WO2016150080A1 - 一种倒装芯片键合设备 - Google Patents

一种倒装芯片键合设备 Download PDF

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Publication number
WO2016150080A1
WO2016150080A1 PCT/CN2015/087199 CN2015087199W WO2016150080A1 WO 2016150080 A1 WO2016150080 A1 WO 2016150080A1 CN 2015087199 W CN2015087199 W CN 2015087199W WO 2016150080 A1 WO2016150080 A1 WO 2016150080A1
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WIPO (PCT)
Prior art keywords
chip
bonding
unit
flip chip
bonding apparatus
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PCT/CN2015/087199
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English (en)
French (fr)
Inventor
唐亮
叶乐志
周启舟
徐品烈
郎平
霍杰
刘子阳
Original Assignee
北京中电科电子装备有限公司
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Application filed by 北京中电科电子装备有限公司 filed Critical 北京中电科电子装备有限公司
Priority to SG11201510597TA priority Critical patent/SG11201510597TA/en
Publication of WO2016150080A1 publication Critical patent/WO2016150080A1/zh

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L21/00Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
    • H01L21/67Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
    • H01L21/677Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for conveying, e.g. between different workstations
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L21/00Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
    • H01L21/67Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
    • H01L21/683Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere for supporting or gripping
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L21/00Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
    • H01L21/70Manufacture or treatment of devices consisting of a plurality of solid state components formed in or on a common substrate or of parts thereof; Manufacture of integrated circuit devices or of parts thereof
    • H01L21/71Manufacture of specific parts of devices defined in group H01L21/70
    • H01L21/768Applying interconnections to be used for carrying current between separate components within a device comprising conductors and dielectrics

