Patent application number | Description | Published |
20110062540 | SOLID-STATE IMAGE SENSOR AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a solid-state image sensor includes a semiconductor substrate including a first surface on which light enters, and a second surface opposite to the first surface, a pixel region formed in the semiconductor substrate, and including a photoelectric conversion element which converts the incident light into an electrical signal, a peripheral region formed in the semiconductor substrate, and including a circuit which controls an operation of the element in the pixel region, a plurality of interconnects which are formed in a plurality of interlayer insulating films stacked on the second surface, and are connected to the circuit, and a support substrate formed on the stacked interlayer insulating films and the interconnects. An uppermost one of the interconnects formed in an uppermost one of the interlayer insulating films is buried in a first trench formed in the uppermost interlayer insulating film. | 03-17-2011 |
20120119271 | SOLID-STATE IMAGING DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a solid-state imaging device includes an imaging region including unit pixels which are two-dimensionally arranged on a semiconductor layer and each of which includes a photoelectric conversion unit and a signal scanning circuit unit. The unit pixel includes a transfer gate provided on the semiconductor layer, a photogate provided on the semiconductor layer, a first semiconductor layer of a first conductivity type, which is provided in the semiconductor layer below the photogate, and a second semiconductor layer of the first conductivity type, which is adjacent to the first semiconductor layer and provided in the semiconductor layer between the transfer gate and the photogate. | 05-17-2012 |
20130234214 | SOLID-STATE IMAGING DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a solid-state imaging device includes a semiconductor substrate, a photodiode provided in the semiconductor substrate and including a first conductivity type semiconductor layer, a shield layer provided on the photodiode, an upper portion or entirety of the shield layer being constituted of a second conductivity type semiconductor layer, and a transfer transistor provided on the semiconductor substrate to transfer charges stored in the photodiode to a floating diffusion region. An upper surface of the shield layer is higher than an upper surface of the semiconductor substrate. | 09-12-2013 |
Patent application number | Description | Published |
20100328192 | IMAGE DISPLAY ELEMENT AND MANUFACTURING METHOD THEREOF - An image display element includes: a front panel; a back panel opposite to the front panel; a plurality of pixels arranged in a matrix between both the panels, and to be selected to be in a display or non-display state; and plural electrodes for controlling the pixels. Both the panels are bonded together with the pixels and the electrodes interposed therebetween, and the electrodes are connected to a driving control circuit via metal wires. The back panel is divided such that electrode terminals connected to the electrodes are exposed between adjacent plural pixel lines, and a groove part having a shape wider at the top on the back side of the opposing surface from the front panel than at the bottom is formed at the divided portion. The metal wires are connected to the exposed electrode terminals of the groove part. | 12-30-2010 |
20100328193 | IMAGE DISPLAY ELEMENT AND MANUFACTURING METHOD THEREOF - An image display element includes: a front panel; a back panel opposite thereto; a plurality of pixels arranged between both the panels; and plural electrodes for controlling the pixels. The panels are bonded with the pixels and the electrodes interposed therebetween, and the electrodes are connected to a driving circuit via metal film wires. The back panel is divided so as to expose electrode terminals, and a groove part V-shaped in cross section is formed at the divided portion. The metal film wires are formed on the top surface of the back panel, and the electrode terminals and the metal film wires are connected by a conductive paste coated along the tilt surfaces forming the groove part. Partitions are disposed between the adjacent electrode terminals at the bottom of the groove part. | 12-30-2010 |
20100328921 | IMAGE DISPLAY ELEMENT AND MANUFACTURING METHOD THEREOF - An image display element includes: a front panel; a back panel opposite thereto; plural pixels arranged in a matrix between the panels; and plural electrodes for controlling the pixels. The panels are bonded with the pixels and the electrodes interposed therebetween. The electrodes are connected to a driving circuit via metal film wires. The back panel is divided so as to expose electrode terminals, and a groove part V-shaped in cross section is formed at the divided portion. The metal film wires are formed on the top surface of the back panel, and the electrode terminals and the metal film wires are connected by a conductive paste coated along the tilt surfaces forming the groove part. A contact resistance reducing means is disposed at the connection part interface between the electrode terminal and the conductive paste. | 12-30-2010 |
