JP7466173B2 - Lighting device and lighting device equipped with same - Google Patents

Description

This disclosure relates to a lighting device and a lighting device equipped with the same.

In lighting devices for controlling lighting, lighting devices that can handle both analog and digital signals as dimming signals input from outside have been disclosed (Patent Documents 1 to 5). For example, a dimming control circuit has been disclosed that has one dimming input terminal and a control circuit that can dim the light regardless of whether the signal input to the dimming input terminal is an analog signal or a digital signal. Also disclosed is a dimming control circuit that allows dimming by manually switching between an analog signal and a digital signal as the signal input to the dimming signal terminal.

JP 2003-068480 A JP 2017-059500 A JP 2018-106862 A JP 2017-188341 A JP 2014-136532 A

However, there is a demand for a lighting device and a lighting device equipped with the same that can automatically determine whether an input signal is an analog signal or a digital signal, without the need to manually switch between them using an external switch or the like, and control the lighting in accordance with the result of the determination.

One aspect of the present disclosure is a lighting device for dimming lighting, which is capable of inputting two types of signals, a digital signal and an analog signal, as dimming control signals for dimming the lighting, and which includes a signal determination unit that, when either the digital signal or the analog signal is input, determines whether the input signal is the digital signal or the analog signal based on the characteristics of the input signal.

Here, the signal determination unit may determine whether the input signal is a digital signal or an analog signal by using a voltage value obtained by converting the input signal to DC using a filter circuit.

The signal determination unit may also determine that the input signal is a digital signal if it has a signal pattern that is predetermined as the digital signal, and determine that the input signal is an analog signal if it does not have that signal pattern.

The signal determination unit may also use the frequency of the input signal to determine whether the signal is a digital signal or an analog signal.

The signal determination unit may also use the pulse width of a pulse signal contained in the input signal to determine whether the signal is a digital signal or an analog signal.

Another aspect of the present disclosure is a lighting device comprising the above-mentioned lighting device and a light source that is dimmably controlled by the lighting device.

The present disclosure provides a lighting device that automatically determines whether an input signal is an analog signal or a digital signal and controls lighting in accordance with the determination result, and a lighting device equipped with the lighting device.

1 is a diagram showing a configuration of a lighting device according to an embodiment; FIG. 2 is a diagram illustrating an example of a digital signal according to the embodiment. FIG. 4 is a diagram illustrating an example of an analog signal according to the embodiment.

Below, an embodiment of a lighting device according to the present disclosure and an illumination device including the same will be described in detail with reference to the drawings. The embodiment described below is merely an example, and the lighting device according to the present disclosure and the illumination device including the same are not limited thereto.

As shown in FIG. 1, the lighting device 100 according to the embodiment of the present disclosure includes a signal input circuit 10, a control unit 12, a power supply control circuit unit 14, a power conversion unit 16, and a light source 18. The lighting device 100 receives a dimming control signal, which is an analog or digital signal, via the signal input circuit 10, and controls the output voltage from the power supply control circuit unit 14 by generating a power supply control signal corresponding to the dimming control signal in the control unit 12, thereby dimming the light source 18.

In this embodiment, the analog signal is a PWM signal having a duty ratio according to the light emission brightness of the light source 18. The digital signal is a pulse signal having a signal pattern according to the light emission brightness of the light source 18. However, within the scope to which the processing in this embodiment can be applied, the analog signal and the digital signal are not limited to these.

The signal input circuit 10 is a circuit that receives a dimming control signal from the outside of the lighting device 100 and inputs a signal corresponding to the dimming control signal to the control unit 12. The signal input circuit 10 includes a filter circuit 10a that converts the dimming control signal into a DC voltage and inputs it to the AD input terminal of the control unit 12. As shown in FIG. 1, the filter circuit 10a can be an RC filter circuit that combines resistors R1 and R2 and capacitors C1 and C2. However, the configuration of the filter circuit 10a is not limited to this, and it is sufficient if it can convert the dimming control signal into a DC voltage and input it to the control unit 12. The signal input circuit 10 also includes a grounded resistor R3 for inputting the dimming control signal directly as a terminal voltage to the Rx0 input terminal of the control unit 12.