Definitions

  • the present disclosure relates to the field of flip chip bonding technologies, and in particular, to a flip chip bonding device.
  • Advanced packaging technology combines semiconductor packaging and assembly technology to reduce product price, improve performance, increase density, and reduce product size, making the market for flip-chip semiconductor packages growing rapidly.
  • Flip-chip is not only a high-density chip interconnect technology, but also an ideal chip bonding technology, which has been widely used in PGA, BGA and CSP.
  • the flip-chip interconnects are very short, and the I/O leads are distributed across the chip surface.
  • the flip chip industry is suitable for mass production using SMT technology. Therefore, flip chip has become a major development in high-density packaging technology. direction.
  • Flip-chip bonding involves picking and flipping a bumped chip from a blue film with its solder joint pattern facing down and placing the chip onto the substrate by machine vision recognition alignment.
  • the flip chip bonding machine determines the accuracy, efficiency and reliability of the flip chip bonding process and is a key device for the flip chip packaging process.
  • Flip-chip bonding machine is a high-speed and high-precision device that generates various vibrations when the device is running, which has a great influence on chip bonding precision.
  • the wafer size is moving in a larger direction, and the distance from the wafer picking chip to the substrate bonding position is increasing, so that the bonding efficiency is greatly reduced.
  • a flip chip bonder is disclosed in PCT Patent No. WO2003/058708, filed by the s.
  • the device picks up the chip from the blue film, transfers it to the bonding head by flipping, and then mounts the film to the lead frame through the bonding head.
  • the turning mechanism has 4 nozzles, and the bonding mechanism has 8 nozzles, which will be flipped and picked up. Processes such as silicone, bonding, and the like are processed in parallel to improve the loading efficiency of the device.
  • the device has a complicated structure and is difficult to implement.
  • the Chinese patent CN200610171125.6 filed by Patrick Blaise, et al., of ESEC, discloses a flip chip bonding device that implements chip transfer using a bond head swing mechanism that compensates for the movement of individual components caused by heat. Influence, but its use of the swing mechanism reduces the accuracy of loading.
  • the patent CN201310173823.X applied by Zheng Xianquan et al. of Hanmei Semiconductor Co., Ltd. discloses a flip chip soldering apparatus which uses two sets of bonding mechanisms to improve efficiency, but because the chip picking position and the bonding position are far apart, The substrate is aligned with the camera mounted on the moving bond head, resulting in reduced efficiency and accuracy.
  • the present disclosure provides a flip chip bonding apparatus, and the flip chip bonding apparatus of the present disclosure introduces a precise chip transfer mechanism with high reliability, so that the apparatus does not reduce efficiency.
  • the flip-chip bonding of the large-sized substrate is greatly improved, and the mounting precision is greatly improved.
  • a flip chip bonding apparatus including:
  • a chip transfer mechanism comprising: a mounting portion and a driving portion for driving the movement of the mounting portion, the mounting portion including a plurality of stations for placing a chip; wherein movement by the mounting portion Moving the chip at one of the stations from the first position to the second position;
  • a first chip grasping mechanism for picking up the chip, flipping the chip upward from the lower side, and after flipping the chip, placing the chip on the mounting portion at the first position On the station;
  • a second chip grasping mechanism for taking out the chip on the mounting portion at the second position to perform bonding.
  • the flip chip bonding device further includes:
  • the wafer cassette comprising: a wafer cassette body, wherein the opposite sides of the wafer cassette body are arranged in parallel with a plurality of slots, the sockets for chucking a substrate on which the wafer is placed; the first motor, the The first motor includes: a first output device; a bracket located below the wafer cassette body, the first output device being coupled to the bracket.
  • the flip chip bonding device further includes:
  • a workbench mechanism comprising: a first workbench and a second workbench, wherein the first chip grabbing mechanism picks up a chip from the first workbench and places the chip in the In the mounting portion, the second chip grasping mechanism places a chip picked up from the mounting portion onto the second table.
  • the second workbench comprises:
  • At least one base platform carrying a binder an X-direction moving seat and a Y-direction moving seat, wherein the X-direction moving seat and the Y-direction moving seat adjust the base platform such that the base platform is in advance Set the location.
  • the mounting portion includes: a first conveyor belt, the station is a plurality of first vacuum holes disposed in the first conveyor belt; the driving portion includes: a first driving wheel and a first driven wheel, wherein The first conveyor belt connects the first drive wheel and the first driven wheel.
  • the plurality of first vacuum holes are arranged in a single row or a plurality of rows on the first conveyor belt.
  • the mounting portion includes: a second conveyor belt and a chip tray on an outer side of the second conveyor belt, wherein the station is a plurality of second vacuum holes disposed on the chip tray;
  • the driving portion includes: a second driving wheel and a second driven wheel, wherein the second conveyor belt connects the second driving wheel and the second driven wheel.
  • the chip transfer mechanism further includes: a vacuum adsorption structure, the vacuum adsorption structure includes a plurality of vacuum pipe joints, the plurality of vacuum pipe joints are located on the mounting portion, and the plurality of vacuum pipe joints and the mounting portion The upper stations are corresponding one by one, and the workstation fixes the chip by vacuum adsorption through the vacuum tube joint.
  • the first chip capture mechanism includes:
  • a first chip grabbing unit for placing the wafer on the first workbench after grasping the wafer
  • a first chip detecting unit located above the first workbench for detecting position information of the chip in the wafer
  • a chip jacking unit located below the first workbench for lifting the chip up to a preset height
  • a second chip grabbing unit located between the first chip detecting unit and the inverting unit, For adsorbing the inverted chip and placing the chip at a first location of the transport mechanism.
  • the inverting unit comprises: a rotating rod; a first nozzle and a second nozzle located at two ends of the rotating rod; a height adjusting mechanism for adjusting the vertical movement of the rotating rod; and a rotation adjusting mechanism for adjusting the rotating rotation of the rotating rod .
  • the second chip capture mechanism includes:
  • a second chip detecting unit located above the chip transfer mechanism and configured to detect position information of the chip at the second position
  • An impregnation unit containing a flux or an adhesive for impregnating a bump on a bottom surface of the chip grasped by the bonding unit;
  • a third chip detecting unit located above the bonding unit and configured to detect position information of the chip to be pasted on the second working table.
  • the bonding unit comprises:
  • a bonding head a vacuum joint, a compressed gas joint, and a bonding head cylinder; wherein the compressed gas joint supplies pressure to the bonding head cylinder after passing through the compressed gas; the vacuum joint is located at the bonding head cylinder The outer side is connected to the bonding head cylinder; the bonding head is located below the bonding head cylinder and is connected to the bonding head cylinder.
  • the impregnation unit comprises: a silicone unit
  • the silicone unit includes: a third motor, a third conveyor belt, a connecting plate, a glue box, and a squeegee plate.
  • the third motor includes: a second output device, the second output device being coupled to the third conveyor;
  • the inner side of the third conveyor belt is a gear structure
  • One end of the connecting plate is meshed with the gear mechanism
  • a scraping rubber plate is connected to the other end of the connecting plate, and the scraping rubber plate is provided with a groove;
  • the glue box is located above the squeegee plate, and the glue box is provided with flux or adhesive.
  • the groove depth is 10 to 100 um.
  • the flip chip bonding device further includes:
  • a fourth chip detecting unit configured to obtain position information of the chip on the bonding unit, And located below the scraper plate.
  • the impregnation unit comprises: a dispensing unit, the dispensing unit comprises: a dispensing head, a dispensing head X-direction motor, a dispensing head Y-direction motor, and a dispensing head Z-direction motor, the dispensing head X
  • the motor, the dispensing head Y to the motor and the dispensing head Z cooperate with the motor to drive the dispensing head to dispense on the base material.
  • the flip chip bonding apparatus further comprises: a base material conveying mechanism, the base material conveying mechanism comprising: a robot control device, a gantry located above the robot control device, and a robot located above the gantry.
  • the flip chip bonding apparatus includes a chip transfer mechanism, a first chip grabbing mechanism, and a second chip grabbing mechanism.
  • the first chip is captured.
  • the mechanism picks up the chip and places it on the chip transfer mechanism at the first position.
  • the second chip grabbing mechanism takes the chip out of the second position for bonding.
  • the introduction of the chip transfer mechanism enables the flip chip bonding device to adapt to the flip-chip bonding of large-sized substrates without reducing the efficiency, thereby greatly improving the mounting precision.
  • FIG. 1 is a top plan view of a flip chip bonding apparatus according to an embodiment of the present disclosure
  • FIG. 2 is a front elevational view of a flip chip bonding apparatus according to an embodiment of the present disclosure
  • FIG. 3 is a schematic structural view of a wafer cassette according to an embodiment of the present disclosure.
  • FIG. 4 is a schematic structural diagram of a second workbench according to an embodiment of the present disclosure.
  • FIG. 5 is a schematic structural diagram of a chip transmission structure according to an embodiment of the present disclosure.
  • FIG. 6 is a second schematic structural diagram of a chip transmission structure according to an embodiment of the present disclosure.
  • FIG. 7 is a schematic structural diagram of a bonding unit according to an embodiment of the present disclosure.
  • FIG. 8 is a schematic structural view of a silicone unit according to an embodiment of the present disclosure.
  • FIG. 9 is a schematic structural view of a dispensing unit according to an embodiment of the present disclosure.
  • FIG. 10 is a schematic structural view of a base material conveying mechanism according to an embodiment of the present disclosure.
