| TYCO ELECTRONICS SVENSKA HOLDINGS AB Patent applications |
| Patent application number | Title | Published |
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| 20170023751 | Optoelectronic Module With Improved Heat Management - An optoelectronic module is disclosed. The optoelectronic module comprises an optical connector, a contact, an opto-electric assembly, and a casing. The opto-electric assembly has a carrier optically connected to the optical connector by a flexible optical fiber and electrically connected to the contact by a flexible cable. The casing at least partially encloses the opto-electric assembly, the optical connector, and the contact. An inner surface of a wall of the casing is attached to the carrier in a thermally conductive manner. | 01-26-2017 |
| 20150296648 | Interconnect Structure For Coupling An Electronic Unit And An Optical Unit, And Optoelectronic Module - An optoelectronic module is provide and includes an electronic unit, an optical unit, and an interconnect structure. The electronic unit is capable of outputting and/or receiving electric signals, while the optical unit is capable of converting the electric signals into optical signals. The interconnect structure connects the electronic unit and the optical unit, and includes an electrically conducting substrate and a pair of transmission leads connecting electronic unit and the optical unit. The pair of transmission leads includes a signal lead and a ground lead having lower impedance than the signal lead. | 10-15-2015 |
| 20150264803 | Electrical Connection Interface For Connecting Electrical Leads For High Speed Data Transmission - An electrical connection interface is provided. The electrical connection interface includes a first ground plane layer, a second ground plane layer, a first substrate and a second substrate. The second ground plane layer is positioned to overlap the first ground plane layer. The first substrate includes a first substrate conductive lead with a first interface region connected to and electrically insulated from the first ground plane layer. The second substrate includes a second substrate conductive lead with a second interface region connected to the first substrate conductive lead and the second ground plane layer. The second substrate conductive lead is electrically insulated from the second ground plane layer. | 09-17-2015 |
| 20140301742 | Method for Improving Signal Quality of a Digital Signal Being Transmitted Through a Non-Linear Device and Apparatus Using the Same - A digital signal processing method has steps of pre-emphasizing a digital signal, and then processing the pre-emphasized digital signal through a non-linear device. In the pre-emphasizing step, an undershoot is applied to a first level of the digital signal at a positive signal transition or an overshoot is applied to the digital signal at a negative first signal transition. | 10-09-2014 |
| 20140255042 | Optical Receiver And Transceiver Using The Same - An optical receiver is disclosed having a dielectric non-conductive substrate. A ground plane is positioned on the dielectric non-conductive substrate. An optical signal converting photodiode is also positioned on the dielectric non-conductive substrate, and has an optical signal receiver and an electrical signal output. An electrical signal amplifier is provided having an input connected to the electrical signal output of the optical signal converting photodiode. A first opening is positioned in the ground plane and surrounds the optical signal converting photodiode. The first opening has a resonance frequency higher than a fundamental frequency such that crosstalk is reducible at the input of the electrical signal amplifier. | 09-11-2014 |
| 20120307855 | HIGH SPEED LASING DEVICE - The present invention relates to a lasing device for use in an optical module. The lasing device comprises a first reflector and a second reflector; a confinement layer adapted to confine current within a current-confining aperture; and an active layer between the first and second reflectors. The active layer comprises a main active region aligned with the current confining aperture and an auxiliary active region surrounding the main active region. The second reflector includes a first reflector region arranged on the current-confining aperture and a second reflector region surrounding the first reflector region. The second reflector region and the first reflector are configured to induce stimulated recombination in the auxiliary active region. | 12-06-2012 |
| 20120220172 | ELECTRIC CONTACT MODULE AND ELECTRIC CONTACT BOX FOR AN ELECTRIC UNIT, AS WELL AS ELECTRIC EQUIPMENT AND ELECTRIC UNIT - The invention relates to an electric contact module, particularly electric test module, for an electric unit, preferably an electric distribution unit such as an electric voltage or power distribution unit or an installation of an electrical substation of an urban electrical power system, having a casing having first electrical contact means electrically connectable by/to a first electric unit, and a slider having second electrical contact means electrically connectable by/to a second electric unit, wherein the slider may be provided in a plurality of positions in relation to the casing. Furthermore, an electric contact box is disclosed having one or a plurality of electric contact modules according to the invention, wherein the electric contact box preferably comprises two, three or five electric contact modules or an integer multiple thereof. | 08-30-2012 |
| 20120063718 | MINIATURIZED HIGH SPEED OPTICAL MODULE - The present disclosure relates to an optical module comprising a carrier substrate including first electrical connection terminals on a first surface and second electrical connection terminals on a second surface electrically connected to the first electrical connection terminals. The second electrical connection terminals are connectable to a circuit carrier. The optical module further comprises an optically transparent carrier including first electrical connection terminals, and an optical element electrically connected to the optically transparent carrier. The optically transparent carrier is mechanically attached and electrically connected to the carrier substrate trough corresponding first electrical connection terminals, and the optical element is connected on a first surface of the optically transparent carrier and is adapted to emit/receive light through the optically transparent carrier to/from an optical coupling element facing a second surface of the optically transparent carrier opposing the first surface. | 03-15-2012 |
