1
James W Heller, David Lipson, Kirk W Johnson: Thin film electrical component. Eli Lilly and Company, Douglas J Taylor, Leroy Whitaker, April 28, 1992: US05108819 (432 worldwide citation)

A biocompatible thin film electrical component is configured for use in a human body or other ionic liquid environment. A polyimide substrate is bonded to a glass carrier plate sized for handling by automatic equipment and a multiple-layer metal conductor is deposited on the substrate and patterned ...


2
James W Heller, David Lipson: Method of making a thin film electrical component. Eli Lilly and Company, Woodard Emhardt Naughton Moriarty & McNett, April 4, 1995: US05403700 (245 worldwide citation)

A biocompatible thin film electrical component is configured for use in a human body or other ionic liquid environment. A polyimide substrate is bonded to a glass carrier plate sized for handling by automatic equipment and a multiple-layer metal conductor is deposited on the substrate and patterned ...


3
Heller James Walter, Johnson Kirk Willis, Lipson David: Thin film electrical component.. Lilly Co Eli, August 21, 1991: EP0442674-A2 (12 worldwide citation)

A biocompatible thin film electrical component is configured for use in a human body or other ionic liquid environment. A polyimide substrate (11) is bonded to a glass carrier plate (10) sized for handling by automatic equipment and a multiple-layer metal conductor (18) is deposited on the substrate ...


4
Robert J Greenberg, Jerry Ok, Jordan Matthew Neysmith, Brian V Mech, Neil Hamilton Talbot: Method of manufacturing a flexible circuit electrode array. Second Sight Medical Products, Scott Dunbar, October 10, 2017: US09788432

Polymer materials make useful materials as electrode array bodies for neural stimulation. They are particularly useful for retinal stimulation to create artificial vision. Regardless of which polymer is used, the basic construction method is the same. A layer of polymer is laid down. A layer of meta ...


5
Glueck Joachim: Method of manufacturing a thin-film electrical component, in particular a thin-film electrical component for use at high pressure. Bosch Robert, October 4, 2001: EP1139085-A2

A thin-layer high-pressure sensor element has a substrate (5), onto which is applied one or more functional layers (150) to form a structure. The substrate is prepared. A functional layer is isolated on the substrate and then structured. A defined area (KP) on the structured functional layer is mask ...


6
Heller James Walter, Johnson Kirk Willis, Lipson David: Composante electrique sous forme de mince pellicule, Thin film electrical component. Eli Lilly And Company, Disetronic Licensing, GOWLING LAFLEUR HENDERSON, June 4, 2002: CA2036241

A biocompatible thin film electrical componentis configured for use in a human body or other ionicliquid environment. A polyimide substrate is bonded toa glass carrier plate sized for handling by automaticequipment and a multiple-layer metal conductor isdeposited on the substrate and patterned to de ...


7
James Walter Heller, Kirk Willis Johnson, David Lipson: Thin film electrical component. Eli Lilly And Company, XIAO JUCHANG CAO JIHONG, February 22, 1995: CN94101876

A biocompatible thin film electrical component is configured for use in a human body or other ionic liquid environment. A polyimide substrate is bonded to a glass carrier plate sized for handling by automatic equipment and a multiple-layer metal conductor is deposited on the substrate and patterned ...


8
David Lipson, James W Heller, Kirk W Johnson: Thin film electrical component. Eli Lilly And Co, XIAO JUCHANG CAO JIHONG, August 28, 1991: CN91101035

A biocompatible thin film electrical component is configured for use in a human body or other ionic liquid environment. A polyimide substrate is bonded to a glass carrier plate sized for handling by automatic equipment and a multiple-layer metal conductor is deposited on the substrate and patterned ...


9
Improvements in or relating to electrical circuit components.. Cts, May 7, 1969: GB1151068-A

1,151,068. Glass coatings; compositions. C.T.S. CORP. 6 May, 1966 [7 May, 1965], No. 20217/66. Heading C1M. [Also in Division H1] In a thin-film electrical component (see Division H1) alternate coatings of conductive and insulating glass are applied to an insulating substrate, e.g. of fused quartz, ...


10
DECODING INFORMATION EMBEDDED IN AN ELECTRONIC ELEMENT. June 13, 2019: US20190181102-A1

A pattern of information is detected in a thin-film electrical element including a plurality of thin-film layers on a substrate, the plurality of thin-film layers overlapping in an encoding region to form an optical layer structure. At least one of the thin-film layers in the optical layer structure ...