Tools and techniques are described to automate line testing when wiring devices (such as equipment and sensors) to controllers. Controllers have access to databases of the devices that are controlled by them, including wiring diagrams and protocols, such that the controller can automatically check that each wire responds correctly to stimulus from the controller. After testing, a reporting device rapidly shows the results of the line testing.

A controller is described that a building design can be input into, the building design comprising inputting a layout, predefined resources and positions for resources. within the layout. The resources may have a predefined physics nature that includes physics equations, allowable inputs and outputs, etc. The system then can determine how many controllers are needed of what type, and create a guided wiring system. In some implementations a user can control certain aspects of the wiring system, such as how full the individual controllers are and how much money is to be spent on labor versus money spent on equipment.

A power device and a method for visualizing information thereof are provided. The power device is configured to provide operation power to at least one load. The power device comprises a display interface and a control circuit. The control circuit is configured to display a color icon by the display interface, so as to show at least one of a system status and a system setting of the power device by the color icon.

This Device is a small “Container” which holds a general-purpose programmable computing device (processor), interface electronics, a radio and a “Connector”. The Container plugs into an “Equipment” which is to be controlled, monitored or tested. Equipment is any tool, apparatus, machine, or process which requires a controlling function.

A single “Container” design has electronics which interface with a variety of connected - similar or different—equipments. Interface signals are pre-assigned to unique pins on the Connector. Different equipment then employ the unique signals as needed. Software senses and identifies attached equipment, selects, and runs the appropriate pre-installed application. A subset of the electronics is active for each unique equipment interface. Different equipments use both common and unique pins as needed. Modifications Hardware/software modifications are not needed for different equipment—a “Plug and Play” device.

The radio is used for remote monitoring, software updates and status checks.

A modular interface system having a modular SPE-based bus system with an SPE-based twin-core line and a plurality of SPE-based connectors, wherein a plurality of modules, each of which has an SPE-based connector, can be electrically and mechanically coupled to the SPE-based bus system by means of the SPE-based connectors.

An instrument panel includes a frame defining an opening, a plurality of cards, and an HMI. The cards have a front face, a rear face, one or more circuits, and a data interface on the rear face in communication with the circuits. The cards include one or more first cards and one or more second cards. The first cards front face have a vertical dimension approximately equal to a vertical dimension of the opening. The second cards have a body, a nose projecting from the body defining the second cards front face, and a recess between the nose and body. The HMI includes a front face received within the opening. The first cards are positioned with the front face visible within the opening. The second cards are positioned with the nose visible within the opening and a depth of the HMI received within the recess.

Various embodiments disclosed herein relate to a building automation controller and related method and storage medium including a processor configured, through at least execution of a distributed computer program, to: receive sensor data generated by a sensor, wherein the sensor data is indicative of a state of a defined space, identify an action to be performed by a device to affect the state in accordance with an operating characteristic for the defined space, determine that the device is attached to a second controller of a plurality of additional controllers, and transmit to the second controller, an indication that the action is to be performed by the device, wherein: the distributed computer program is configured to be distributed among the processor and the plurality of additional controllers and, the processor is further configured to apportion work to be performed by the computer program between at least the additional controllers.

A data center provides containment walls of an operation technology (OT) interior compartment, such as a meet me room, positioned between cold and hot aisles in an information technology (IT compartment. The OT interior compartment limits air flow so that IT components outside of the OT interior compartment receive sufficient supply air for moderating or cooling a temperature of the IT components. Pressure differential is measured on an exterior and interior of door(s) to the OT interior compartment. Air flow regulation device(s) are positioned in a supply air passage to the OT interior compartment and/or in a return air passage out of the OT interior compartment are controlled to limit the pressure differential between an exterior and interior of the containment wall. Limiting the pressure differential ensures that door(s) facing the cold aisle are not difficult to open and door(s) facing the hot aisle are not difficult to close.

An interface circuit includes: a connector connectable to a PC; a communication circuit capable of generating a transmission signal to another electronic device; a first region that is set between the connector and the communication circuit to allow an electrical isolation device to be mounted therein; wiring lines used to connect the communication circuit and the connector to each other through the first region; and wiring lines used to connect the electronic circuit and the connector to each other through a region other than the first region.

An interface circuit includes: a connector connectable to a PC; a communication circuit capable of generating a transmission signal to another electronic device; a first region that is set between the connector and the communication circuit to allow an electrical isolation device to be mounted therein; wiring lines used to connect the communication circuit and the connector to each other through the first region; and wiring lines used to connect the electronic circuit and the connector to each other through a region other than the first region.