20100330862 | METHOD FOR MANUFACTURING IMAGE DISPLAY ELEMENT - A method for manufacturing an image display element including: a front panel; a back panel facing the front panel; plural pixels arranged in a matrix between the panels, and to be selected to be in a display or non-display state; and plural electrodes for controlling the pixels, the panels being bonded with the pixels and the electrodes interposed therebetween, and the electrodes being connected to a driving control circuit via metal wires, includes a first step of performing dicing from the back side of the opposing surface from the front panel, and forming a groove part such that electrode terminals connected to the electrodes are exposed between adjacent plural pixel lines, with the back panel bonded thereto, and a second step of forming the metal wires so as to be connected to the electrode terminals exposed at the groove part. | 12-30-2010 |
20120309253 | METHOD FOR MANUFACTURING IMAGE DISPLAY ELEMENT - A method for manufacturing an image display element including: a front panel; a back panel facing the front panel; plural pixels arranged in a matrix between the panels, and to be selected to be in a display or non-display state; and plural electrodes for controlling the pixels, the panels being bonded with the pixels and the electrodes interposed therebetween, and the electrodes being connected to a driving control circuit via metal wires, includes a first step of performing dicing from the back side of the opposing surface from the front panel, and forming a groove part such that electrode terminals connected to the electrodes are exposed between adjacent plural pixel lines, with the back panel bonded thereto, and a second step of forming the metal wires so as to be connected to the electrode terminals exposed at the groove part. | 12-06-2012 |
Patent application number | Description | Published |
20100273974 | POLYIMIDE RESIN COMPOSITION, POLYIMIDE PRECURSOR RESIN COMPOSITION FOR THE SAME, PRODUCTION METHOD THEREOF, AND POLYIMIDE FILM AND PRODUCTION METHOD THEREOF - An object of the present invention, which was made to solve the problems above, is to provide a polyimide precursor resin composition superior in transparency allowing reduction of the residual volatile material rate during molding and giving a polyimide resin composition (e.g., polyimide film) superior in mechanical properties and transparency even when a cheaper polyamide-imide is used. The present invention relates to a polyimide precursor resin composition, comprising a polyamide-imide (A) containing a diamine monomer unit represented by the following formula (1) and a polyamic acid (B) containing at least one kind of monomer unit selected tetracarboxylic acid monomer units represented by the following formulae (2p) to (2r), wherein the haze of the film having a thickness of 40 μm obtained by imidation of the polyimide precursor resin composition is 4% or less: | 10-28-2010 |
20120096942 | ANGULAR VELOCITY SENSOR AND SYNCHRONOUS DETECTION CIRCUIT USED THEREIN - In an angular velocity sensor, an upper electrode of a first piezoelectric element and a lower electrode of a second piezoelectric element are connected to an input terminal of a first Q/V conversion circuit, and a lower electrode of the first piezoelectric element and an upper electrode of the second piezoelectric element are connected to an input terminal of a second Q/V conversion circuit. Thus, vibration noise components of the quantities of charge generated at the first and second piezoelectric elements are cancelled out, and Coriolis components of the quantities of charge generated at the first and second piezoelectric elements are added, whereby only the Coriolis components are extracted. | 04-26-2012 |
20120118068 | Semiconductor Pressure Sensor, Pressure Sensor Apparatus, Electronic Equipment, and Method of Manufacturing Semiconductor Pressure Sensor - A semiconductor pressure sensor ( | 05-17-2012 |
20120206414 | MOBILE DEVICE - Disclosed is a mobile device comprising an acceleration detection unit for detecting acceleration relative to the device; a condition identification unit; and a power supply controller which determines, from a combination of the output of the acceleration detection unit and the output of the condition identification unit, whether or not to begin to supply power to the device. | 08-16-2012 |
20120229613 | CONTROL SYSTEM, CONTROL DEVICE, IMAGE SYSTEM, EYEGLASSES, AND IMAGE DISPLAY DEVICE - Technology for controlling image display according to the state of a viewer wearing eyeglasses to view 3D images is provided. When an inclined angle of eyeglasses is in a predetermined range, an image display device alternately displays a left-eye image and a right-eye image. When the inclined angle of the eyeglasses exceeds the predetermined range, the image display device does not switch the left-eye image with the right-eye image. For example, the image display device displays 2D images. Optical shutters of the eyeglasses are synchronized with the left-eye image and the right-eye image. When the image display device does not switch the left-eye image with the right-eye image, the optical shutters are both open. | 09-13-2012 |
