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TorqueFlite

TorqueFlite is the trademarked name used by Chrysler Corporation (now part of Stellantis) for a family of automatic transmissions, starting with a three-speed unit featuring a torque converter that was introduced in 1956 as a successor to the two-speed PowerFlite.^[1]^[2] The original TorqueFlite, designated as the A-488 with a cast-iron case, debuted on the 1956 Imperial and was soon offered across Chrysler brands including Plymouth, Dodge, DeSoto, and Chrysler models, providing smooth shifting, quiet operation, and high reliability through innovations like interchangeable gear sets, rolled splines for durability, and an overrunning clutch.^[1]^[2] By 1958, it had become an industry benchmark for performance and efficiency, controlled initially via push-button selectors on the dashboard.^[1] Over its evolution, the TorqueFlite lineup expanded with lighter aluminum-cased variants, including the A-904 for smaller engines in 1960 and the heavy-duty A-727 for V8 applications in 1962, which became legendary for its strength in muscle cars like the Dodge Charger and Plymouth Road Runner, handling up to 500 horsepower without failure.^[3]^[4] These three-speed designs dominated rear-wheel-drive vehicles through the 1970s and 1980s, incorporating features like lock-up torque converters for better fuel economy.^[1] In the modern era, the TorqueFlite name persists on advanced multi-speed units, such as the eight-speed 8HP series (branded TorqueFlite 8) and the nine-speed 9HP series, both joint developments with ZF Friedrichshafen; the 8HP was introduced in 2012 on models like the Chrysler 300 and Ram 1500, while the 9HP debuted in 2013 for front-wheel drive applications like the Chrysler Pacifica, offering features such as a wide 7.03:1 ratio spread for improved efficiency, shift-by-wire controls, and up to 31 mpg highway in some applications.^[5]^[6] This progression from three to up to nine speeds highlights TorqueFlite's enduring role in Chrysler's engineering legacy, powering millions of vehicles over nearly seven decades with a focus on durability and performance.^[1]

History

1956–1969: Origins and 3-Speed Era

The development of the TorqueFlite transmission began in the early 1950s under Chrysler engineers, building on the experiences with the semi-automatic PowerFlite, a two-speed unit introduced in 1954 for Imperial models and later expanded to other lines.^[2] The PowerFlite's torque converter and simplified shifting mechanisms provided key lessons in fluid coupling and gear engagement, prompting Chrysler to pursue a fully automatic three-speed design to compete with rivals like General Motors' Hydramatic.^[7] During this period, engineers tested prototypes, including explorations of lock-up torque converter mechanisms inspired by Packard's Ultramatic, though cost and complexity concerns delayed full implementation.^[8] The first TorqueFlite, designated as the A488 with a cast-iron case, debuted in the 1956 model year for Chrysler and Imperial vehicles, marking Chrysler's shift to a fully automatic system with a torque converter coupled to a Simpson compound planetary gearset for three forward speeds and reverse.^[3] This gearset, licensed from Howard W. Simpson's 1950 patents, featured two interconnected planetary units sharing a common sun gear, enabling efficient shifting without the semi-automatic elements of prior designs.^[9] Production commenced that year at the newly opened Kokomo Transmission Plant in Indiana, a 3.1 million square foot facility dedicated to automatic transmission assembly.^[10] In 1957, TorqueFlite expanded to Plymouth and Dodge models, becoming optional on V8-equipped vehicles and standard on performance variants like the Plymouth Fury, broadening its adoption across Chrysler's lineup.^[11] Push-button dashboard controls, which used electrical switches and cables to select gears, were standard on TorqueFlite-equipped cars from 1956 through 1965, offering a novel and intuitive interface that distinguished Chrysler products.^[12] Early units faced some reliability challenges, such as occasional overrunning clutch wear under heavy loads, but these were addressed through iterative improvements in materials and hydraulics.^[13] By 1962, Chrysler launched the heavier-duty A727 variant to handle high-performance applications, featuring reinforced components for greater torque capacity while retaining the core Simpson gearset design, solidifying TorqueFlite's reputation for durability in demanding conditions. This era established the foundational architecture that would influence subsequent Chrysler automatics for decades.