  • chip transfer mechanism 101, first conveyor; 102, first vacuum hole; 103, first drive wheel; 104, first driven wheel; 105, second conveyor; 106, chip tray; Two vacuum holes; 108, second driving wheel; 109, second driven wheel; 2, wafer cassette; 201, slot; 202, first motor; 203, bracket; 3, first working table; Taiwan; 401, Base platform; 402, X-direction moving seat; 403, Y-direction moving seat; 5, first chip grabbing unit; 6, first chip detecting unit; 7, chip jacking unit; 8, flipping unit; Rod; 802, first nozzle; 803, second nozzle; 9, second chip grabbing unit; 901, pick-up head moving mechanism; 902, pick-up head; 10, second chip detecting unit; 1101, bonding head moving mechanism; 1102, bonding head mechanism; 1103, bonding head; 1104, vacuum joint; 1105, compressed gas joint; 1106, bonding head cylinder; 1107, second motor; 1108, calibration mechanism 12, the third chip detecting unit; 13, the silicone unit; 1301,
  • an embodiment of the present disclosure provides a flip chip bonding apparatus, including: a chip transfer mechanism 1.
  • the chip transfer mechanism 1 includes: a mounting portion and a movement for driving the mounting portion a driving portion, the mounting portion includes a plurality of stations for placing chips; wherein, by movement of the mounting portion, the chip located at one of the stations is moved from the first position to the second position; a first chip grasping mechanism for picking up the chip, flipping the chip upward from the lower side, and after flipping the chip, placing the chip on the mounting portion at the first position
  • the second chip grasping mechanism is configured to take out the chip on the mounting portion at the second position to perform bonding.
  • the flip chip bonding apparatus of the embodiment of the present disclosure includes a chip transfer mechanism, a first chip grabbing mechanism, and a second chip grabbing mechanism.
  • the first chip grabbing mechanism picks up the chip.
  • the second chip grabbing mechanism takes the chip out of the second position for bonding.
  • the flip chip bonding apparatus further includes: a wafer cassette 2, as shown in FIG.
  • the specific structure of the wafer cassette 2 includes: a wafer cassette body, a plurality of slots 201 are disposed in parallel on opposite sides of the wafer cassette body, and the slots 201 are used for chucking a substrate on which the wafer is placed; a motor 202, the first motor 202 includes: a first output device; a bracket 203 located below the wafer cassette body, the first output device is coupled to the bracket 203, when the first chip gripping mechanism is loaded After the wafer is removed from the wafer cassette 2 having the multilayer wafer, the holder 203 pushes the lower wafer to the working position under the driving of the first motor 202.
  • the flip chip bonding apparatus further includes: a workbench mechanism, the workbench mechanism includes: a first workbench 3 and a second workbench 4, wherein the first chip grabbing mechanism is Picking up a chip on the first stage 3 and placing the chip on the mounting portion, the second chip grabbing mechanism placing the chip picked up on the mounting portion onto the second table 4 .
  • a workbench mechanism includes: a first workbench 3 and a second workbench 4, wherein the first chip grabbing mechanism is Picking up a chip on the first stage 3 and placing the chip on the mounting portion, the second chip grabbing mechanism placing the chip picked up on the mounting portion onto the second table 4 .
  • the second table 4 includes: at least one base platform 401 for carrying the base material; an X-direction movable seat 402 and a Y-direction movable seat 403, wherein the X-direction movable seat 402 and the Y-direction movable seat 403 can be
  • the base platform 401 is adjusted to be in a predetermined position.
  • the base platform 401 shown in FIG. 4 has a square shape and two in number. It can be understood that the shape of the base platform 401 can be set to a square or a circle according to actual needs, and the number can be set to one or more.
  • the chip transmission mechanism 1 mainly realizes long-distance transmission of the chip, and is a main part of the flip chip bonding device.
  • the structure of the chip transmission mechanism 1 is mainly described below, as shown in FIG. 5, which is a structure of the chip transmission mechanism 1.
  • the schematic diagram includes: a first conveyor belt 101, the station is a plurality of first vacuum holes 102 disposed in the first conveyor belt 101; and a driving portion, the driving portion includes: a first driving wheel 103 and a first driven wheel 104, wherein the first conveyor belt 101 connects the first driving wheel 103 and the first driven wheel 104, the first driving wheel 103 drives the first driven wheel 104 to rotate, and drives the first conveyor belt 101 to transfer the chip from one side to another Side to complete the transfer of the chip.
  • the plurality of first vacuum holes 102 may be arranged in a single row or in multiple rows on the first conveyor belt 101.
  • FIG. 6 another schematic structural diagram of the chip transfer mechanism 1 includes: a mounting portion, the mounting portion includes: a second conveyor belt 105 and a chip tray 106 on an outer side of the second conveyor belt 105,
  • the work station is a plurality of second vacuum holes 107 disposed on the chip tray 106;
  • the driving portion includes: a second driving wheel 108 and a second driven wheel 109, wherein the second conveyor belt 105 is connected
  • the second driving wheel 108 and the second driven wheel 109 drive the second driven wheel 109 to rotate, driving the second conveyor belt 105 and the chip tray 106 to drive the chip from one side Transfer to the other side to complete the transfer of the chip.
  • chip transfer mechanism 1 can take many forms, and the embodiments of the present disclosure only cite the above two types, and some improvements and retouchings can be made without departing from the principle described by the chip transfer mechanism 1. These improvements and modifications should also be considered as protection of the present disclosure.
  • the chip transfer mechanism 1 further includes: a vacuum adsorption structure including a plurality of vacuum pipe joints, the plurality of vacuum pipe joints are located on the mounting portion, and a plurality of vacuum pipe joints and the mounting portion Corresponding to the stations, through the vacuum pipe joint, the station fixes the chip by vacuum adsorption.
  • a vacuum adsorption structure including a plurality of vacuum pipe joints, the plurality of vacuum pipe joints are located on the mounting portion, and a plurality of vacuum pipe joints and the mounting portion Corresponding to the stations, through the vacuum pipe joint, the station fixes the chip by vacuum adsorption.
  • the first chip capture mechanism includes:
  • a first chip grabbing unit 5 for placing the wafer on the first table 3 after grasping the wafer; a first chip detecting unit 6 located above the first table 3 for detecting the wafer Position information of the middle chip; a chip jacking unit 7 located under the first workbench 3 for lifting the chip upward by a predetermined height; between the first chip detecting unit 6 and the first worktable 3 a flipping unit 8 for grasping the chip and flipping the top surface and the bottom surface of the chip; a second chip grabbing unit 9 between the first chip detecting unit 6 and the inverting unit 8 The inverted chip is adsorbed and placed at the first position of the transport mechanism 1.
  • the turning unit 8 includes: a rotating rod 801; a first nozzle 802 and a second nozzle 803 located at two ends of the rotating rod 801; a height adjusting mechanism for adjusting the vertical movement of the rotating rod 801; and adjusting the rotating rod 801 Rotating rotating rotation adjustment mechanism.
  • the second chip grasping unit 9 includes a pick-up head moving mechanism 901 and a pick-up head 902, the pick-up head 902 can be moved on the pick-up head moving mechanism 901, and the number of pick-up heads 902 can be set as needed.
  • the second chip capture mechanism includes:
  • a second chip detecting unit 10 located above the chip transfer mechanism 1 for detecting position information of the chip at the second position; a bonding unit 11 located above the second table 4 for grasping Taking a chip located at the second position; an impregnation unit containing a flux or an adhesive for impregnating a bump on the bottom surface of the chip grasped by the bonding unit 11; and a third chip detecting unit 12 Located above the bonding unit 11, for detecting position information of the chip to be bonded to the second table.
  • the bonding unit 11 includes a bonding head moving mechanism 1101 and a bonding head mechanism 1102.
  • FIG. 7 is a schematic diagram showing the specific structure of the bonding head mechanism 1102 of the bonding unit 11.
  • the figure includes: a bonding head 1103, a vacuum joint 1104, a compressed gas joint 1105, and a bonding head cylinder 1106,
  • the bonding head cylinder 1106 is pressurized.
  • the vacuum joint 1104 is located outside the bonding head cylinder 1106, and is connected to the bonding head cylinder 1106.
  • the bonding head 1103 is located at the Below the bond head cylinder 1106, it is connected to the bond head cylinder 1106.
  • FIG. 8 is an embodiment of the impregnation unit, which corresponds to a flip chip bonding process in which a flux or an adhesive is required, in which case, impregnation
  • the unit includes a silicone unit 13 including a third motor 1301, a third conveyor belt 1302, a connecting plate 1303, a plastic box 1304, and a squeegee plate 1305.
  • the third motor 1301 includes: a second output device, the second output device is coupled to the third conveyor belt 1302; an inner side of the third conveyor belt 1302 is a gear structure; and one end of the connecting plate 1303 is The squeegee plate is connected to the other end of the connecting plate 1303, and the squeegee plate 1305 is provided with a groove, wherein the groove depth can be set to 10 to 100 um; A plastic box 1304 is located above the squeegee plate 1305, and the plastic box 1304 is provided with a flux or an adhesive.
  • the third motor 1301 drives the third conveyor belt 1302 to move a certain distance, and the third conveyor belt 1302 drives the squeegee plate 1305 to move through the connecting plate 1303, and the groove in the squeegee plate 1305 is completely loaded.
  • the third motor 1301 rotates in the reverse direction to drive the squeegee plate 1305 to extend, and the flux or adhesive in the plastic box 1304 fills the groove in the squeegee plate 1305.
  • the flip chip bonding apparatus further includes a fourth chip detecting unit 14 for obtaining the chip.
  • the fourth chip detecting unit 14 On the position information on the bonding unit 11, the fourth chip detecting unit 14 is disposed below the squeegee plate 1305.
  • FIG. 9 is another embodiment of the impregnation unit, which corresponds to a flip chip bonding process that does not require the extraction of flux or adhesive, in which case
  • the dipping unit comprises: a dispensing unit 15 comprising: a dispensing head 1501, a dispensing head X-direction motor 1502, a dispensing head Y-direction motor 1503, and a dispensing head Z-direction motor 1504, said point
  • the rubber head X-direction motor 1502, the dispensing head Y-direction motor 1503, and the dispensing head Z cooperate with the motor 1504 to drive the dispensing head 1501 to dispense on the base material.
  • the bond head 1103 bonds the chip to the finished dispensing base.
  • the flip chip bonding apparatus further includes: a base material conveying mechanism 16 .
  • the base material conveying mechanism 16 includes: a robot control device 1601 , located above the robot control device 1601 .
  • the robot 1603 extends into the second table 4 to lift the base material, and the robot control device 1601 controls the robot 1603 to put the finished base into the base box, and An unloaded base material is lifted from the base box and placed on the second table 4.

