Hydramatic (also known as Hydra-Matic) is an

automatic transmission An automatic transmission (sometimes abbreviated to auto or AT) is a multi-speed transmission used in internal combustion engine-based motor vehicles that does not require any input from the driver to change forward gears under normal driving ...

developed by both General Motors' Cadillac and

Oldsmobile Oldsmobile or formally the Oldsmobile Division of General Motors was a brand of American automobiles, produced for most of its existence by General Motors. Originally established as "Olds Motor Vehicle Company" by Ransom E. Olds in 1897, it pro ...

divisions. Introduced in 1939 for the 1940 model year vehicles, the ''Hydramatic'' was the first mass-produced fully-automatic transmission developed for passenger

automobile A car or automobile is a motor vehicle with wheels. Most definitions of ''cars'' say that they run primarily on roads, seat one to eight people, have four wheels, and mainly transport people instead of goods. The year 1886 is regarde ...

use.

History

During the 1930s, automakers sought to reduce or eliminate the need to shift gears. At the time, synchronized gear shifting was still a novelty (and confined to higher gears in most cases), and shifting a manual gearbox required more effort than most drivers cared to exert. The exception here was Cadillac's break-through synchromesh fully synchronized manual transmission, designed by Cadillac engineer Earl A. Thompson and introduced in the fall of 1928. Cadillac, under Thompson, began working on a 'shiftless' transmission in 1932, and a new department within Cadillac Engineering was created, headed by Thompson and including engineers Ernest Seaholm, Ed Cole, Owen Nacker, and Oliver Kelley. During 1934, the Cadillac transmission group had developed a step-ratio gearbox that would shift automatically under full torque. This same group of engineers was then moved into GM Central Research, building pilot transmission units during 1935-36 which were then handed to Oldsmobile for testing. The ''Automatic Safety Transmission'' (AST) was a tangent outgrowth of this work. The AST was a semi-automatic transmission using

planetary gears An epicyclic gear train (also known as a planetary gearset) consists of two gears mounted so that the center of one gear revolves around the center of the other. A carrier connects the centers of the two gears and rotates the planet and sun gea ...

and conventional friction clutch, requiring the driver to use the clutch to shift into or out of gear, but not between the two forward gears. Oldsmobile offered the AST from 1937-1939, while Buick offered it only in 1938. The ''HydraMatic'' was designed to combine the

hydraulic Hydraulics (from Greek: Υδραυλική) is a technology and applied science using engineering, chemistry, and other sciences involving the mechanical properties and use of liquids. At a very basic level, hydraulics is the liquid counte ...

operation of a planetary gearbox (allowing much shifting to be automated) with a

fluid coupling A fluid coupling or hydraulic coupling is a hydrodynamic or 'hydrokinetic' device used to transmit rotating mechanical power.

instead of a friction clutch, eliminating the need for de-clutching. The transmission would have four forward speeds (3.82:1, 2.63:1, 1.45:1, and 1.00:1) plus reverse, with all acceleration provided by gearing; its fluid coupling did not multiply the engine output as a

torque converter A torque converter is a type of fluid coupling that transfers rotating power from a prime mover, like an internal combustion engine, to a rotating driven load. In a vehicle with an automatic transmission, the torque converter connects the power ...

does. (In this way, it was less sophisticated than the 1924 Vulcan (Vulcan-Werke Hamburg und Stettin) prototype, which had a torque converter.), p. 63. It incorporated a parking pawl which was engaged when the shift selector was placed in reverse with the engine off. There was no separate Park position as found with modern transmissions. The result, dubbed "Hydra-Matic Drive," went into production in May 1939 for the 1940

model year The model year (sometimes abbreviated "MY") is a method of describing the version of a product which has been produced over multiple years. The model year may or may not be the same as the calendar year in which the product was manufactured. ...

. The first Oldsmobiles so equipped were shipped in October 1939 in the

Oldsmobile Series 60 The Series 60 "Special" is a full-size car made by Oldsmobile from the 1939 through the 1948 model years. It was their entry-level model using the GM "A" body platform, giving Oldsmobile an entry level product with more standard features that woul ...

and the

Oldsmobile Series 70 The Oldsmobile Series 70 is a full-size midrange automobile produced by Oldsmobile between the 1939 and 1950 model years. Oldsmobiles of this time period were in an unusual "middle" position in GM's hierarchy of automobile brands. Chevrolet and ...

