WIRELESS THERMAL PRINTHEAD SYSTEM AND METHOD

FIELD OF THE INVENTION

The present invention relates to thermal imaging systems. In particular, the disclosed embodiments relate to systems and methods for receiving power and/or data wirelessly at a thermal printhead.

BACKGROUND

Generally speaking thermal printheads (TPHs) need a power cable to deliver power to operate. TPHs also typically combine the power cable with a data cable which functions as a data transfer between a computer processing unit (CPU) and TPH as shown in FIG. 1. Therefore, a need exists for a wireless TPH so that the printer can run without using a power cable or data cable.

SUMMARY

Accordingly, in one aspect, the present invention embraces wirelessly transmitting power and/or data remotely to a thermal printhead.

In an exemplary embodiment, there is an imaging system for printing on a recordable medium comprising: a thermal printhead mounted on a platform and capable of printing on the recordable medium; and a power receiver coil housing mounted on the platform and capable of receiving wireless power.

In another exemplary embodiment, there is an imaging system for printing on a recordable medium comprising: a thermal printhead mounted on a platform and capable of printing on a movable recordable medium; and a data receiver housing having an antenna capable of receiving wireless signals to control the operation of the thermal printhead.

In yet another exemplary embodiment, there is provided a method of receiving wireless power for operation of a thermal printhead comprising: receiving power wirelessly at a power receiving coil in a power receiver coil housing from an alternating magnetic field; and providing direct current power from the power receiver coil housing to a thermal printhead to enable printing on a recordable medium.

The foregoing illustrative summary, as well as other exemplary objectives and/or advantages of the invention, and the manner in which the same are accomplished, are further explained within the following detailed description and its accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 schematically depicts a prior art current thermal printhead with data and power cables.

FIG. 2 shows a schematic view of an example of a thermal printhead used in the embodiments disclosed herein.

FIGS. 3A and 3B schematically depict a thermal printhead powered by an inductive coil.

FIGS. 4A and 4B schematically depict a thermal printhead capable of wirelessly receiving data.

FIG. 5 schematically depicts an alternative embodiment of the thermal printhead in which the inductive coil is contained in the same housing as the wireless data receiver.

DETAILED DESCRIPTION

All TPHs need a power and data cables to deliver energy and data to the TPH to print as shown in FIG. 1. The data cable in a thermal printer can be quite long and wide and for the case of an industrial thermal printer it can be close to 50 centimeters (cm). This causes at least two problems. First, a lot of space has to be designed to fit the cable in. Second, the signal to the TPH can be weak and interfered with by noises along the path. Similarly, a thermal printhead has a power cable, which drives the TPH to print at a specific speed and density. The power cable can also be up to 50 cm long for an industrial model thermal printer so certain space has to be kept to route the power cable as well. Due to these cables taking up space in the printer it can also be quite troublesome to change the TPH given the space constraints, especially for a printer with a small footprint. The TPH is also susceptible to external noise, which may interfere with the circuit along the cable path. With a wireless TPH, a printer can run without using a power or data cable. This has the benefit of shrinking the printer size, increasing durability as there is no more requirement to plug and unplug the power and/or data cable to the TPH, and improve TPH replacement and repair by saving TPH assembly space occupied in a thermal printer.

