IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0314575
(2008-12-12)
|
등록번호 |
US-8716896
(2014-05-06)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Finnegan, Henderson, Farabow, Garrett & Dunner LLP
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
15 |
초록
▼
A control system for use with a genset is disclosed. The control system may have a bus configured to receive power from the generator set, and a first sensor configured to generate a first signal indicative of a characteristic of power on the bus. The control system may also have a second sensor con
A control system for use with a genset is disclosed. The control system may have a bus configured to receive power from the generator set, and a first sensor configured to generate a first signal indicative of a characteristic of power on the bus. The control system may also have a second sensor configured to generate a second signal indicative of an engine parameter of the generator set, and a controller in communication with the first and second sensors. The controller may be configured to synchronize an electrical output of the generator set with the power on the bus based on the first and second signals.
대표청구항
▼
1. A control system for use with a generator set, the control system comprising: a bus configured to receive power from the generator set;a first sensor configured to sense a frequency of power on the bus;a second sensor configured to sense a rotational frequency of a crankshaft of an engine of the
1. A control system for use with a generator set, the control system comprising: a bus configured to receive power from the generator set;a first sensor configured to sense a frequency of power on the bus;a second sensor configured to sense a rotational frequency of a crankshaft of an engine of the generator set; anda controller in communication with the first and second sensors, the controller being configured to synchronize an electrical output of the generator set with the power on the bus by: determining a difference between the sensed frequency of the power on the bus and the sensed rotational frequency of the engine crankshaft, andadjusting the operation of the generator set to reduce the difference when the difference exceeds a threshold. 2. The control system of claim 1, further including: a third sensor configured to sense a voltage of electrical power produced by the generator set, anda fourth sensor configured to sense a voltage of the power on the bus;wherein the controller is in communication with the third and fourth sensors, the controller being further configured to match the voltage of the generator set to the voltage of the power on the bus by: determining a voltage difference between the sensed voltage from the third sensor and the sensed voltage from the fourth sensor, andadjusting the operation of the generator set to reduce the voltage difference when the voltage difference exceeds a second threshold. 3. The control system of claim 1, wherein the controller is further configured to electrically connect the electrical output of the generator set to the bus when the difference is within the threshold. 4. The control system of claim 1, wherein the controller is configured to adjust the operation of the generator set by adjusting a rotational speed of the engine crankshaft. 5. The control system of claim 1, wherein the second sensor includes an impulse transmitter configured to generate a pulse signal when the engine crankshaft passes a first angle. 6. The control system of claim 1, further comprising: a third sensor configured to sense a phase angle of the power on the bus;wherein the second sensor is further configured to sense an angular position of the engine crankshaft; andwherein the controller is in communication with the third sensor and is further configured to synchronize the electrical output of the generator set with the power on the bus by: determining, based on the sensed phase angle and the sensed angular position, a relationship between the angular position and an angular position of a rotor of a generator of the generator set,storing the relationship in a memory of the controller for use during a plurality of synchronizations, andadjusting the operation of the generator set based on the stored relationship. 7. The control system of claim 1, further comprising: a third sensor configured to sense a phase angle of the power on the bus;wherein the second sensor is further configured to sense an angular position of the engine crankshaft; andwherein the controller is in communication with the third sensor and is further configured to match the angular position of the engine crankshaft to the phase angle of the power on the bus by: determining a difference between the sensed phase angle and the sensed angular position of the engine crankshaft, andadjusting the operation of the generator set when the difference between the sensed phase angle and the sensed angular position of the engine crankshaft exceeds a second threshold. 8. A control system for use with a first generator set and a second generator set, the control system comprising: a first sensor configured to sense a rotational speed of a first crankshaft of an engine of the first generator set;a second sensor configured to sense a rotational speed of a second crankshaft of an engine of the second generator set; anda controller in communication with the first and second sensors, the controller being configured to synchronize an electrical output of the first generator set with an electrical output of the second generator set by: determining a difference between the sensed rotational speed of the first engine crankshaft and the sensed rotational speed of the second engine crankshaft, andadjusting the operation of the second generator set to reduce the difference when the difference exceeds a threshold. 9. The control system of claim 8, wherein the controller is configured to: adjust the operation of the second generator set to reduce the difference when the electrical output of the first generator set is electrically disconnected from the electrical output of the second generator set, andelectrically connect the electrical output of the first generator set and the electrical output of the second generator set when the difference is within the threshold. 10. The control system of claim 8, wherein the controller is further configured to adjust the operation of the second generator set by adjusting the rotational speed of the second engine crankshaft. 