Apparatus and method for fast FET switching in a digital output device
First Claim
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1. An industrial control device comprising:
- a switching component deriving a threshold switching voltage from a power source and operative to be energized on and de-energized off to selectively provide electrical power from the power source to a load;
a logic component that generates a first signal and a second signal independent of the first signal and operative to be non-complementary with respect to the first signal, further comprising a pulse generator that generates a low pulse of the second signal for a fixed duration causing the switching component to de-energized by actively removing voltage;
a first optical component in electrical communication with the switching component and adapted to selectively energize the switching component in response to the first signal, the first optical component comprising a first opto-coupler, the first opto-coupler comprising a first transistor, the first optical component operative to electrically isolate the logic component; and
a second optical component in electrical communication with the switching component and adapted to selectively de-energize the switching component in response to the second signal, the second optical component comprising a second opto-coupler, the second opto-coupler comprising a second transistor, the second optical component operative to electrically isolate the logic component.
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Abstract
An industrial control output device is provided which provides electrical isolation between device power and field power. The device includes two isolation devices, one of which is adapted to energize a power switching device, and the other is adapted to de-energize the switching device. The output device thus minimizes or reduces EMI/RFI emissions and provides fast switching times in selectively providing power to a load. In addition, the invention includes a method of providing power to a load in an industrial control system, which allows fast switching of a digital output with minimal or reduced EMI/RFI emissions.
51 Citations
16 Claims
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1. An industrial control device comprising:
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a switching component deriving a threshold switching voltage from a power source and operative to be energized on and de-energized off to selectively provide electrical power from the power source to a load;
a logic component that generates a first signal and a second signal independent of the first signal and operative to be non-complementary with respect to the first signal, further comprising a pulse generator that generates a low pulse of the second signal for a fixed duration causing the switching component to de-energized by actively removing voltage;
a first optical component in electrical communication with the switching component and adapted to selectively energize the switching component in response to the first signal, the first optical component comprising a first opto-coupler, the first opto-coupler comprising a first transistor, the first optical component operative to electrically isolate the logic component; and
a second optical component in electrical communication with the switching component and adapted to selectively de-energize the switching component in response to the second signal, the second optical component comprising a second opto-coupler, the second opto-coupler comprising a second transistor, the second optical component operative to electrically isolate the logic component. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
wherein the first optical component is adapted to selectively provide a voltage between the gate and the source of the FET in response to the first signal; and
wherein the second optical component is adapted to selectively remove the voltage between the gate and the source of the FET in response to the second signal.
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3. The output device of claim 1, wherein the logic component causes the second signal to be low for a fixed time period prior to causing the first signal to be high, whereby the second isolation component stops de-energizing the switching component prior to the first isolation component energizing the switching component and facilitates fast switching of the switching component.
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4. The industrial control device of claim 1, the switching component operative to have on-to-off switching times of less than 15 μ
- S and off-to-on switching times of less than 25 μ
S.
- S and off-to-on switching times of less than 25 μ
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5. The industrial control device of claim 1, wherein the low pulse of the second signal is generated while the first signal is high.
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6. The industrial control device of claim 1, wherein the low pulse of the second signal is generated while the first signal is low.
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7. The industrial control device of claim 1, wherein the fixed duration is about 22 μ
- S and provides an on-to-off switching time of less than about 15 μ
S.
- S and provides an on-to-off switching time of less than about 15 μ
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8. The industrial control device of claim 1, wherein the second isolation component is off and the first signal is high prior to the first isolation component being turned on.
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9. The industrial control device of claim 1, the logic component operative to cause the switching component to selectively provide the electrical power according to a control program.
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10. The industrial control device of claim 1, the load being a motor.
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11. The industrial control device of claim 1, the load being an actuator.
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12. The industrial control device of claim 1, the load being a valve.
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13. A method of providing power to a load in an industrial control system, comprising:
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providing a switching component in electrical communication with a power source and a load, and having a first state and a second state;
providing electrical power from the power source to the load when the switching component is in the first state;
discontinuing power from the power source to the load when the switching component is in the second state;
providing a first isolation component comprising a first opto-coupler having a first transistor in electrical communication with the switching component and adapted to selectively energize the switching component;
providing a second isolation component comprising a second opto-coupler having a second transistor in electrical communication with the switching component and adapted to selectively de-energize the switching component;
selectively placing the switching component in the first state by energizing the switching component using the first isolation component, wherein energizing the switching component comprises providing a first signal to the first isolation component; and
selectively placing the switching component in the second state, independent of the first state by de-energizing the switching component using the second isolation component, wherein de-energizing the second isolation component comprises asserting a second signal via a pulse for a fixed duration, whereby the second isolation component actively removes voltage from the switching component.
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14. A method of providing power to a load comprising:
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turning a first optical transistor on in response to a first signal being asserted high;
deriving a threshold voltage from a power source to facilitate energizing a switching component in response to the first optical transistor being on;
providing power from the power source to a load via the switching component;
turning a second optical transistor on in response to a second signal being asserted low via a pulse of a fixed duration;
de-energizing the switch component in response to the second optical transistor being on by actively removing the voltage on the switching component; and
isolating the load from the power as a result of the switching component being de-energized. - View Dependent Claims (15, 16)
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Specification
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Current AssigneeRockwell Technologies, LLC
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Original AssigneeRockwell Automation Technologies Incorporated (Allen-Bradley Co., Inc.)
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InventorsIvanov, Nedyalko V., Maskovyak, George D.
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Primary Examiner(s)FLEMING, FRITZ M
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Application NumberUS09/573,750Time in Patent Office1,076 DaysField of Search307/117, 307/125, 250/551, 327/374, 327/376, 327/377, 327/514US Class Current307/125CPC Class CodesH03K 17/04123 in field-effect transistor ...H03K 17/785 controlling field-effect tr...
