A system for controlling a power signal for zero voltage switching (ZVS) includes a voltage zero crossing detection module to detect a zero voltage condition in response to an inverter voltage from a resonant inverter crossing zero volts, and a current zero crossing detection module to detect a zero current condition in response to an inverter current from the resonant inverter crossing zero amps. The system further includes a phase detect module to detect actual phase data corresponding to an actual phase angle between the inverter voltage and the inverter current based on the zero voltage and zero current condition. The system further includes a comparator to determine a phase difference between a desired phase between the inverter voltage and the inverter current and the actual phase angle. The system further includes a controller to adjust a property of a resonant inverter to reduce the phase difference.

A platform for design of a lighting installation generally includes an automated search engine for retrieving and storing a plurality of lighting objects in a lighting object library and a lighting design environment providing a visual representation of a lighting space containing lighting space objects and lighting objects. The visual representation is based on properties of the lighting space objects and lighting objects obtained from the lighting object library. A plurality of aesthetic filters is configured to permit a designer in a design environment to adjust parameters of the plurality of lighting objects handled in the design environment to provide a desired collective lighting effect using the plurality of lighting objects.

Various embodiments of the present invention include systems and methods for generating and conserving power for illuminating a space including obtaining energy producing equipment further including a racking system, a direct current to alternating current inverter, a solar module, a light source and connecting the solar module to the racking system, connecting the direct current to alternating current inverter to the solar module, connecting the light source to the solar module through the direct current to alternating current inverter, receiving from the solar module by the inverter a direct current and converting it to alternating current, and causing by the alternating current the light source to visually illuminate the space.

Various embodiments of the present invention include systems and methods for generating and conserving power for illuminating a space including obtaining energy producing equipment further including a racking system, a direct current to alternating current inverter, a solar module, a light source and connecting the solar module to the racking system, connecting the direct current to alternating current inverter to the solar module, connecting the light source to the solar module through the direct current to alternating current inverter, receiving from the solar module by the inverter a direct current and converting it to alternating current, and causing by the alternating current the light source to visually illuminate the space.

A load switch circuit for turning on and off supply of DC power to a load circuit of a chromatograph apparatus, the load switch circuit comprising: a first switching element connected to between a first node that receives DC voltage and the load circuit, the first switching element including a control terminal that receives a potential of a second node; a capacitive element connected to between the first and second nodes; a first resistive element connected to between the first and second nodes; and a bypass circuit configured to pass current between the first and second nodes upon turn-off of the first switching element.

A load switch circuit for turning on and off supply of DC power to a load circuit of a chromatograph apparatus, the load switch circuit comprising: a first switching element connected to between a first node that receives DC voltage and the load circuit, the first switching element including a control terminal that receives a potential of a second node; a capacitive element connected to between the first and second nodes; a first resistive element connected to between the first and second nodes; and a bypass circuit configured to pass current between the first and second nodes upon turn-off of the first switching element.

Various embodiments of the present invention include systems and methods for generating and conserving power for illuminating a space including obtaining energy producing equipment further including a racking system, a direct current to alternating current inverter, a solar module, a light source and connecting the solar module to the racking system, connecting the direct current to alternating current inverter to the solar module, connecting the light source to the solar module through the direct current to alternating current inverter, receiving from the solar module by the inverter a direct current and converting it to alternating current, and causing by the alternating current the light source to visually illuminate the space.

Various embodiments of the present invention include systems and methods for generating and conserving power for illuminating a space including obtaining energy producing equipment further including a racking system, a direct current to alternating current inverter, a solar module, a light source and connecting the solar module to the racking system, connecting the direct current to alternating current inverter to the solar module, connecting the light source to the solar module through the direct current to alternating current inverter, receiving from the solar module by the inverter a direct current and converting it to alternating current, and causing by the alternating current the light source to visually illuminate the space.

A lighting relay panel may include lower-cost features or components related to improved safety and reliability. In some cases, the relay panel includes a power supply capable of protecting the panel from high-voltage and high-current transients. A microcontroller may determine a power interruption based on a zero-cross signal received from the power supply, and may also configure latching relays during the interruption. In some implementations, the relay panel includes a relay sense circuit that is capable of receiving actuation signals from multiple relays connected to different phases of a power signal, and the microcontroller may synchronize or repeat the actuations based on a signal from the relay sense circuit. The microcontroller may generate relay addresses based on the relay positions within the relay panel. In some cases, the relay panel may include isolation circuits that are capable of providing an isolated control signal having an improved voltage range.

A lighting relay panel may include lower-cost features or components related to improved safety and reliability. In some cases, the relay panel includes a power supply capable of protecting the panel from high-voltage and high-current transients. A microcontroller may determine a power interruption based on a zero-cross signal received from the power supply, and may also configure latching relays during the interruption. In some implementations, the relay panel includes a relay sense circuit that is capable of receiving actuation signals from multiple relays connected to different phases of a power signal, and the microcontroller may synchronize or repeat the actuations based on a signal from the relay sense circuit. The microcontroller may generate relay addresses based on the relay positions within the relay panel. In some cases, the relay panel may include isolation circuits that are capable of providing an isolated control signal having an improved voltage range.