JP3666026B2 - Dimmable lighting control system - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a dimming lighting control system suitable for lighting in, for example, a studio, a theater, and a stage.
[0002]
[Prior art]
In general, in this type of stage lighting or the like, dimming lighting is indispensable and lamps such as many incandescent lamps need to be appropriately distributed for the purpose of enhancing the effect of production. Here, in constructing a dimming control system for a plurality of lamps, for example, as shown in FIG. 5, n lamps 1, # 1, # 2,. An optical device 2 is provided separately and dispersedly arranged, and is connected to one monitor device 4 by a pair of transmission lines 3 so as to be intensively and comprehensively managed including dimming control and abnormality detection. is there. Reference numeral 5 denotes a power line for supplying power to each lamp 1. In this case, the lamp capacities that can be connected differ depending on the capability of each dimmer, and the monitor device 4 manages individual lamp capacities, particularly the actual load state, in managing a large number of lamps and their lighting conditions. It is desired to be able to grasp.
[0003]
Therefore, each dimmer 2 is configured to have an intelligent function such as lamp capacity detection as shown in FIG. First, a dimming switching circuit 8 is provided on the power supply line 5 for the lamp 1 by, for example, connecting a pair of thyristors 6 and 7 in antiparallel. As a result, the lamp 1 is dimmed by performing phase control in which these thyristors 6 and 7 are fired at a timing corresponding to the dimming signal level from the monitor device 4 side after the zero cross is detected every half cycle. It will be. In place of the thyristors 6 and 7, switching elements such as bidirectional thyristors (triacs), transistors, FETs (field effect transistors), and IGBTs (gate insulating bipolar transistors) can also be used. Accordingly, the standard lamp capacities that can be connected to the individual dimmers 2 are different for 12 kW, 6 kW, and 3 kW, depending on the overcurrent tolerance of the switch elements forming the dimming switching circuit 8.
[0004]
Each dimmer 2 includes a lamp capacity detection circuit 10 mainly composed of a CPU 9 for performing an intelligent function. The lamp capacity detection circuit 10 includes an output current detection circuit 11 that detects an output current for the lamp 1, an output voltage detection circuit 12 that detects an output voltage for the lamp 1, and an output side of these detection circuits 11 and 12. A / D converters 13 and 14 and the CPU 9 for calculating the lamp capacity based on the output current value and the output voltage value obtained from the A / D converters 13 and 14.
[0005]
With such a configuration, the output current value I and the output voltage value V from the dimmer 2 to the lamp 1 are A / D converted and taken into the CPU 9, the filament resistance R of the lamp 1 is calculated, and the lamp capacity W is set to W = V ² / R is obtained, and the obtained lamp capacity W is transmitted to the monitor device 4 via the transmission line 3 (see the flowchart shown in FIG. 7A), and the monitor device 4 uses the received lamp capacity W as it is. It is displayed (see the flowchart shown in FIG. 7B).
[0006]
[Problems to be solved by the invention]
However, in such a conventional system configuration, the maximum output current value (digital value) input to the CPU 9 at the maximum output current of the maximum standard lamp capacity must be set, and the maximum standard lamp In the dimmer 2 having no capacity, the dynamic range of the A / D converter 13 is narrowed, so that the detection accuracy of the lamp capacity is deteriorated. For example, when assuming a system configuration having a standard lamp capacity such that # 1 is 12 kW, # 2 is 6 kW, and #n is 3 kW, the A / D converter 13 receives a maximum output current of 120 A with a maximum standard lamp capacity of 12 kW. The dynamic range of the A / D converter 13 in each dimmer 2 must be set so that a voltage value of 5 V corresponding to the maximum output current value can be obtained. Therefore, in the dimmer 2 having a standard lamp capacity of 6 kW, even when the maximum output current is 60 A, the A / D converter 13 can obtain only half the voltage value of 2.5 V, the dynamic range is halved, and the standard is 3 kW. In the dimmer 2 having a lamp capacity, even when the maximum output current is 30 A, the A / D converter 13 can obtain only a voltage value of 1.25 V, which is 1/4, and the dynamic range is drastically reduced. Since the lamp capacity detection operation (actual load detection operation) in the dimming state is performed under the condition where the dynamic range is narrowed, as a result, the detection accuracy of the lamp capacity is deteriorated as described above. Therefore, the lamp capacity of each lamp 1 that can be recognized by the monitor device 4 is not very good in detection accuracy and lacks reliability.