. Oldsmobile was chosen to introduce the ''Hydra-Matic'' for two reasons:

economies of scale In microeconomics, economies of scale are the cost advantages that enterprises obtain due to their scale of operation, and are typically measured by the amount of output produced per unit of time. A decrease in cost per unit of output enables ...

—Oldsmobile produced more cars than Cadillac and Buick at the time, thus providing a better test base—and to protect the reputation of Cadillac and Buick in case of a market failure of the new transmission.

Advertising Advertising is the practice and techniques employed to bring attention to a product or service. Advertising aims to put a product or service in the spotlight in hopes of drawing it attention from consumers. It is typically used to promote a ...

proclaimed it "the greatest advance since the self-starter." In 1940, the ''Hydra-Matic'' was a US$57.00 option ($ in dollars ), rising to US$100.00 ($ in dollars ) for 1941. In 1941, it also became an option on Cadillacs for $125.00 ($ in dollars ). Almost 200,000 had been sold by the time passenger car production was halted for wartime production in February 1942. During the war, the ''Hydramatic'' was used in a variety of military vehicles, including the

M5 Stuart The M3 Stuart/Light Tank M3, was an American light tank of World War II. An improved version of the tank entered service as the M5 in 1942 to be supplied to British and other Commonwealth forces under lend-lease prior to the entry of the U.S. in ...

tank A tank is an armoured fighting vehicle intended as a primary offensive weapon in front-line ground combat. Tank designs are a balance of heavy firepower, strong armour, and good battlefield mobility provided by tracks and a powerful engi ...

(where two of them were mated to twin Cadillac V8 engines) and the M24 Chaffee light tank. The extensive wartime service greatly improved the postwar engineering of the transmission, later advertised as "battle-tested." Starting in 1948 ''Hydramatic'' became optional for

Pontiac Pontiac may refer to: *Pontiac (automobile), a car brand *Pontiac (Ottawa leader) ( – 1769), a Native American war chief Places and jurisdictions Canada *Pontiac, Quebec, a municipality ** Apostolic Vicariate of Pontiac, now the Roman Catholic D ...

s (and was in 70% of them that year),Flory, p.177. although Buick and Chevrolet chose to develop their own automatic transmissions, called

Dynaflow Dynaflow was the trademarked name for a type of automatic transmission developed and built by General Motors Buick Motor Division from late 1947 to mid-1963. The Dynaflow, which was introduced for the 1948 model year only as an option on Roadma ...

and

Powerglide The Powerglide is a two-speed automatic transmission designed by General Motors. It was available primarily on Chevrolet from January 1950 through 1973, although some Pontiac models also used this automatic transmission after the fire at the Hyd ...

. All Oldsmobiles installed with the Hydramatic had at the bottom edge of the front fender directly behind the front wheel a badge that said "Futuramic" which identified an Oldsmobile approach to simplified driving, and the presence of an automatic transmission. V8 Oldsmobiles were automatic-only in 1949 as Oldsmobile lacked a manual gearbox that could handle the torque of the new Rocket V8 engin
1948 Oldsmobile Futuramic introduction
One million ''Hydramatics'' had been sold by 1949. In the early 1950s various manufacturers without the resources to develop a proprietary automatic transmission bought ''Hydra-Matics'' from GM. Users included: *1951–1957 Hudson *1950–1957 Nash *1951–1956

Nash Rambler The Nash Rambler is a North American automobile that was produced by the Nash Motors division of Nash-Kelvinator Corporation from 1950 to 1954 in sedan, wagon, and fixed-profile convertible body styles. On 1 May 1954, Nash-Kelvinator merged ...

*1957

Rambler Rambler or Ramble may refer to: Places * Rambler, Wyoming * Rambler Channel (藍巴勒海峽), separates Tsing Yi Island and the mainland New Territories in Hong Kong * The Ramble and Lake, Central Park, an area within New York City's Centr ...

*1958–1960 Rambler American (AT&T associated company fleet units only) *1951 Frazer *1951–1955 Kaiser *1954–1955

Willys Willys (pronounced , "Willis" ) was a brand name used by Willys–Overland Motors, an American automobile company, founded by John North Willys. It was best known for its design and production of World War II era and later military jeeps (MBs ...

