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    TRANSCEIVER FOR RADIO DATA TRANSMISSION
    1.
    发明专利
    TRANSCEIVER FOR RADIO DATA TRANSMISSION 失效

    公开(公告)号:JPH1155188A

    公开(公告)日:1999-02-26

    申请号:JP14033198

    申请日:1998-04-15

    Applicant: TELEFUNKEN MICROELECTRON

    Inventor: ANGERSTEIN JOERG DR SCHAIRER WERNER GFELLER FRITZ DR HIRT WALTER DR

    IPC: G08C17/00 H04B10/11 H04B10/105 H04B10/04 H04B10/06 H04B10/10 H04B10/14 H04B10/22 H04B10/26 H04B10/28

    Abstract: PROBLEM TO BE SOLVED: To constitution-revise an old transceiver so as to satisfy the request for parity, in spite of the different radiation angle in a primary state. SOLUTION: In a transceiver 1 executing radio data transmission, a transmission unit 2 and receiving unit 3 are constituted or revised to nearly equalize the radiating characteristic of a transmitter 2 and the sensitivity characteristic of a receiver 3 or at least the horizontal radiation angle of the transmitter 2 and the horizontal opening angle of the receiver. At the time of matching the radiation and opening angles at a conventional transceiver, a pipe-state light shielding part reducing the angle is used, or an additional transmission or reception constituting part is fixed so as to increase an angle generated as a result of it. By matching the radiation characteristic with sensitivity characteristic, the request for parity within the frame of a scheduled AIR standard is satisfied, and a transmitting distance is increased by nearly ten times in this manner.

    5.
    发明专利
    未知

    公开(公告)号:DE69024959T2

    公开(公告)日:1996-11-14

    申请号:DE69024959

    申请日:1990-10-30

    Applicant: IBM

    Inventor: GFELLER FRITZ DR

    IPC: G11B7/09 G11B7/12 G11B7/135

    Abstract: Semiconductor optical head structure for accessing storage locations on an optical storage medium, such as an optical disk, for writing, erasing, and reading of information, including tracking-error detection and focusing-error detection systems. Both error detection systems are optical and electrical separated to avoid any mutual interferences of the error signals, and all optical elements of the optical head are integrated on one chip. The focusing-error signal is generated by deflecting a separate beam (20A) out of the optical head (15) and focusing it onto the surface (12) of an optical disk (11) and detecting the reflected portion (20B) thereof. The separate readout and tracking-error signal is generated employing light beam (21A) which is focused to the center of the pits (10) of a track and detecting the diffracted portion (21B) thereof. Focusing-errors can be reduced by actuating the head perpendicular to the disk (11) using coil (22). If a tracking-error is measured the head can be moved using actuator (17), until the error is minimized. The required optical head can be grown on a compound semiconductor material, such as GaAs, using planar fabrication technology.

    8.
    发明专利
    未知

    公开(公告)号:DE69112058T2

    公开(公告)日:1996-05-02

    申请号:DE69112058

    申请日:1991-09-19

    Applicant: IBM

    Inventor: BONA GIAN-LUCA DR GFELLER FRITZ DR JAECKEL HEINZ DR WEBB DAVID J DR

    IPC: G02B6/12 G02B6/42 H01S3/025

    Abstract: Disclosed is a method for efficient and self-aligned laser to waveguide coupling being an important step towards higher integration of opto-electronic circuits. For automatic alignment of an optical waveguide (67 - 69) to a ridge waveguide laser (50 - 52), the ridge structure (54) of the laser is transferred into the substrate (50) by etching the mirror groove. The transferred ridge structure (55) serves as base for the deposition of the waveguide layers (67 -69), their thickness being controlled during the deposition such that the waveguide core (69) is laterally and vertically aligned to the lasing active layer (51) of the laser structure (50 - 52).

    9.
    发明专利
    未知

    公开(公告)号:DE69024959D1

    公开(公告)日:1996-02-29

    申请号:DE69024959

    申请日:1990-10-30

    Applicant: IBM

    Inventor: GFELLER FRITZ DR

    IPC: G11B7/09 G11B7/12 G11B7/135

    Abstract: Semiconductor optical head structure for accessing storage locations on an optical storage medium, such as an optical disk, for writing, erasing, and reading of information, including tracking-error detection and focusing-error detection systems. Both error detection systems are optical and electrical separated to avoid any mutual interferences of the error signals, and all optical elements of the optical head are integrated on one chip. The focusing-error signal is generated by deflecting a separate beam (20A) out of the optical head (15) and focusing it onto the surface (12) of an optical disk (11) and detecting the reflected portion (20B) thereof. The separate readout and tracking-error signal is generated employing light beam (21A) which is focused to the center of the pits (10) of a track and detecting the diffracted portion (21B) thereof. Focusing-errors can be reduced by actuating the head perpendicular to the disk (11) using coil (22). If a tracking-error is measured the head can be moved using actuator (17), until the error is minimized. The required optical head can be grown on a compound semiconductor material, such as GaAs, using planar fabrication technology.

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