1970–1999: Updates and 4-Speed Developments

In the wake of the 1973 oil crisis, Chrysler adapted its TorqueFlite transmissions to prioritize fuel efficiency and emissions compliance by emphasizing lighter designs for smaller-displacement engines, including expanded use of the aluminum-cased A904 starting around 1970. This transmission, originally introduced earlier but refined for the era's downsized powertrains, weighed significantly less than the heavier-duty A727, reducing overall vehicle weight and improving highway economy without sacrificing the core three-speed hydraulic architecture. These modifications aligned with broader industry shifts toward leaner V6 and inline-six applications in passenger cars and light trucks, helping Chrysler meet tightening federal standards while maintaining drivability.^[14] By the late 1970s, further enhancements focused on overdrive capabilities to boost fuel economy on highways, with models like the A998 and A999 incorporating wide-ratio gearsets (introduced in 1980 and standardized by 1981) behind efficient axle ratios. These variants built on the A904 platform, adding a taller top gear for reduced engine RPM at cruising speeds, which proved particularly beneficial in the post-crisis market where gasoline prices had surged. Lockup torque converters, debuted in 1978 for rear-drive applications, further minimized slippage and heat buildup, enhancing efficiency in models equipped with the 360 V8 or smaller engines.^[14] The 1980s marked a transition toward hybrid hydraulic-electronic controls, integrating electronic governors and solenoids to refine shift timing and torque management, culminating in new designations such as the RH/RE series—for instance, the 30RH (formerly A904) introduced in 1987 for electronic overdrive operation in trucks and vans. These updates addressed performance demands in heavier-duty applications while complying with evolving emissions regulations through precise modulation of line pressure and converter lockup. The A518 and A618, four-speed overdrive evolutions of the A727 debuted in 1989, handled elevated torque from V8 engines in trucks like the Dodge Ram and revivals of muscle car-inspired models, such as performance variants of the Dodge Dakota, extending into the 1990s with capacities up to 600 lb-ft. By 1994, the A518 was redesignated 46RH with added hydraulic controls, solidifying its role in high-torque rear-wheel-drive platforms.^[15]^[14] Production of TorqueFlite units peaked during the 1980s amid surging demand for reliable automatics in Chrysler's truck and car lines, though exact figures for the period remain estimates based on overall Chrysler output. Common challenges included valve body wear in high-mileage examples, where accumulated grit caused shuttle valves to stick, leading to harsh shifts or delayed engagement; Chrysler issued service bulletins, such as those from 1966–1973 and later updates through the 1990s, recommending inspections and replacements of regulator valve screens (added in 1975) and low-reverse servo seals (updated in 1976) to mitigate these issues.^[16]^[14]