*1949–1954

Lincoln Lincoln most commonly refers to: * Abraham Lincoln (1809–1865), the sixteenth president of the United States * Lincoln, England, cathedral city and county town of Lincolnshire, England * Lincoln, Nebraska, the capital of Nebraska, U.S. * Lincol ...

*1956–1968 Austin and Vanden Plas Princess In 1952,

Rolls-Royce Rolls-Royce (always hyphenated) may refer to: * Rolls-Royce Limited, a British manufacturer of cars and later aero engines, founded in 1906, now defunct Automobiles * Rolls-Royce Motor Cars, the current car manufacturing company incorporated in ...

acquired a license to produce the ''HydraMatic'' for Rolls-Royce and Bentley automobiles. It continued production until 1967. A massive fire that destroyed GM's ''Hydra-Matic'' plant in Livonia, Michigan on August 12, 1953, left the corporation and the three divisions that used this transmission scrambling for other sources of automatic transmissions to complete that year's model year production. As a result,

s and Cadillacs during the downtime were assembled with Buick's ''

'' transmission, while

s used Chevrolet's ''

'', both two-speed torque-converter units. Non-GM makes that bought ''Hydra-Matics'' from the corporation, including Ford Motor Co.'s Lincoln division and independent automakers Hudson, Kaiser, and Nash ended up looking for other sources of automatic transmissions as well, with Lincoln using the Borg-Warner-designed '' Ford-O-Matic'' transmission, while other automakers also switched to automatics from Borg-Warner during the downtime. About nine weeks after the Livonia fire, GM opened up a new source for ''Hydra-Matic'' production at

Willow Run Willow Run, also known as Air Force Plant 31, was a manufacturing complex in Michigan, United States, located between Ypsilanti Township and Belleville, built by the Ford Motor Company to manufacture aircraft, especially the B-24 Liberator hea ...

, Michigan. By the time the 1954 models debuted in late 1953, ''Hydra-Matic'' production had returned to normal levels and all '54 model Cadillacs, Oldsmobiles, and Pontiacs with automatic transmissions were once again equipped with ''Hydra-Matics''. Evolving by the pressure of industrial competition from other manufacturers such as Studebaker's three-speed lock-up torque converter co-designed by Detroit Gear (a division of Borg-Warner), named DG 200/250, and Packard's dual-range two-speed lock-up torque converter coupled

Ultramatic Ultramatic was the trademarked name of the Packard Motor Car Company's automatic transmission introduced in 1949 and produced until 1954, at Packard's Detroit, Michigan East Grand Boulevard factory. It was produced thereafter from late 1954, thru ...

, GM's ''Hydra-Matic'' underwent several revisions through 1955, before being gradually replaced by the substantially redesigned Controlled-Coupling HydraMatic (also called Jetaway, by Oldsmobile, and ''StratoFlight'', and later ''Super Hydra-Matic'', by Pontiac, or ''315 HydraMatic'', by Cadillac, or ''Dual-coupling Hydra-Matic'') in 1956. The ''Controlled-Coupling Hydra-Matic'' incorporated a secondary fluid coupling and a pair of sprag clutch in place of the former friction clutch and brake bands, shifting in part by alternately draining and filling the secondary coupling. It was a later version of GM's "dual-range Hydra-Matic", first introduced in some 1952 models. The dual range feature allowed the driver to hold the transmission in third gear until the maximum allowable upshift points, for improved performance in traffic or in mountain driving. The new, dual coupling transmission also incorporated a separate park position, falling in line with other automatic transmissions of the day. ''Controlled-Coupling Hydra-Matic'' was substantially smoother than the original ''Hydra-Matic'', but also more complex and expensive to produce, just as efficient as the original ''HydraMatic'' because all ''HydraMatic'' transmissions, including ''Roto Hydra-Matic'' and ''Tempest Torque'', use the split-torque design. In 1961, The model 375 Roto Hydramatic was produced. The Roto is a four range three speed unit. The Roto eliminated the front fluid coupling that was used in the Controlled coupling Hydramatic and the connection between the engine and transmission was made by using the small fluid coupling that is used also to control the front planetary gear set' (in which the "dump and fill" shifting principle was retained from the older controlled coupling Hydramatic). The Roto was adopted for all Oldsmobiles as well as Pontiac's full-sized Catalina, Ventura, and Grand Prix models, while all Cadillacs and Pontiac's Bonneville and Star Chief models retained the older four-speed ''Controlled-Coupling Hydra-Matic'' unit. Controlled Coupling HydraMatic and Roto HydraMatic both have the "Split Torque feature" whereby, in high gear, the torque is divided 40% through the fluid coupling and 60% through mechanical connection, which made these transmissions more efficient than any other automatics before the lock-up torque converter was used. ''Hydramatic'' transmissions were ultimately replaced by a new three-speed torque converter automatic transmission called ''

Turbo-Hydramatic Turbo-Hydramatic or Turbo Hydra-Matic is the registered tradename for a family of automatic transmissions developed and produced by General Motors. These transmissions mate a three-element turbine torque converter to a Simpson planetary geartr ...