FIG. 2 shows a schematic view of a thermal printhead for use in an imaging system (e.g., printer) that may be used in the embodiments of this disclosure. The illustrated thermal printhead 200 includes a heating resistor array 202, a substrate 204, a control section 206, a connector 208, a drive integrated circuit (IC) array 210, and a thermistor 212. The substrate 204 is made of an insulating material such as ceramic and is rectangular for example. The drive IC array 210 and thermistor 212 may be arranged on. a printed circuit board or flex circuit that are mounted on substrate 204. The elongated heating resistor array 202 is also formed on substrate 204 and. is connected with the thermal printer's control section. 206 via a connector 208. The heating resistor 202 is also connected with a plurality of electrodes (not shown). These electrodes may be equally spaced along the heating resistor 202, allowing the divided portions (heating dots) of the heating resistor 202 to be energized selectively. The drive IC array 210 provides control over the printing operation through the selective power application to the heating resistor array 202 via the electrodes described above. The control section 206 sends signals necessary for performing the printing operation to drive IC array 210. These signals include, for example, a printing data signal, a clock signal, a latch signal and a strobe signal. The drive IC array 210 has a strobe signal terminal 210a, to which the strobe signal is sent via a strobe signal terminal 208a of the connector 208. The strobe signal determines a duration of time for the heating resistor 202 to be energized. While the strobe signal assumes HIGH level, the drive IC array 210 makes power available selectively to the heating resistor 202. The substrate 204 provided with a thermistor 212. The thermistor 212 is connected with the thermal printer's control section 206 via a thermistor terminal 208b of the connector 208. The connector 208 establishes an electrical connection between the thermal printhead and the thermal printer. The control section 206 obtains information on the temperature of the substrate 204 based on a resistance value of the thermistor 212. If the thermistor 212 gives an extremely small resistance value (meaning that the substrate 204 is at an abnormally high temperature), the control section 206 may stop sending printing commands to the drive IC 210 in order to prevent the thermal printhead 200 from operating abnormally or being damaged.

FIG. 3A shows a wireless TPH powered by an inductive coil. In FIG. 3A, TPH 200 is engaged with rotatably driven platen roller 302 which supports and guides a recording material (e.g., paper) (not shown) overlaid with a ribbon (also not shown). TPH 200 is mounted on platform 303. The speed of the drum 302 is timed to be slow enough to allow heat to penetrate the recording material and fast enough so that the recording material doesn't overheat. The recording layer of the recording web material intimately contacts the ribbon, which is in turn in contact with TPH 200. Through this process, electricity heats the small elements which melts the wax (or resin) which comes off the ribbon and sticks to the recording web material. Instead of being powered by a cable, TPH 200 receives power from a proximate power supply and control 304. A direct current (DC) power source (e.g., Mains) 305 is converted into high frequency Alternating Current (AC) by transmitter electronics inside power supply and control housing 304 (also called a transmitting coil housing). The power supply and control housing provides a control function such as frequency at the power supply side. The high frequency AC flows into transmitting inductive coil (or inductive coils) 304a which generates an oscillating magnetic field which provides power across air gap 306. Energy from the magnetic field induces AC in the receiver coil 308a located in receiver coil housing 308 also mounted on platform 303. The power typically may operate in a range of approximately 400 to 500 Watts. The distance between the transmitter coil and receiver coil housing is up to approximately 200 millimeters. In general the distance should be minimized to maintain higher efficiency. Receiver coil housing 308 is shown in greater detail in block diagram form in FIG. 3B. The wirelessly provided AC is converted back into DC by receiver electronics 308b in housing 308 and provided to the electronics of the TPH 200. Receiver electronics 308b may include a rectifier, filter, voltage regulator, capacitors and the like. By using inductive coils 304a, 308a at both the thermal printhead 200 and power supply 304, the energy can be transferred through electromagnetic field 306.

In an alternative embodiment illustrated by FIG. 4A, a data receiver housing 400 may also be mounted on the platform 303 with TPH 200 and receiver coil housing 308. The housing 400 may be integrated with housing 308 or be in a separate housing. (In an alternative embodiment, the receiver coil housing 308 may be removed and the TPH 200 can receive its power through a standard power cable while the data is received wirelessly). As shown in FIG. 4B, data receiver housing 400 contains a wireless antenna 400a capable of receiving wireless data transfer signal 402 sent from a transmitter/receiver 404 located proximate to the TPH 200. The data receiver housing 400 also contains electronic components 400b to process signal 402 and the electronic components may include an amplifier, detector, filter, oscillator and the like. Data receiver housing 400 is hardwired to thermal printhead 200 to provide data and control information. In an alternative embodiment, data receiver housing 400 also might contain a transmitter (i.e., a transceiver) to send wireless updates on the state of TPH 200 to transmitter/receiver 404. Transmitter/receiver 404 includes an antenna 404a and electronic components 404b capable of transmitting (and receiving) wireless signals. These electronic components may include an amplifier, detector, filter, oscillator and the like. Wireless signal 402 may be WiFi™, Bluetooth™, or any short-range or long-range over-the-air signal communication. Data received by the data receiver housing 400 may be commands for the TPH 200 and/or information to be printed on the recording material. The data sent by the housing 400 to transmitter/receiver 404 may include wireless authentication information to prevent a counterfeit thermal printhead from being used in the printer. In case a counterfeit printhead is being used, the transmitter/receiver 404 will stop forwarding data to housing 400 and the TPH 200.

