Systems and methods for controlling contactor bounce
US-2021098214-A1 · Apr 1, 2021 · US
Method and apparatus for handling contactor / relay contact bounce under transient conditions
US12387894B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-12387894-B2 |
| Application number | US-202217861056-A |
| Country | US |
| Kind code | B2 |
| Filing date | Jul 8, 2022 |
| Priority date | Jul 8, 2021 |
| Publication date | Aug 12, 2025 |
| Grant date | Aug 12, 2025 |
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- Title
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- Abstract
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- Assignees and inventors
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- First independent claim
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Abstract
Official abstract text for this publication.
The present invention detects contact bouncing in a contactor by measuring contact voltage fluctuations caused by the bouncing power delivery contacts controlled by the contactor. When these fluctuations are detected, a circuit causes a pull-in coil of the contactor to be temporarily re-energized to re-establish a higher magnetic field needed to pull and maintain the power delivery contacts into proper position, which eliminates the bouncing. Because of the high power required by the pull-in coil, the time that the pull-in coil is actuated is limited in order to avoid thermal damage to the coil or other electronic components. After the pull-in coil is activated to move the power delivery contacts into proper position, a lower magnetic field hold coil is instead energized to maintain the power delivery contacts in place. The time that the pull-in coil is activated is dynamic and correspond to each disturbance as the disturbance happens, or the time is a set time determined by a timer, or the time is controlled by a Pulse Width Modulation scheme.
First claim
Opening claim text (preview).
We claim: 1. A circuit arrangement capable of reducing contact bounce in a contactor resulting from a transient condition, the circuit arrangement comprising: a contactor having a first magnetic coil electrically connected to a second magnetic coil, one or both of the coils configured to close contacts when power is to be provided to a load, the first magnetic coil generating a higher magnetic field than the second magnetic coil: a switch configured to selectively electrically short the second coil to allow the first coil to generate the higher magnetic field; a voltage sensor configured to detect voltage fluctuations caused by the transient condition, the voltage sensor having an output used to selectively activate the switch to thereby energize the first coil to generate the higher magnetic field; and wherein the first coil includes a pull-in coil and the second coil includes a hold coil, the pull-in coil and the hold coil being connected in series. 2. The circuit arrangement of claim 1 , wherein the voltage sensor comprises a differential amplifier having a first input in electrical communication with a power bus and a second input in electrical communication with a load voltage connection, the output of the differential amplifier configured to indicate a difference in voltage between the power bus and the load voltage connection. 3. The circuit arrangement of claim 2 , wherein the pull-in coil is temporarily energized when the disturbance is detected and de-energized when the disturbance is no longer detected. 4. A circuit arrangement capable of reducing contact bounce in a contactor resulting from a transient condition, the circuit arrangement comprising: a contactor having a first magnetic coil electrically connected to a second magnetic coil, one or both of the coils configured to close contacts when power is to be provided to a load, the first magnetic coil generating a higher magnetic field than the second magnetic coil; a switch configured to selectively electrically short the second coil to allow the first coil to generate the higher magnetic field; a voltage sensor configured to detect voltage fluctuations caused by the transient condition, the voltage sensor having an output used to selectively activate a timer, which in turn activates the switch for a selectable period of time to thereby energize the first coil to generate the higher magnetic field; and wherein the first coil includes a pull-in coil and the second coil includes a hold coil, the pull-in coil and the hold coil being connected in series. 5. The circuit arrangement of claim 4 , wherein the voltage sensor comprises a differential amplifier having a first input in electrical communication with a power bus and a second input in electrical communication with a load voltage connection, the output of the differential amplifier configured to indicate a difference in voltage between the power bus and the load voltage connection. 