Castle Creations Phoenix Edge 100 32V 100-Amp ESC w/5-Amp BEC
This is the Castle Creations Phoenix Edge 100 32V 100-Amp ESC. The next evolution in speed controller technology has arrived With the debut of the Phoenix Edge series ESC's. The Edge series features a user programmable auxiliary wire capable of functions modelers have only dreamed of, until now. The white auxiliary wire can be used for helicopter governor gain input adjustments mid-flight, serve as an audible beacon after an “unexpected landing”, act as an RPM output for 3-axis gyros that support RPM sensors, be used as an ESC arming lock or as a receiver arming lock. Combined with the data logging capability the Edge series of controllers offer, users can enjoy unparalleled versatility.
The Phoenix Edge 100 is intended for use in 500 and 550 class helicopters, as well as .40 - .90 fixed wing aircraft. Additionally, this ESC is also compatible with 600 class helicopters when used with an external BEC or receiver pack. As always, the Edge series of controllers offer industry-leading software functions, data logging, and USB programming capability via Castle Link USB adapter.
Fully programmable Castle feature set using Castle Link USB adapter and freely downloadable Castle Link Windows software. Castle Field Link Programming Card (sold separately) compatible for select functions.
Same Incredible Price
The Phoenix Edge controllers deliver all of this while retaining the same astonishing prices as their predecessors.
White Auxiliary Wire
The white auxiliary wire can be used for helicopter governor gain input adjustments mid-flight, serve as an audible beacon after an “unexpected landing”, act as an RPM output for 3-axis gyros that support RPM sensors, be used as an ESC arming lock or as a receiver arming lock.
Phoenix Edge 100 Specs:
*NOTE: RC HOBBY APPLICATION RATING: 100 amps for the duration of a single 5,000 mAh battery pack with the ESC in contact with a 5 mph airflow of 25°C (77°F) or cooler air. Controller temperature must never exceed 100C (212F). Exceeding current or temperature ratings may damage components and may shorten the life of the ESC. Always verify system current draw at full-throttle. Decrease load or increase airflow to decrease the ESC’s operating temperature.**NOTE: Peak indicates amperage sustainable for 0.5 seconds – long enough for most servos’ current draw transients. Your setup may vary. Always confirm servo current draw before the first flight of the model.
This product was added to our catalog on August 13, 2013