2000–Present: Electronic and Multi-Speed Transmissions

In the early 2000s, Chrysler began phasing out its older hydraulic-controlled 3-speed and non-adaptive 4-speed TorqueFlite units in favor of fully electronic systems featuring a Transmission Control Module (TCM) for adaptive shift programming. This transition enabled real-time adjustments to shift points based on driving conditions, driver behavior, and vehicle load, improving fuel efficiency and performance across models like the Jeep Grand Cherokee and Dodge Ram. The 45RFE, introduced in 1999 as an electronically controlled 4-speed with TCM integration, exemplified this shift and remained in production into the mid-2000s before evolving into 5-speed variants.^[17] A pivotal development occurred in 2010 when Chrysler Group (now part of Stellantis) partnered with ZF Friedrichshafen AG to license and produce an 8-speed automatic transmission at its Kokomo Transmission plant in Indiana.^[18] This collaboration allowed Chrysler to rebrand the ZF 8HP unit as the TorqueFlite 8, marking the integration of advanced multi-speed foreign-sourced technology under the longstanding TorqueFlite name. The first TorqueFlite 8 units entered production in 2012 for rear-wheel-drive applications in vehicles such as the Chrysler 300 and Dodge Charger.^[10]^[5] That year, it debuted in those models, followed by expanded use in 2013 for the Ram 1500 and Jeep Grand Cherokee, offering improved acceleration and up to 13% better fuel economy compared to prior 5-speed designs.^[19]^[20] That same year, the TorqueFlite 9-speed transmission debuted in transverse front-wheel-drive configurations for the 2014 Jeep Cherokee, based on ZF's 9HP design and produced at a joint venture facility in Gray Court, South Carolina. Early deployments faced criticism for hesitant shifts and rough engagement, particularly in low-speed maneuvers, leading to multiple software updates from Chrysler to refine TCM algorithms for smoother operation. By 2015, these over-the-air and dealer-applied calibrations had significantly addressed shift quality issues, enhancing responsiveness and reducing customer complaints in affected models.^[21]^[22]^[23] Entering the 2020s, TorqueFlite transmissions received updates for hybrid compatibility, notably through integration with Ram's eTorque mild-hybrid system starting in the 2019 model year. This belt-driven motor-generator setup, paired with TorqueFlite 8 units, enabled regenerative braking and seamless stop-start functionality while boosting low-end torque delivery. In Ram heavy-duty trucks, these advancements supported engine torque ratings up to 1,000 lb-ft from the 6.7L Cummins Turbo Diesel, maintaining driveline integrity under high loads.^[24]^[25] Global production of TorqueFlite units has shifted to leverage international partnerships, with key facilities in the U.S. supplemented by joint ventures. In China, Stellantis' collaboration with Dongfeng Motor Group facilitates component manufacturing and vehicle assembly that incorporates TorqueFlite-compatible systems for export markets. In Europe, production ties into broader transmission initiatives, such as the full acquisition of eDCT hybrid joint ventures in France and Italy, which support electrified variants adaptable to TorqueFlite architectures.^[26]^[27] Recent reliability enhancements are evident in the 2025 Ram Heavy Duty lineup, where a variant of the ZF 8AP1075—branded as TorqueFlite HD—handles up to 1,075 lb-ft of torque for heavy-duty towing applications exceeding 36,000 pounds. This PowerLine 8-speed design builds on proven ZF architecture, delivering smoother shifts and reduced wear during prolonged towing, with early tests confirming its durability in demanding conditions. The durability of legacy 3-speed TorqueFlite designs continues to inform the robust material choices in these modern iterations.^[28]^[29]

