Patent application number | Description | Published |
20080220591 | METHOD OF MANUFACTURING DEVICE - A method of manufacturing a device, including the steps of forming dividing grooves with a predetermined depth along planned dividing lines of a wafer, then grinding the back-side surface of the wafer to expose the dividing grooves on the back side, dividing the wafer into individual devices, attaching a UV-curable adhesive film to the backside surface of the wafer divided into the individual devices, adhering the adhesive film side of the wafer to a dicing tape attached to an annular frame, radiating UV rays from the face side of the wafer to cure those regions of the adhesive film which correspond to the dividing grooves, radiating a laser beam along the dividing grooves to divide the cured adhesive film on a device basis, and releasing the devices from the dicing tape, thereby picking up the devices. | 09-11-2008 |
20080280421 | WAFER DIVIDING METHOD - A wafer dividing method that includes a modifying layer forming step in which a laser beam with a wavelength that can pass through the wafer is focused on the inside of the wafer from a rear surface side thereof, and applied along the street to form a modifying layer having a thickness corresponding to at least a device-finishing thickness from the front surface of the wafer; a rear surface grinding step in which an area, corresponding to the device area, of the rear surface of the wafer subjected to the modifying layer forming step is ground and formed to have a thickness corresponding to the device-finishing thickness and to have an annular reinforcing section at an area corresponding to the outer circumferential redundant area; a reinforcing section cutting step in which the wafer is cut along the inner circumference of the annular reinforcing section; a wafer support step in which the rear surface of the wafer whose annular reinforcing section is cut is stuck to a dicing tape attached to an annular frame; and a wafer rupture step in which an external force is applied to the wafer stuck to the dicing tape to rupture it along the street formed with the modifying layer. | 11-13-2008 |
20090075458 | METHOD OF MANUFACTURING DEVICE HAVING ADHESIVE FILM ON BACK-SIDE SURFACE THEREOF - A method of manufacturing a device, including: an adhesive film attaching step of attaching an adhesive film to a back-side surface of a wafer in which devices are formed respectively in a plurality of regions demarcated by planned dividing lines formed in a grid pattern in a face-side surface of the wafer; a wafer supporting step of adhering the adhesive film side of the wafer with the adhesive film attached thereto to a surface of a dicing tape attached to an annular frame; a wafer cutting step of holding the dicing tape side of the wafer adhered to the surface of the dicing tape onto a chuck table of a cutting apparatus, and cutting the wafer along the planned dividing lines by use of a cutting blade having an annular knife edge which is V-shaped in sectional shape of a peripheral part thereof; and an adhesive film breaking step of breaking said adhesive film along cutting grooves formed in the wafer, by expanding the dicing tape so as to exert tension on the adhesive film, after the wafer cutting step is performed. | 03-19-2009 |
20090114627 | LASER BEAM MACHINING APPARATUS - A laser beam machining apparatus includes laser beam irradiation unit for irradiating a wafer held on a chuck table with a laser beam, and control unit. The laser beam irradiation unit includes a laser beam oscillator for oscillating a laser beam with such a wavelength as to be transmitted through said wafer, repetition frequency setting section for setting a repetition frequency of pulses in the laser beam oscillated from the laser beam oscillator. The control unit includes a memory for storing coordinates of an arcuate chamfer part formed at the outer periphery of the wafer and coordinates of a flat surface part surrounded by the chamfer part, and controls the repetition frequency setting section so as to set the repetition frequency of the pulses in the laser beam with which to irradiate the flat surface part to a value suitable for machining of the wafer and as to set the repetition frequency of the pulses in the laser beam with which to irradiate the chamfer part to a value higher than the repetition frequency in the pulses of the laser beam with which to irradiate the flat surface part. | 05-07-2009 |
20090124063 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device by which a wafer with devices formed in a plurality of regions demarcated by a plurality of streets formed in a grid pattern in the face-side surface of the wafer is divided along the streets into individual devices, and an adhesive film for die bonding is attached to the back-side surface of each of the devices. The adhesive film is attached to the back-side surface of the wafer divided into individual devices by exposing cut grooves formed along the streets by a dicing-before-grinding method, and thereafter the adhesive film is irradiated with a laser beam along the cut grooves through the cut grooves from the side of a protective tape adhered to the face-side surface of the wafer, so as to fusion-cut the adhesive film along the cut grooves. | 05-14-2009 |
20090142906 | METHOD OF DIVIDING WAFER - A method of dividing a wafer includes: a denatured layer forming step of forming a denatured layer in the inside of the wafer along streets; a first feeding step in which the whole area of the wafer's back-side surface is suction held, and the wafer is mounted on a support base of a tape adhering unit, with the wafer's back-side surface on the upper side; a dicing tape adhering step of adhering a dicing tape to the wafer's back-side surface and an annular frame; a wafer reversing step of reversing the wafer and the annular frame face side back; a second feeding step of feeding said wafer and said annular frame to a tape expanding unit whole holding them by suction; a protective tape peeling step of peeling off a protective tape adhered to the wafer's face-side surface; and a wafer dividing step of expanding the dicing tape so as to divide the wafer along the streets along which the denatured layer has been formed. | 06-04-2009 |
20090197395 | METHOD OF MANUFACTURING DEVICE - A method of manufacturing a device includes: a laser beam-machined groove forming step of irradiating a wafer with a laser beam from the back side of the wafer along planned dividing lines so as to form laser beam-machined grooves along the planned dividing lines; an etching step of etching a back-side surface of the wafer having been subjected to the laser beam-machined groove forming step, so as to remove denatured layers formed at processed surfaces of the laser beam-machined grooves; an adhesive film attaching step of attaching an adhesive film to the back-side surface of the wafer having been subjected to the etching step, and adhering the adhesive film side of the wafer to a surface of a dicing tape; and an adhesive film rupturing step of expanding the dicing tape so as to rupture the adhesive film along individual devices. | 08-06-2009 |