11. The control system of claim 8, further including: a third sensor configured to sense a voltage of electrical power produced by the first generator set; anda fourth sensor configured to sense a voltage of electrical power produced by the second generator set,wherein the controller is further configured to match the voltage of the first generator set to the voltage of the second generator set by: determining a voltage difference between the sensed voltage from the third sensor and the sensed voltage from the fourth sensor, andadjusting the operation of the second generator set to reduce the voltage difference when the voltage difference exceeds a second threshold. 12. The control system of claim 8, wherein each of the first and second sensors includes an impulse transmitter configured to generate a pulse signal when the respective first and second engine crankshafts pass a respective first angle. 13. The control system of claim 8, wherein: the first sensor is further configured to sense an angular position of the first engine crankshaft;the second sensor is further configured to sense an angular position of the second engine crankshaft; andthe controller is further configured to synchronize the electrical output of the first generator set with the electrical output of the second generator set by: determining an angular position difference between the sensed angular position of the first engine crankshaft and the sensed angular position of the second engine crankshaft, andadjusting the operation of the second generator set to reduce the angular position difference when the angular position difference exceeds a second threshold. 14. A method of providing power, the method comprising: monitoring a frequency of power on a bus;operating a generator set to produce an electrical output;sensing a rotational frequency of a crankshaft of an engine of the generator set;synchronizing the electrical output of the generator set with the power on the bus, before connecting the electrical output of the generator set to the bus, by: determining a difference between the sensed frequency of the power on the bus and the sensed rotational frequency of the engine crankshaft, andadjusting the operation of the generator set to reduce the difference when the difference exceeds a threshold; andconnecting the electrical output to the bus when the difference is within the threshold. 15. The method of claim 14, further comprising: sensing a phase angle of the power on the bus; andsensing an angular position of the engine crankshaft;wherein synchronizing the electrical output of the generator set with the power on the bus further includes: determining, based on the sensed phase angle and the sensed angular position, a relationship between the angular position of the crankshaft and an angular position of a rotor of a generator of the generator set;storing the relationship for use during a plurality of synchronizations; andadjusting the operation of the generator set based on the stored relationship. 16. The method of claim 14, wherein the rotational frequency is sensed based on a pulse signal generated based on an angular position of the crankshaft. 17. A method of providing power, the method comprising: operating a first generator set to produce electrical power;monitoring a rotational speed of a first crankshaft of an engine of the first generator set;operating a second generator set to produce electrical power;monitoring a rotational speed of a second crankshaft of an engine of the second generator set;synchronizing an electrical power output of the second generator set with an electrical power output of the first generator set, before connecting the electrical outputs, by: determining a difference between the sensed rotational speed of the first engine crankshaft and the sensed rotational speed of the second engine crankshaft, andadjusting the operation of at least one of the first and second generator sets to reduce the difference when the difference exceeds a threshold; andconnecting the electrical outputs when the difference is within the threshold. 18. The method of claim 17, further comprising: sensing an angular position of the first engine crankshaft; andsensing an angular position of the second engine crankshaft;wherein synchronizing the electrical power output of the second generator set with the electrical power output of the first generator set further comprises: determining an angular position difference between the sensed angular position of the first engine crankshaft and the sensed angular position of the second engine crankshaft, andadjusting the operation of at least one of the first and second generator sets to reduce the angular position difference when the angular position difference exceeds a second threshold; andwherein the electrical outputs are connected when the angular position difference is within the second threshold. 19. A power system, comprising: a common bus;a first generator set having a first engine with a first crankshaft drivingly coupled to a first generator to produce electrical power directed to the common bus;a second generator set having a second engine with a second crankshaft drivingly coupled to a second generator;a first sensor configured to sense a rotational speed of the first crankshaft;a second sensor configured to sense a rotational speed of the second crankshaft; anda controller in communication with the first and second generator sets and the first and second sensors, the controller being configured to synchronize an electrical output of the second generator set with an electrical output of the first generator set, when the common bus is connected to the electrical output of the first generator set and disconnected from the electrical output of the second generator set, by: determining a difference between the sensed rotational speed of the first engine crankshaft and the sensed rotational speed of the second engine crankshaft, andadjusting the operation of the second generator set to reduce the difference when the difference exceeds a threshold; andwherein the controller is further configured to electrically connect the electrical output of the second generator set to the common bus when the difference is within the threshold.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.