Systems for encapsulating a hybrid assembly of electronic components and associated methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H05K-003/28
B29C-045/14
출원번호
US-0561248
(2014-12-05)
등록번호
US-10201094
(2019-02-05)
발명자
/ 주소
Kim, Chunho
Shi, Songhua
Ricotta, Mark S.
Sleeper, Scott B.
Wang, Yongqian
출원인 / 주소
Medtronic, Inc.
인용정보
피인용 횟수 :
0인용 특허 :
16
초록▼
During a process to encapsulate electronic components and attachment interfaces thereof on a first side of a substrate of a hybrid assembly, a fluid is supplied to a trench of an encapsulation system in which the hybrid assembly is loaded, and a balancing pressure is delivered by the fluid within th
During a process to encapsulate electronic components and attachment interfaces thereof on a first side of a substrate of a hybrid assembly, a fluid is supplied to a trench of an encapsulation system in which the hybrid assembly is loaded, and a balancing pressure is delivered by the fluid within the trench, during the encapsulation process, to support the hybrid assembly from an opposing second side of the substrate. A regulator of a fluid supply of the system may maintain the balancing pressure, for example, being controlled by a controller of the system that is configured to estimate a pressure within a molding cavity of the system.
대표청구항▼
1. A method for supporting a hybrid assembly during a process that encapsulates a first side of a substrate of the hybrid assembly, the method comprising: loading the hybrid assembly into an encapsulation system such that the first side of the substrate is located in a molding cavity of the encapsul
1. A method for supporting a hybrid assembly during a process that encapsulates a first side of a substrate of the hybrid assembly, the method comprising: loading the hybrid assembly into an encapsulation system such that the first side of the substrate is located in a molding cavity of the encapsulation system, and such that a second side of the substrate of the hybrid assembly that is opposite the first side is located in a trench of the encapsulation system, with the second side being offset from an interior surface of the trench to define a gap therebetween;delivering encapsulation material into only the molding cavity to encapsulate only the first side;supplying a fluid into the trench, wherein the fluid comprises compressed gas; andmaintaining a balancing pressure within the trench with the supplied fluid to support the hybrid assembly during the delivery of the encapsulation material. 2. The method of claim 1, further comprising determining a first pressure applied against the first side of the hybrid assembly during the delivery of the encapsulation material, wherein maintaining the balancing pressure with the fluid comprises controlling the delivery of the supplied fluid to generate a second pressure that corresponds to the first pressure. 3. The method of claim 1, further comprising monitoring a distance between at least one of a plurality of locations on the second side of the substrate and the interior surface of the trench, wherein maintaining the balancing pressure with the fluid comprises controlling the delivery of the supplied fluid to generate a second pressure that maintains the distance within a predetermined value. 4. The method of claim 1, further comprising determining a first pressure within the trench, wherein maintaining the balancing pressure comprises controlling the delivery of the encapsulation material to generate a second pressure within the molding cavity that corresponds to the first pressure. 5. The method of claim 1, further comprising monitoring a distance between at least one of a plurality of locations on the second side of the substrate and the interior surface of the trench, wherein maintaining the balancing pressure with the fluid comprises controlling the delivery of the encapsulation material to generate a second pressure that maintains the distance within a predetermined value. 6. The method of claim 1, wherein loading the hybrid assembly into the encapsulation system comprises clamping an outer perimeter portion of the substrate of the hybrid assembly between first and second mold chases of the encapsulation system such that a sealed interface is formed between the first mold chase and the first side of the substrate and between the second mold chase and the opposing second side of the substrate. 7. A method for encapsulating a hybrid assembly of electronic components, the hybrid having opposing first and second sides, the method comprising: clamping an outer perimeter portion of the hybrid assembly between first and second mold chases of an encapsulation system such that a sealed interface is formed between the first mold chase and the first side of the hybrid assembly and between the second mold chase and the second side of the hybrid assembly such that the hybrid assembly is located within a molding cavity of the first mold chase and a trench of the second mold chase, wherein a majority of the first and second sides of the hybrid assembly is configured to be offset from a first surface of the first mold chase and a second surface of the second mold chase to define a gap therebetween;activating a plunger to inject encapsulation material into only the molding cavity of the first mold chase, after clamping the hybrid assembly;supplying fluid to the trench of the second mold chase during the injection of the encapsulation material, wherein the fluid comprises compressed gas; andmaintaining a balancing pressure within the trench to support the hybrid assembly, from the second side of the hybrid assembly, during the injection of the encapsulation material into the molding cavity. 8. The method of claim 7, further comprising determining a first pressure generated by the encapsulation material against the first side of the hybrid assembly during the injection of the encapsulation material into the molding cavity, wherein maintaining the balancing pressure comprises controlling delivery of the fluid to generate a second pressure within the trench corresponding to the first pressure. 9. The method of claim 8, wherein determining the first pressure comprises monitoring a distance between at least one of a plurality of locations on the second side of the hybrid assembly and the second surface of the second mold chase. 10. The method of claim 8, further comprising estimating a pressure within one of the molding cavity or the trench, and wherein maintaining the balancing pressure comprises controlling delivery of the fluid or encapsulation material to generate a corresponding pressure within the other of the trench or molding cavity. 11. The method of claim 10, further comprising monitoring a distance between each of a plurality of locations on the second side of the hybrid assembly and the second surface of the second mold chase, wherein maintaining the balancing pressure comprises controlling delivery of the fluid or encapsulation material to generate a corresponding pressure based on the monitored distance.
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이 특허에 인용된 특허 (16)
Johnson Mark S. ; Bolken Todd O., Asymmetric transfer molding method and an asymmetric encapsulation made therefrom.
Peters, Hendrikus Johannes Bernardus; Reijmer, Arthur Theodorus Johannes; De Vries, Franciscus Bernardus Antonius; Venrooij, Johannes Lambertus Gerardus Marla, Method and device for encapsulating electronic components with a conditioning gas.
Abbott, Donald C.; Cotugno, John E.; Fritzsche, Robert M.; Sabo, Robert A.; Sullivan, Christopher M.; West, David W., Method of fabricating flexible circuits for integrated circuit interconnections.
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