The control unit 12 functions as a signal determination unit that receives a signal input from the signal input circuit 10 and determines whether the signal input to the signal input circuit 10 is an analog signal or a digital signal. The control unit 12 also controls the power supply control circuit unit 14 in response to the dimming control signal according to the determination result. The power supply control circuit unit 14 can be, for example, a control circuit including a programmable microcomputer.

When the dimming control signal input to the Rx0 input terminal is an analog signal, the power supply control circuit unit 14 generates a PWM signal for voltage control according to the duty ratio of the analog signal and outputs it to the power supply control circuit unit 14. When the dimming control signal input to the Rx0 input terminal is a digital signal, the power supply control circuit unit 14 generates a PWM signal for voltage control according to the signal pattern of the digital signal and outputs it to the power supply control circuit unit 14.

The process of determining whether a signal is an analog signal or a digital signal in the signal input circuit 10 and the control unit 12 will be described later.

The power supply control circuit unit 14 receives a PWM signal for voltage control output from the control unit 12 and controls the power conversion unit 16 according to the PWM signal. The power conversion unit 16 controls the light emission brightness of the light source 18 under the control of the power supply control circuit unit 14. The power conversion unit 16 is configured to include, for example, an AC/DC converter that converts a commercial power source from AC to DC and a DC/DC converter that converts the output of the AC/DC converter from DC to DC. The light source 18 emits light with a brightness according to the voltage value of the DC voltage output from the power conversion unit 16. The light source 18 can be configured to include, for example, a light emitting element such as a light emitting diode or a laser diode.

[Analog and digital signal determination process]
Hereinafter, the process of determining whether a signal is a digital signal or an analog signal in the signal input circuit 10 and the control section 12 will be described with reference to FIGS.

As shown in FIG. 2, the digital signal input to the lighting device 100 is a signal on which a signal pattern consisting of a combination of on and off states is superimposed, as in section 2. When the lighting device 100 is controlled by a digital signal, a PWM signal for voltage control is input from the control unit 12 to the power supply control circuit unit 14 in accordance with the signal pattern superimposed on the digital signal, thereby controlling the light emission brightness of the light source 18. In this embodiment, the signal strength is maintained at a high level (e.g., 5 V) in sections (sections 1, 3, etc.) where no signal pattern is superimposed in the digital signal.

In the signal input circuit 10, the digital signal is input to the Rx0 input terminal of the control unit 12, and is also converted to DC by the filter circuit and input to the AD input terminal as a DC converted signal. As described above, the signal strength of the digital signal is maintained at a high level (e.g., 5V) in sections where no signal pattern is superimposed (section 1, section 3, etc.), so that the voltage value of the DC converted signal in those sections is maintained at a value exceeding 95% (e.g., 4.75V) of the high level (e.g., 5V).

On the other hand, as shown in FIG. 3, the analog signal input to the lighting device 100 is a pulse width modulated signal (PWM signal) with a modulated pulse width. When the lighting device 100 is controlled by an analog signal, the light emission brightness of the light source 18 is controlled by changing the duty ratio, which is the ratio of the on period and off period of the pulse, by changing the pulse width of the PWM signal.

Here, the on-duty of the PWM signal is set not to 100%, but to be in the range of 5% to 95%. This keeps the voltage value of the DC-converted signal, which is the DC-converted signal of the PWM signal input to the signal input circuit 10 as an analog signal, at 95% (e.g. 4.75V) or less of the high level (e.g. 5V).

