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Viscous material noncontact jetting system

a technology of viscous material and jetting system, which is applied in the direction of non-metallic protective coating application, process and machine control, instruments, etc., can solve the problems of introducing additional cost and reliability problems, corroding and excessive thermal stress, and too much epoxy can flow beyond the underside of the chip, so as to achieve accurate application of viscous material dots on the substrate, and reduce the effect of corrosion and excessive thermal stress

Inactive Publication Date: 2005-01-06
NORDSON CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0010] The present invention provides an improved noncontact jetting system that more accurately applies, on-the-fly, viscous material dots on a substrate. First, the improved noncontact jetting system of the present invention permits dispensed weight or dot size to be adjusted by changing either the temperature of the nozzle or the stroke of a piston in the jetting valve. This provides a simpler and less expensive system with a faster response time for calibrating dispensed weight or dot size. Further, the improved noncontact jetting system of the present invention permits a relative velocity between a nozzle and the substrate to be automatically optimized as a function of a current material dispensing characteristics and a specified total volume of material to be used on the substrate. The result is a more accurate and uniform application of the dispensed viscous material on the substrate. In addition, the improved noncontact jetting system of the present invention optimizes the positions at which respective dots are to be dispensed as a function of the relative velocity between the nozzle and the substrate, so that viscous material dots dispensed on-the-fly are accurately located on the substrate. The improved noncontact jetting system of the present invention is especially useful in those applications where weight or volume of the viscous material dots and their location on the substrate require accurate and precise control.

Problems solved by technology

Too little epoxy can result in corrosion and excessive thermal stresses.
Too much epoxy can flow beyond the underside of the chip and interfere with other semiconductor devices and interconnections.
However, those techniques often require additional components and mechanical structure, thereby introducing additional cost and reliability issues.
Further, the responsiveness of those techniques is proving less satisfactory as the rate at which dots are dispensed increases.
However, such parameters are constantly changing, albeit, often only slightly over the short term; but the cumulative effect of such changes can result in a detectable change in the volume of fluid being dispensed by the dispenser.

Method used

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  • Viscous material noncontact jetting system
  • Viscous material noncontact jetting system
  • Viscous material noncontact jetting system

Examples

Experimental program
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Embodiment Construction

[0026]FIG. 1 is a schematic representation of a computer controlled viscous material noncontact jetting system 10 of the type commercially available from Asymtek of Carlsbad, Calif. A rectangular frame 11 is made of interconnected horizontal and vertical steel beams. A viscous material droplet generator 12 is mounted on a Z-axis drive that is suspended from an X-Y positioner 14 mounted to the underside of the top beams of the frame 11. The X-Y positioner 14 is operated by a pair of independently controllable motors (not shown) in a known manner. The X-Y positioner and Z-axis drive provide three substantially perpendicular axes of motion for the droplet generator 12. A video camera and LED light ring assembly 16 may be connected to the droplet generator 12 for motion along the X, Y and Z axes to inspect dots and locate reference fiducial points. The video camera and light ring assembly 16 may be of the type described in U.S. Pat. No. 5,052,338 the entire disclosure of which is incorp...

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PUM

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Abstract

A viscous material noncontact jetting system has a jetting dispenser mounted for relative motion with respect to a surface. A control is operable to cause the jetting dispenser to jet a viscous material droplet that is applied to the surface as a viscous material dot. A device, such as a camera or weigh scale, is connected to the control and provides a feedback signal representing a size-related physical characteristic of the dot applied to the surface. The size-related physical characteristics of subsequently applied dots is controlled by heating and cooling, or adjusting a piston stroke in the jetting dispenser, in response to the size-related physical characteristic feedback. Dispensed material volume control and velocity offset compensation are also provided.

Description

[0001] This application claims priority to U.S. application Ser. No. 60 / 473,166, filed on May 23, 2003, which is hereby expressly incorporated by reference herein.FIELD OF THE INVENTION [0002] The present invention generally relates to equipment for dispensing viscous materials and more particularly, to a computer controlled, noncontact jetting system for applying dots of viscous material onto a surface. BACKGROUND OF THE INVENTION [0003] In the manufacture of substrates, for example, printed circuit (“PC”) boards, it is frequently necessary to apply small amounts of viscous materials, i.e. those with a viscosity greater than fifty centipoise. Such materials include, by way of example and not by limitation, general purpose adhesives, solder paste, solder flux, solder mask, grease, oil, encapsulants, potting compounds, epoxies, die attach pastes, silicones, RTV and cyanoacrylates. [0004] In the quest for ever increasing miniaturization of circuitry, a fabrication process known as fli...

Claims

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Application Information

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IPC IPC(8): B05D1/26B05B12/02B05C5/00B05C5/02B05C9/14B05C11/10B05D3/00H05K3/34
CPCB05C5/0225H05K3/3484B05C11/1034B05C11/10H05K3/3485H01H85/0021H01H85/165B05C5/001G05D7/0629H05K3/28H05K2203/0736
Inventor ABERNATHY, RONBABIARZ, ALEC J.BARENDT, NICHOLAS ANTHONYCIARDELLA, ROBERTCOOPER, JAMES EVERETT JR.ESPENSCHIED, KENNETH S.FISKE, ERIKGIUSTI, CHRISTOPHER L.JENKINS, PATRICK R.LEWIS, ALANMERRITT, RAYMOND ANDREWNAGANO, NAOYA IANQUINONES, HORATIORATLEDGE, THOMASSHERMAN, JOESURIAWIDJAJA, FLORIANAWESTON, TODD
Owner NORDSON CORP
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