There is described a network distribution system using common communication and power comprising a power line, multiple fire alarm units, and a power line control device. The power line provides alternating current, and the fire alarm units are coupled to the power line. The power line control device is coupled to the power line and a particular fire alarm unit of the plurality of fire alarm units. The power line control device comprises a communication translator to convert between power line and non-power line protocols and a power line core to modulate signals to, and demodulate signals from, the power line.

There is described a network distribution system using common communication and power comprising a power line, multiple fire alarm units, and a power line control device. The power line provides alternating current, and the fire alarm units are coupled to the power line. The power line control device is coupled to the power line and a particular fire alarm unit of the plurality of fire alarm units. The power line control device comprises a communication translator to convert between power line and non-power line protocols and a power line core to modulate signals to, and demodulate signals from, the power line.

The current invention relates to a crew safety system for monitoring persons on a ship. The system comprising a plurality of wearables in a two way connection with at least one room module, said room module being in a two way connection with a central module. Said two way connection between each room module and the central module being provided by cabling of a fire safety system. The invention permits the monitoring of the status of a number of crew members and the environment they work in while being advantageously easy and inexpensive to install, run and operate.

The invention relates to alarm systems using wired and wireless transmission systems. A method for transmitting a signal from wired security sensors and/or fire annunciators is proposed, the method comprising wire-connecting the security sensor and/or fire annunciator to an input from a set of inputs of a signal transmission device, which comprises an analogue-to-digital converter that is coupled to a controller and a power supply unit. Each of the set of inputs of the signal transmission device is associated with an input zone from a set of the input zones. Information regarding the input zones and the inputs of the signal transmission device associated therewith is stored within a storage device that is coupled to the controller. The controller periodically receives wired connection resistance parameters for each input zone, and the received wired connection resistance parameters of the input zone are compared with predefined resistance parameters of this input zone, which are stored within said storage device. A status is assigned for each input zone depending on results of comparison of the received resistance parameters with the predefined resistance parameters, including an “alarm” status for the input zone that has the wired connection resistance parameters, which differ from the predefined resistance parameters. The controller forms a data packet comprising information regarding a status of each input zone, for which the wired connection of the security sensors and/or fire annunciators has been performed, as well as an information regarding an operation status of the signal transmission device. The formed data packet is sent via a radio module, which is coupled to the controller, to a central station that is configured at least to inform regarding a receipt of the “alarm” status. Also, a signal transmission device for implementation of the above-described method is proposed.

The invention relates to alarm systems using wired and wireless transmission systems. A method for transmitting a signal from wired security sensors and/or fire annunciators is proposed, the method comprising wire-connecting the security sensor and/or fire annunciator to an input from a set of inputs of a signal transmission device, which comprises an analogue-to-digital converter that is coupled to a controller and a power supply unit. Each of the set of inputs of the signal transmission device is associated with an input zone from a set of the input zones. Information regarding the input zones and the inputs of the signal transmission device associated therewith is stored within a storage device that is coupled to the controller. The controller periodically receives wired connection resistance parameters for each input zone, and the received wired connection resistance parameters of the input zone are compared with predefined resistance parameters of this input zone, which are stored within said storage device. A status is assigned for each input zone depending on results of comparison of the received resistance parameters with the predefined resistance parameters, including an “alarm” status for the input zone that has the wired connection resistance parameters, which differ from the predefined resistance parameters. The controller forms a data packet comprising information regarding a status of each input zone, for which the wired connection of the security sensors and/or fire annunciators has been performed, as well as an information regarding an operation status of the signal transmission device. The formed data packet is sent via a radio module, which is coupled to the controller, to a central station that is configured at least to inform regarding a receipt of the “alarm” status. Also, a signal transmission device for implementation of the above-described method is proposed.

An information handling system may include an air mover configured to drive a flow of air and a processing component communicatively coupled to the air mover for controlling operation of the air mover via a first wire configured to communicate analog air mover speed commands from the processing component to the air mover for controlling a speed of the air mover and a second wire configured to communicate analog tachometer information from the air mover to the processing component. At least one of the air mover and the processing component may be configured to initiate a mode for serial digital communication via the first wire and the second wire. The air mover and the processing component may be configured to communicate information to each other in accordance with a digital communication protocol via the first wire and the second wire during the mode for serial digital communication.

An information handling system may include an air mover configured to drive a flow of air and a processing component communicatively coupled to the air mover for controlling operation of the air mover via a first wire configured to communicate analog air mover speed commands from the processing component to the air mover for controlling a speed of the air mover and a second wire configured to communicate analog tachometer information from the air mover to the processing component. At least one of the air mover and the processing component may be configured to initiate a mode for serial digital communication via the first wire and the second wire. The air mover and the processing component may be configured to communicate information to each other in accordance with a digital communication protocol via the first wire and the second wire during the mode for serial digital communication.

Devices, systems, and methods for event device system operation are described herein. In some examples, one or more embodiments include a controller comprising a memory and a processor to execute instructions stored in the memory to transmit, to a plurality of event devices via a power line communications (PLC) protocol, a synchronization message according to a predetermined schedule to cause the plurality of event devices to synchronize timing of the plurality of event devices with the controller, transmit, to the plurality of event devices via the PLC protocol, a command according to the predetermined schedule, and receive, from the plurality of event devices via the PLC protocol, a response to the command according to the predetermined schedule.

An information handling system may include an air mover configured to drive a flow of air and a processing component communicatively coupled to the air mover for controlling operation of the air mover via a first wire configured to communicate analog air mover speed commands from the processing component to the air mover for controlling a speed of the air mover and a second wire configured to communicate analog tachometer information from the air mover to the processing component. At least one of the air mover and the processing component may be configured to initiate a mode for serial digital communication via the first wire and the second wire. The air mover and the processing component may be configured to communicate information to each other in accordance with a digital communication protocol via the first wire and the second wire during the mode for serial digital communication.

Methods, apparatuses, and systems for wildfire detection using power infrastructure are described. One or more aspects of the techniques described include determining (e.g., quantifying) the impact of wildfires on power structures and transmission line sensors. Determination of measurable changes in transmission line temperature and transmission line sag, that result from early onset fires, are used to detect heat events. Therefore, real-time monitoring of transmission line temperature and transmission line sag (e.g., using sensors that are already deployed in some power grid infrastructures) may efficiently detect the early onset of wildfires according to techniques described herein.