20120298152 | Substrate Processing Apparatus And Substrate Processing Method - A substrate processing apparatus comprises a substrate holding mechanism, a process liquid supplying mechanism supplying a process liquid, a first guide portion around the substrate holding mechanism having an upper edge portion extending toward the rotation axis for guiding scattered process to flow down, a second guide portion provided around the substrate holding mechanism outside the first guide portion and having an upper edge portion extending toward the rotation axis as vertically overlapping with the upper edge portion of the first guide portion for further guiding the scattered process liquid to flow down, a recovery channel provided outside and integrally with the first guide portion for recovering the process liquid guided by the second guide portion, and a driving mechanism for moving up and down the first guide portion and the second guide portion independently of each other. | 11-29-2012 |
20140311249 | Semiconductor Pressure Sensor, Pressure Sensor Apparatus, Electronic Equipment, and Method of Manufacturing Semiconductor Pressure Sensor - A semiconductor pressure sensor ( | 10-23-2014 |
20150084904 | Mobile Device - Disclosed is a mobile device comprising an acceleration detection unit for detecting acceleration relative to the device; a condition identification unit; and a power supply controller which determines, from a combination of the output of the acceleration detection unit and the output of the condition identification unit, whether or not to begin to supply power to the device. | 03-26-2015 |
Patent application number | Description | Published |
20090085959 | Liquid ejecting apparatus and raster line forming method - An increase in the width in the first direction of the head unit is controlled and deterioration in image quality is curbed as well. A liquid ejecting apparatus according to the invention is a liquid ejecting apparatus including: a head unit that has a plurality of heads along a first direction, in which a plurality of nozzles that eject a liquid onto a medium are lined up in the first direction, and that ejects the liquid while moving relative to the medium in a second direction, which intersects the first direction, the head unit having a width in the first direction that is greater than a width of the medium in the first direction, a movement mechanism that makes the head unit move relative to the medium a plurality of times alternately in the second direction and the first direction, and a control section that forms a raster line group by forming each raster line by making two or more different nozzles that are different eject the liquid, respectively while making the movement mechanism move the head unit relative to the medium a plurality of times alternately in the second direction and the first direction, makes the movement mechanism move the head unit relatively so that a total amount of movement of the head unit in the first direction when the head unit has moved relatively the plurality of times is less than an effective nozzle width of one of the heads in the first direction, and forms the raster line group so that a number of the raster lines formed by making the nozzles of only one of the heads eject the liquid is not greater than a number of the raster lines formed by making the nozzles of two or more of the heads eject the liquid. | 04-02-2009 |
20090115805 | Liquid ejecting apparatus and image forming method - A liquid ejecting apparatus includes a head unit, a movement mechanism, and a control section. The head unit has along a first direction a plurality of heads, in which a plurality of nozzles that eject a liquid onto a medium are lined up in the first direction, and the head unit forms a single raster line by ejecting the liquid while performing m number of movements relative to the medium in a second direction, which intersects the first direction. A width of the head unit in the first direction is greater than a width of the medium in the first direction. The movement mechanism causes the head unit to perform a plurality of movements relative to the medium alternately in the second direction and the first direction. The control section forms an image having a resolution that is n times a pitch of the nozzles, by forming a plurality of the raster lines by the plurality of relative movements of the head unit. Further, the control section sets a total movement amount of the head unit in the first direction when the head unit performs the plurality of relative movements, larger than an effective nozzle width of one of the heads in the first direction multiplied by (m×n−1), and smaller than the effective nozzle width×(m×n). Furthermore, the control section forms the image by setting respective movement amounts of the head unit in the first direction when the head unit performs the plurality of relative movements, larger than the effective nozzle width. | 05-07-2009 |