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Abstract

本公开提供了一种倒装芯片键合设备,包括:芯片传输机构,所述芯片传输机构包括:安装部和用于驱动所述安装部运动的驱动部,所述安装部包括多个用于放置芯片的工位;其中,通过所述安装部的运动,将位于其中一个工位上的芯片从第一位置处移动至第二位置处;第一芯片抓取机构,其用于抓取芯片后将所述芯片由下侧向上翻转,并在将所述芯片翻转后,将所述芯片放置在所述安装部上位于所述第一位置处的工位上;第二芯片抓取机构,其用于将所述安装部上位于所述第二位置处的工位上的芯片取出,以进行键合。本公开引入了精密的芯片传输机构,可靠性高,使得倒装芯片键合设备在不降低效率的情况下适应大尺寸基材的倒装键合,大大提高了装片精度。

Description

一种倒装芯片键合设备
相关申请的交叉引用
本申请主张2015年3月20日在中国提交的申请号为201510124424.3的中国专利申请的优先权,其全部内容通过引用包含于此。
技术领域
本公开涉及倒装芯片键合技术领域,尤其涉及一种倒装芯片键合设备。
背景技术
随着全球电子信息技术的迅速发展,消费者需要更小的便携式电子产品,使得先进的封装和互连技术正在超越传统技术。先进封装技术把半导体封装和组装技术融为一体以降低产品价格、改进性能、提高密度以及减小产品尺寸,这使得倒装芯片半导体封装的市场需求正迅速增长。倒装芯片不仅仅是一种高密度芯片互连技术,还是一种理想的芯片粘接技术,在PGA、BGA和CSP中都得到了广泛的应用。倒装芯片的互连线非常短,而且I/O引出端分布整个芯片表面,同时倒装芯片业适合使用SMT的技术手段来进行批量生产,因此倒装芯片已成为高密度封装技术的主要发展方向。
倒装芯片键合是将带有凸点的芯片从蓝膜上拾取并翻转,使得其焊点图形朝下,通过机器视觉识别对准将芯片放置到基材上。倒装芯片键合机决定着倒装芯片键合工艺的精度、效率和可靠性,是倒装芯片封装工艺的关键设备。倒装芯片键合机是一种高速高精度设备,在设备运行时会产生各种振动,对芯片键合精度产生很大的影响。另外随着半导体生产效率进一步提高,晶圆尺寸正朝更大的方向发展,从晶圆上拾取芯片到基材键合位的距离不断增加,使得键合效率大大降低。
现有的倒装芯片键合工艺与设备中,新加坡ASM公司的周辉星等人申请的PCT专利WO2003/058708公开了一种倒装芯片结合器。该设备从蓝膜上拾取芯片,通过翻转交接到键合头上,再通过键合头装片至引线框架上,其翻转机构具有4吸嘴,键合机构具有8吸嘴,将翻转、拾取、蘸胶、键合等工艺并行处理,从而提高设备的装片效率。该设备结构复杂,实现难度大。瑞 士ESEC公司的帕特里克·布莱辛等人申请的中国专利CN200610171125.6公开了一种采用键合头摆动机构实现芯片传输的倒装芯片键合设备,该设备可以补偿由热引起单独部件移动的影响,但其采用摆动机构降低了装片精度。韩美半导体株式会社的郑显权等人申请的专利CN201310173823.X公开了一种倒装芯片焊接设备,该设备采用两套键合机构来提高效率,但由于芯片拾取位和键合位距离远,且基材对准相机安装在运动的键合头上,导致效率和精度都降低。
发明内容
为了克服现有技术中存在的上述问题,本公开提供了一种倒装芯片键合设备,本公开的倒装芯片键合设备引入精密的芯片传输机构,可靠性高,使得设备在不降低效率的情况下适应大尺寸基材的倒装键合,大大提高了装片精度。
为了解决上述技术问题,本公开采用如下技术方案:
依据本公开实施例的一个方面,提供了一种倒装芯片键合设备,包括:
芯片传输机构,所述芯片传输机构包括:安装部和用于驱动所述安装部运动的驱动部,所述安装部包括多个用于放置芯片的工位;其中,通过所述安装部的运动,将位于其中一个工位上的芯片从第一位置处移动至第二位置处;
第一芯片抓取机构,用于抓取芯片后将所述芯片由下侧向上翻转,并在将所述芯片翻转后,将所述芯片放置在所述安装部上位于所述第一位置处的工位上;
第二芯片抓取机构,用于将所述安装部上位于所述第二位置处的工位上的芯片取出,以进行键合。
其中,所述倒装芯片键合设备还包括:
晶片盒,所述晶片盒包括:晶片盒本体,所述晶片盒本体内相对的两侧平行设置有多个插槽,所述插槽用于卡接放置有晶片的基板;第一电机,所述第一电机包括:第一输出装置;位于所述晶片盒本体下方的支架,所述第一输出装置与所述支架连接。
其中,所述倒装芯片键合设备还包括:
工作台机构,所述工作台机构包括:第一工作台和第二工作台,其中,所述第一芯片抓取机构从所述第一工作台上拾取芯片,并将所述芯片放置在所述安装部上,所述第二芯片抓取机构将从所述安装部上拾取的芯片放置到所述第二工作台上。
其中,所述第二工作台包括:
至少一个承载基料的基料平台;X向运动座和Y向运动座,其中,所述X向运动座和Y向运动座可调节所述基料平台,从而使所述基料平台处于预设位置。
其中,所述安装部包括:第一传送带,所述工位为设置在所述第一传送带的多个第一真空孔;所述驱动部包括:第一主动轮和第一从动轮,其中,所述第一传送带连接第一主动轮和第一从动轮。
其中,所述多个第一真空孔在所述第一传送带上为单排或多排排布。
其中,所述安装部包括:第二传送带和位于所述第二传送带外侧上的芯片托盘,所述工位为设置在所述芯片托盘上的多个第二真空孔;所述驱动部包括:第二主动轮和第二从动轮,其中,所述第二传送带连接第二主动轮和第二从动轮。
其中,所述芯片传输机构还包括:真空吸附结构,所述真空吸附结构包括多个真空管接头,所述多个真空管接头位于所述安装部上,且所述多个真空管接头与所述安装部上的工位一一相对应,通过所述真空管接头,所述工位采用真空吸附方式固定所述芯片。
其中,所述第一芯片抓取机构包括:
第一芯片抓取单元,其用于抓取晶片后将所述晶片放置于所述第一工作台上;
位于第一工作台上方的第一芯片检测单元,其用于检测所述晶片中芯片的位置信息;
位于第一工作台下方的芯片顶起单元,其用于将所述芯片向上顶起预设高度;
位于第一芯片检测单元与第一工作台之间的翻转单元,其用于抓取所述芯片并将所述芯片的顶面和底面翻转;
第二芯片抓取单元,其位于所述第一芯片检测单元与所述翻转单元之间, 用于吸附经翻转后的芯片,并将所述芯片放置在传输机构的第一位置处。
其中,所述翻转单元包括:转动杆;位于转动杆两端的第一吸嘴和第二吸嘴;调节所述转动杆上下运动的高度调节机构;以及调节所述转动杆旋转转动的旋转调节机构。
其中,所述第二芯片抓取机构包括:
