Abstract:
An image forming apparatus connectable to multiple hosts includes a plurality of USB interfaces to connect with the respective multiple hosts to receive job request data for image forming jobs requested by the multiple hosts; a driver module to process the job request data received via the respective multiple USB interfaces; a USB data manager to generate job data that corresponds to each of types of the requested image forming jobs by using the processed job request data; and a main controller to control the image forming apparatus to perform the image forming jobs based on the generated job data.
Abstract:
A multimedia device for effectively managing power consumption thereof based on a handle that is used when moving the multimedia device is provided. The multimedia device includes a display, a handle attached to the multimedia device, a sensor for sensing the state of the handle, a power supplier, and a controller configured to block power being supplied to the display, when a sensing value of the sensor indicates a state in which the handle is used.
Abstract:
An electronic device which has a self diagnosis function and a self diagnosis method using the same are provided. The electronic device includes: an interface which receives a user's selection signal for a hardware of an object to be diagnosed; and a controller which provides a plurality of lines connected to the hardware of the object to be diagnosed with a signal for diagnosis according to the selection signal which is received through the interface and calculates a diagnosis result for the hardware of diagnosis object according to a comparison result of the signal for diagnosis with a return signal which is returned from the hardware of the object to be diagnosed by a loop-back.
Abstract:
An image processing apparatus includes a chipset unit which processes data; a connector which includes a plurality of terminals, and is configured to connect with a cable so that the chipset unit can transmit and receive a signal to and from an external device; a switching unit which supplies power to the external device through a first terminal of the connector, and selectively controls a switching operation regarding whether or not to supply power to the first terminal on the basis of a signal state of a second terminal of the connector when the cable is connected to the connector. A control method of the image processing apparatus is also disclosed.
Abstract:
An image processing apparatus includes a chipset unit which processes data; a connector which includes a plurality of terminals, and is configured to connect with a cable so that the chipset unit can transmit and receive a signal to and from an external device; a switching unit which supplies power to the external device through a first terminal of the connector, and selectively controls a switching operation regarding whether or not to supply power to the first terminal on the basis of a signal state of a second terminal of the connector when the cable is connected to the connector. A control method of the image processing apparatus is also disclosed.
Abstract:
Provided are an electronic device that interoperates with an external electronic device in association with an application, and a method therefor. To this end, an application-related interoperation method by an electronic device may include: receiving a file associated with at least one function performed in an application of an external electronic device from the external electronic device; storing the received file in a platform; recording, in the platform, data associated with an application executed in the electronic device; and executing the data using the at least one function of the external electronic device.
Abstract:
An image processing apparatus and image processing method thereof are disclosed. The image processing apparatus includes a first image processor which includes a memory, performs a first signal processing on image data, and stores the first signal processed image data in the memory; a second image processor which directly accesses the memory and receives the stored image data, and performs a second signal processing on the received image data; and an image outputter which outputs the image data on which the second signal processing has been performed. Accordingly, only actual image data area is received, reducing data transmission volume, reducing signal transmission lines, securing CPU resources, and improving timing errors. In addition, it is possible to remove an image transmitter such as an additional low voltage differential signaling (LVDS) block, making the image processing apparatus thinner and smaller.