20090122108 | Liquid ejecting apparatus and transport method - A liquid ejecting apparatus has a head, a transport mechanism, a memory, and a controller. The head ejects a liquid. The transport mechanism transports a medium in a transport direction with respect to the head in accordance with a target transport amount that is targeted. The memory stores a plurality of correction values, each of the correction values being associated with a relative position between the head and the medium, a range of the relative position to which that correction value is to be applied being associated with that correction value. In the case where a transport using the target transport amount is performed beyond the range of the relative position associated with the correction value that is associated with the relative position before the transport, the controller corrects the target transport amount based on the correction value associated with the relative position before the transport and the correction value associated with the relative position after the transport. | 05-14-2009 |
20090237689 | Concentration correcting method - A concentration correcting method includes: forming N test patterns at different positions in a moving direction by repeatedly performing a dot line forming process of forming a dot line in a line region on a test medium in which a plurality of unit areas is arranged in the moving direction by ejecting liquid from nozzles direction and a transport process of transporting the test medium in a transport direction; performing on the N test patterns a process of calculating a concentration correction value, which is used to correct concentrations of the unit areas in a print image; and correcting the concentrations of the unit areas in the print image by the use of interpolated correction values obtained using a linear interpolation method, two concentration correcting values acquired from the two test patterns, and positions of the unit areas in the moving direction. | 09-24-2009 |
20090278882 | Method of calculating correction value, method of ejecting liquid, and liquid ejecting apparatus - A method of calculating a correction value includes: forming a test pattern by ejecting a liquid by a liquid ejecting apparatus, which has a first nozzle row in which a plurality of nozzles ejecting the liquid to a medium are arranged in a predetermined direction and a second nozzle row in which a plurality of nozzles ejecting the liquid to the medium are arranged in the predetermined direction, the second nozzle row being disposed so that an end portion on one side thereof in the predetermined direction overlaps with an end portion on the other side of the first nozzle row in the predetermined direction, to an area of the medium corresponding to certain pixel data on the basis of the certain pixel data from first nozzles belonging to the end portion on the other side of the first nozzle row and second nozzles belonging to the end portion on the one side of the second nozzle row; acquiring a read-out gray scale value by allowing a scanner to read-out the test pattern; and calculating a correction value used to correct the pixel data corresponding to the area to which the liquid is ejected from the first and the second nozzles on the basis of the read-out gray scale value. | 11-12-2009 |
20100245441 | FLUID EJECTING APPARATUS AND METHOD OF CORRECTING PIXEL DATA - A fluid ejecting apparatus and a method for correcting pixel data are disclosed. The fluid ejecting apparatus includes a nozzle line having nozzles which eject fluid onto a medium and are lined up in a predetermined direction; a moving mechanism relatively moving the nozzle line and the medium in a direction intersecting the predetermined direction; and a control unit that ejects the fluid from the nozzle line while relatively moving the nozzle line and the medium in the intersecting direction by using the moving mechanism, based on pixel data of the predetermined number of gradations according to certain kinds of dots which can be formed by the fluid ejected from the nozzles, the control unit correcting the pixel data of the predetermined number of gradations in accordance with the correction value set for every image line data which is the plurality of pixel data lined up in a direction corresponding to the intersecting direction in the pixel data. | 09-30-2010 |
20100245871 | METHOD OF CORRECTING PIXEL DATA AND FLUID EJECTING APPARATUS - A method for correcting pixel data and a fluid ejecting apparatus and are disclosed. The method for correcting pixel data in the fluid ejecting apparatus which relatively moves a nozzle array having nozzles for ejecting a fluid onto a medium and arranged in parallel in a predetermined direction, and the medium in a direction intersecting the predetermined direction, onto which the fluid is ejected from the nozzle array based on pixel data of the first number of gradations, while the nozzle array and the medium are relatively moved in the intersecting direction, the method includes converting original pixel data of the first number of gradations into pixel data of the second number of gradations higher than the first number of gradations; correcting the pixel data of the second number of gradations, of which the number of gradations is converted, by a correction value set for every pixel line data which is the plurality of pixel data lined up in a direction corresponding to the intersecting direction on the pixel data; and converting the pixel data of the second number of gradations which is corrected by the correction value into the pixel data of the first number of gradations. | 09-30-2010 |
