The present disclosure provides a combinational circuit and a control circuit. The combinational circuit is applied to an LED drive circuit and includes a detection module and a drive and logic conversion module connected with the detection module. The detection module is configured to detect a state of an external switch, generate a detection signal according to the state of the external switch as detected, and send the detection signal to the drive and logic conversion module; and the drive and logic conversion module is configured to receive the detection signal from the detection module, generate a driving signal according to the detection signal, and drive an operation state of a discharge module for discharging an output electrolytic capacitor of the LED drive circuit by using a state of the driving signal.

The present disclosure provides a combinational circuit and a control circuit. The combinational circuit is applied to an LED drive circuit and includes a detection module and a drive and logic conversion module connected with the detection module. The detection module is configured to detect a state of an external switch, generate a detection signal according to the state of the external switch as detected, and send the detection signal to the drive and logic conversion module; and the drive and logic conversion module is configured to receive the detection signal from the detection module, generate a driving signal according to the detection signal, and drive an operation state of a discharge module for discharging an output electrolytic capacitor of the LED drive circuit by using a state of the driving signal.

The present disclosure relates to an illumination apparatus, an illumination system and an illumination control method. The illumination apparatus comprises: a first light emitting assembly configured to generate a first radiated light having a first color temperature and a first light intensity, wherein the first light intensity is adjustable; a second light emitting assembly configured to generate a second radiated light having a second color temperature and a second light intensity, wherein the second light intensity is adjustable and the second color temperature is lower than the first color temperature; and a third light emitting assembly configured to generate a third radiated light having a preset color and a third light intensity, wherein the preset color and the third light intensity are adjustable; wherein a color temperature of a radiated light generated by the illumination apparatus is configured to be adjusted by adjusting at least one of the first light intensity and the second light intensity.

The present disclosure relates to an illumination apparatus, an illumination system and an illumination control method. The illumination apparatus comprises: a first light emitting assembly configured to generate a first radiated light having a first color temperature and a first light intensity, wherein the first light intensity is adjustable; a second light emitting assembly configured to generate a second radiated light having a second color temperature and a second light intensity, wherein the second light intensity is adjustable and the second color temperature is lower than the first color temperature; and a third light emitting assembly configured to generate a third radiated light having a preset color and a third light intensity, wherein the preset color and the third light intensity are adjustable; wherein a color temperature of a radiated light generated by the illumination apparatus is configured to be adjusted by adjusting at least one of the first light intensity and the second light intensity.

Feedback is received from a plurality of devices. External data is also received. Statistical patterns of the plurality of devices are determined based on the feedback. A policy is determined based on the statistical patterns, the feedback, and the external data. The policy may include a set of rules dictating the operation of each of the plurality of devices and reducing energy consumption at the plurality of devices. Control data based on the policy is transmitted to the plurality of devices. The control data may be operative to transform the operation of the plurality of devices according to the set of rules.

Feedback is received from a plurality of devices. External data is also received. Statistical patterns of the plurality of devices are determined based on the feedback. A policy is determined based on the statistical patterns, the feedback, and the external data. The policy may include a set of rules dictating the operation of each of the plurality of devices and reducing energy consumption at the plurality of devices. Control data based on the policy is transmitted to the plurality of devices. The control data may be operative to transform the operation of the plurality of devices according to the set of rules.

A solid state lighting fixture that can be used in outdoor and indoor recessed lighting applications. The solid state lighting fixture has a recessed housing configured to be installed in a recess, and a solid state light assembly capable of being secured to the housing outside the recess. The solid state light assembly is at least partially made of a heat dissipating material capable transferring heat generated by the solid state light assembly to ambient air.

A solid state lighting fixture that can be used in outdoor and indoor recessed lighting applications. The solid state lighting fixture has a recessed housing configured to be installed in a recess, and a solid state light assembly capable of being secured to the housing outside the recess. The solid state light assembly is at least partially made of a heat dissipating material capable transferring heat generated by the solid state light assembly to ambient air.

An LED lighting device capable of adjusting color temperature by software and hardware cooperative control to achieve high-performance output includes at least one light source and a drive circuit. The light source includes first-wavelength LED, second-wavelength LED, third-wavelength LED and fourth-wavelength LED. When a modulator is operated to select only one of the first-wavelength LED, the second-wavelength LED, the third-wavelength LED and the fourth-wavelength LED to receive a maximum rated current, the drive circuit outputs four times of the maximum drive power to the corresponding LEDs; or when the first-wavelength LED, the second-wavelength LED, the third-wavelength LED and the fourth-wavelength LED receive a quarter of the maximum rated current separately, the drive circuit outputs a quarter of the maximum drive power to the LEDs separately, and the output pulse width of the drive power will be modulated to maintain the light source to carry a constant rated power.

An LED lighting device capable of adjusting color temperature by software and hardware cooperative control to achieve high-performance output includes at least one light source and a drive circuit. The light source includes first-wavelength LED, second-wavelength LED, third-wavelength LED and fourth-wavelength LED. When a modulator is operated to select only one of the first-wavelength LED, the second-wavelength LED, the third-wavelength LED and the fourth-wavelength LED to receive a maximum rated current, the drive circuit outputs four times of the maximum drive power to the corresponding LEDs; or when the first-wavelength LED, the second-wavelength LED, the third-wavelength LED and the fourth-wavelength LED receive a quarter of the maximum rated current separately, the drive circuit outputs a quarter of the maximum drive power to the LEDs separately, and the output pulse width of the drive power will be modulated to maintain the light source to carry a constant rated power.