Nomenclature

Development Codes

The TorqueFlite transmission family employs an internal alphanumeric coding system developed by Chrysler to designate variants based on design specifications, torque handling capabilities, and intended applications. The coding typically begins with the prefix "A," which stands for "automatic" to distinguish these units from manual transmissions.^[30]^[31] Following the "A" prefix, a three-digit sequence provides key indicators of the transmission's physical and performance attributes, including case size (which influences durability and mounting compatibility), gear configuration (primarily three-speed in early models), and torque capacity (with higher numerical values denoting heavier-duty designs capable of handling greater engine output). For instance, the A466 code from the 1950s represents a light-duty, cast-iron cased unit suitable for smaller engines, while progressively higher numbers like the A904 (introduced in the 1960s) signify an aluminum case for improved weight efficiency and moderate torque handling around 300 lb-ft.^[31]^[30] This coding evolved through the decades to reflect advancements in materials and engineering. By the 1960s, codes such as A727 emerged for robust V8 applications, featuring a larger case and higher torque capacity exceeding 350 lb-ft, contrasting with the A904's focus on inline-six engines like the slant-six. In the 1990s, derivatives like the A618 built on the A727 platform but enhanced torque capacity to 450 lb-ft for heavier-duty uses, as a four-speed overdrive unit.^[31]^[30] Suffixes appended to the core code further specify control mechanisms and duty ratings. The "RH" suffix denotes non-electronic, hydraulically controlled variants (e.g., A727RH), relying on mechanical and fluid pressure for shifts. In contrast, the "RE" suffix indicates electronic control integration (e.g., 47RE), enabling computer-managed shifting for improved efficiency. The "HD" designation highlights heavy-duty reinforcements, such as upgraded clutches and planetary gears for high-torque scenarios. These suffixes correlate directly with engine pairings; for example, lighter codes like A904 and its derivatives were typically mated to slant-six engines for economy vehicles, whereas A727 variants paired with V8s in performance and truck applications to manage higher power outputs.^[31]^[30] After 2000, the coding system shifted away from the traditional "A" prefix toward fully alphanumeric formats to accommodate multi-speed electronic designs, such as the 845RE, where "8" signifies eight forward gears, "45" approximates 450 Nm (332 lb-ft) torque capacity, "R" indicates rear-wheel drive, and "E" denotes electronic controls. This evolution streamlined identification for modern, integrated powertrains while preserving the emphasis on torque and configuration metrics.^[30]^[31]

Service and Marketing Names

Chrysler Corporation trademarked the name TorqueFlite in 1956 for its innovative three-speed automatic transmission, chosen to underscore the torque multiplication effect achieved through the integrated torque converter, which enhanced vehicle performance and drivability.^[1] In the 1960s, marketing efforts positioned TorqueFlite as a premium, full three-speed automatic option, emphasizing its seamless, always-engaged shifting compared to rivals' part-time automatics that often required driver intervention for low gears.^[32] Advertisements and brochures highlighted this "full-time" operation to appeal to buyers seeking effortless power delivery in passenger cars and performance models.^[7] Service designations for TorqueFlite variants included "LoadFlite" for heavy-duty truck applications, reflecting adaptations for higher torque loads in commercial vehicles, while later front-wheel-drive transaxles carried the "UltraDrive" name starting in 1989, though both were encompassed under the broader TorqueFlite branding for consistency across Chrysler's lineup.^[31] Internal development codes further aided service technicians in identifying specific units for repairs. By the 1970s, Mopar parts catalogs standardized code-based identifiers, such as A727 for popular models, to streamline ordering rebuild kits, gaskets, and components.^[33] In the 2010s, as Chrysler partnered with ZF for advanced multi-speed units, these transmissions were rebranded under the TorqueFlite name to leverage the established reputation, appearing in promotional materials for Ram trucks and Jeep SUVs to evoke the transmission's storied heritage of reliability and performance.^[34]^[35]

Rear-Wheel Drive Transmissions

A466

The A466 TorqueFlite was the inaugural model in the TorqueFlite lineup, introduced as a light-duty three-speed rear-wheel-drive automatic transmission designed primarily for Chrysler Corporation's passenger cars equipped with V8 engines. It featured three forward gears with ratios of 2.45:1 in first, 1.45:1 in second, and 1.00:1 in third, along with a 2.20:1 reverse ratio. The unit incorporated a torque converter measuring approximately 10 inches in diameter and utilized a cast iron case for durability in its intended applications.^[36]^[3] This transmission was applied in 1956–1961 model year vehicles across Chrysler, DeSoto, Dodge, and Plymouth lines, paired with V8 engines up to 354 cubic inches, such as the 318 and 361 cubic inch variants. It supported the era's push-button shift selector mechanism on the dashboard, relying entirely on hydraulic controls without electronic assistance, and lacked an integrated parking pawl in early designs, requiring manual use of the emergency brake for parking. The hydraulic system included front and rear pumps to maintain oil pressure around 30 psi, ensuring smooth operation through governor and throttle pressure modulation.^[31]^[36] Engineered for torque inputs suitable for engines producing up to approximately 250 lb-ft, the A466 was noted for its robust yet lightweight construction relative to contemporaries, though a common failure point was the front servo band, which could wear under aggressive use and lead to delayed shifts or slippage in low-reverse applications. Production spanned from early 1956 through 1961, with the design serving as a predecessor to the heavier-duty A727 introduced in performance-oriented lines starting in 1962.^[36]^[3]