[0007]
[Means for Solving the Problems]
The dimming lighting control system according to claim 1, wherein the dimming switching circuit is connected to a power line for the lamp to dimm the lamp, an output current detection circuit that detects an output current to the lamp, and an output to the lamp Lamp capacity is calculated based on output voltage detection circuits for detecting voltages, A / D converters provided on the output side of these detection circuits, and output current values and output voltage values obtained from these A / D converters. A dimmer having a lamp capacity detection circuit having a calculation control means for each lamp is provided for each lamp, and the dimmer is connected to each dimmer by a pair of transmission lines. In a dimming illumination control system provided with a monitor device for transmitting and receiving information and displaying necessary information, the lamp capacity detection circuit of each dimmer passes through the A / D converter at the maximum output current of the dimmer. Output current value that is input to the arithmetic control unit Te is that an adjusting element for adjusting the output current from the output current detecting circuit so as to maximize with respect to the A / D converter.
[0008]
The dimming lighting control system according to claim 2 is the dimming lighting control system according to claim 1, wherein the calculation control means calculates the lamp capacity based on the output current value and the output voltage value obtained from the A / D converter. In addition, the calculation control means obtains the ratio to the standard lamp capacity at the maximum output current of the dimmer and transmits it to the monitor apparatus, and the standard lamp capacity and the ratio transmitted for each dimmer holding the monitor apparatus in advance. The monitor device calculates and displays the lamp capacity based on the information.
[0009]
[Action]
In the dimming illumination control system according to claim 1, the lamp capacity detection circuit of each dimmer has an adjustment element, and the A / D can be adjusted at the maximum output current of the dimmer by simple adjustment by the adjustment element. Since the output current of the output current detection circuit can be adjusted so that the output current value input to the arithmetic control means via the converter becomes the maximum, the dynamic range of the A / D converter in each dimmer can be individually adjusted. Therefore, even if the standard lamp capacity is different for each dimmer, it is possible to detect the lamp capacity with high accuracy.
[0010]
In the dimming illumination control system according to claim 2, in realizing the dimming illumination control system according to claim 1, the arithmetic control means uses the output current value and the output voltage value obtained from the A / D converter. After calculating the lamp capacity based on the standard lamp capacity, the ratio to the standard lamp capacity at the maximum output current of the dimmer is obtained and transmitted to the monitor apparatus. Since the lamp capacity is calculated and displayed based on the transmitted ratio information, even if the dynamic range is different for each A / D converter of each dimmer, it can be easily transmitted as the actual load information using the ratio information. Thus, a system capable of monitoring and displaying the lamp capacity without any trouble can be constructed.
[0011]
【Example】
An embodiment of the present invention will be described with reference to FIGS. The same parts as those shown in FIGS. 5 to 7 are denoted by the same reference numerals. First, as shown in FIG. 2, the dimming illumination control system of the present embodiment is dimmed for each lamp 1 with respect to, for example, n incandescent lamps # 1, # 2,. The devices 15 are individually provided and appropriately distributed and connected to one monitor device 16 with a pair of transmission lines 3 so as to be intensively and comprehensively managed including dimming control and abnormality detection. ing. In addition, the power supply line 5 of a present Example is connected to the commercial AC power supply of AC100V, for example.
[0012]
Here, each dimmer 15 has a dimming switching circuit 8 by a switch element such as a pair of thyristors 6 and 7 as in the case shown in FIG. 6, and a lamp capacity detection circuit 17 for performing an intelligent function. It is set as the structure provided with. However, as described above, the dimming switching circuit 8 may be configured by one bidirectional thyristor instead of the thyristors 6 and 7 connected in reverse parallel, and moreover, an overcurrent from these. A switching element such as a transistor, FET, or IGBT having a low withstand capability can also be used.
[0013]
Here, the lamp capacity detection circuit 17 is similar to the lamp capacity detection circuit 10, and in addition to the CPU 18 functioning as an arithmetic control means, the output current detection circuit 11, the output voltage detection circuit 12, and the A / D converter 13 are provided. , 14, in addition to this, an adjustment element 19 is added between the output current detection circuit 11 and the A / D converter 13. The A / D converters 13 and 14 may be built in the CPU 18.
