Home appliance controller related knowledge

Release Time:

2022-04-20 13:46

Home appliance controllers have logic controllers and micro-program controllers, each with advantages and disadvantages. Logic controller combination design is very troublesome, the structure is very complex, once the design is completed, it can not be modified and extended, but its speed is very fast. The microprogram control device is easy to design, simple in structure, easy to modify or expand, only need to modify the function of a mechanical instruction, re-edit the corresponding microprogram can be. Specifically, the combined logic controller, also known as the hardware wiring controller, consists of logic circuits that implement instructions entirely through hardware.

Home appliance controllers have logic controllers and micro-program controllers, each with advantages and disadvantages. Logic controller combination design is very troublesome, the structure is very complex, once the design is completed, it can not be modified and extended, but its speed is very fast. The microprogram control device is easy to design, simple in structure, easy to modify or expand, only need to modify the function of a mechanical instruction, re-edit the corresponding microprogram can be. Specifically, the combinational logic controller is also called a hardware wiring controller, and is composed of a logic circuit, and the function of the instruction is realized entirely by hardware.

The home appliance controller may have a structure in which all processors or servers are subjected to almost the same load. In an alternative embodiment of the invention, the size of the token bundle may be changed to adjust the load imbalance. The size of the token bundle may be dynamically controlled to account for the current load. In embodiments of the invention, tokens may be considered to be allowed. Thus, embodiments of the present invention implement a traffic model for allowing dynamic capacity. Embodiments of the present invention have been described in the context of a server used in an IMS system. It will be appreciated that embodiments of the invention are applicable to any aspect of a server.


The number of requests that the appliance controller can service may be limited. The server may implement a mechanism that protects the server from overload, such as a load balancing mechanism. The load balancing mechanism continuously measures the load rate and considers the load rate in routing decisions to prevent individual servers from being read by the load. Requiring too high a speed may result in an overload condition. These overload mechanisms are to address server overload. However, the available solutions do not consider limiting the number of requests to be processed.

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