20090298263 | DIVIDING METHOD FOR WAFER HAVING FILM ON THE FRONT SIDE THEREOF - A wafer dividing method for dividing a wafer having a film on the front side thereof. The wafer dividing method includes a modified layer forming step of applying a laser beam having a transmission wavelength to the substrate of the wafer from the front side thereof along the streets so that a focal point of the laser beam is set inside the substrate, thereby forming a modified layer in the substrate along each street, a film dividing step of applying a laser beam having an absorption wavelength to the film from the front side of the wafer along each street to thereby form a laser processed groove for dividing the film along each street, a back grinding step of grinding the back side of the substrate of the wafer to thereby reduce the thickness of the wafer to a predetermined thickness, a wafer supporting step of attaching the wafer to a dicing tape supported to an annular frame, and a wafer breaking step of applying an external force to the wafer by expanding the dicing tape to thereby break the wafer along each street. | 12-03-2009 |
20100003119 | METHOD FOR PICKING UP DEVICE ATTACHED WITH ADHESIVE TAPE - A method for picking up a device stuck with an adhesive film includes an tape expansion step for expanding a dicing tape to increase intervals between devices and between adhesive films by pressing an area between an inner diameter of the annular frame of the dicing tape and the wafer by means of an expansion member with the annular frame held; and a picking-up step for picking up the device and the adhesive film from the dicing tape. A relative shifting rate between the expansion member and the frame holding means is set to 100 mm/second or more when the expansion member and the dicing tape are brought into abutment against each other in the tape expansion step, and the increased intervals between the devices and between the adhesive films are each set to 100 μm or more. | 01-07-2010 |
20100015784 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD - In a semiconductor device manufacturing method in which a wafer formed with devices in a plurality of areas sectioned by a plurality of streets formed in a lattice-like pattern on the front surface is divided into the individual devices along the streets, when the wafer is divided into the individual devices by exposing cut grooves formed along the streets by a dicing before grinding process, a rigid plate is applied to the front surface of the wafer and an adhesive film is attached to the rear surface of the wafer. Thereafter, a separation groove forming step is performed in which a laser beam is directed to the adhesive film along the cut grooves form the dicing tape side applied with the wafer attached with the adhesive film to form separation grooves in the adhesive film along the cut grooves. | 01-21-2010 |
20100099221 | STACKED DEVICE MANUFACTURING METHOD - A stacked device manufacturing method including a kerf forming step of forming a kerf on the front side of each of plural wafers along each street, the kerf having a depth corresponding to a predetermined finished thickness of each wafer, a first stacking step of stacking a first one of the wafers and a second one of the wafers in such a manner that the front side of the second wafer is opposed to the front side of the first wafer and that the electrodes of the second wafer are respectively bonded to the electrodes of the first wafer, a first back grinding step of grinding the back side of the second wafer to expose each kerf of the second wafer to the back side of the second wafer, a second stacking step of stacking a third one of the wafers to the second wafer in such a manner that the front side of the third wafer is opposed to the back side of the second wafer and that the electrodes of the third wafer are respectively bonded to the electrodes of the second wafer, and a second back grinding step of grinding the back side of the third wafer to expose each kerf of the third wafer to the back side of the third wafer. | 04-22-2010 |
20110081768 | WORKPIECE DIVIDING METHOD - In a workpiece dividing method, an expansion tape is stuck to an adhesive film side of a workpiece in a state where an adhesive film is stuck to the rear surface of a wafer. Respective positions of the predetermined dividing lines on the front surface of the wafer are detected. On the basis of information on the detected predetermined dividing lines, a laser beam passing through the wafer from the front surface of the wafer is focused on and directed to the front surface or inside of the adhesive film to form modified areas on the front surface of or in the inside of the adhesive film. On the basis of information on the detected predetermined dividing lines, a laser beam passing through the wafer from the front surface of the wafer is focused on and directed to the inside of the wafer to form modified areas in the inside of the wafer. The expansion tape is expanded to divide the workpiece along the predetermined dividing lines with the modified areas taken as start points. | 04-07-2011 |
20120061361 | METHOD OF DIVIDING WORKPIECE - A method of dividing a workpiece includes: forming a pre-machining alteration region in the inside of a region in which no device is formed; detecting the position of the pre-machining alteration region on through infrared imaging by imaging means, to thereby recognize a deviation between the pre-machining alteration region and a planned dividing line as machining position correction information; and forming a main machining alteration region by utilizing the machining position correction information, whereby the workpiece can be accurately divided along the planned dividing lines into individual devices. | 03-15-2012 |
20120100696 | WORKPIECE DIVIDING METHOD - A workpiece has a substrate and a film formed on the front side of the substrate. A first laser beam applied to the film from the front side of the workpiece along streets formed on the film, thereby forming a plurality of laser processed grooves along the streets. An adhesive tape is attached to the front side of the workpiece. Thereafter, a second laser beam is applied to the substrate from the back side of the workpiece along the streets, with the focal point of the second laser beam set inside the substrate, forming a plurality of modified layers along the streets. Thereafter, the adhesive tape is expanded to divide the substrate along the streets, thereby obtaining a plurality of individual devices. The back side of the substrate of each device is then ground to remove the modified layers and reduce the thickness of each device to a predetermined thickness. | 04-26-2012 |