A727 and Derivatives

The A727, introduced in 1962 as a heavy-duty evolution of the earlier A466 TorqueFlite, featured a three-speed automatic design with a cast aluminum case that integrated the bellhousing and main body, reducing weight compared to prior cast-iron predecessors while maintaining robustness for high-torque applications.^[37]^[4] Its gear ratios were 2.45:1 in first, 1.45:1 in second, 1:1 in third, and 2.20:1 in reverse, paired with a Simpson compound planetary gearset and an 11.5-inch torque converter for smooth power delivery without overdrive.^[38]^[37] The transmission's torque capacity reached up to 450 lb-ft in stock form, supported by a rotary oil pump, two bands (kickdown and reverse), and multiple disc clutches, making it suitable for demanding performance use.^[39] Key to its operation was the hydraulic valve body, which incorporated a dual-function design for manual low-range selection and automatic shifting, controlled via a column-mounted linkage and kickdown mechanism tied to engine vacuum or throttle position for responsive downshifts under load.^[3]^[37] The A727's 14-bolt oil pan and paper-element filter allowed for straightforward maintenance, with fluid capacity around 8.2 liters including the converter, using ATF specifications compatible with Mopar ATF+3.^[39] No electronic controls were present, relying entirely on hydraulic and mechanical actuation for shifts.^[4] The A727 saw widespread applications from 1962 to 1993 across Chrysler Corporation vehicles, including Dodge, Plymouth, and Chrysler passenger cars equipped with V8 engines such as the 383, 440, and 426 Hemi, where it powered iconic muscle cars like the Plymouth Road Runner and Dodge Charger for drag-strip performance and street use.^[3]^[40] It also served in trucks and vans, such as Dodge D/W-series pickups from 1962 onward, handling payloads and towing duties with engines up to 440 cubic inches.^[38]^[4] Beyond Mopar, it was adapted for AMC, International Harvester, and Jeep full-size models through the early 1990s, often under the Torque Command branding.^[4]^[40] Derivatives of the A727 maintained its core hydraulic three-speed architecture but incorporated minor updates for later vehicles. The 36RH, introduced in the 1980s, featured a taller housing for improved clearance in trucks and Jeeps, retaining the same gear ratios and components while achieving nomenclature under Chrysler's updated coding system for hydraulically controlled rear-drive units.^[4]^[38] The 37RH, an early 1990s variant, added subtle refinements like enhanced sealing for off-road durability in Jeep applications, such as the Grand Wagoneer, without electronic overhauls.^[38]^[39] These models served as the hydraulic foundation for subsequent electronic evolutions like the 46RH.^[4] The A727's enduring design has fueled its popularity in aftermarket rebuilding, particularly for racing and restoration, with extensive support from suppliers offering upgraded pistons, high-friction clutches, and reinforced bands to exceed stock torque limits—often reaching 600 lb-ft or more in modified builds for drag racing and hot rodding.^[3]^[39] Common modifications include tighter pump clearances and improved valve body calibration to prevent wear from aggressive shifts, ensuring reliability in high-horsepower V8 swaps across various platforms.^[4]

