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    • 1. 发明专利
    • MANUFACTURE OF SEMICONDUCTOR DEVICE
    • JPS5988864A
    • 1984-05-22
    • JP19920782
    • 1982-11-12
    • MATSUSHITA ELECTRIC IND CO LTD
    • KONDOU SHIYUUJISHIRAGASAWA TSUYOSHI
    • H01L25/18H01L21/60H01L25/065H01L25/07H01L27/00
    • PURPOSE:To obtain an LSI device of a high density and high reliability by a method wherein the main surface of a slave substrate shorter in two sides than a master substrate is placed on the latter substrate in opposition and then connected by means of solder bumps or bases, and element regions are hermetically sealed with the bumps and bases which surround functional element parts. CONSTITUTION:The functional elements 7 and 7' at each center of the master substrate 5 and the slave substrate 6 and electrodes 8 and 8' in the periphery are connected. By corresponding to electrodes 9' of the slave substrate 6, connection electrodes 9 are provided at the functional element part 7 of the master substrate 5. Next, the master substrate 5 is covered with a projection film 10, the electrode pads 8 and the connection electrode parts 9 are exposed, Ti 12 and Pt 13 are laminated, the Sn-Pb solder bases 11 are formed to a hight of 10- several ten mum, and junction bases are likewise formed to the electrodes 9' of the slave substrate 6. The bumps can be provided. At the same time, a sealing metallic dam 14 of a solder alloy is formed in the periphery of the groups of the electrodes pads 9 and 9' by surrounding the functional element regions 7 and 7'. When solder is fused by mounting the substrate 6 on the substrate 5, the functional element regions 7 and 7' are connected and hermetically sealed with the solder dam 14.
    • 2. 发明专利
    • PAPER FEEDING CONTROL DEVICE
    • JPS58139934A
    • 1983-08-19
    • JP2001682
    • 1982-02-10
    • MATSUSHITA ELECTRIC IND CO LTD
    • OOMURA MORIHARUKONDOU SHIYUUJI
    • G03G21/00B65H3/44B65H7/04G03G15/00
    • PURPOSE:To make continuous paper feeding possible, in case selected copying paper in a paper feeder is used up, by switching another paper feeder, which is available for the same sized paper as the said paper or a larger one in size than it, over into a state of feed operation, in case of a control device comprising more than two paper feeders. CONSTITUTION:In selection of a cassette, when a manual selector switch 31a on a control panel 31 is pressed, the existing cassette selected is discriminated at a microcomputer 32. At a time when a cassette 1 at the upper step is selected so far, a cassette 2 at the lower step is, in turn, selected. Next, the presence of copying paper in the cassette 2 is found by the discrimination of the presence of paper through the output of paper presence detection switches SW1 and SW2 and information of the paper size also through the output of lead switches S1 and S2, and paper size is displayed in addition. And, when the copying paper in the cassette 2 is used up later during repeat copying operation, the upper cassette 1 available for the same sized paper as the said paper or a larger one in size than it is used instead upon switchover.
    • 3. 发明专利
    • SEMICONDUCTOR DEVICE
    • JPS5848983A
    • 1983-03-23
    • JP14853281
    • 1981-09-18
    • MATSUSHITA ELECTRIC IND CO LTD
    • SHIRAGASAWA TSUYOSHINOYORI MASAHARUKONDOU SHIYUUJINAKADA YOSHIROU
    • G02B6/42H01L27/15H01L33/30H01L33/40H01S5/00H01S5/022
    • PURPOSE:To inspect a function before the device is divided into chips by forming the input/output terminals of beams to the main surface of the second semiconductor layer in structure in which the first semiconductor layer shaping a light-emitting section and an optical guide is held by the second semiconductor layer to form multilayer structure and beams from the light-emitting section are extracted from the end section of the first semiconductor layer. CONSTITUTION:An N type InP layer 2, an InGaAsP active layer 3 functioning as the optical guide, a P type InP layer 4 and an N type InGaAsP layer 5 are laminated and deposited onto an N type InP substrate 1, an opening section 9 entering the active layer 3 is bored, and the section 9 is used as an output terminal section 7. Al Electrodes 8 are each attached onto the layer 5 at a position separating from the terminal section 7 and the back of the substrate 1, and an optical IC element 11 is manufactured. When the function of the element 11 is inspected, a probe 12 is contacted with the electrode 8 of the surface and electrical signals are supplied, and laser beams 13', which are generated in the active layer 3 and reach to the opening section 9, are extracted by means of a glass fiber 15 inserted into the section 9 and inspected. When the function is excellent, the device is divided into two chips according to a broken line.