FIG. 5 illustrates an alternative embodiment having inductance coils 308a and associated electronics 308b combined with wireless data receiver antenna 400a and its associated electronics 400b in the same housing 500 and on the same platform 303. In this embodiment there would be electromagnetic shielding 502 located between the power electronics and the data electronics to minimize interference.

Advantages of the embodiments disclosed herein include the following. First, the disclosed embodiments save thermal printhead space in thermal printers and allow for the shrinking of the printer. Second, there will be no need to plug and unplug the TPH 200 so there is no connector wear and tear and thus increase durability. Third, it will also make a thermal printhead change a hassle free job and increase user convenience.

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U.S. Patent Application Publication No. 2015/0053769;
U.S. Patent Application Publication No. 2015/0060544;
U.S. Patent Application Publication No. 2015/0062366;
U.S. Patent Application Publication No. 2015/0063215;
U.S. Patent Application Publication No. 2015/0063676;
U.S. Patent Application Publication No. 2015/0069130;
U.S. Patent Application Publication No. 2015/0071819;
U.S. Patent Application Publication No. 2015/0083800;
U.S. Patent Application Publication No. 2015/0086114;
U.S. Patent Application Publication No. 2015/0088522;
U.S. Patent Application Publication No. 2015/0096872;
U.S. Patent Application Publication No. 2015/0099557;
U.S. Patent Application Publication No. 2015/0100196;
U.S. Patent Application Publication No. 2015/0102109;
U.S. Patent Application Publication No. 2015/0115035;
U.S. Patent Application Publication No. 2015/0127791;
U.S. Patent Application Publication No. 2015/0128116;
U.S. Patent Application Publication No. 2015/0129659;
U.S. Patent Application Publication No. 2015/0133047;
U.S. Patent Application Publication No. 2015/0134470;
U.S. Patent Application Publication No. 2015/0136851;
U.S. Patent Application Publication No. 2015/0136854;
U.S. Patent Application Publication No. 2015/0142492;
U.S. Patent Application Publication No. 2015/0144692;
U.S. Patent Application Publication No. 2015/0144698;
U.S. Patent Application Publication No. 2015/0144701;
U.S. Patent Application Publication No. 2015/0149946;
U.S. Patent Application Publication No. 2015/0161429;
U.S. Patent Application Publication No. 2015/0169925;
U.S. Patent Application Publication No. 2015/0169929;
U.S. Patent Application Publication No. 2015/0178523;
U.S. Patent Application Publication No. 2015/0178534;
U.S. Patent Application Publication No. 2015/0178535;
U.S. Patent Application Publication No. 2015/0178536;
U.S. Patent Application Publication No. 2015/0178537;
U.S. Patent Application Publication No. 2015/0181093;
U.S. Patent Application Publication No. 2015/0181109;

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In the specification and/or figures, typical embodiments of the invention have been disclosed. The present invention is not limited to such exemplary embodiments. The use of the term “and/or” includes any and all combinations of one or more of the associated listed items. The figures are schematic representations and so are not necessarily drawn to scale. Unless otherwise noted, specific terms have been used in a generic and descriptive sense and not for purposes of limitation.

Although process (or method) steps may be described or claimed in a particular sequential order, such processes may be configured to work in different orders. In other words, any sequence or order of steps that may be explicitly described or claimed does not necessarily indicate a requirement that the steps be performed in that order unless specifically indicated. Further, some steps may be performed simultaneously despite being described or implied as occurring non-simultaneously (e.g., because one step is described after the other step) unless specifically indicated. Where a process is described in an embodiment the process may operate without any user intervention.

	Number	Date	Country
Parent	15209795	Jul 2016	US
Child	15606253		US

WIRELESS THERMAL PRINTHEAD SYSTEM AND METHOD

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