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Title: Switchable constant current sink
Claims: What is claimed is: 1. A switchable constant current sink for a CRT display system comprising: a first transistor T1 having collector, emitter and base electrodes; a first resistor R1; a first diode D1 having an anode and a cathode; means directly intercoupling the collector electrode of said first transistor T1 and the cathode of said first diode D1 for forming a first node; means coupling the emitter electrode of said first transistor T1 directly to a first terminal of said first resistor R1 the second terminal of which is coupled directly to ground; V.sub.refx reference voltage source means coupled to said transistor T1 constantly forward biasing the base emitter junction of said first transistor T1 for controlling a current I.sub.T1 to constantly flow from said first node, through said first transistor T1 and then through said first resistor R1 to ground; a second transistor T3 having collector, emitter and base electrodes; means coupling the emitter electrode of said third transistor T3 to said first node; a first voltage source V; an inductive load formed by the X deflection coil of said CRT coupled intermediate said first voltage source V and the anode of said first diode D1; a second voltage source V +.DELTA.V coupled to the collector electrode of said third transistor T3; logic means coupled to said second transistor T3 controlling said second transistor T3 to be either conducting ON or nonconducting OFF, respectively, said ON second transistor T3 coupling said second voltage source V +.DELTA.V to said first node and reverse biasing said first diode D1 for drawing said current I.sub.T1 through said second transistor T3 from said second voltage source V +.DELTA.V, or, alternatively, said OFF second transistor T3 decoupling said second voltage source V +.DELTA.V from said first node and forward biasing said first diode D1 for drawing said current I.sub.T1 through said inductive load from said first voltage source V. 2. The current sink of claim 1 in which said V.sub.REFX reference voltage source means includes: V.sub.ref constant voltage source means; digital-to-analog converter means for receiving the digital representations of a desired position of the electron beam of said CRT in the X direction and generating an analog signal representation thereof; correction module means for receiving said analog signal representation and generating a corresponding correction signal; operational amplifier means receiving said V.sub.REF constant voltage and said correction voltage and generating said V.sub.REFX reference voltage for controlling said first transistor T1 to adjust the magnitude of said current I.sub.T1 to compensate for the pin-cushion effect of the electron beam as positioned on said CRT face as determined by said digital representations. 3. A switchable constant current sink for a CRT display system, comprising: a first transistor T1 having collector, emitter and base electrodes; a first resistor R1; first and second diodes D1 and D2, each having an anode and a cathode; means directly intercoupling the collector electrode of said first transistor T1, and the cathodes of said first and second diodes D1 and D2 for forming a first node; means coupling the emitter electrode of said first transistor T1 directly to a first terminal of said first resistor R1 the second terminal of which is coupled directly to ground; V.sub.refx reference voltage source means constantly forward biasing the collector-emitter junction of said first transistor T1 for controlling a current signal I.sub.T1 to constantly flow from said first node, through said first transistor T1 and then through said first resistor R1 to ground; a second transistor T3 having collector, emitter and base electrodes; means coupling the emitter electrode of said second transistor T3 directly to the anode of said second diode D2; a first voltage source V; an inductive load formed of the X deflection coil of said CRT coupled intermediate said first voltage source V and the anode of said first diode D1; a second voltage source V +.DELTA.V coupled to the collector electrode of said second transistor T3; means controlling said second transistor T3 to be either conducting ON or nonconducting OFF, respectively, said ON second transistor T3 coupling said second voltage source V +.DELTA.V to the anode of said second diode D2 and forward biasing said second diode D2 and reverse biasing said first diode D1 for drawing said current signal I.sub.T1 through said second transistor T3 from said second voltage source V +.DELTA.V, or, alternatively, said OFF second transistor T3 decoupling said second voltage source V +.DELTA.V from the anode of said second diode D2 and reverse biasing said second diode D2 and forward biasing said first diode D1 for drawing said current signal I.sub.T1 through said inductive load from said first voltage source V. 4. The current sink of claim 3 in which said V.sub.REFX reference voltage source means includes: V.sub.ref constant voltage source means; digital-to-analog converter means for receiving the digital representations of a desired position of the electron beam of said CRT in the X direction and generating an analog signal representation thereof; correction module means for receiving said analog signal representation and generating a corresponding correction signal; operational amplifier means receiving said V.sub.REF constant voltage and said correction voltage and generating said V.sub.REFX reference voltage for controlling said first transistor T1 to adjust the magnitude of said current I.sub.T1 to compensate for the pin-cushion effect of the electron beam as positioned on said CRT face as determined by said digital representations. 5. A switchable constant current sink for a CRT display system, comprising: a first transistor T1 having collector, emitter and base electrodes; a first resistor R1; first and second diodes D1 and D2, each having an anode and a cathode; means directly intercoupling the collector electrode of said first transistor T1, and the cathodes of said first and second diodes D1 and D2 for forming a first node; means coupling the emitter electrode of said first transistor T1 directly to a first terminal of said first resistor R1 the second terminal of which is coupled directly to ground; V.sub.refx reference voltage source means coupled to said transistor T1 constantly forward biasing the base emitter junction of said first transistor T1 for controlling a current signal I.sub.T1 to constantly flow from said first node, through said first transistor T1 and then through said first resistor R1 to ground; second and third transistors T3 and T4 each having collector, emitter and base electrodes; a second resistor R2 having a first terminal coupled directly to the base electrode of said second transistor T3 and a second terminal coupled directly to the collector electrode of said second transistor T3; means coupling the collector electrode of said third transistor T4 directly to the base electrode of said second transistor T3; means coupling the emitter electrode of said third transistor T4 directly to ground; means coupling the emitter electrode of said second transistor T3 directly to the anode of said second diode D2; a first voltage source V; an inductive load formed by the X deflection coil of said CRT coupled intermediate said first voltage source V and the anode of said first diode D1; a second voltage source V +.DELTA.V coupled to the collector electrode of said second transistor T3; logic means coupled to said third transistor T4 controlling said second transistor T3 to be either conducting ON or nonconducting OFF, respectively, said ON second transistor T3 coupling said second voltage source V +.DELTA.V to the anode of said second diode D2 and forward biasing said second diode D2 and reverse biasing said first diode D1 for drawing said current signal I.sub.T1 through said second transistor T3 from said second voltage source V +.DELTA.V, or, alternatively, said OFF second transistor T3 decoupling said second voltage source V +.DELTA.V from the anode of said second diode D2 and reverse biasing said second diode D2 and forward biasing said first diode D1 for drawing said current signal I.sub.T1 through said inductive load from said first voltage source V. 6. The current sink of claim 5 in which said V.sub.REFX reference voltage source means includes: V.sub.ref constant voltage source means; digital-to-analog converter means for receiving the digital representations of a desired position of the electron beam of said CRT in the X direction and generating an analog signal representation thereof; correction module means for receiving said analog signal representation and generating a corresponding correction signal; operational amplifier means receiving said V.sub.REF constant voltage and said correction voltage and generating said V.sub.REFX reference voltage for controlling said first transistor T1 to adjust the magnitude of said current I.sub.T1 to compensate for the pin-cushion effect of the electron beam as positioned on said CRT face as determined by said digital representations. Other info: Inventors: Benrud, Vernal M. (Minneapolis, MN, US) Application Number: 467971 Filing Date: 1974-05-08 Publication_date: 1976-09-28 Assignee: Sperry Rand Corporation (New York, NY) Primary Class(es): 315/399 315/367 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Wilbur, Maynard R. Assistant Examiner: Blum, T. M. Attorney: Grace; Kenneth T., Nikolai; Thomas J., Truex; Marshall M. |
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