, on a stand Each of the cannon's six barrels fires once in turn during each revolution of the barrel cluster. The multiple barrels provide both a very high rate of fire—around 100 rounds per second—and contribute to prolonged weapon life by minimizing barrel erosion and heat generation. The average time between jams or failures is in excess of 10,000 rounds, making it an extremely reliable weapon. The success of the Vulcan Project and its progeny, the very-high-speed Gatling gun, has led to guns of the same configuration being referred to as
"Vulcan cannons", which can sometimes confuse nomenclature on the subject. Most aircraft versions of the M61 are hydraulically driven and primed electrically. The gun rotor, barrel assembly and ammunition feed system are rotated by a hydraulic drive motor through a system of flexible drive shafts. The round is fired by an electric priming system where an electric current from a firing lead passes through the firing pin to the primer as each round is rotated into the firing position. . The self-powered version, the GAU-4 (called M130 in Army service), is
gas-operated, tapping gun gas from three of the six barrels to operate the gun gas-driven mechanism. The self-powered Vulcan weighs about more than its electric counterpart, but requires no external power source to operate, except for an electric inertia starter to initiate gun rotation, allowing the first rounds to be chambered and fired. A disadvantage of the M61 is that the bulk of the weapon, its feed system, and ammunition drum make it difficult to fit it into a densely packed airframe. The feed system must be custom-designed for each application, adding to the complete weapon. Most aircraft installations are double-ended, because the ejection of empty cartridges can cause a foreign-object damage hazard for jet engines and because the retention of spent cases assists in maintaining the center of gravity of the aircraft. The first aircraft to carry the M61A1 was the C model of the
F-104, starting in 1959. A lighter version of the Vulcan developed for use on the
F-22 Raptor, designated M61A2, is mechanically the same as the M61A1, but with thinner barrels to reduce overall weight to . The rotor and housing have also been modified to remove any piece of metal not absolutely needed for operation and replaces some metal components with lighter-weight materials. The
F/A-18E/F Super Hornet also uses this version. The Vulcan's rate of fire is typically 6,000 rounds per minute, although some versions (such as that of the
AMX and the
F-106 Delta Dart) are limited to a lower rate, and others (
A-7 Corsair,
F-15 Eagle) have a selectable rate of fire of either 4,000 or 6,000 rounds per minute. The M61A2's lighter barrels allow a somewhat higher rate of fire, up to 6,600 rounds per minute. File:M61 Vulcan.jpg|An M61 Vulcan at the
Miramar Airshow Image:AC-130A 20MM Vulcan Cannon Ammo belt.jpg|An M61 ammunition belt File:M61A1-Vulcan--Independence-Day-2017-Tel-Nof-IZE-059.jpg|M61 on display File:M61 Vulcan nose mounted 6-barreled Gatling cannon (11472816163).jpg|M61 Vulcan on display File:PGU-27-AB-20-102mm-ammunition-m-61-vulcan.jpg|PGU-27 AB training rounds, Brussels 2015
Ammunition Practically no powered rotary cannon is supplied with sufficient ammunition for a full minute of firing, due to weight (at 6,000 rpm, the projectiles alone would represent a mass of about for one minute of firing; and by including the brass shell, filling and primer the weight is approximately double that at ). In order to avoid using 600 to 1,000 rounds carried by aircraft all at once, a burst controller is generally used to limit the number of rounds fired at each trigger pull. Bursts from two or three up to 40 or 50 can be selected. The size of the airframe and available internal space limits the size of the ammunition drum and thus the ammunition capacity. When vehicle-mounted, the only limiting factor is the vehicle's safe carry weight, so commensurately larger ammo storage is available. Until the late 1980s, the M61 primarily used the M50 series of ammunition in various types, typically firing a projectile at a
muzzle velocity of about . A variety of armor-piercing incendiary (API), high-explosive incendiary (HEI), and training rounds are available. A new PGU-28/B round was developed in the mid-1980s. It is a
semi-armor-piercing high-explosive incendiary (SAPHEI) round, providing improvements in range, accuracy, and power over the preceding M56A3 HEI round. The PGU-28/B is a "low-drag" round designed to reduce in-flight drag and deceleration, and has a slightly increased muzzle velocity of . However, the PGU-28/B has not been without problems. A 2000 USAF safety report noted 24 premature detonation mishaps (causing serious damage in many cases) in 12 years with the SAPHEI round, compared to only two such mishaps in the entire recorded history of the M56 round. The report estimated that the PGU-28/B had a potential failure rate 80 times higher than USAF standards permit. Due to safety issues, it was limited to emergency wartime use in 2000. The main types of combat rounds and their main characteristics are listed in the table: ==Applications and first combat use==