve the quality. [Structure] The load current control circuit 2 connects n resistors RA in series or in parallel, connects n opening / closing mechanisms TAO to each resistor RA, and the opening / closing mechanism TAO is opened / closed by a drive mechanism TAK. The data selector circuit 3 is composed of n-digit data elements, and selects and displays a memory for driving the drive mechanism TAK of the load current control circuit 2 in a desired combination. The data input / output control circuit 4 controls the data selection operation of the data selector circuit 3 and the data selector circuit 3.
The operation of the load current control circuit 2 is controlled based on the above data. The analog input signal from the microphone 6 or the like is converted into a digital signal by the bandpass filter circuit 53 or the like, the data selector circuit 3 selects data from the memory based on this signal, and sends a signal for the driving mechanism TAK operation. . The opening / closing mechanism TAK operates to send 2 ⁿ kinds of currents to the lighting device L to perform various and high-quality current value control.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a load current control device that controls a current to a load such as a lighting device, and relates to a load current control device that automatically selects a current value to a load by selecting a memory in response to a digital signal. Is.

[0002]

[Prior art]

 The current to the load may be controlled to change the behavior of the load to suit the situation and circumstances. For example, in a theater or a small karaoke store, lighting equipment such as spotlight lighting and background lighting is used as a load. Depending on the situation, we may create various atmospheres.

Conventionally, dimming control in such an illuminating device is performed by a simple circuit such as one including a voltage control device in the circuit and one including a series resistor in the circuit. (Hereinafter referred to simply as TRIAC), or when the driving element on the input side is driven, the switching element on the output side is turned on to allow the conduction of AC signals (hereinafter simply referred to as the photo triac). ) Etc. have come to be seen.

[0004]

[Problems to be solved by this device]

 However, the problem with these control devices was that the operator had to control the light control with his or her own sense while the operator judged the situation and lines. In each of the circuits described above, the notch is used to adjust the current value, or the voltage value is changed to adjust the current value.However, in either case, the operator can check the situation by himself. This is done by one's own judgment, and since it includes the part that depends on the feeling of the operator, the control quality is not constant due to the experience and skill of the operator, and a great deal of effort is required to perform delicate control. Was.

The present invention has been made to solve the above problems, and can automatically perform control without relying on the experience and feeling of the operator, thus reducing the labor of the operator. At the same time, it is an object of the present invention to provide a load current control device using a digital signal, which can perform various and delicate control of load operation.

[0006]

[Means for Solving the Problems]

 A digital signal load current control device according to the present invention comprises a load current control circuit, a data selector circuit, and a data input / output control circuit. The load current control circuit has a resistor, an opening / closing mechanism, and a driving mechanism, and the resistor is connected in series to a load such as a lighting device connected to a power supply, and n resistors with different resistance values are connected. The resistors are connected in series or in parallel with each other. A switching element such as a photo or triac can be used as the n switching mechanism, and when the resistors are of the serial connection type, they are connected in parallel to the corresponding resistors, respectively. When resistors are connected in parallel, they are connected in series with each resistor. A drive element such as a photo triac can be used as the drive mechanism, and the operation of the opening / closing mechanism is controlled by this drive mechanism.

The data selector circuit selects a memory for operating the drive mechanism of the load current control circuit in a desired combination, and is an n-digit data element binary-driven by a digital control signal. It is formed by. The data input / output control circuit controls the selection operation of the data selector circuit and the operation of the load current control circuit based on the data of the data selector circuit.

Further, when a plurality of loads such as a lighting device are provided, a plurality of load current control circuits and a plurality of data selector circuits are provided respectively, and data from each data selector circuit is sent to each load in an independent form, The respective current values of the loads may be independently controlled to 2 ⁿ types.

[0009]

[Action]

 The signal input from the input device is digitized, this digital signal is received by the data selector circuit, and the memory stored in the n-digit data element is selected based on this signal. The data input / output control circuit sends the selected data to the load current control circuit and operates the drive mechanism based on the digital data. The opening / closing mechanism is opened / closed based on this operation, but the load current is controlled because it has n opening / closing mechanisms. ⁿ Seed control signals can be sent. Load 2 based on this signalⁿ Seed current values are sent, enabling various load control operations.

