B
First post in this forum, so forgive me if this question has already been asked/answered. I searched through old posts, but didn't find it
I am working in a corporate engineering office, so my access to several Mark V's is limited to what I can convince my buddies at the plants to do for me (sometimes they have better things to do than fool with my stuff, so I may not be able to get data in a short amount of time). Our operations are US operations, i.e. 60Hz. My terminology is consistent with:
http://www.wecc.biz/documents/library/generator/wsccgov1.pdf
Does the Mark V have an intentional frequency (speed) deadband? If so, is it typically set at 0.036Hz (or some lesser value to give an effective overall value of 0.036Hz)? Is it applied after the Droop calculation, before the low select block? How do I check to see what the deadband is set at in our Mark V's?
Does the Mark V have an unintentional frequency deadband (0.005Hz in the article)? If so, what is a typical value for the Mark V? Is there a quick an easy test that is used to nail that number down?
Thanks,
Bill
I am working in a corporate engineering office, so my access to several Mark V's is limited to what I can convince my buddies at the plants to do for me (sometimes they have better things to do than fool with my stuff, so I may not be able to get data in a short amount of time). Our operations are US operations, i.e. 60Hz. My terminology is consistent with:
http://www.wecc.biz/documents/library/generator/wsccgov1.pdf
Does the Mark V have an intentional frequency (speed) deadband? If so, is it typically set at 0.036Hz (or some lesser value to give an effective overall value of 0.036Hz)? Is it applied after the Droop calculation, before the low select block? How do I check to see what the deadband is set at in our Mark V's?
Does the Mark V have an unintentional frequency deadband (0.005Hz in the article)? If so, what is a typical value for the Mark V? Is there a quick an easy test that is used to nail that number down?
Thanks,
Bill