20100253728 | CORRECTION VALUE CALCULATING METHOD AND METHOD OF MANUFACTURING LIQUID EJECTING APPARATUS - There is provided a method of calculating a correction value in a liquid ejecting apparatus in which a plurality of heads is arranged in a predetermined direction and each of the heads has a nozzle row in which nozzles ejecting a liquid on a medium are arranged in the predetermined direction. The method includes: forming a first and second pattern by a first and second operation; and calculating, on the basis of the first pattern, a first correction value and, on the basis of the first and second patterns, a second correction valve to line up a landed position of the liquid ejected in the first operation and the second operation. | 10-07-2010 |
20110234677 | CORRECTION VALUE ACQUISITION METHOD, CORRECTION VALUE ACQUISITION PROGRAM, AND LIQUID EJECTION RECORDING APPARATUS - A correction value acquisition method includes: forming parts of a test pattern and a linear scale on a medium of which a length in a predetermined direction is shorter than a length of the test pattern in the predetermined direction; detecting positions of the scales of the linear scale from image data obtained by reading the test pattern and the linear scale; obtaining a read density of the image data; and calculating a correction value based on the read density. | 09-29-2011 |
20110235125 | PRINTING APPARATUS, CORRECTION VALUE CALCULATING METHOD, AND STORAGE MEDIUM - A correction value calculating method includes: printing a pattern based on an instruction gray scale value indicating a predetermined density; acquiring a read gray scale value, which is a result obtained when a scanner reads the pattern, for each line area; calculating a first correction value, which is a correction value of each line area corresponding to a middle portion of the pattern, based on the read gray scale value of each line area corresponding to the middle portion of the pattern; and calculating a second correction value, which is a correction value of the line area corresponding to an end portion of the pattern in the predetermined direction, based on the read gray scale value of the line area in the vicinity of the line area corresponding to the end portion of the pattern. | 09-29-2011 |
20120056924 | FLUID EJECTING APPARATUS AND FLUID EJECTING METHOD - A fluid ejecting apparatus includes a nozzle row in which a plurality of nozzles that eject fluid onto a medium are arranged, a first movement unit that displaces a relative position between the medium and the nozzle row, and a control unit that forms a plurality of dot-lines by repeating a fluid ejection operation in which fluid is ejected so as to form a dot-line, such that a maximum time between when one of the adjacent dot-lines in the plurality of dot-lines is formed to when the other of the adjacent dot-lines is formed is reduced. | 03-08-2012 |
20120081447 | TRANSPORT ADJUSTMENT METHOD, TRANSPORT ADJUSTMENT SYSTEM, AND TRANSPORT ADJUSTMENT PROGRAM - A transport adjustment method of adjusting transport of an image forming apparatus which includes a transport roller that transports a medium in a sub-scanning direction and a plurality of nozzles lining up in the sub-scanning direction and repeats the transport and main scanning of moving the plurality of nozzles in a main scanning direction, for each angle section formed by dividing one revolution of the transport roller into a plurality of angle sections, the method including: printing, by forming a ruled line by the main scanning every time the transport corresponding to the angle section is carried out, a test pattern in which a plurality of ruled lines is arranged; detecting an arrangement interval of the printed ruled lines; and adjusting the transport corresponding to the same angle section on the basis of the average value of a plurality of arrangement intervals corresponding to the same angle section. | 04-05-2012 |
20120081450 | TEST PATTERN FORMING METHOD, TRANSPORT ADJUSTING METHOD, AND IMAGE FORMING APPARATUS - A test pattern forming method is used in adjustment transport of an image forming apparatus, by the image forming apparatus which includes transport rollers transporting a medium in the sub-scanning direction and a plurality of nozzles arranged in the sub-scanning direction and repeats the transport and main scanning for moving the plurality of nozzles in the main scanning direction. The method includes forming a plurality of first patterns using a first nozzle among the plurality of nozzles, and forming a plurality of second patterns using a second nozzle among the plurality of nozzles. The plurality of first patterns is formed by repetitive transport of the medium by a first intermittent transport. The plurality of second patterns is formed by repetitive transport of the medium by a second intermittent transport. The acceleration of the first intermittent transport is more gradual than the acceleration of the second intermittent transport. | 04-05-2012 |
Patent application number | Description | Published |