[0010]

【Example】

 Hereinafter, the present invention will be described in detail based on an embodiment shown in the drawings. The embodiment is a case where the load current control device using a digital signal according to the present invention is implemented for dimming control that controls this current by using the lighting device as a load to generate various illumination lights. 1 and 2 show an embodiment of a load current control device according to the present invention, and FIG. 1 is a schematic configuration diagram of a load current control device using a load current control circuit in which resistors are connected in series. FIG. 2 is a schematic configuration diagram of a load current control device using a load current control circuit in which resistors are connected in parallel. FIG. 3 is a block diagram showing a schematic connection of each device constituting the dimming control system using the load current control device according to the present invention.

Reference numerals in the following description are commonly used in each drawing. Also, for the photo triac, the drive part and the open / close part are displayed separately from TAK and TAO, respectively. In addition, reference numeral 1 denotes a lighting device which is a load, and shows the case of one lamp load (L1) for dimming control.

Reference numeral 2 denotes a load current control circuit, which is provided separately for each load 1 and controls the current value for each load. The load current control circuit 2 includes a series type load current control circuit 2A for controlling load current by controlling each resistor connected in series and a parallel type control for controlling each resistor connected in parallel. Load current control circuit 2B. The figure shows the case of n = 3 in which all three control resistors are used, and it is possible to separately supply 2 ³ kinds of currents having different values to each load.

First, the serial type load current control circuit 2A will be described. RA0, RA1, RA2, and RA3 are resistors connected in series, and other resistors RA1, RA2, and RA3 excluding the resistor RA0 are photo-triac switching elements TAO 1, TAO2, and TAO3, respectively. They are connected in parallel. The capacitor C0 and the switching element TAO0 of the photo triac are connected in series with the resistors RA0, RA1, RA2, RA3 connected in series. The switching elements TAO1, TAO2, TAO3 are connected in parallel, and the resistors RA1, RA2, RA3 control the current flowing to the load, and the resistor RAO regulates the maximum value of the load current. Is used to disconnect the circuit during normal times.

TAK0, TAK1, TAK2, and TAK3 are driving elements of the photo triac, and are connected by the driving power supply E2 for the photo triac. Each driving element other than TAK0 has a resistor at the other end. It is connected to each data line DR1, DR2, DR3 of the data selector circuit described later via RB1, RB2, RB3. The driving elements TAK1, TAK2, and TAK3 are driven based on the data sent to the data lines DR1, DR2, DR3, and the switching elements TAO1, TAO2, and TAO3 having the numbers corresponding to the driving elements are turned on. The driving element TAK0 is connected to each data line DR1, DR2, DR3 via each series circuit of the diodes D1, D2, D3 and the resistors RC1, RC2, RC3 connected in parallel, and is connected to either data line. It works even if a signal is sent. By this operation of TAK0, the open / close element TAO0 is turned on, and the load power supply line is turned on. TA is a triac, and its control terminal is turned on by being controlled by the voltage of the capacitor C0 applied via the bidirectional trigger diode DA. This operation ensures stable operation of the resistor that controls the load current and the switching element circuit of the photo triac. The capacitors C1 and C2 and the resistor R1 stabilize the operation of the entire circuit.

Next, the parallel type load current control circuit 2B will be described with reference to the series type load current control circuit 2A described above. The resistors RA1, RA2 and RA3 are connected in parallel with each other, and the photo-triac switching devices TAO1, TAO2 and TAO3 are connected in series to the resistors RA1, RA2 and RA3, respectively. The resistor RA0 is inserted in series with the parallel circuit of the resistors RA1, RA2, and RA3, and defines the maximum value of the load current. A capacitor C0 is connected in series to this circuit in the same manner as the resistor RA0.