[0014]
For example, as shown in FIG. 3, the output current detection circuit 11 has a configuration in which a current flowing on the power supply line 5 with respect to the lamp 1 is extracted by a detection winding 11a and rectified by a full-wave rectification circuit 11b. The adjustment element 19 is constituted by a variable resistor VR connected between the output terminals of the full-wave rectifier circuit 11b, for example, and the A / D converter 13 receives the voltage obtained at the variable resistor VR as an input. It is connected. The variable resistor VR outputs the output current detection circuit 11 so that the output current value input to the CPU 18 via the A / D converter 13 becomes maximum at the maximum output current (standard lamp capacity = all light). This is for adjusting the current value. Therefore, as described above, the standard lamp capacity that can be connected to each dimmer 15 is 12 kW, 6 kW, 3 kW, etc. due to the difference in overcurrent tolerance of the switch elements forming the dimming switching circuit 8. However, by appropriately adjusting the variable resistor VR for each dimmer 15, the dynamic range is maximized in any of the A / D converters 13 of the dimmers 15. At the maximum output current of the dimmer 15, the same maximum output current value is given from the A / D converter 13 to the CPU 18 regardless of the difference in the standard lamp capacity.
[0015]
For example, assuming a system configuration having a standard lamp capacity of # 1 of 12 kW, # 2 of 6 kW, and #n of 3 kW, the # 1 dimmer 15 having a standard lamp capacity of 12 kW has a maximum output current of 120 A. The variable resistor VR is adjusted so that a voltage value such as 5 V corresponding to the maximum output current value is obtained from the A / D converter 13, and in the # 2 dimmer 15 having a standard lamp capacity of 6 kW, the A The variable resistor VR is adjusted so that a voltage value of 5 V corresponding to the maximum output current value can be obtained from the / D converter 13, and the #n dimmer 15 having a standard lamp capacity of 3 kW has an A / The variable resistor VR is adjusted so that a voltage value of 5 V corresponding to the maximum output current value can be obtained from the D converter 13. As described above, since the lamp capacity detection operation in the dimming state is performed under the condition where the dynamic range is expanded to the maximum, the detection accuracy of the lamp capacity is improved as a result.
[0016]
Here, in this embodiment, at the time of system construction, the monitor device 16 holds the standard lamp capacity for each dimmer 15 in the storage means or the like in advance. For example, information such as # 1; 12 kW, # 2; 6 kW, to, #n; 3 kW is stored. On the other hand, the CPU 18 in each dimmer 15 does not recognize the standard lamp capacity for the dimmer 15 and based on the output current value and output voltage value obtained from the A / D converters 13 and 14. However, since the dynamic range of the A / D converter 13 is different for each dimmer 15, the CPU 18 of this embodiment calculates a ratio with respect to the standard lamp capacity at the maximum output current from the calculated lamp capacity. The ratio information functions to transmit to the monitor device 16 via the transmission line 3. That is, the actual load state is transmitted to the monitor device 16 in the form of ratio information. Therefore, even if the ratio information has the same value, the actual lamp capacity varies depending on the standard lamp capacity. Since the standard lamp capacity for each dimmer 15 is grasped in advance on the monitor device 16 side, the lamp capacity is calculated based on the transmitted ratio information, and the obtained lamp capacity is appropriately displayed.
[0017]
With such a configuration, the output current value I and the output voltage value V for the lamp 1 are each A / D converted from the dimmer 15 and taken into the CPU 18 to calculate the filament resistance R of the lamp 1 as in the conventional case. Thereafter, the CPU 18 of the present embodiment calculates the ratio to the standard lamp capacity at the time of the maximum output current in the dimmer 15 (when the output of the A / D converter 13 becomes maximum = all light), This ratio information is transmitted as actual load information to the monitor device 16 via the transmission line 3 in the form of a pulse signal or the like (see the flowchart shown in FIG. 4A). At this time, the ratio information is naturally a value of 1 or less under normal conditions, but if the ratio is larger than 1, the cause of overcurrent or the like is considered, so it is not illustrated. A protective operation is performed by overcurrent prevention means or the like. The monitor device 16 calculates the lamp capacity based on the received ratio information and the standard lamp capacity of the dimmer 15 stored in advance, and displays the obtained lamp capacity on the monitor (the flowchart shown in FIG. 4B). reference).