The control unit 12 judges whether the signal input to the signal input circuit 10 is a digital signal or an analog signal according to the voltage value of the DC conversion signal input to the AD input terminal. That is, if there is a period during which the voltage value of the DC conversion signal is maintained at a value exceeding 95% (e.g., 4.75 V) of the high level (e.g., 5 V) of digital and analog signals, it is judged to be a digital signal, and if there is no period during which the voltage value is maintained at a value exceeding 95% (e.g., 4.75 V), it is judged to be an analog signal.

Here, the threshold value for determining whether the voltage value of the DC conversion signal is a digital signal or an analog signal may be set according to the high-level voltage value of the signal input to the signal input circuit 10. In particular, the maximum value of the on-duty range may be set as the threshold value based on the on-duty range of the analog signal. For example, as in this embodiment, if the on-duty of the PWM signal is in the range of 5% to 95%, the threshold value for determining whether the voltage value of the DC conversion signal is a digital signal or an analog signal may be set to 95% of the high-level voltage value.

The control unit 12 automatically switches control depending on whether the input signal is a digital signal or an analog signal. If the input signal is determined to be a digital signal, the control unit 12 reads the signal pattern superimposed on the digital signal input to the Rx0 input terminal, and performs dimming control of the light source 18 via the power supply control circuit unit 14 depending on the signal pattern. If the input signal is determined to be an analog signal, the control unit 12 performs dimming control of the light source 18 via the power supply control circuit unit 14 depending on the voltage value of the DC converted signal obtained by DC converting the analog signal input to the AD input terminal.

[Modification 1]
In the above embodiment, the voltage value of the DC converted signal converted into DC by the filter circuit included in the signal input circuit 10 is used to determine whether the signal is a digital signal or an analog signal.

In this first modification, if the signal input to the signal input circuit 10 has a signal pattern that is predetermined as a digital signal, it is determined to be a digital signal, and if not, it is determined to be an analog signal. The control unit 12 detects the timing at which the signal input to the Rx0 input terminal falls from a high level (e.g., 5 V) to a low level (e.g., 0 V) by edge detection processing, and starts reading the pulse change from that timing.

At this time, if the signal input to the Rx0 input signal is a digital signal, the change in the read pulse will match a predetermined signal pattern. Therefore, predetermined signal patterns of digital signals are stored in a storage means (e.g., built-in memory, etc.) accessible from the control unit 12, and if the pattern of the change in the read pulse matches at least one of the signal patterns, the signal input to the signal input circuit 10 is determined to be a digital signal.

On the other hand, if the signal input to the Rx0 input signal is an analog signal, the change in the read pulse does not match the signal pattern of the predetermined digital signal. Therefore, if the pattern of the change in the read pulse does not match at least one of the signal patterns, the control unit 12 determines that the signal input to the signal input circuit 10 is an analog signal.

The control unit 12 automatically switches control depending on whether the input signal is a digital signal or an analog signal. If the input signal is determined to be a digital signal, the control unit 12 performs dimming control of the light source 18 via the power supply control circuit unit 14 in accordance with the signal pattern superimposed on the digital signal input to the Rx0 input terminal. If the input signal is determined to be an analog signal, the control unit 12 performs dimming control of the light source 18 via the power supply control circuit unit 14 in accordance with the voltage value of a DC converted signal obtained by DC converting the analog signal input to the AD input terminal.

[Modification 2]
In the present modified example 2, whether the signal is a digital signal or an analog signal is determined according to the frequency of the signal input to the signal input circuit 10. In other words, the pulses constituting the signal pattern of a digital signal and the pulses constituting the PWM of an analog signal have different frequencies. Therefore, the control unit 12 may determine whether the signal is a digital signal or an analog signal according to the frequency of the signal input to the Rx0 input terminal.

[Modification 3]
In the third modification, whether the signal is a digital signal or an analog signal is determined based on the pulse width of the pulses included in the signal input to the signal input circuit 10. That is, the pulse widths of the pulses constituting the signal pattern of a digital signal and the pulses constituting the PWM of an analog signal are different. Therefore, the control unit 12 may determine whether the signal is a digital signal or an analog signal based on the pulse width of the signal input to the Rx0 input terminal.