第二芯片检测单元,其位于所述芯片传输机构的上方,且用于检测所述芯片在所述第二位置处的位置信息;
位于第二工作台上方的键合单元,其用于抓取位于所述第二位置上的芯片;
容纳有焊剂或粘接胶的浸渍单元,其用于浸渍由所述键合单元抓取的所述芯片底面上的凸块;
第三芯片检测单元,其位于所述键合单元的上方,且用于检测芯片在所述第二工作台上待贴片位置的位置信息。
其中,所述键合单元包括:
键合头、真空接头、压缩气体接头以及键合头气缸;其中,所述压缩气体接头通入压缩气体后,为所述键合头气缸提供压力;所述真空接头位于所述键合头气缸的外侧,与所述键合头气缸相连;所述键合头位于所述键合头气缸的下方,与所述键合头气缸相连。
其中,所述浸渍单元包括:蘸胶单元,
所述蘸胶单元包括:第三电机、第三传送带、连接板、装胶盒以及刮胶板,
所述第三电机包括:第二输出装置,所述第二输出装置与所述第三传送带连接;
所述第三传送带的内侧为齿轮结构;
所述连接板的一端与所述齿轮机构啮合连接;
刮胶板与所述连接板的另一端连接,所述刮胶板上设置有凹槽;
所述装胶盒位于所述刮胶板上方,且所述装胶盒内容置有焊剂或粘接胶。
其中,所述凹槽深度为10~100um。
其中,所述倒装芯片键合设备还包括:
第四芯片检测单元,其用于获得所述芯片在所述键合单元上的位置信息, 且位于所述刮胶板的下方。
其中,所述浸渍单元包括:点胶单元,所述点胶单元包括:点胶头、点胶头X向电机、点胶头Y向电机以及点胶头Z向电机,所述点胶头X向电机、点胶头Y向电机以及点胶头Z向电机配合作用,以驱动点胶头在基料上进行点胶。
其中,所述倒装芯片键合设备还包括:基料传输机构,所述基料传输机构包括:机械手控制装置、位于所述机械手控制装置上方的台架和位于所述台架上方的机械手。
本公开的有益效果:本公开提供的倒装芯片键合设备包括芯片传输机构、第一芯片抓取机构和第二芯片抓取机构,在芯片传输机构传输芯片的过程中,第一芯片抓取机构将芯片拾取后放置在芯片传输机构上位于第一位置处的工位上,在芯片运动到第二位置处时,第二芯片抓取机构将芯片从第二位置上取出进行键合。芯片传输机构的引入,使得倒装芯片键合设备在不降低效率的情况下适应大尺寸基材的倒装键合,大大提高了装片精度。
附图说明
图1为本公开实施例的倒装芯片键合设备的俯视图;
图2为本公开实施例的倒装芯片键合设备的正视图;
图3为本公开实施例的晶片盒的结构示意图;
图4为本公开实施例的第二工作台的结构示意图;
图5为本公开实施例的芯片传输结构的结构示意图之一;
图6为本公开实施例的芯片传输结构的结构示意图之二;
图7为本公开实施例的键合单元的结构示意图;
图8为本公开实施例的蘸胶单元的结构示意图;
图9为本公开实施例的点胶单元的结构示意图;
图10为本公开实施例的基料传输机构的结构示意图。
其中图中:1、芯片传输机构;101、第一传送带;102、第一真空孔;103、第一主动轮;104、第一从动轮;105、第二传送带;106、芯片托盘;107第二真空孔;108、第二主动轮;109、第二从动轮;2、晶片盒;201、插槽;202、第一电机;203、支架;3、第一工作台;4、第二工作台;401、 基料平台;402、X向运动座;403、Y向运动座;5、第一芯片抓取单元;6、第一芯片检测单元;7、芯片顶起单元;8、翻转单元;801、转动杆;802、第一吸嘴;803、第二吸嘴;9、第二芯片抓取单元;901、拾片头运动机构;902、拾片头;10、第二芯片检测单元;11、键合单元;1101、键合头运动机构;1102、键合头机构;1103、键合头;1104、真空接头;1105、压缩气体接头;1106、键合头气缸;1107、第二电机;1108、校准机构;12、第三芯片检测单元;13、蘸胶单元;1301、第三电机;1302、第三传送带;1303、连接板;1304、装胶盒;1305、刮胶板;14、第四芯片检测单元;15、点胶单元;1501、点胶头;1502、点胶头X向电机;1503、点胶头Y向电机;1504、点胶头Z向电机;16、基料传输机构;1601、机械手控制装置;1602、台架;1603、机械手。
具体实施方式
为使本公开要解决的技术问题、技术方案和优点更加清楚,下面将结合附图及具体实施例进行详细描述。
如图1和图2所示,本公开实施例提供了一种倒装芯片键合设备,包括:芯片传输机构1,所述芯片传输机构1包括:安装部和用于驱动所述安装部运动的驱动部,所述安装部包括多个用于放置芯片的工位;其中,通过所述安装部的运动,将位于其中一工位上的芯片从第一位置处移动至第二位置处;第一芯片抓取机构,用于抓取芯片后将所述芯片由下侧向上翻转,并在将所述芯片翻转后,将所述芯片放置在所述安装部上位于所述第一位置处的工位上;第二芯片抓取机构,用于将所述安装部上位于所述第二位置处的工位上的芯片取出,以进行键合。
本公开实施例的倒装芯片键合设备包括芯片传输机构、第一芯片抓取机构和第二芯片抓取机构,在芯片传输机构传输芯片的过程中,第一芯片抓取机构将芯片拾取后放置在芯片传输机构上位于第一位置处的工位上,在芯片运动到第二位置处时,第二芯片抓取机构将芯片从第二位置上取出进行键合。芯片传输机构的引入,使得倒装芯片键合设备在不降低效率的情况下适应大尺寸基材的倒装键合,大大提高了装片精度。
进一步地,继续参见图1,倒装芯片键合设备还包括:晶片盒2,如图3 为晶片盒2的具体结构示意图,包括:晶片盒本体,所述晶片盒本体内相对的两侧平行设置有多个插槽201,所述插槽201用于卡接放置有晶片的基板;第一电机202,所述第一电机202包括:第一输出装置;位于所述晶片盒本体下方的支架203,所述第一输出装置与所述支架203连接,当第一芯片抓取机构从装有多层晶片的晶片盒2内取出晶片后,支架203在第一电机202的驱动下将下层晶片推至工作位。
进一步地,继续参见图1,倒装芯片键合设备还包括:工作台机构,工作台机构包括:第一工作台3和第二工作台4,其中,所述第一芯片抓取机构从所述第一工作台3上拾取芯片,并将所述芯片放置在所述安装部上,所述第二芯片抓取机构将所述安装部上拾取的芯片放置到所述第二工作台4上。参见图4,第二工作台4包括:至少一个承载基料的基料平台401;X向运动座402和Y向运动座403,其中,所述X向运动座402和Y向运动座403可调节所述基料平台401处于一预设位置。其中,图4示出的基料平台401的形状为方形,数量为两个。可以理解的是,基料平台401的形状可以根据实际需要设置为方形或者圆形,数量可以设置为一个或多个。
