Microcontroller provisioning using acoustic signaling to provision code into on-board program storage.

A method includes identifying time values for a length of time to carry out process fluid delivery within multiple processing chambers that concurrently process multiple substrates; translating each time value to a recipe parameter for execution of an operation of a processing recipe; and causing the operation to be performed using each recipe parameter as a control value to control valves of a fluid panel of the multiple processing chambers. For each processing chamber of the multiple processing chambers: causing the process fluid to flow to the processing chamber for a first period of time corresponding to a first time value; and causing the process fluid to flow to a divert foreline of the processing chamber for a second period of time, the second period of time being based on a timestep of the operation and the time value.

A control circuit system for influencing at least one process variable includes a plurality of sensors which each detect at least one measurement variable, a plurality of actuators which each manipulate at least one control variable, wherein the sensors and actuators are each assigned electronic circuits for control, and at least one control mechanism which controls and/or coordinates each of the plurality of sensors and actuators by means of at least one control unit. The control circuit system is sub-divided into a plurality of sub-units which are each provided with at least one sensor, at least one actuator and at least one control unit, and for a plurality of the sub-units, in particular all of the sub-units, each to be set up to operate a control circuit system.

An oral appliance includes: (1) a salivary sensor module including multiple sensors responsive to levels of different salivary analytes, and configured to generate output signals corresponding to the levels of the different salivary analytes; (2) a wireless communication module; and (3) a micro-controller connected to the salivary sensor module and the wireless communication module, and configured to derive the levels of the different salivary analytes from the output signals and direct the wireless communication module to convey the levels of the different salivary analytes to an external device.

A set of configuration memory locations store configuration data for a microcontroller unit. A hardware monitoring module is coupled by an interconnection bus to the configuration memory locations. The hardware monitoring module reads from an instruction memory a command including an address of a target memory location in the set of configuration memory locations. Data is read from the target memory location corresponding to the address read and a checksum value is computed as a function of the data that is read from the target memory location. The computed checksum value is then compared to a respective expected checksum value stored in a checksum storage unit. An alarm signal is triggered in response to a mismatch detected between the computed checksum value and the respective expected checksum value.

A generic user interface for rapid application development on a stand-alone control platform. A user interface may be designed using generic menu methodology consisting of predefined tables, fonts, and templates, such that table entries and menu selections are made based on the platform. An example platform may be designed from function blocks from a function block engine. An application may be developed to run on the control platform (within the constraints of the hardware and function block engine), and a corresponding user interface may be automatically generated by populating the generic tables of the user interface methodology based on simple user input during placement of the function blocks, as an example.

Provided are systems, devices, and methods to calculate and display information pertaining to a space. Information pertaining to the space may include a number of one or more objects that are permitted to enter the space and a wait time to enter the space.

A method for cook time synchronization includes synchronizing a cook time in one of a plurality of cooking appliances to a user selected remaining cook time from one of the other of the plurality of cooking appliances. The method also includes: (1) transmitting, to the one of the plurality of cooking appliances, a remaining cook time from each of the other of the plurality of cooking appliances over a network; and/or (2) requesting, at the one of the plurality of cooking appliances, the remaining cook time from each of the other of the plurality of cooking appliances over the network in response to a user input at the one of the plurality of cooking appliances.

An equipment unit state controlling method and device, and an equipment unit. After receiving control data transmitted from a state controller, a unit controller detects whether the unit controller communicates with a display panel controller, in which the state controller transmits the control data to the unit controller and the display panel controller simultaneously. If the unit controller communicates with the display panel controller, the unit controller performs an operation on the equipment unit corresponding to instruction information transmitted from the display panel controller, and if the unit controller does not communicate with the display panel controller, the unit controller parses the control data by itself to obtain the parsing result and performs the operation on the equipment unit corresponding to the parsing result.

The present disclosure relates to systems and methods for protecting against and mitigating the effects of over-excitation of elements in electric power systems. In one embodiment, a system consistent with the present disclosure may comprise a point pair subsystem to receive a plurality of point pairs that define an over-excitation curve for a piece of monitored equipment. The system may receive a plurality of measurements corresponding to electrical conditions associated with the piece of monitored equipment. A logarithmic interpolation subsystem may determine a logarithmic interpolation corresponding to one of the plurality of measurements based on the plurality of point pairs. An over-excitation detection subsystem may detect an over-excitation condition based on the logarithmic interpolation, and a protective action subsystem may implement a protective action based on the over-excitation condition.