20100133393 | WIRE HOLDING MECHANISM, IMAGE FORMING APPARATUS AND METHOD OF MAINTAINING A WIRE - A wire holding mechanism includes: a frame having an attachment hole and an engagement portion, and a holding member detachably attached to the attachment hole. The holding member includes a rotation shaft rotatably supported by the attachment hole, a flange portion formed on a first end of the rotation shaft so as to prevent the holding member from coming out, an arm portion extending radially outward from the second end of the rotation shaft such that the arm portion is rotatable above the attachment surface, and a leg portion disposed between the flange portion and the arm portion. The holding member is inserted in the attachment hole at a first position, and, can be moved to a second position, the arm portion engages with the engagement portion and restricts movement of a wire. | 06-03-2010 |
20100244355 | IMAGE FORMING APPARATUS - An image forming apparatus includes a main housing, a post-processing unit including a pivotable processing tray, and a recording medium discharging outlet. The processing tray includes a lock member, urging member and lock releasing member. The lock member is supported movably between first and second positions. The lock member engages with an engaging hole at the first position and disengages from the engaging hole at the second position. The urging member urges the lock member towards the first position. The lock releasing member resists a force applied by the urging member so as to allow the lock member to travel to the second position. A recording medium depressing member is disposed within a pivotal range of the lock member. A first slope is provided on at least one of a contact portion of the lock member and a contact portion of the recording medium depressing member. | 09-30-2010 |
20120242035 | IMAGE FORMING APPARATUS - An image forming apparatus includes a housing, an image forming unit disposed inside the housing, a discharging portion, a stacking unit and a pressing member. The discharging portion is configured to discharge a sheet medium on which an image is formed by the image forming unit. The stacking unit is configured to stack the sheet medium discharged from the discharging portion. The stacking unit includes a stacking surface portion on which the sheet medium is stacked. The stacking surface portion includes a planar portion formed flat and a protruding portion configured to protrude upwardly from the planar portion. The pressing member is disposed in contact with an upper surface of the sheet medium stacked on the stacking surface portion. | 09-27-2012 |
20140001696 | SHEET FEEDING DEVICE AND IMAGE FORMING APPARATUS | 01-02-2014 |
20140151955 | IMAGE FORMING APPARATUS - An image forming apparatus includes a relay unit and a guide plate. The relay unit is detachably mounted in the in-body discharge section and receives a sheet discharged from the first exit port and conveys the sheet. The guide plate switches a conveyance path for the sheet discharged from the first exit port between a first path via the relay unit and a second path other than the first path. The relay unit includes a conveyance roller and a drive device. The conveyance roller conveys the sheet. The drive device rotates the conveyance roller. The drive device changes the posture of the guide plate between a first posture corresponding to the first path and a second posture corresponding to the second path. | 06-05-2014 |
Patent application number | Description | Published |
20120196218 | TONER FOR DEVELOPING ELECTROSTATIC CHARGE IMAGE, METHOD OF PREPARING THE SAME, DEVICE FOR SUPPLYING THE SAME, AND APPARATUS AND METHOD FOR FORMING IMAGE USING THE SAME - A toner for developing an electrostatic charge image includes a core layer including a first binder resin, a colorant and a releasing agent; and a shell layer coating the core layer and including a second binder resin. The first binder resin of the core layer includes a low molecular weight amorphous polyester resin having a weight-average molecular weight of about 6000 g/mol to about 20000 g/mol, a high molecular weight amorphous polyester resin having a weight-average molecular weight of about 25000 g/mol to about 100000 g/mol, and a crystalline polyester resin having a weight-average molecular weight of about 8000 g/mol to about 30000 g/mol. The second binder resin of the shell layer includes the low and high molecular weight amorphous polyester resins. | 08-02-2012 |
20130236827 | TONER TO DEVELOP ELECTROSTATIC CHARGE IMAGE, DEVICE TO SUPPLY TONER, AND APPARATUS AND METHOD TO FORM AN IMAGE BY USING TONER - A toner to develop an electrostatic charge image, the toner including at least a binder resin, a colorant, and a releasing agent, wherein a weight average molecular weight of the toner measured by using a gel permeation chromatography (GPC) method on a tetrahydrofuran (THF) soluble fraction is in a range of about 30,000 to about 80,000 g/mol, wherein a molecular weight distribution curve of the toner obtained by using the GPC method on the THF soluble fraction has at least one peak in a molecular weight range of 100 to 1,000 g/mol, a peak in a molecular weight range of 1,000 to 5,000 g/mol, and a main peak in a molecular weight range of 5,000 to 20,000 g/mol, a method of preparing the toner, a device to supply the toner, and an apparatus and method of forming an image by using the toner. The toner has more than certain levels of low-temperature fixability, an anti-hot-offset property, a charging ability, a gloss property, and a heat storage ability. The toner has a long lifetime, and thus, provides a high-quality image in a stable and energy-saving manner. | 09-12-2013 |