A test system is provided. The test system includes a teat board provided with a near filed communication chip and including an antenna; a tag holding apparatus including first and second tag holders accommodating first and second NFC tags, respectively, and a first controller configured to adjust a position of each of the first and second tag holders; and a second controller configured to: transmit a first test signal to the test board to perform a first communication test for the NFC chip and the first NFC tag; receive a result of the first communication test; and determine whether or not the NFC chip normally reads first data stored in the first NFC tag. The first controller is configured to place the first NFC tag and the antenna to be spaced apart from each other by a first distance based on a type of the first NFC tag and face each other, and rotate the first and second tag holders when the first communication test is completed.

The present invention is to provide a media processing apparatus for enabling a plurality of discharge sections disposed one side of the apparatus to be disposed parallel inside saved space, the media processing apparatus is provided with a plurality of discharge sections (correct card discharge section and error card discharge section) disposed on one side of an apparatus housing, and a discharge member (card reverse section) that discharges a card C to each discharge section. In such a card processing apparatus, a width dimension (length dimension in the discharge direction of the card) of a discharge stacker of the first card discharge section is wider than a width dimension of the card C, and a width dimension of a frame body of the error card discharge section is narrower than the width dimension of the card C.

An improved system and method for reflecting light includes a first light conduit and a first light source. The first light conduit has a first opening at a first end, a second opening at a second end opposite the first end, and a side opening between the first opening and the second opening. The first light source outputs a first light that initially enters the first light conduit through the side opening, reflects off the first light conduit, and exits the first light conduit through the first opening, where a second light exits the first light conduit through the second opening. The second light may be provided by a second light source that output the second light that initially enters the first light conduit through a second side opening.

The invention provides a two-sided auxiliary structure for induction cards, which comprises: a metal shield layer; and two high-conductivity magnetic layers, which are respectively set on two opposite sides of the metal shield layer, wherein the area of the metal shield layer is greater than those of the two high-conductivity magnetic layers. The two-sided auxiliary structure for induction cards of the invention improves the problem of poor induction success rate of plural induction cards.

A method for manufacturing a magnetic core module in a magnetic head, the magnetic core module and the magnetic head. The method for manufacturing the magnetic core module includes: a process for placing a magnetic core group in a holder mold cavity as an insert; and a process for injection-molding in the holder mold cavity. A method for manufacturing the magnetic core module allows the magnetic core group and the holder to be integrally injection-molded with a method of injection molding which uses the magnetic core group as an insert. The method simplifies the process of manufacturing a magnetic head to improve production efficiency, and saves labor and production costs. Further, the method prevents failures such as positional displacement and scattering of magnetic cores, which tends to occur when assembling thin and small magnetic cores, and ensures an ideal yield for a product.

A card reader may include a card insertion port; a card passage; and a disturbing magnetic field generator. The disturbing magnetic field generator may include a first disturbing magnetic field generation part and a second disturbing magnetic field generation part which are disposed so as to interpose the card passage. The first disturbing magnetic field generation part may include a first core formed of magnetic material and a coil wound around the first core, and the second disturbing magnetic field generation part may include a second core formed of magnetic material and a coil wound around the second core.

An improved system and method for data card emulation involves a portable electronic device that can emulate any one of multiple data cards corresponding to multiple entities. The portable electronic device includes a memory for storing data card information corresponding to data cards of the multiple entities, a radio frequency interface for identifying an entity and conveying information supporting a transaction between the entity and a user of the portable electronic device, a processor for retrieving from the memory a data card information of a data card of the identified entity used by the processor to support the transaction, and a touch screen display that displays information about the transaction.

A magnetic stripe reader including a base element defining a first spring seat, a magnetic module support element arranged for limited pivotable motion relative to the base element and defining a second spring seat, a generally truncated conical spring having a first, relatively large diameter end seated in the first spring seat and a second, relatively small diameter end seated in the second spring seat and a magnetic module fixedly mounted onto the magnetic module support element.

An information transmitter includes a transmitting coil configured to receive a coil voltage to generate a magnetic field; and a signal generator configured to receive a direct current (DC) voltage and operating switches to apply the coil voltage to the transmitting coil, for a first time constant in a first current path, wherein the coil voltage includes a first value, and for a second time constant in a second current path, wherein the coil voltage includes a second value smaller than the first value, and wherein the first time constant and second time constant are different from each other.

The invention relates to a device (10) for reading a magnetic stripe and/or chip card comprising a card reader (16) for reading out data from the magnetic stripe and/or chip card, said card reader having a transport path (14) along which the magnetic stripe and/or chip card is moved when it is inserted into the card reader (16) and/or when it is removed from the card reader (16) and/or is received during the readout of data. Further, the device (10) has an image capturing unit (20) for capturing images of the card reader (16), the card reader (16) being designed such that by means of images captured by the image capturing unit (16) it can be detected whether a skimming module is inserted into the transport path (14) of the card reader (16).