'' in 1964 and 1965, whose design was more similar in principle to the Chrysler

TorqueFlite TorqueFlite (also seen as Torqueflite) is the trademarked name of Chrysler Corporation's automatic transmissions, starting with the three-speed unit introduced late in the 1956 model year as a successor to Chrysler's two-speed PowerFlite. In t ...

and the '51 Borg-Warner-designed

Ford Ford commonly refers to: * Ford Motor Company, an automobile manufacturer founded by Henry Ford * Ford (crossing), a shallow crossing on a river Ford may also refer to: Ford Motor Company * Henry Ford, founder of the Ford Motor Company * Ford F ...

Cruise-O-Matic Ford-O-Matic was the first automatic transmission widely used by Ford Motor Company. It was designed by the Warner Gear division of Borg Warner Corporation and introduced in 1951 model year cars, and was called the Merc-O-Matic when installed ...

'' than the fluid coupling ''Hydra-Matic'' the "Turbo" replaced. The original ''Hydra-Matic'' continued to be used in light trucks and other commercial vehicles until 1962. It was subsequently replaced in that role by Chevrolet Division's

(where it was dubbed "Pow-R-Flow") in the GMC light truck line, and later, in 1966, with the '' Turbo Hydra-Matic'' (THM) in GMC light trucks, whose simplified design was much less costly to manufacture. Chevrolet Division's light truck line used the less-than-adequate

all through the 1960s until ''

'' was made standard in 1969. Cast-iron ''Hydra-Matic'' production ceased at

after the 1962 model year, and Controlled-Coupling Hydramatic ceased in early 1964, allowing retooling time for the '' Turbo Hydra-Matic'' 400, which debuted in the 1964 Cadillac models in mid-year, with Pontiac Division's Star Chief and Bonneville models being the last to use the Controlled-Coupling Hydramatic (Model HM315) of any GM car. 1964 ''Turbo-Hydramatic'' production used a selector quadrant similar to Chevrolet's

in that there was only one "Drive" position and a "Low," although it was a true three-speed unit. This was improved upon for all 1965 models with the "D L2 L1" or "D S L" quadrant, which allowed "dual range" flexibility as did the Dual-Range Hydramatic of 1953-1955. It was this version that replaced all '' Roto Hydramatic'' and Controlled-Coupling Hydramatic models in GM cars in that year, ending twenty-four years of four-speed automatic transmission production that obviated the need for a torque converter. Despite the name, the ''

'' has no mechanical or design related to the original ''Hydra-Matic'', or the Controlled-Coupling Hydramatic. ''Hydra-Matic'' was a complex design that was expensive to produce. Despite some early problems, it was reliable and so rugged it was widely used in drag racing during the 1960s. It was not as smooth as some competitors' transmissions (notably Buick's

), but was more efficient, especially at highway speeds. The ''Hydra-Matic'' paved the way for widespread acceptance of automatic shifting. A 3-speed light-duty version of the ''Turbo Hydra-Matic'', called the '' Turbo-Hydramatic 180'' was produced by GM's ''Hydra-Matic'' division from 1981 to 1998 for use in a wide variety of small cars and trucks. Hydramatic is a

trade name A trade name, trading name, or business name, is a pseudonym used by companies that do not operate under their registered company name. The term for this type of alternative name is a "fictitious" business name. Registering the fictitious name w ...

for GM's automatic transmission division, which produces a variety of transmissions, the most notable of which is the ''Turbo Hydra-Matic'' from the 1960s to the 1990s.

Design

The ''Hydramatic'' used a two-element

fluid coupling A fluid coupling or hydraulic coupling is a hydrodynamic or 'hydrokinetic' device used to transmit rotating mechanical power.