The drive elements TAK1, TAK2, and TAK3 of the photo-triac are connected to the drive power source E2 for the photo-triac, and are connected to the data lines of the data selector circuit described later via the resistors RB1, RB2, and RB3, respectively. Connected to DR1, DR2, DR3. These drive elements operate based on the data sent to the data lines DR1, DR2, DR3, and turn on the switching elements T AO1, TAO2, TAO3 having the numbers corresponding to the drive elements. The operation and control functions of the triac TA and the bidirectional trigger diode DA are the same as those of the circuit 2A together with the capacitor C0, and the operations of the capacitors C1, C2 and the resistor R1 are also the same. In the above configuration, the opening / closing mechanism is configured by using the photo triac as the opening / closing element, but the same effect can be obtained by using an electromagnetic relay or the like instead.

Reference numeral 3 denotes a data selector circuit, which is composed of a plurality of data elements that store data signals. Each data element is represented by a binary number of 0 and 1, and has the same number of digits as the number of switching elements TAO of the load current control circuit 2. In the embodiment, three switching elements TAO are used, so that three digits, that is, 2 ⁿ = 8 kinds of data signals are displayed. This data selector circuit is provided for each load, that is, each load current control circuit, receives the data signal for controlling the load current from the preceding device in digital form, and selects the memory of the data element according to this signal. Signal is sent to the data lines DR1, DR2, DR3 to operate each load in a combination based on the memory. Since this data signal is displayed in the binary number format for the load current control circuit 2 (2A, 2B), the number of binary digits is n = 3 in the case of this embodiment, and therefore 2 ³ kinds of adjustments are possible. An optical control signal can be sent, and the load current can be controlled to 8 types. Since these circuit configurations are general circuits to the extent that there is no particular need to describe them, they are omitted.

A data input / output circuit 4 transfers the dimming control signal sent from the preceding device to the data selector circuit 3 and also transfers data from the data selector circuit 3 to the load current control circuit 2. Or an instruction of the operation of the A / D conversion circuit 51, that is, the digitization of the analog dimming control signal, the operation of the sampling and holding circuit 52, that is, the instruction of the sampling for converting the analog signal into the digital output signal, Take control. Although these circuit configurations are not shown, they can be configured by a generally known circuit like the data selector circuit.

Reference numeral 5 denotes a dimming control signal generation circuit, which includes an A / D conversion circuit 51, a sampling hold circuit 52, a bandpass filtering circuit 53 for identifying and classifying analog signals such as voice. The bandpass filter circuit 53 is composed of four types of bandpass filters in the embodiment, and is divided into four bands of, for example, 1000 Hz or less, 1000 to 2000 Hz, 2000 to 3000 Hz, 3000 Hz or more, and each of the bands is divided into four bands. It is assumed that the load currents of the four lighting devices corresponding to each band are controlled according to the volume. Reference numeral 6 denotes an analog signal input device, and the embodiment assumes a microphone for voice input. The output of the microphone 6 is input to the bandpass filtering circuit 53.

Reference numeral 7 denotes an n-digit binary digital type dimming control signal generation circuit D, which is used in place of the dimming control signal generation circuit 5 and whose output signal is directly input to the data selector circuit 3. . A dip switch for generating a digital signal may be adopted in the dimming control signal generating circuit D7 to generate a digital signal, but a personal computer or the like can also be used.

The dimming control device according to the present invention is configured as described above, and its operation will be described below. When voice is input to the microphone 6, its output is input to the bandpass filter circuit 53. The bandpass filter circuit 53 separates this input into four frequency bands and sends them to the sampling and holding circuit 52 for each frequency. The sampling and holding circuit 52 samples this input and inputs the volume of each sample to the A / D conversion circuit 51 for each frequency band. The A / D conversion circuit 51 converts into digital data corresponding to the input sound volume. The number of display digits of this digital data can be arbitrarily determined, but in this embodiment, it is three digits, that is, eight kinds. The 3-digit digital data for each of the 4 bands is sent to the respective data selector circuits 3 corresponding to the 4 bands.

