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    • 1. 发明申请
    • PROCESS FOR REFLOW SOLDERING OF CIRCUIT BOARDS FITTED WITH SMD COMPONENTS
    • 于回流WITH SMD元件方法组装的PCB
    • WO1998026638A1
    • 1998-06-18
    • PCT/DE1997001997
    • 1997-09-09
    • ROBERT BOSCH GMBHNEUTEL, AndreasSCHMIDT, JoachimSABOTKE, JensHAUSCHILD, Frank-DieterGRAEN, AnsgarBARAN, Carola
    • ROBERT BOSCH GMBH
    • H05K03/34
    • H05K3/305H05K3/3415H05K2201/09072H05K2203/1476H05K2203/1572Y02P70/613
    • This invention concerns a process for reflow soldering of circuit boards fitted SMD components in which SMD components are placed on soldering surfaces of the first side of a circuit board and soldered to the circuit board in a first reflow soldering step. Subsequently the circuit board is turned with the first side underneath and SMD components are placed on soldering surfaces of the upward-facing second side, which are soldered to the circuit board in a subsequent reflow soldering step. The SMD components on the first side of the circuit board are firmly cemented to the circuit board before the second reflow soldering step on the first side. It is proposed that after the first reflow soldering step a cement be injected from the second side of the circuit board through holes which pass through the circuit board and correspond to the components soldered to the first side of the board into the space between the components and circuit board.
    • 根据与SMD元件组装的印刷电路板的回流焊的方法,其中,所述贴片元件被放置在电路板的第一侧的焊接表面,并且被焊接在第一Reflowlötschritt到电路板,所述印刷电路板的本发明则涉及所述第一侧 调低和SMD元件被放置在现在覆盖所述第二侧的焊接表面在随后的第二Reflowlötschritt被焊接到所述电路板,其中在电路板的第一侧面上的第一页上的SMD元件的第二Reflowlötschritt之前 粘。 所以建议第一Reflowlötschritt从所述电路板的第二侧上的粘接剂通过在每种情况下一个位于的钎焊从所述第一侧到所述印刷电路板的第二侧延伸的第一端组件孔的位置,在两者之间的空间后 注入部件和电路板。
    • 4. 发明申请
    • METHOD AND APPARATUS FOR CONNECTING FINE PITCH LEADED ELECTRONIC COMPONENTS TO PRINTED CIRCUIT BOARDS
    • 将精密电子元件连接到印刷电路板的方法和装置
    • WO1993019576A1
    • 1993-09-30
    • PCT/US1993002552
    • 1993-03-16
    • RAYCHEM CORPORATION
    • RAYCHEM CORPORATIONCARLOMAGNO, William, D.WEIHE, Gary, R.
    • H05K03/34
    • H05K3/363H05K1/117H05K3/303H05K3/3452H05K2201/09909H05K2201/10681H05K2203/0594H05K2203/167Y02P70/613
    • A method is provided for forming a high density circuit board for connection of a leaded component (28) wherein at least two adjacent beam leads of the component have a pitch smaller than 0.010". The method comprises the steps of: forming connection pads (26) on the circuit board in nominal alignment with the said at least two adjacent beam leads of the component, and forming a guiding structure (30) as a peaked structure between the connection pads (26) for guiding the said at least two adjacent beam leads into alignment with the connection pads (26) during attachment of the leaded component (28) to the circuit board in accordance with the further steps of: coating a photosensitive curable polyimide material in uncured state onto the circuit board, patterning the coated polyimide material by selective exposure to light energy, removing unexposed portions of the polyimide material by an etching step to form the guiding structure means, and curing the polyimide material forming the guiding structure.
    • 提供一种形成用于连接有铅元件(28)的高密度电路板的方法,其中元件的至少两个相邻的光束引线具有小于0.010“的间距,该方法包括以下步骤:形成连接焊盘(26 )在所述电路板上与所述组件的所述至少两个相邻的光束引线标称对准,并且在所述连接焊盘(26)之间形成作为峰值结构的引导结构(30),用于引导所述至少两个相邻的光束引线 在将有铅部件(28)附接到电路板的过程中,与连接焊盘(26)对准,根据以下步骤:将未固化状态的光敏可固化聚酰亚胺材料涂覆到电路板上,将涂覆的聚酰亚胺材料图案化 选择性地暴露于光能,通过蚀刻步骤去除未曝光的部分聚酰亚胺材料以形成引导结构装置,并且固化形成导光体的聚酰亚胺材料 结构。
    • 8. 发明申请
    • OPTIMIZED SOLDER JOINTS FOR SURFACE MOUNT CHIPS
    • 优化的表面贴装焊接头
    • WO1998032314A2
    • 1998-07-23
    • PCT/IB1997001602
    • 1997-12-29
    • FORD GLOBAL TECHNOLOGIES, INC.
    • FORD GLOBAL TECHNOLOGIES, INC.McMILLAN, Richard, Keith, IIJAIRAZBHOY, Vivek, AmirPAO, Yi-Hsin
    • H05K03/34
    • H05K3/3442H05K2201/09427H05K2201/09781H05K2201/10636H05K2203/0465H05K2203/306Y02P70/611Y02P70/613
    • There is disclosed herein a surface mount printed circuit board having a substrate (10), at least one surface mount device (14), at least two mounting pads (12) per device (14), solder joints (24) connecting the terminations (22) of the device (14) to their respective mounting pads (12), at least one rectangular lifter pad (30) on the substrate (10) amid the mounting pads (12), and a solder mass (32) on each lifter pad (30) in contact with the bottom surface (18) of the device (14). The inner and outer extensions (li and lo) of the mounting pads (12), the size, number, and shape of the lifter pads, and the amounts of solder deposited on the mounting and lifter pads (30) are designed such that the solder joint (24) has preferably convex outer fillets (28), the device (14) is maintained at a predetermined height (ho) above the mounting pads (12), the inner fillet angle ( alpha ) is maintained above a predetermined minimum angle to increase solder joint crack initiation time, and the overall solder joint crack propagation length is increased. An alternative embodiment also includes plugged vias (34) under the lifter pads (30) and/or mounting pads (12), with gas pockets (40) trapped between the solder masses (32) /solder joints (24) and the plugged vias (34). This trapped gas pocket (40) provides additional buoyant force upon the SMD (14) during reflow.
    • 这里公开了一种表面安装印刷电路板,其具有基板(10),至少一个表面安装装置(14),每个装置(14)至少两个安装焊盘(12),连接终端的焊接接头(24) (14)的至少一个矩形升降器垫(30),并且在每个升降器(12)上的焊料块(32)上, 垫(30)与装置(14)的底表面(18)接触。 安装焊盘(12)的内部和外部延伸部(li和lo),提升垫的尺寸,数量和形状以及沉积在安装和升降器垫(30)上的焊料的量被设计成使得 焊接接头(24)优选具有凸形的外圆角(28),该装置(14)被保持在安装垫(12)上方的预定高度(ho)处,内圆角(α)保持在预定的最小角度 增加焊点裂纹的起始时间,整体焊点裂纹扩展长度增加。 替代实施例还包括位于升降器垫(30)和/或安装垫(12)下方的堵塞的通孔(34),其中气囊(40)被捕获在焊料块(32)/焊点(24)和堵塞的通孔 (34)。 这种被困的气体袋(40)在回流时在SMD(14)上提供额外的浮力。