(not a

, which has at least three elements, the pump, turbine, and stator although ''Roto Hydra-Matic'' has a fluid coupling and a fixed stator) and three planetary gearsets, providing four forward speeds plus reverse. Standard ratios for the original ''Hydra-Matic'' were 3.82:1, 2.63:1, 1.45:1, and 1.00:1 in automotive applications, and 4.08:1, 2.63:1, 1.55:1, and 1.00:1 in light truck and other commercial applications. The ''Controlled-Coupling Hydra-Matic'' used 3.97:1, 2.55:1, 1.55:1, and 1.00:1. ''Roto Hydramatic 375''; a three-speed, four-range automatic has a 3.56:1, 2.93:1, 1.56:1, and 1.00:1. ''Roto Hydramatic 240''; a three-speed, four-range automatic has ratios of 3.64:1, 3.03:1, 1.57:1, and 1.00:1 The ''Hydramatic'' was fitted with two pumps to pressurize its hydraulic control system and provide lubrication of internal components. The front pump was a variable displacement vane unit driven from the fluid coupling housing, which meant oil pressure would be available immediately upon starting the engine. Relatively constant pressure was maintained by moving a slide inside the pump, which had the effect of changing the pump's displacement and therefore the volume of oil being delivered. The rear pump was an unregulated gear pump driven from the transmission output shaft, which meant it was capable of pressurizing the transmission if the vehicle was in motion. This feature made it possible to push-start a vehicle with a dead battery if the vehicle could be accelerated to at least . At higher speeds, the rear pump provided all the oil volume that was needed to operate the transmission and the front pump's slide was nearly centered, causing that pump to produce little output. In first gear, power flow was through the forward planetary gear assembly (either 1.45:1 or 1.55:1 reduction, depending on the model), then the

fluid coupling A fluid coupling or hydraulic coupling is a hydrodynamic or 'hydrokinetic' device used to transmit rotating mechanical power.

, followed by the rear gear assembly (2.63:1 reduction) and through the reverse gear assembly (normally locked) to the output shaft. That is, the input

torus In geometry, a torus (plural tori, colloquially donut or doughnut) is a surface of revolution generated by revolving a circle in three-dimensional space about an axis that is coplanar with the circle. If the axis of revolution does not tou ...

of the fluid coupling ran at a slower speed than the engine, due to the reduction of the forward gear assembly. This produced an exceptionally smooth startup because of the relatively large amount of slippage initially produced in the fluid coupling. This slippage quickly diminished as engine RPM increased. When the transmission upshifted to second gear, the forward gear assembly locked and the input

now ran at engine speed. This had the desirable effect of "tightening" the

coupling A coupling is a device used to connect two shafts together at their ends for the purpose of transmitting power. The primary purpose of couplings is to join two pieces of rotating equipment while permitting some degree of misalignment or end mov ...

and reducing slippage, but unfortunately also produced a somewhat abrupt shift. It wasn't at all uncommon for the vehicle to lurch forward during the 1-2 shift, especially when the throttle was wide open. Upon shifting to third, the forward gear assembly went back into reduction, and the rear gear assembly locked. Due to the manner in which the rear gear assembly was arranged, the coupling went from handling 100 percent of the engine torque to about 40 percent, with the balance being handled solely by the gear train. This greatly reduced slippage, which was audible by the substantial reduction that occurred in the engine RPM when the shift occurred. The shift from third to fourth gear locked the forward gear assembly, producing 1.00:1 transmission. The fluid coupling now only handled about 25 percent of the engine torque, reducing slippage to a negligible amount. The result was a remarkably efficient level of power transfer at highway speeds, something that torque converter equipped automatics could not achieve without the benefit of a converter clutch. Many ''Hydramatics'' did not execute the 2-3 shift very well, as the shift involved the simultaneous operation of two bands and two clutches. Accurate coordination of these components was difficult to achieve, even in new transmissions. As the transmission's seals and other elastomers aged, the hydraulic control characteristics changed and the 2-3 shift would either cause a momentary flare (sudden increase in engine speed) or tie-up (a short period where the transmission is in two gears simultaneously), the latter often contributing to the failure of the front band. Much of the difficulty in staging a "clean" 2-3 or 3-2 shift in any cast-iron ''Hydramatic'' was the changing elasticity of the governing springs in the valve bodies. Even ambient temperature would affect this variable, so that a ''Hydramatic'' that would shift perfectly on a summer's day would usually exhibit 2-3 "flare" when cold. Another long-standing driver complaint would be "flare" when trying to get a "3-2" downshift when going around a corner, which usually resulted in a neck-snapping jolt upon band application. From 1939-1950, the reverse anchor was used to lock the reverse unit ring gear from turning by engaging external teeth machined into that ring gear. From 1951 on, a cone clutch did the same thing when oil pressure was up, and a spring-loaded parking pawl was allowed to lock the same ring gear in the absence of oil pressure. This worked better as the anchor would not grind on the external teeth if that ring gear were turning (that is unless the engine stalled as reverse was engaged). The reverse was obtained by applying torque from the front unit (band on, in reduction) through the fluid coupling to the rear unit sun gear. The planet carrier of this gearset was splined to the planet carrier of the reverse unit. The rear unit ring gear hub had a small gear machined on its end which served as the reverse unit sun gear. Because the rear unit band was not applied for reverse, the rear unit and reverse unit compounded causing the combined planet carriers to rotate opposite to the input torque and at a further reduced speed. The output shaft was machined onto the rear unit and reverse unit planet carriers. Shutting off the engine caused the transmission oil pressure to rapidly dissipate. If the selector lever was in reverse or moved to reverse after the engine stopped, two mechanical parts combined to provide a parking brake. The reverse unit ring gear was held stationary by the reverse anchor. The driveshaft could still turn to cause the reverse unit sun gear and attached rear unit ring gear to rotate at a very high speed, were it not for the fact that the rear unit ring gear band was now applied by a heavy spring. Usually, bands are applied by a