芯片传输机构1主要实现芯片的远距离传输,是倒装芯片键合设备的主要部分,下面重点介绍下该芯片传输机构1的结构,如图5所示,为芯片传输机构1的一种结构示意图,包括:第一传送带101,所述工位为设置在所述第一传送带101的多个第一真空孔102;驱动部,所述驱动部包括:第一主动轮103和第一从动轮104,其中,所述第一传送带101连接第一主动轮103和第一从动轮104,第一主动轮103带动第一从动轮104旋转,驱动第一传送带101将芯片从一侧传送到另一侧,以完成芯片的传输工作。
其中,进一步地,所述多个第一真空孔102在所述第一传送带101上可为单排或多排排布。
如图6所示,为芯片传输机构1的另一种结构示意图,包括:安装部,所述安装部包括:第二传送带105和位于所述第二传送带105外侧上的芯片托盘106,所述工位为设置在所述芯片托盘106上的多个第二真空孔107;驱动部,所述驱动部包括:第二主动轮108和第二从动轮109,其中,所述第二传送带105连接第二主动轮108和第二从动轮109,第二主动轮108带动第二从动轮109旋转,驱动第二传送带105和芯片托盘106将芯片从一侧 传送到另一侧,以完成芯片的传输工作。
这里应当理解的是,芯片传输机构1可以有多种形式,本公开实施例仅仅列举了以上两种,凡是在不脱离芯片传输机构1所述原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本公开的保护范围。
进一步地,芯片传输机构1还包括:真空吸附结构,所述真空吸附结构包括多个真空管接头,所述多个真空管接头位于所述安装部上,且多个真空管接头与所述安装部上的工位一一相对应,通过所述真空管接头,所述工位采用真空吸附方式固定所述芯片。
继续参见图1和图2,所述第一芯片抓取机构包括:
第一芯片抓取单元5,用于抓取晶片后将所述晶片放置于所述第一工作台3上;位于第一工作台3上方的第一芯片检测单元6,用于检测所述晶片中芯片的位置信息;位于第一工作台3下方的芯片顶起单元7,用于将所述芯片向上顶起一预设高度;位于第一芯片检测单元6与第一工作台3之间的翻转单元8,用于抓取所述芯片并将所述芯片的顶面和底面翻转;第二芯片抓取单元9,位于所述第一芯片检测单元6与所述翻转单元8之间,用于吸附经翻转后的芯片,并将所述芯片放置在传输机构1的第一位置处。其中,所述翻转单元8包括:转动杆801;位于转动杆801两端的第一吸嘴802和第二吸嘴803;调节所述转动杆801上下运动的高度调节机构;以及调节所述转动杆801旋转转动的旋转调节机构。并且其中,所述第二芯片抓取单元9包括:拾片头运动机构901和拾片头902,拾片头902可在拾片头运动机构901上运动,且可以根据需要设置拾片头902的数量。
继续参见图1和图2,所述第二芯片抓取机构包括:
第二芯片检测单元10,位于所述芯片传输机构1的上方,用于检测所述芯片在所述第二位置处的位置信息;位于第二工作台4上方的键合单元11,用于抓取位于所述第二位置上的芯片;容纳有焊剂或粘接胶的浸渍单元,用于浸渍由所述键合单元11抓取的所述芯片底面上的凸块;第三芯片检测单元12,位于所述键合单元11的上方,用于检测芯片在所述第二工作台上4待键合位置的位置信息。其中,键合单元11包括:键合头运动机构1101和键合头机构1102。
继续参见图7,图7为键合单元11的键合头机构1102的具体结构示意 图,包括:键合头1103、真空接头1104、压缩气体接头1105以及键合头气缸1106,
其中,压缩气体接头1105通入压缩气体后,为键合头气缸1106提供压力,真空接头1104位于所述键合头气缸1106的外侧,与键合头气缸1106相连,键合头1103位于所述键合头气缸1106的下方,与键合头气缸1106相连。
进一步地,参见图1和图8,图8为所述浸渍单元的一个实施例,该实施例对应着需要蘸取焊剂或粘接胶的倒装芯片键合工艺,在这种情况下,浸渍单元包括:蘸胶单元13,所述蘸胶单元13包括:第三电机1301,第三传送带1302、连接板1303,装胶盒1304以及刮胶板1305。所述第三电机1301包括:第二输出装置,所述第二输出装置与所述第三传送带1302连接;所述第三传送带1302的内侧为齿轮结构;所述连接板1303的一端与所述齿轮机构啮合连接;所述刮胶板1305与所述连接板1303的另一端连接,所述刮胶板1305上设置有凹槽,其中,所述凹槽深度可设置为10~100um;所述装胶盒1304位于所述刮胶板1305上方,并且所述装胶盒1304内容置有焊剂或粘接胶。当芯片运动至蘸胶单元13上方,第三电机1301驱动第三传送带1302移动一定距离,第三传送带1302通过连接板1303带动刮胶板1305移动,至刮胶板1305中的凹槽完全通过装胶盒1304上方,此时,第三电机1301反向转动,驱动刮胶板1305伸出,胶盒1304内的焊剂或粘接胶填满刮胶板1305中的凹槽。
继续参见图2,对应着需要蘸取焊剂或粘接胶的倒装芯片键合工艺的情况下,所述倒装芯片键合设备还包括:第四芯片检测单元14,用于获得所述芯片在所述键合单元11上的位置信息,第四芯片检测单元14设置于所述刮胶板1305的下方。
进一步地,参见图2和图9,图9为所述浸渍单元的另一个实施例,该实施例对应着不需要蘸取焊剂或粘接胶的倒装芯片键合工艺,在这种情况下,浸渍单元包括:点胶单元15,所述点胶单元15包括:点胶头1501、点胶头X向电机1502、点胶头Y向电机1503以及点胶头Z向电机1504,所述点胶头X向电机1502、点胶头Y向电机1503以及点胶头Z向电机1504配合作用,以驱动点胶头1501在基料上进行点胶。通过时序的协调,键合头1103将芯片键合在完成点胶的基料上。
进一步地,参见图1,所述倒装芯片键合设备还包括:基料传输机构16,参见图10,所述基料传输机构16包括:机械手控制装置1601、位于所述机械手控制装置1601上方的台架1602和位于所述台架上方的机械手1603。当倒装芯片键合完一张基料后,机械手1603伸进第二工作台4中将基料托起,机械手控制装置1601控制机械手1603将做完的基料放入基料盒中,并从基料盒中托起一张未装片的基料放置在第二工作台4上。
以上所述是本公开的优选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本公开所述原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本公开的保护范围。

