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    1.
    发明专利
    未知

    公开(公告)号:NO140692B

    公开(公告)日:1979-07-09

    申请号:NO457673

    申请日:1973-11-30

    Applicant: IBM

    Inventor: GHOUGASIAN JOHN HART JON JULIUSBURGER HANS YOHANAN LOWY PAUL

    IPC: B41J2/115 B41J2/125 H04N1/23 G06K15/00 B41J3/04

    Abstract: An inductive charge sensing device is disclosed in accordance with the teachings of the present invention for use with an ink jet printing system wherein ink under pressure is applied to a nozzle and ink emitted by the nozzle thereafter breaks up into a series of drops which are electrostatically charged and subsequently deflected in order to achieve controlled printing upon a recording surface moved in front of said apparatus. The charging and deflection of individual droplets is effected under control of an applied video signal. In order for the proper information to be recorded, the charging and deflection operation must be performed in precise synchronization with the ink droplet formation. As droplets are emitted from the nozzle, the charge sensor detects charges impressed on said droplets passing adjacent to but in non-impinging relationship with said sensor and a signal is developed which may be used to control an electrical or electromechanical drop forming means associated with said nozzle and ink supply.

    2.
    发明专利
    未知

    公开(公告)号:DE2360013A1

    公开(公告)日:1974-06-12

    申请号:DE2360013

    申请日:1973-12-01

    Applicant: IBM

    Inventor: JULIUSBURGER HANS YOHANAN LOWY PAUL

    IPC: B05B5/025 B41J2/115 G06K15/10 B41J3/04 G06K15/00

    Abstract: 1399066 Ink-jet printers INTERNATIONAL BUSINESS MACHINES CORP 24 Oct 1973 [11 Dec 1972] 49511/73 Heading G4H An ink-jet printer incorporates logic 28, Fig. 5, for adjusting the phase relationship between drop-forming and drop charging signals in accordance with the sensed charge on a series of test drops. Test signals are derived from a clock 30, Fig. 6 (not shown), and are applied to a nozzle vibrator 12 and an electrode 14, the charge on the test drops being monitored by a sensor 16. Clock 30 comprises a ring counter which produces pulse-trains F1-F8, Fig. 2 (not shown), successively displaced by # of a period; pulse train F1 is used to drive vibrator 12. One of F1-F8 is used to control a gate 78 through which data signals pass from a generator 76 to the charging electrode 14: this pulse train is selected by gates 82 or 88 (A1-A8) during a print or a test phase respectively, the particular gate which is enabled being determined by the output of a modulo-8 counter 48 controlled by the output from sensor 16. In an initial test phase counter 48 is set to 0 and gate A1, 88 passes pulse train F1 as test charging pulses via gates 92, 42 to electrode 14, sensor 16 (which comprises a threshold device) determines whether or not the test drops have been fully enarged and sends an output to counter 48 which enables one of gates 94 or 44 so as to decrement or increment 48 (and thereby select a different pulse train). During the remainder of the initial test period the count in 48 is alternately stepped up and down by 1 according as the drops cease to be or become fully charged; at the end of this period gate 78 is enabled by the prevailing pulse train F. The possibility that the count in 48 may be wrong by a count of 1 does not matter in practice as the counter output is fed to decoders 80, 86 which select the gate A corresponding to a count of 3 less than the actual count (e.g. A2 for a count of 5) so as to produce a "broader" print phase charging pulse than is used in the test phase. Subsequent test phases, which may take place during a "carriage return" operation for example, are as above except that counter 48 is not initialized to 0.

    4.
    发明专利
    未知

    公开(公告)号:FI59885C

    公开(公告)日:1981-10-12

    申请号:FI370673

    申请日:1973-12-03

    Applicant: IBM

    Inventor: GHOUGASIAN JOHN HART JON JULIUSBURGER HANS YOHANAN LOWY PAUL

    IPC: B41J2/115 B41J2/125 H04N1/23 G06K15/00 B41J3/04

    Abstract: An inductive charge sensing device is disclosed in accordance with the teachings of the present invention for use with an ink jet printing system wherein ink under pressure is applied to a nozzle and ink emitted by the nozzle thereafter breaks up into a series of drops which are electrostatically charged and subsequently deflected in order to achieve controlled printing upon a recording surface moved in front of said apparatus. The charging and deflection of individual droplets is effected under control of an applied video signal. In order for the proper information to be recorded, the charging and deflection operation must be performed in precise synchronization with the ink droplet formation. As droplets are emitted from the nozzle, the charge sensor detects charges impressed on said droplets passing adjacent to but in non-impinging relationship with said sensor and a signal is developed which may be used to control an electrical or electromechanical drop forming means associated with said nozzle and ink supply.