Each load current control circuit 2A, 2B is controlled by the data signal for each band through the data lines DR1, 2, 3, each drive element TAK is operated, and the corresponding switching element TAO is combined in a predetermined combination. It turns on. The load current value changes due to the combination of the ON / OFF operations of the switching element TAO, and the brightness of the lighting devices L1 to L4 is regulated to a predetermined value. In the embodiment, the brightness can be changed by eight switching elements TAO including eight kinds of current values, even when the light is turned off. Considering that each of the four lighting devices L1 to L4 can be changed into eight types, 8 ⁴ combinations can be considered, and the atmosphere created by them will be truly diverse and delicate. In addition, the combination is automatically selected and realized by the change in voice, so that the operator's hand is not bothered and the operator's ability is not affected. When the current of each switching element circuit increases and the voltage of the capacitor CO increases, the TRIAC TA operates to adjust the current and voltage of the switching element circuit.

The data input / output control circuit 4 performs a circuit operation and a cooperative operation for smoothing the operations of the sampling and holding circuit 52, the A / D conversion circuit 51 and the data selector circuit 3. Also, when there is no voice input, when the dimming control signal generating circuit D7 of a personal computer or the like is used instead of the dimming control signal generating circuit 5 described above, a desired data signal is output to the data selector circuit 3. To be done.

Although the above-described embodiment uses the load current control device according to the present invention to control the load current of the lighting device, other devices that may have advantages by controlling the alternating current, for example, It can be applied to the rotation speed control of AC motors and devices such as electric heaters.

[0025]

[Effect of device]

 Since the load current control device using a digital signal according to the present invention has the above-mentioned configuration, it is possible to automatically select the current value according to the input signal and perform delicate and various control of the load current. It is possible and does not rely on that feeling without bothering the operator. Also, simply increase the digit number of the digital signal from 3 to 4, for example, ³ From 2^Four Since the load operation mode can be increased to a multiple of 2, it is possible to realize various kinds of fine operation. By providing a load current control circuit and a data selector circuit separately for each load, it is possible to achieve finer control of the output to multiple loads.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of a load current control device by a digital signal using a load current control circuit of a resistor series type according to the present invention.

FIG. 2 is a schematic configuration diagram of a load current control device using a digital signal using a resistor parallel type load current control circuit according to the present invention.

FIG. 3 is a block diagram showing a schematic connection of each device for performing dimming control of a lighting device using a load current control device using a digital signal according to the present invention.

[Explanation of symbols]

 1 load 2 load current control circuit 2A series type load current control circuit 2B parallel type load current control circuit 3 data selector circuit 4 data input / output control circuit 5 dimming control signal generation circuit 51 A / D conversion circuit 52 sampling hold circuit 53 band Filtering circuit 6 Microphone 7 Dimming control signal generating circuit DDR Data line TA Triac TAK Driving element TAO Switching element DA Bi-directional trigger die

Claims (2)

[Scope of utility model registration request] 1. An n-type opening / closing mechanism and each of the n-type opening / closing mechanisms are connected in series or in parallel to each other, and n resistors having different resistance values are connected in series to a load such as a lighting device connected to a power source. A driving mechanism for controlling the operation of the opening / closing mechanism, wherein the n opening / closing mechanisms are connected in parallel to the corresponding resistors when the resistors are connected in series, and the resistors are also connected in parallel. In the case of parallel connection, the load current control circuit is constructed by a load current control circuit which is connected in series to each corresponding resistor and an n-digit data element which is binary-driven by a control signal in digital form. A data selector circuit for selecting a memory for operating n driving mechanisms forming a circuit in a desired combination, and a selecting operation of the data selector circuit, and the load current control circuit based on the data of the data selector circuit. The behavior of And a data input / output control circuit for controlling the load current value, and the load current value to the load is variably controlled to 2 ⁿ types. 2. A load current control circuit for a plurality of loads,
By separately providing the data selector circuit and the data selector circuit, and sending the data of each data selector circuit independently,
2. The load current control device according to claim 1, wherein each current value of the plurality of loads is independently controlled to 2 ⁿ types.