Claims (17)

  1. 一种倒装芯片键合设备,其特征在于,包括:
    芯片传输机构,所述芯片传输机构包括:安装部和用于驱动所述安装部运动的驱动部,所述安装部包括多个用于放置芯片的工位;其中,通过所述安装部的运动,将位于其中一个工位上的芯片从第一位置处移动至第二位置处;
    第一芯片抓取机构,其用于抓取芯片后将所述芯片由下侧向上翻转,并在将所述芯片翻转后,将所述芯片放置在所述安装部上位于所述第一位置处的工位上;
    第二芯片抓取机构,其用于将所述安装部上位于所述第二位置处的工位上的芯片取出,以进行键合。
  2. 根据权利要求1所述的倒装芯片键合设备,其特征在于,还包括:
    晶片盒,所述晶片盒包括:
    晶片盒本体,所述晶片盒本体内相对的两侧平行设置有多个插槽,所述插槽用于卡接放置有晶片的基板;
    第一电机,所述第一电机包括:第一输出装置以及位于所述晶片盒本体下方的支架,所述第一输出装置与所述支架连接。
  3. 根据权利要求1所述的倒装芯片键合设备,其特征在于,还包括:
    工作台机构,所述工作台机构包括:
    第一工作台和第二工作台,
    其中,所述第一芯片抓取机构从所述第一工作台上拾取芯片,并将所述芯片放置在所述安装部上,所述第二芯片抓取机构将从所述安装部上拾取的芯片放置到所述第二工作台上。
  4. 根据权利要求3所述的倒装芯片键合设备,其特征在于,所述第二工作台包括:
    至少一个承载基料的基料平台;X向运动座和Y向运动座,
    其中,所述X向运动座和Y向运动座能够调节所述基料平台,从而使所述基料平台处于预设位置。
  5. 根据权利要求1所述的倒装芯片键合设备,其特征在于,
    所述安装部包括:第一传送带,所述工位为设置在所述第一传送带的多个第一真空孔;
    所述驱动部包括:第一主动轮和第一从动轮,其中,所述第一传送带连接第一主动轮和第一从动轮。
  6. 根据权利要求5所述的倒装芯片键合设备,其特征在于,所述多个第一真空孔在所述第一传送带上为单排或多排排布。
  7. 根据权利要求1所述的倒装芯片键合设备,其特征在于,
    所述安装部包括:第二传送带和位于所述第二传送带外侧上的芯片托盘,所述工位为设置在所述芯片托盘上的多个第二真空孔;
    所述驱动部包括:第二主动轮和第二从动轮,其中,所述第二传送带连接第二主动轮和第二从动轮。
  8. 根据权利要求1所述的倒装芯片键合设备,其特征在于,所述芯片传输机构还包括:真空吸附结构,所述真空吸附结构包括多个真空管接头,所述多个真空管接头位于所述安装部上,且所述多个真空管接头与所述安装部上的工位一一相对应,通过所述真空管接头,所述工位采用真空吸附方式固定所述芯片。
  9. 根据权利要求3所述的倒装芯片键合设备,其特征在于,所述第一芯片抓取机构包括:
    第一芯片抓取单元,其用于抓取晶片后将所述晶片放置于所述第一工作台上;
    位于第一工作台上方的第一芯片检测单元,其用于检测所述晶片中芯片的位置信息;
    位于第一工作台下方的芯片顶起单元,其用于将所述芯片向上顶起一预设高度;
    位于第一芯片检测单元与第一工作台之间的翻转单元,其用于抓取所述芯片并将所述芯片的顶面和底面翻转;
    第二芯片抓取单元,其位于所述第一芯片检测单元与所述翻转单元之间,用于吸附经翻转后的芯片,并将所述芯片放置在传输机构的第一位置处。
  10. 根据权利要求9所述的倒装芯片键合设备,其特征在于,所述翻转单元包括:
    转动杆;
    位于所述转动杆两端的第一吸嘴和第二吸嘴;
    调节所述转动杆上下运动的高度调节机构;以及
    调节所述转动杆旋转转动的旋转调节机构。
  11. 根据权利要求3所述的倒装芯片键合设备,其特征在于,所述第二芯片抓取机构包括:
    第二芯片检测单元,其位于所述芯片传输机构的上方,且用于检测所述芯片在所述第二位置处的位置信息;
    位于第二工作台上方的键合单元,其用于抓取位于所述第二位置上的芯片;
    容纳有焊剂或粘接胶的浸渍单元,其用于浸渍由所述键合单元抓取的所述芯片底面上的凸块;
    第三芯片检测单元,其位于所述键合单元的上方,且用于检测芯片在所述第二工作台上待贴片位置的位置信息。
  12. 根据权利要求11所述的倒装芯片键合设备,其特征在于,所述键合单元包括:
    键合头、真空接头、压缩气体接头以及键合头气缸;
    其中,所述压缩气体接头通入压缩气体后,为所述键合头气缸提供压力;
    所述真空接头位于所述键合头气缸的外侧,与所述键合头气缸相连;
    所述键合头位于所述键合头气缸的下方,与所述键合头气缸相连。
  13. 根据权利要求11所述的倒装芯片键合设备,其特征在于,所述浸渍单元包括:蘸胶单元,
    所述蘸胶单元包括:第三电机、第三传送带、连接板、装胶盒以及刮胶板;
    所述第三电机包括:第二输出装置,所述第二输出装置与所述第三传送带连接;
    所述第三传送带的内侧为齿轮结构;
    所述连接板的一端与所述齿轮机构啮合连接;
    所述刮胶板与所述连接板的另一端连接,所述刮胶板上设置有凹槽;
    所述装胶盒位于所述刮胶板上方,并且所述装胶盒内容置有焊剂或粘接 胶。
  14. 根据权利要求13所述的倒装芯片键合设备,其特征在于,所述凹槽深度为10~100um。
  15. 根据权利要求13所述的倒装芯片键合设备,其特征在于,所述倒装芯片键合设备还包括:
    第四芯片检测单元,其用于获得所述芯片在所述键合单元上的位置信息,且位于所述刮胶板的下方。
  16. 根据权利要求11所述的倒装芯片键合设备,其特征在于,所述浸渍单元包括:点胶单元,所述点胶单元包括:
    点胶头、点胶头X向电机、点胶头Y向电机以及点胶头Z向电机,
    所述点胶头X向电机、所述点胶头Y向电机以及所述点胶头Z向电机配合作用,以驱动点胶头在基料上进行点胶。
  17. 根据权利要求1所述的倒装芯片键合设备,其特征在于,所述倒装芯片键合设备还包括:基料传输机构,所述基料传输机构包括:
    机械手控制装置、位于所述机械手控制装置上方的台架和位于所述台架上方的机械手。
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CN106373914B (zh) * 2016-11-10 2020-03-24 北京中电科电子装备有限公司 一种芯片键合装置
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CN114267613B (zh) * 2021-12-20 2023-06-27 苏州艾科瑞思智能装备股份有限公司 一种三维异质异构集成芯片微组装机