6. The circuit arrangement of claim 5 , wherein the pull-in coil is temporarily energized when the disturbance is detected and de-energized after the selectable period of time has run. 7. A circuit arrangement capable of reducing contact bounce in a contactor resulting from a transient condition, the circuit arrangement comprising: a contactor having a first magnetic coil electrically connected to a second magnetic coil, one or both of the coils configured to close contacts when power is to be provided to a load, the first magnetic coil generating a higher magnetic field than the second magnetic coil; a switch configured to selectively electrically short the second coil to allow the first coil to generate the higher magnetic field; a voltage sensor configured to detect voltage fluctuations caused by the transient condition, the voltage sensor having an output used to activate a pulse width modulator have a selectable duty cycle, an output of the pulse width modulator selectively activating the switch on and off according to the duty cycle to thereby energize the first coil to generate the higher magnetic field; and wherein the first coil includes a pull-in coil and the second coil includes a hold coil, the pull-in col and the hold coil being connected in series. 8. The circuit arrangement of claim 7 , wherein the voltage sensor comprises a differential amplifier having a first input in electrical communication with a power bus and a second input in electrical communication with a load voltage connection, the output of the differential amplifier configured to indicate a difference in voltage between the power bus and the load voltage connection. 9. The circuit arrangement of claim 8 , wherein the pull-in coil is temporarily energized when the disturbance is detected and de-energized in accordance with the selectable duty cycle of the pulse width modulator. 10. A method of reducing contact bounce in a contactor resulting from a transient condition, the method comprising the following steps: utilizing a contactor having a first magnetic coil electrically connected to a second magnetic coil, one or both of the coils configured to close contacts when power is to be provided to a load, the first magnetic coil generating a higher magnetic field than the second magnetic coil; selectively operating a switch configured to selectively electrically short the second coil to allow the first coil to generate the higher magnetic field; utilizing a voltage sensor configured to detect voltage fluctuations caused by the transient condition, the voltage sensor having an output used to selectively activate the switch to thereby energize the first coil to generate the higher magnetic field; and wherein the first coil includes a pull-in coil and the second coil includes a hold coil, the pull-in coil and the hold coil being connected in series. 11. The method of claim 10 , wherein the voltage sensor comprises a differential amplifier having a first input in electrical communication with a power bus and a second input in electrical communication with a load voltage connection, the output of the differential amplifier configured to indicate a difference in voltage between the power bus and the load voltage connection. 12. The method of claim 11 , wherein the pull-in coil is temporarily energized when the disturbance is detected and de-energized when the disturbance is no longer detected. 13. A method of reducing contact bounce in a contactor resulting from a transient condition, the method comprising the following steps: utilizing a contactor having a first magnetic coil electrically connected to a second magnetic coil, one or both of the coils configured to close contacts when power is to be provided to a load, the first magnetic coil generating a higher magnetic field than the second magnetic coil; selectively operating a switch configured to selectively electrically short the second coil to allow the first coil to generate the higher magnetic field; utilizing a voltage sensor configured to detect voltage fluctuations caused by the transient condition, the voltage sensor having an output used to selectively activate a timer, which in turn activates the switch for a selectable period of time is thereby energize the first coil to generate the higher magnetic field; and wherein the first coil includes a pull-in coil and the second coil includes a hold coil, the pull-in coil and the hold coil being connected in series. 14. The method of claim 13 , wherein the voltage sensor comprises a differential amplifier having a first input in electrical communication with a power bus and a second input in electrical communication with a load voltage connection, the output
Assignees
Inventors
Classifications
Contact arrangements · CPC title
Magnetic coils or windings · CPC title
Movable parts of magnetic circuits, e.g. armature · CPC title
Monitoring or fail-safe circuits · CPC title
Detecting unwanted movement of contacts and applying pulses to coil for restoring to normal status · CPC title
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Frequently asked questions
Answers are generated from the same data shown on this page.
- What does patent US12387894B2 cover?
- The present invention detects contact bouncing in a contactor by measuring contact voltage fluctuations caused by the bouncing power delivery contacts controlled by the contactor. When these fluctuations are detected, a circuit causes a pull-in coil of the contactor to be temporarily re-energized to re-establish a higher magnetic field needed to pull and maintain the power delivery contacts int…
- Who is the assignee on this patent?
- Astronics Advanced Electronic Systems Corp
- What technology area does this patent fall under?
- Primary CPC classification H01H47/02. Mapped technology areas include Electricity.
- When was this patent published?
- Publication date Tue Aug 12 2025 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 6 related publications on this page (citations in our corpus or others sharing the same primary CPC).