A518 and Derivatives

The A518 transmission represents an evolution of the TorqueFlite lineup, introducing a four-speed configuration with overdrive to the A727's hydraulic design for improved highway efficiency in 1990s Chrysler light-duty trucks and vehicles.^[41] It features gear ratios of 2.45:1 in first, 1.45:1 in second, 1.00:1 in third, and 0.69:1 overdrive in fourth, enabling better fuel economy while maintaining robust performance.^[30] Electronic shifting is managed through a governor pressure solenoid, allowing for precise control, with the unit rated to handle up to 460 lb-ft of torque in applications paired with V8 engines.^[30] Primarily applied in Dodge Ram 1500 and 2500 trucks from 1990 to 2003, as well as Jeep Grand Cherokee and Dodge Durango models equipped with 5.2L or 5.9L V8 engines, the A518 was designed for rear-wheel-drive setups in these vehicles.^[42] Its derivatives include the 46RH, a hydraulically controlled variant used from 1990 to 1995 without full computer integration, and the 46RE, introduced in 1996 for electronic governance via a dedicated transmission control module (TCM) that enhanced shift timing and reliability.^[41] Key features of the A518 series, particularly the 46RE, incorporate adaptive learning algorithms that adjust shift points based on driver habits and load conditions to optimize performance and longevity.^[30] Torque converter lock-up is available in third and fourth gears, reducing slippage and improving fuel efficiency during cruising.^[41] However, in heavy towing scenarios, overheating remains a noted vulnerability due to increased thermal stress on fluid and components, often addressed through aftermarket auxiliary coolers included in rebuild service kits.^[42]

A618 and Derivatives

The A618, also known as the 47RE and its derivatives, represents a heavy-duty iteration of the TorqueFlite transmission family designed specifically for demanding truck applications, particularly those requiring robust diesel engine compatibility.^[43] Introduced in 1996, this four-speed rear-wheel-drive automatic transmission features gear ratios of 2.45:1 in first, 1.45:1 in second, 1:1 in third, 0.69:1 in overdrive fourth, and 2.21:1 in reverse, providing balanced torque multiplication suited to high-torque outputs while maintaining highway efficiency.^[43] Its reinforced internals, including a stronger planetary gearset and enhanced clutch packs, enable it to handle up to 450 lb-ft of input torque in standard form, with later variants rated higher for heavy-duty use.^[44] The overdrive gearing derives from the A518 passenger-car lineage but was adapted with deeper components and diesel-specific calibrations for superior low-end performance.^[45] Primary applications for the A618 focused on Dodge Ram 2500 and 3500 trucks from 1996 to 2007, pairing with the 5.9L Cummins inline-six turbodiesel engine for towing and hauling duties, as well as the 5.9L V8 gasoline engine in select heavy-duty configurations.^[46] These transmissions were engineered for vehicles with gross vehicle weight ratings (GVWR) exceeding 8,000 pounds, emphasizing durability in commercial and off-road scenarios where sustained high loads are common.^[47] The design prioritized diesel torque characteristics, incorporating an electronically modulated torque converter clutch for smoother lock-up and reduced slippage under load.^[43] Derivatives evolved to meet advancing electronic controls and performance demands. The initial 47RH variant (1994–1995 precursor, but integrated into A618 lineup from 1996) relied on hydraulic governance without full electronic shift management, serving as a transitional heavy-duty unit.^[43] The 47RE, introduced in 1996, added electronic control via the engine control unit (ECU) for precise shift points and variable line pressure modulation, improving responsiveness in diesel applications.^[44] By 2003, the 48RE superseded it with further reinforcements, including a deeper oil pan for increased fluid capacity, upgraded valve body solenoids, and a torque capacity elevated to 560–570 lb-ft, making it the standard for later 5.9L Cummins-equipped Rams until 2007.^[48] These evolutions maintained core TorqueFlite architecture while enhancing electronic integration for better fuel economy and shift quality.^[46] Key components underscore the A618's focus on reliability under stress, including an electronically modulated torque converter with lock-up clutch to minimize heat buildup during towing, and a variable line pressure system that adjusts hydraulic force based on throttle input and vehicle speed for optimal band and clutch apply.^[43] The transmission's durability stems from its cast-iron case, high-capacity cooling lines, and reinforced overdrive section, allowing it to support GVWRs over 8,000 pounds in real-world heavy-duty service.^[49] However, in high-mileage examples exceeding 150,000 miles, the rear servo band often experiences wear due to repeated apply cycles under load, necessitating periodic adjustments or replacement to prevent slippage.^[50] Overall, the A618 derivatives proved instrumental in establishing TorqueFlite's reputation for truck endurance, particularly in diesel powertrains.^[46]

