A method by which a schedule preparing portion included in a substrate processing apparatus, having at least one single substrate processing unit and a controller, prepares a chronological schedule for operations of the substrate processing apparatus. The method includes a schedule preparation step of preparing a schedule for each substrate by positioning, in chronological order, a plurality of blocks, each specifying an operation to be performed on the substrate. The schedule preparation step includes a high load avoidance positioning step in which, in preparing a schedule for a plurality of substrates, blocks corresponding to a high load operation in which a high control load occurs at least temporarily in the controller are positioned on a time axis so that high load time slots, during which a high control load occurs in the controller, are not concentrated.

A method by which a schedule preparing portion included in a substrate processing apparatus, having at least one single substrate processing unit and a controller, prepares a chronological schedule for operations of the substrate processing apparatus. The method includes a schedule preparation step of preparing a schedule for each substrate by positioning, in chronological order, a plurality of blocks, each specifying an operation to be performed on the substrate. The schedule preparation step includes a high load avoidance positioning step in which, in preparing a schedule for a plurality of substrates, blocks corresponding to a high load operation in which a high control load occurs at least temporarily in the controller are positioned on a time axis so that high load time slots, during which a high control load occurs in the controller, are not concentrated.

Disclosed herein is a clothes treatment apparatus. The clothes treatment apparatus includes a drum configured to accommodate clothes, an inputter configured to receive one of a plurality of programs and configured to receive a start command, a storage configured to store information on a setting time corresponding to a weight of clothes for each program and configured to store information on a default time for each program previously executed, in the form of tables, a processor configured to detect a weight of clothes when any one program is received and a start command is received, configured to identify a setting time corresponding to the detected weight of clothes and the received program, configured to control the execution of the received program based on the identified setting time, and configured to store an operation time, which is taken until the completion of the received program, as a default time, and a display configured to display a remaining time during the execution of the received program.

The system comprises an electronic timer circuit in a housing. The system having an automatic voltage sensor, a handheld tool, and a tool storage location. The sensor eliminates the need for manual voltage selection. The handheld tool connects to the circuit via a USB cable and is storable about the housing. The tool processes data it receives from the circuit and displays various information to a user.

The system comprises an electronic timer circuit in a housing. The system having an automatic voltage sensor, a handheld tool, and a tool storage location. The sensor eliminates the need for manual voltage selection. The handheld tool connects to the circuit via a USB cable and is storable about the housing. The tool processes data it receives from the circuit and displays various information to a user.

A timing device is disclosed which is for controlling electronic devices and which is mounted in a wall switch box. This timing device comprises at least one controller, at least one transceiver in communication with the controller, at least one interface; and at least one cover plate. This device can also include at least one key coupled to the cover plates for interacting with the interface when said cover plate is inserted onto said at least one interface.

A timing device is disclosed which is for controlling electronic devices and which is mounted in a wall switch box. This timing device comprises at least one controller, at least one transceiver in communication with the controller, at least one interface; and at least one cover plate. This device can also include at least one key coupled to the cover plates for interacting with the interface when said cover plate is inserted onto said at least one interface.

A winch controller with automatic shut-off, and associated systems and methods are disclosed. A representative winch can include a frame, a cable drum carried by the frame, a drive motor connected to the cable drum, and a winch control module. The control module can include an enable/disable circuit having a normally open ground path connection and a controller having wireless capability. The controller can include instructions to start a shut-off timer when the ground path connection is completed for a non-zero period of time less than a threshold time period and instructions to reset the shut-off timer when the controller receives a control signal from a wireless remote control prior to the shut-off timer expiring. The controller can also include instructions to turn off the controller when the shut-off timer expires prior to receiving a control signal from the remote control or when the ground path is subsequently completed.

A winch controller with automatic shut-off, and associated systems and methods are disclosed. A representative winch can include a frame, a cable drum carried by the frame, a drive motor connected to the cable drum, and a winch control module. The control module can include an enable/disable circuit having a normally open ground path connection and a controller having wireless capability. The controller can include instructions to start a shut-off timer when the ground path connection is completed for a non-zero period of time less than a threshold time period and instructions to reset the shut-off timer when the controller receives a control signal from a wireless remote control prior to the shut-off timer expiring. The controller can also include instructions to turn off the controller when the shut-off timer expires prior to receiving a control signal from the remote control or when the ground path is subsequently completed.

A method by which a schedule preparing portion included in a substrate processing apparatus, having at least one single substrate processing unit and a controller, prepares a chronological schedule for operations of the substrate processing apparatus. The method includes a schedule preparation step of preparing a schedule for each substrate by positioning, in chronological order, a plurality of blocks, each specifying an operation to be performed on the substrate. The schedule preparation step includes a high load avoidance positioning step in which, in preparing a schedule for a plurality of substrates, blocks corresponding to a high load operation in which a high control load occurs at least temporarily in the controller are positioned on a time axis so that high load time slots, during which a high control load occurs in the controller, are not concentrated.