As described above, according to this embodiment and the modified example, it is possible to provide a lighting device that automatically determines whether an input signal is an analog signal or a digital signal and controls lighting in accordance with the determination result, and a lighting device equipped with the lighting device.

10 signal input circuit, 10a filter circuit, 12 control section, 14 power supply control circuit section, 16 power conversion section, 18 light source, 100 lighting device.

Claims (4)

A lighting device for dimming a light source, comprising:
Two types of signals, a first signal and a second signal, can be input as dimming control signals for dimming the light source;
a signal determination unit that, when one of the first signal and the second signal is input, determines that the input signal is either the first signal or the second signal based on a characteristic of the input signal;
the signal determination unit includes a signal input circuit and a control unit;
the signal input circuit converts the dimming control signal into a DC voltage and inputs the DC voltage to a first input terminal of the control unit, and inputs the dimming control signal as a terminal voltage to a second input terminal of the control unit ;
the first signal is a signal having a section in which a voltage value of a DC converted signal that is input to an input terminal of the control unit and converted to DC by a filter circuit in the signal input circuit is maintained at a value exceeding 95% of a high level,
the second signal is a signal in which there is no section in which a voltage value of a DC converted signal that is input to an input terminal of the control unit and converted to DC by the filter circuit in the signal input circuit is maintained at a value exceeding 95% of the high level,
The signal determination unit determines that the input signal is the first signal if it has a signal pattern that is predetermined as the first signal, and determines that the input signal is the second signal if it does not. A lighting device for dimming a light source, comprising:
Two types of signals, a first signal and a second signal, can be input as dimming control signals for dimming the light source;
a signal determination unit that, when one of the first signal and the second signal is input, determines that the input signal is either the first signal or the second signal based on a characteristic of the input signal;
the signal determination unit includes a signal input circuit and a control unit;
the signal input circuit converts the dimming control signal into a DC voltage and inputs the DC voltage to a first input terminal of the control unit, and inputs the dimming control signal as a terminal voltage to a second input terminal of the control unit ;
the first signal is a signal having a section in which a voltage value of a DC converted signal that is input to an input terminal of the control unit and converted to DC by a filter circuit in the signal input circuit is maintained at a value exceeding 95% of a high level,
the second signal is a signal in which there is no section in which a voltage value of a DC converted signal that is input to an input terminal of the control unit and converted to DC by the filter circuit in the signal input circuit is maintained at a value exceeding 95% of the high level,
The signal determination unit determines whether the input signal is the first signal or the second signal by using a frequency of the input signal . A lighting device for dimming a light source, comprising:
Two types of signals, a first signal and a second signal, can be input as dimming control signals for dimming the light source;
a signal determination unit that, when one of the first signal and the second signal is input, determines that the input signal is either the first signal or the second signal based on a characteristic of the input signal;
the signal determination unit includes a signal input circuit and a control unit;
the signal input circuit converts the dimming control signal into a DC voltage and inputs the DC voltage to a first input terminal of the control unit, and inputs the dimming control signal as a terminal voltage to a second input terminal of the control unit ;
the first signal is a signal having a section in which a voltage value of a DC converted signal that is input to an input terminal of the control unit and converted to DC by a filter circuit in the signal input circuit is maintained at a value exceeding 95% of a high level,
the second signal is a signal in which there is no section in which a voltage value of a DC converted signal that is input to an input terminal of the control unit and converted to DC by the filter circuit in the signal input circuit is maintained at a value exceeding 95% of the high level,
The signal determination unit determines whether the input signal is the first signal or the second signal by using a pulse width of a pulse signal included in the input signal . A lighting device according to any one of claims 1 to 3 ,
a light source that is dimmably controlled by the lighting device;
A lighting device comprising:

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