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7156602B2 (en) * 2001-11-08 2007-01-02 F & K Delvotec Bondtechnick Gmbh Mechanism for exchanging chip-carrier plates for use in a hybrid chip-bonding machine
CN101281873A (zh) * 2007-04-06 2008-10-08 均豪精密工业股份有限公司 用于安装半导体芯片的装置
CN104157594A (zh) * 2013-05-14 2014-11-19 先进科技新加坡有限公司 带有多个用于传送电子器件进行键合的旋转传送臂的键合装置
CN104701199A (zh) * 2015-03-20 2015-06-10 北京中电科电子装备有限公司 一种倒装芯片键合设备

Family Cites Families (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR960032667A (ko) * 1995-02-28 1996-09-17 김광호 리드프레임의 이송방법
CN2503613Y (zh) * 2001-08-22 2002-07-31 厦门宝龙工业股份有限公司 电池单体极片半自动叠片机
SG104292A1 (en) * 2002-01-07 2004-06-21 Advance Systems Automation Ltd Flip chip bonder and method therefor
JP4691923B2 (ja) * 2004-07-30 2011-06-01 株式会社日立製作所 半導体装置の搭載設備
JP2007158102A (ja) * 2005-12-06 2007-06-21 Shibuya Kogyo Co Ltd ボンディング装置
CN100449724C (zh) * 2006-02-20 2009-01-07 中芯国际集成电路制造(上海)有限公司 一种晶片检测装置和晶片检测方法
TWI322476B (en) * 2006-10-05 2010-03-21 Advanced Semiconductor Eng Die bonder and die bonding method thereof
CN104183526A (zh) * 2013-05-28 2014-12-03 北京中电科电子装备有限公司 具有加热功能的工件传输装置
CN104183527A (zh) * 2013-05-28 2014-12-03 北京中电科电子装备有限公司 工件键合系统
CN203941942U (zh) * 2014-05-29 2014-11-12 华南理工大学 一种led基板和透镜键合、热压和注胶一体化设备
CN104009134B (zh) * 2014-05-29 2017-10-20 华南理工大学 一种led基板和透镜键合、热压和注胶一体化设备
CN104051318B (zh) * 2014-07-04 2017-02-01 格科微电子(上海)有限公司 图像传感器芯片的自动化封装系统和自动化封装方法

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7156602B2 (en) * 2001-11-08 2007-01-02 F & K Delvotec Bondtechnick Gmbh Mechanism for exchanging chip-carrier plates for use in a hybrid chip-bonding machine
CN101281873A (zh) * 2007-04-06 2008-10-08 均豪精密工业股份有限公司 用于安装半导体芯片的装置
CN104157594A (zh) * 2013-05-14 2014-11-19 先进科技新加坡有限公司 带有多个用于传送电子器件进行键合的旋转传送臂的键合装置
CN104701199A (zh) * 2015-03-20 2015-06-10 北京中电科电子装备有限公司 一种倒装芯片键合设备

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CN110600410A (zh) * 2019-10-21 2019-12-20 广东协铖微电子科技有限公司 一种芯片框架的点胶上芯机
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