servo Servo may refer to: Mechanisms * Servomechanism, or servo, a device used to provide control of a desired operation through the use of feedback ** AI servo, an autofocus mode ** Electrohydraulic servo valve, an electrically operated valve that c ...

and released by spring pressure, but in this case, the band was held off by the servo and applied by spring pressure (actually, when the engine was running, the band was applied by a combination of spring pressure assisted by oil pressure). With the engine off, this brake band acting on the rear unit ring gear had a tremendous mechanical advantage. Since the rear unit ring gear with its attached reverse unit sun gear and the reverse unit ring gear were both locked to the transmission case, the planet carriers and driveshaft could not turn. As such, it provided an effective driveshaft mounted parking brake to be used alone or supplementing the hand brake. The first-generation ''Hydramatic'' (not the ''Controlled-Coupling'' version that succeeded it in 1956) did not have a separate park position as found in modern automatic transmissions. The driver had to shut off the engine and then place the transmission in reverse in order to lock the driveline to prevent the car from moving. Also, the original ''Hydramatic'' required periodic band adjustments as a routine maintenance item that later versions did not. Early 1940 model Oldsmobiles with Hydra-Matic Drive could be started with the transmission selector lever in any position. The car would then start to move unless the transmission lever had been left in N, neutral. The all cast-iron ''Hydramatic'' was the heaviest automatic transmission ever produced for automobiles. The heaviest of them all was the Truck Hydra-Matic version offered by GM Truck and Coach Division in its line of light- and medium-duty trucks and conventional buses, as well as with its transverse-mounted gas L6 engined transit buses produced until 1963. That particular version weighed in at an incredible 655 pounds when equipped with the angle drive for the transit bus application, while the ¾ ton and up pickup truck model (HM270) still tipped the scale at a solid 435 pounds. When coupled to GMC's heavy V6 powerplant of 1960-1962, the powertrain weight was not too much lighter than the weight of the entire body of a ¾ ton P-2500 model pickup truck. Even its successor, the Controlled-Coupling Hydramatic was reviled by shop mechanics having to remove or reinstall such a unit, as they, too, were quite heavy when compared to other contemporary units. In the end, the true ''Hydramatic'' was rendered obsolete because of its cost, both in raw materials used as well as the machining needed. The successor, '' Turbo Hydramatic'', was a much simpler, lighter, and cheaper, if less efficient, transmission.

Notes

External links

General Motors Powertrain DivisionWorld's First Mass Produced Automatic Transmission
(YouTube),

Weber State University Weber State University (pronounced ) is a public university in Ogden, Utah. It was founded in 1889 as Weber Stake Academy. It is accredited by the Northwest Commission on Colleges and Universities. History Weber State University was founded ...

, Ogden Utah 2017 {{Powertrain Automatic transmission tradenames General Motors transmissions

History

Design

See also

Notes

External links