Power control for propeller-driven aircraft

What is claimed is: 1 . A method of controlling an engine for a propeller-driven aircraft, comprising: setting an initial maximum power limit, wherein the initial maximum power limit is associated with a maximum allowable thrust for an aircraft; receiving an indication that a predetermined aircraft condition is satisfied; and setting an updated maximum power limit above which the engine power is automatically reduced, wherein the updated maximum power limit is greater than the initial maximum power limit. 2 . The method of claim 1 , wherein setting the initial maximum power limit includes indicating an initial maximum allowable supplied power in a cockpit of the aircraft, the initial maximum supplied power being associated with the initial maximum power limit; and wherein setting the updated maximum power limit includes indicating an updated maximum allowable supplied power in the cockpit of the aircraft, the updated maximum allowable supplied power being associated with the updated maximum power limit. 3 . The method of claim 2 , wherein the initial maximum allowable supplied power and the updated maximum allowable supplied power are provided as torque indications. 4 . The method of claim 1 , wherein at least one of the initial maximum power limit and the updated maximum power limit is implemented using a torque measurement. 5 . The method of claim 1 , wherein receiving the indication that the predetermined aircraft condition is satisfied includes receiving an indication that is associated with the aircraft being in flight. 6 . The method of claim 1 , wherein receiving the indication that the predetermined aircraft condition is satisfied includes at least one of an absence of a weight on wheels indication, a weight off wheels indication, a landing gear retracted indication, a positive rate of climb indication, a navigation system velocity indication, a navigation system altitude indication, and a radar altimeter altitude indication. 7 . The method of claim 1 , wherein receiving the indication that the predetermined aircraft condition is satisfied includes receiving an input associated with actuation of a control device located within a cockpit of the aircraft. 8 . The method of claim 1 , wherein setting the updated maximum power limit comprises disengaging a stop associated with a power lever configured to adjust the engine power; wherein, when the stop is engaged, the power lever is movable between a low power position and an intermediate power position, the intermediate power position being associated with the initial maximum power limit; and wherein, when the stop is disengaged, the power lever is movable between the low power position and a high power position, the high power position being greater than the intermediate power position. 9 . An engine control system for an aircraft engine comprising: a display providing a visual indicia associated with a power limit of the aircraft engine; an aircraft condition input receiving a signal indicative of an aircraft condition related to the power limit; and a controller operably coupled to the aircraft engine, aircraft condition input, and the display and configured to provide an initial power limit signal for the visual indicia on the display, receiving the signal indicative of the aircraft condition, determining based at least in part on the received signal an updated power limit is permissible, and providing an updated power limit signal for the visual indicia when an updated power limit is permissible. 10 . The engine control system of claim 9 , wherein the display is configured to provide an indication associated with the initial power limit and the updated power limit in a cockpit of the aircraft. 11 . The engine control system of claim 9 , wherein the aircraft condition input receives the signal indicating that a predetermined aircraft condition is satisfied. 12 . The engine control system of claim 9 , wherein the controller is further configured to disengage a stop associated with a power lever configured to adjust engine power such that when the stop is engaged, the power lever is movable between a low power position and an intermediate power position, the intermediate power position being associated with the initial power limit and when the stop is disengaged, the power lever is movable between the low power position and a high power position, the high power position being greater than the intermediate power position. 13 . The engine control system of claim 9 , wherein the visual indicia indicates at least one of a allowable supplied power associated with the power limit and an updated allowable supplied power associated with the updated power limit. 14 . The engine control system of claim 13 , wherein a power limit for the controller is set higher than an allowable supplied power. 15 . An aircraft engine comprising: a first mode of operation having a first power limit set according to a maximum allowable thrust for a predetermine airframe in a fixed to earth condition; and a second mode of operation having a second power limit, greater than the first maximum power limit, which is available during a flight condition; wherein during non-flight operation, the power of the aircraft engine is automatically limited to the first power limit. 16 . The aircraft engine of claim 15 wherein the aircraft engine is a turbo-prop engine or a piston engine. 17 . The aircraft engine of claim 15 , wherein the flight condition includes at least one of climb or cruise. 18 . The aircraft engine of claim 15 , wherein a control device is communicatively coupled to the aircraft engine to engage the second mode of operation. 19 . The aircraft engine of claim 18 , wherein the control device includes a power lever. 20 . The aircraft engine of claim 19 , wherein the power lever restricts engagement of the second mode of operation based at least in part on the flight condition.