    5.
    发明专利
    未知

    公开(公告)号:NO140692C

    公开(公告)日:1979-10-17

    申请号:NO457673

    申请日:1973-11-30

    Applicant: IBM

    Inventor: GHOUGASIAN JOHN HART JON JULIUSBURGER HANS YOHANAN LOWY PAUL

    IPC: B41J2/115 B41J2/125 H04N1/23 G06K15/00 B41J3/04

    Abstract: An inductive charge sensing device is disclosed in accordance with the teachings of the present invention for use with an ink jet printing system wherein ink under pressure is applied to a nozzle and ink emitted by the nozzle thereafter breaks up into a series of drops which are electrostatically charged and subsequently deflected in order to achieve controlled printing upon a recording surface moved in front of said apparatus. The charging and deflection of individual droplets is effected under control of an applied video signal. In order for the proper information to be recorded, the charging and deflection operation must be performed in precise synchronization with the ink droplet formation. As droplets are emitted from the nozzle, the charge sensor detects charges impressed on said droplets passing adjacent to but in non-impinging relationship with said sensor and a signal is developed which may be used to control an electrical or electromechanical drop forming means associated with said nozzle and ink supply.

    6.
    发明专利
    未知

    公开(公告)号:DE2348724A1

    公开(公告)日:1974-06-27

    申请号:DE2348724

    申请日:1973-09-28

    Applicant: IBM

    Inventor: GHOUGASIAN JOHN HART JON JULIUSBURGER HANS YOHANAN LOWY PAUL

    IPC: B41J2/115 B41J2/125 H04N1/23 B41J3/04

    Abstract: An inductive charge sensing device is disclosed in accordance with the teachings of the present invention for use with an ink jet printing system wherein ink under pressure is applied to a nozzle and ink emitted by the nozzle thereafter breaks up into a series of drops which are electrostatically charged and subsequently deflected in order to achieve controlled printing upon a recording surface moved in front of said apparatus. The charging and deflection of individual droplets is effected under control of an applied video signal. In order for the proper information to be recorded, the charging and deflection operation must be performed in precise synchronization with the ink droplet formation. As droplets are emitted from the nozzle, the charge sensor detects charges impressed on said droplets passing adjacent to but in non-impinging relationship with said sensor and a signal is developed which may be used to control an electrical or electromechanical drop forming means associated with said nozzle and ink supply.

    7.
    发明专利
    未知

    公开(公告)号:FI59885B

    公开(公告)日:1981-06-30

    申请号:FI370673

    申请日:1973-12-03

    Applicant: IBM

    Inventor: GHOUGASIAN JOHN HART JON JULIUSBURGER HANS YOHANAN LOWY PAUL

    IPC: B41J2/115 B41J2/125 H04N1/23 G06K15/00 B41J3/04

    Abstract: An inductive charge sensing device is disclosed in accordance with the teachings of the present invention for use with an ink jet printing system wherein ink under pressure is applied to a nozzle and ink emitted by the nozzle thereafter breaks up into a series of drops which are electrostatically charged and subsequently deflected in order to achieve controlled printing upon a recording surface moved in front of said apparatus. The charging and deflection of individual droplets is effected under control of an applied video signal. In order for the proper information to be recorded, the charging and deflection operation must be performed in precise synchronization with the ink droplet formation. As droplets are emitted from the nozzle, the charge sensor detects charges impressed on said droplets passing adjacent to but in non-impinging relationship with said sensor and a signal is developed which may be used to control an electrical or electromechanical drop forming means associated with said nozzle and ink supply.

    8.
    发明专利
    未知

    公开(公告)号:DE2656721A1

    公开(公告)日:1977-06-30

    申请号:DE2656721

    申请日:1976-12-15

    Applicant: IBM

    Inventor: DYM HERBERT LOWY PAUL SALYER GREG

    IPC: G06F3/044 G06F3/033 G06F3/041 G06F3/00

    Abstract: An improved operation is provided for a graphic tablet of the type in which a pen is capacitively coupled to sets of X dimension wires and Y dimension wires that are digitally activated to produce a pen signal that signifies the position of the pen on the tablet. Compensation is provided for variations in the pen signal that are attributable only to differences in the height of the pen above the tablet as the pen is operated over intervening layers of paper of various thicknesses. The drivers that activate the tablet are controlled to establish a sequence of different activation patterns and a corresponding sequence of analog pen signals. These signals are operated on to produce a pen position address that is substantially compensated for variations in pen height.

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