[0018]
【The invention's effect】
According to the dimming illumination control system of the first aspect of the present invention, a dimming switching circuit that is connected to a power supply line for the lamp to dimm the lamp, and an output current detection circuit that detects an output current to the lamp. Based on an output voltage detection circuit for detecting an output voltage to the lamp, an A / D converter provided on the output side of these detection circuits, and an output current value and an output voltage value obtained from these A / D converters A dimmer having a lamp capacity detection circuit having a calculation control means for calculating the lamp capacity is provided for each lamp, and is connected to each dimmer by a pair of transmission lines. In the dimming illumination control system provided with a monitor device that transmits and receives various information and displays necessary information, the A / A at the maximum output current of the dimmer in the lamp capacity detection circuit of each dimmer Since the adjustment element for adjusting the output current from the output current detection circuit to the A / D converter is provided so that the output current value input to the arithmetic control means via the converter becomes maximum, the adjustment element The output current of the output current detection circuit can be adjusted so that the output current value input to the arithmetic control means via the A / D converter becomes the maximum at the maximum output current of the dimmer. As a result, the dynamic range of the A / D converter in each dimmer can be maximized individually, and the lamp capacity can be detected accurately even if the standard lamp capacity differs for each dimmer. it can.
[0019]
According to the dimming illumination control system of the invention described in claim 2, in the dimming illumination control system of the invention of claim 1, the operation control means includes an output current value and an output voltage value obtained from the A / D converter. The lamp capacity is calculated based on the standard lamp capacity, and the ratio to the standard lamp capacity at the maximum output current of the dimmer is calculated and transmitted to the monitor apparatus. The standard lamp for each dimmer holding the monitor apparatus in advance. Since the monitor device calculates and displays the lamp capacity based on the capacity and the transmitted ratio information, even if the dynamic range is different for each A / D converter of each dimmer, it is transmitted as the actual load information by the ratio information. By doing so, it is possible to construct a system that can easily monitor and display the lamp capacity without any trouble, and in particular, the monitor device can grasp the actual load state.
[Brief description of the drawings]
FIG. 1 is a circuit diagram mainly showing one dimmer according to an embodiment of the present invention.
FIG. 2 is a connection diagram showing a system configuration.
FIG. 3 is a partial circuit diagram mainly showing an adjustment element.
FIG. 4 is a flowchart showing processing in the dimmer and the monitor device.
FIG. 5 is a connection diagram showing a conventional system configuration.
FIG. 6 is a circuit configuration diagram mainly showing the one dimmer.
FIG. 7 is a flowchart showing processing in the dimmer and the monitor device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Lamp 3 Transmission line 5 Power supply line 8 Dimming switching circuit 11 Output current detection circuit 12 Output voltage detection circuit 13, 14 A / D converter 15 Dimmer 16 Monitor apparatus 17 Lamp capacity detection circuit 18 Calculation control means

Claims (2)

A dimming switching circuit for dimming the lamp connected to a power line for the lamp, an output current detection circuit for detecting an output current for the lamp, an output voltage detection circuit for detecting an output voltage for the lamp, and detection thereof A lamp capacity detection circuit comprising: an A / D converter provided on the output side of the circuit; and an arithmetic control means for calculating a lamp capacity based on an output current value and an output voltage value obtained from these A / D converters; A dimmer equipped with a dimming device provided for each lamp, and connected to these dimmers with a pair of transmission lines, a monitor device for transmitting and receiving various information to and from each dimmer and displaying necessary information In the dimming illumination control system provided, an output power input to the arithmetic control means via the A / D converter at the maximum output current of the dimmer in the lamp capacity detection circuit of each dimmer. The output current detection circuit and the A / D converter dimming lighting control system is characterized in that an adjusting element for adjusting the output current to the so that the value becomes the maximum. The calculation control means calculates the lamp capacity based on the output current value and output voltage value obtained from the A / D converter, and obtains the ratio to the standard lamp capacity at the maximum output current of the dimmer and transmits it to the monitor device. 2. The calculation control means for performing the calculation and displaying the lamp capacity based on the standard lamp capacity for each dimmer and the transmitted ratio information held in advance. The dimming lighting control system described.

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