An alternator constant speed drive system, often referred to as a Constant Speed Drive (CSD) system, is a mechanical and electrical system used in aircraft to provide a constant supply of electrical power to the aircraft's electrical systems and avionics, regardless of changes in the engine's speed (RPM) or load. CSDs are an essential component of the aircraft's electrical power generation system, and they help ensure a stable and consistent supply of electricity, even during changes in flight conditions or power demands.

Here's how an alternator constant speed drive system typically works in aircraft:

1. Components: The CSD system consists of several key components:

  1. Alternator or generator: The primary electrical power generator.
  2. Constant Speed Drive unit: A mechanical device that maintains a constant output speed for the alternator, regardless of the engine's speed.
  3. Engine-driven accessory gearbox: The CSD unit is typically connected to the engine's accessory gearbox, which is linked to the engine's output shaft.

2. Mechanical Connection: The CSD unit is mechanically connected to the engine's accessory gearbox and the alternator. As the engine's speed changes, the accessory gearbox transmits this rotational motion to the CSD unit.

3. Constant Speed Control: The CSD unit contains a feedback control mechanism that adjusts the transmission ratio between the input from the engine and the output to the alternator. This adjustment is made to maintain a constant speed at the alternator's input shaft, typically around 4,200 RPM for commercial aircraft.

4. Stabilizing Electrical Output: As the engine's speed varies due to factors like changes in flight conditions or power demands, the CSD system ensures that the alternator's speed remains constant. This, in turn, stabilizes the electrical output frequency and voltage of the alternator, typically at 115 volts AC and 400 Hz in many aircraft.

5. Load Response: The CSD system responds to changes in electrical load, adjusting the alternator's field excitation to match the load demand. This allows the alternator to provide the required electrical power while maintaining a constant speed.

6. Protection: CSD systems often include protective features to prevent over-speed or overloading of the alternator, which could result in damage. These protective features may involve the use of mechanical governors and electrical control circuits.

7. Reliability: The constant speed drive system is designed for reliability and redundancy, as a consistent electrical power supply is critical for flight safety and the operation of avionics and systems on board.

8. Maintenance: Routine maintenance and inspections of the CSD system are essential to ensure its continued reliability and performance. This includes monitoring the mechanical components and control systems.

Constant speed drive systems are essential in modern aircraft to maintain stable electrical power for critical systems, including navigation, communication, flight control, and lighting. They contribute to the safety and reliability of flight operations by ensuring that electrical power remains consistent, regardless of variations in engine speed or electrical load.