A generator set for a transport refrigeration unit that is operable at a first frequency and a second frequency. The generator set includes a controller, a generator and a prime mover coupled to the generator. The prime mover selectively drives the generator in least at a first non-zero speed and a
A generator set for a transport refrigeration unit that is operable at a first frequency and a second frequency. The generator set includes a controller, a generator and a prime mover coupled to the generator. The prime mover selectively drives the generator in least at a first non-zero speed and a second non-zero speed. The controller can determine whether a transport refrigeration unit has sufficient capacity to maintain a desired temperature within a transport unit by detecting a generator load, a generator load slope condition, and a speed of the prime mover.
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1. A method for controlling a speed of a generator set that includes a prime mover and a generator, the method comprising: a controller determining whether a transport refrigeration unit has sufficient capacity to maintain a desired temperature within a transport unit;changing a speed of the prime m
1. A method for controlling a speed of a generator set that includes a prime mover and a generator, the method comprising: a controller determining whether a transport refrigeration unit has sufficient capacity to maintain a desired temperature within a transport unit;changing a speed of the prime mover from a first speed to a second speed, that is greater than the first speed, so as to provide sufficient capacity to the transport refrigeration unit when the transport refrigeration unit does not have sufficient capacity to maintain a desired temperature within the transport unit,wherein the controller determining whether the transport refrigeration unit has sufficient capacity to maintain the desired temperature within the transport unit includes: the controller determining whether the speed of the prime mover is within a first threshold range;the controller determining whether a load of the generator is above a second threshold; andthe controller detecting a positive generator load slope condition. 2. The method of claim 1, wherein changing the speed of the prime mover from the first speed to the second speed includes switching the prime mover from the first speed to the second speed when the first speed of the prime mover is within the first threshold range, the load of the generator is above the second threshold and the positive generator load slope condition is detected. 3. The method of claim 1, wherein the load of the generator includes a field current of the generator and the positive generator load slope condition is an increasing field current over a period of time. 4. The method of claim 1, wherein the controller detecting the positive generator load slope condition includes: storing the load of the generator over a time period;determining whether the load of the generator is increasing over the time period; anddetecting the positive generator load slope condition when the load of the generator is increasing over the time period. 5. The method of claim 1, wherein the first speed is 1500 revolutions per minute (RPMs) and the second speed is 1800 RPMs. 6. A generator set comprising: a prime mover configured to generate mechanical energy;a generator coupled to the prime mover, the generator configured to convert the mechanical energy generated by the prime mover into electrical energy; anda controller configured to: determine whether a transport refrigeration unit has sufficient capacity to maintain a desired temperature within a transport unit, andchange a speed of the prime mover from a first speed to a second speed, that is greater than the first speed, when the transport refrigeration unit does not have sufficient capacity to maintain the desired temperature within the transport unit,wherein the controller is further configured to: determine whether the speed of the prime mover is within a first threshold range;determine whether a load of the generator is above a second threshold; anddetect a positive generator load slope condition. 7. The generator set of claim 6, wherein the controller is configured to change the speed of the prime mover when the first speed of the prime mover is within the first threshold range, the load of the generator is above the second threshold and the positive generator load slope condition is detected. 8. The generator set of claim 6, wherein the load of the generator includes a field current of the generator and the positive generator load slope condition is an increasing field current over a period of time. 9. The generator set of claim 6, wherein the controller is configured to: store the load of the generator over a time period;determine whether the load of the generator is increasing over the time period; anddetect the positive generator load slope condition when the load of the generator is increasing over the time period. 10. The generator set of claim 6, wherein the first speed is 1500 revolutions per minute (RPMs) and the second speed is 1800 RPMs. 11. The generator set of claim 6, further comprising a load sensor configured to monitor a generator load of the generator and send a signal indicative of the generator load to the controller. 12. A transport refrigeration system: a transport refrigeration unit;a generator set configured to power the transport refrigeration unit, the generator set including: a prime mover configured to generate mechanical energy,a generator coupled to the prime mover, the generator configured to convert the mechanical energy generated by the prime mover into electrical energy, anda controller configured to determine configured to: determine whether a transport refrigeration unit has sufficient capacity to maintain a desired temperature within a transport unit, andchange a speed of the generator set from a first speed to a second speed, that is greater than the first speed, when the transport refrigeration unit does not have sufficient capacity to maintain the desired temperature within the transport unit,wherein the controller is further configured to: determine whether the speed of the prime mover is within a first threshold range;determine whether a load of the generator is above a second threshold; anddetect a positive generator load slope condition. 13. The transport refrigeration system of claim 12, wherein the controller is configured to change the speed of the prime mover when the first speed of the prime mover is within the first threshold range, the load of the generator is above the second threshold and the positive generator load slope condition is detected. 14. The transport refrigeration system of claim 12, wherein the load of the generator includes a field current of the generator and the positive generator load slope condition is an increasing field current over a period of time. 15. The transport refrigeration system of claim 12, wherein the controller is configured to: store the load of the generator over a time period;determine whether the load of the generator is increasing over the time period; anddetect the positive generator load slope condition when the load of the generator is increasing over the time period. 16. The transport refrigeration system of claim 12, wherein the first speed is 1500 revolutions per minute (RPMs) and the second speed is 1800 RPMs. 17. The transport refrigeration system of claim 12, further comprising a load sensor configured to monitor a generator load of the generator and send a signal indicative of the generator load to the controller.
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이 특허에 인용된 특허 (16)
Clancey Stephen M. (Moundview MN) Overland David A. (Cedar MN) Klinkert Deborah A. (St. Louis Park MN) Lent Mark S. (Golden Valley MN) Plahn Paul H. (Maple Grove MN), Combined generator set and air conditioning compressor drive system.
Erdman David M. (Fort Wayne IN) Beatty James A. (Fort Wayne IN) Patel Amritlal H. (Fort Wayne IN), Control circuits, electronically commutated motor systems and methods.
McSweeney, Daniel L.; Seibel, Stephen M.; Pham, Hung M., System and method for calculating parameters for a refrigeration system with a variable speed compressor.
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