    • 5. 发明专利
    • SPIN COATING METHOD AND SPIN COATER
    • JPS5473576A
    • 1979-06-12
    • JP14136277
    • 1977-11-24
    • MATSUSHITA ELECTRIC IND CO LTD
    • KONDOU SHIYUUJITSUJI KAZUHIKO
    • G03C1/74B05C3/18B05C11/08B05D1/00B05D1/40G03F7/16H01L21/027H01L21/302
    • PURPOSE:To perform spin coating by placing a substrate to face downward and be opposed to the surface of coating solution and building up part of the coating solution surface to raised form and contacting the same to the substrate. CONSTITUTION:A substrate 101 with its surface to be coated being faced downward is secured to a rotary base 17 and a spindle 18 is slided to place the substrate in the position I near the photo resist solution surface 16. When a pressure gas is introduced into a chamber 13 and a diaphragm 14 is expanded, the liquid surface 16 builds up and deposits on approximately the entire surface of the substrate. Next, the chamber 13 is reduced of pressure to return the liquid surface to a normal position. The base 17 is then rotation-driven 701 and the base 17 is pulled up to the position II, whereby the resist coating film is formed on the substrate surface. The unsable gel form resist is separated and recovered into an enclosure bath 21 in this position, thus the majority of the resist is recovered into the chamber 12. Since the coating surface is facing downward, the dropping and deposition of the gel form particles on this surface do not occur and the homogeneous coating film may be obtained.
    • 8. 发明专利
    • MANUFACTURE OF SEMICONDUCTOR DEVICE
    • JPS60124832A
    • 1985-07-03
    • JP23302583
    • 1983-12-09
    • MATSUSHITA ELECTRIC IND CO LTD
    • KITAHIRO ISAMUKONDOU SHIYUUJI
    • H01L21/60
    • PURPOSE:To form a semiconductor element into thin layer easily with excellent yield and high density by a method wherein through holes are formed in a metallic substrate and a conductive layer is bonded to the main surface of the substrate and then semiconductor elements are connected to the leads at the edge of the conductive layer formed into conductive pattern by etching process. CONSTITUTION:It is recommended to form through holes 13 in a substrate 12 before anodic oxidation. Firstly a conductive layer 14 is bonded to the surface of the substrate 12 through the intermediary of an insulating layer 15. Secondly a photoresist film 16 is selectively formed on the conductive layer 14 to be etched utilizing the photoresist film 16 as a mask and leads 17 are formed on the insulating layer 15 on the through holes 13 simultaneously forming conductive pattern in other region. Bump electrodes 19 may be formed either on the semiconductor 18 side or on the leads 17 side. In such a case, the insulating layer 15 may protect the backside of the conductive layer 14 being etched while making alignment in case of bonding process easier.
    • 9. 发明专利
    • MANUFACTURE OF SEMICONDUCTOR DEVICE
    • JPS6086841A
    • 1985-05-16
    • JP19564583
    • 1983-10-19
    • MATSUSHITA ELECTRIC IND CO LTD
    • KONDOU SHIYUUJIKITAHIRO ISAMUTAKAHASHI HIROSHIHIRAI MINORU
    • H01L21/60
    • PURPOSE:To save the waste of a material for an electrode bump, and to reduce cost by forming the electrode bump on a transparent substrate for forming a rectangular shape electrode and selectively transferring and forming the electrode bump to a semiconductor element chip on a semiconductor substrate. CONSTITUTION:An insulating film 13 is shaped on a semiconductor substrate 9, and electrode pads 11 and a surface protective film 15 are formed on the insulating film 13. A transparent conductive electrode 18 and an insulating film 19 are formed on a transparent substrate 16 for shaping electrodes, and electrode bumps 21 are formed to opening sections 20 in the insulating film 19. Au is used as the bumps 21. The bumps 21 and the pads 11 are positioned. The bumps 21 and the pads 11 are combined through pressing and the projection of heat-wave beams 22. The rectangular transparent conductive electrode 18 is placed and positioned onto the substrate 9. The substrate 9 is moved, beams 22 are projected when acceptable semiconductor chips 8 are conformed, and beams 22 are not projected when defective semiconductor chips 8' are conformed and the substrate 9 is shifted to the next position. Accordingly, the waste of a bump material can be conserved because the bumps are formed only to acceptables.