A904 and Derivatives

The A904, introduced in 1960 as a lightweight three-speed rear-wheel-drive automatic transmission, was designed for economy applications in smaller Chrysler vehicles, featuring an aluminum case integrated with the torque converter housing for reduced weight compared to cast-iron units.^[51] Its gear ratios initially comprised 2.45:1 in first, 1.45:1 in second, 1:1 in third, and 2.20:1 in reverse, though later versions from the 1970s adopted taller ratios of 2.74:1 first and 1.54:1 second to improve fuel efficiency.^[52] With a maximum torque capacity of approximately 300 lb-ft, it utilized three clutch plates and discs for six-cylinder engines and four for small V8s, prioritizing smooth operation over high-performance durability.^[51] Primarily applied in Plymouth and Dodge models from 1960 to 1989, the A904 paired with inline-six engines of 170–225 cubic inches and small V8s up to 318 cubic inches, appearing in vehicles such as the Valiant, Dart, and Aspen for everyday driving and light-duty use.^[52] Its simpler valve body design, which omitted some complexities of heavier-duty units while sharing compatible bellhousing patterns, facilitated easier integration across engine families and contributed to 10–15% better fuel economy than cast-iron counterparts due to the lighter aluminum construction, though shifts were notably softer.^[51] This made it complementary to the more robust A727 for performance-oriented setups.^[53] A key derivative, the 30RH, emerged in 1987 as an electronically controlled evolution of the A904, retaining the three-speed configuration with updated gear ratios of 2.74:1 first, 1.54:1 second, 1:1 third, and 2.21:1 reverse, but incorporating a computer-managed lockup torque converter for enhanced highway efficiency in vans and light trucks.^[30] Rated for up to 240 lb-ft of torque, the 30RH featured a hydraulic-electronic valve body for precise shift timing and was applied in Dodge B-series vans, Jeep Cherokee (XJ), and Wrangler (YJ) models through the early 2000s, extending the A904's legacy into electronic-era vehicles while maintaining its compact, aluminum-cased footprint.^[53]

A998, A999, and Derivatives

The A998 and A999 represent evolved, light-duty variants of the TorqueFlite A904 transmission, optimized for fuel efficiency in rear-wheel-drive applications during the 1980s and 1990s. These three-speed units feature wide-ratio gearing with ratios of 2.74:1 in first gear, 1.54:1 in second gear, and 1.00:1 in third gear, along with a reverse ratio of 2.21:1, allowing for lower engine RPM at highway speeds compared to earlier narrow-ratio designs. Derived from the compact A904 base, the A998 serves as a medium-duty option suited for V6 engines, while the A999 provides enhanced durability for slightly higher torque demands through reinforced components like additional clutch plates. Both incorporate a standard lock-up torque converter to minimize slip and improve highway efficiency.^[31]^[54]^[55] The electronic derivatives, known as the 31RH (based on the A998) and 32RH (based on the A999), integrate electronic controls for precise shift scheduling and torque converter lock-up engagement, marking a transition to computer-managed operation in Chrysler vehicles. These RE-designated units retain the core three-speed architecture but add solenoids for governor pressure modulation and overdrive-like efficiency gains through optimized shifting, without introducing a dedicated fourth gear. The 31RH, in particular, supports up to 350 lb-ft of torque, making it suitable for mid-range powertrains, while the 32RH offers greater robustness for demanding conditions. Lock-up functionality is standard across these models, engaging in third gear above approximately 40 mph to reduce heat buildup and enhance fuel economy by 5-10% in cruising scenarios.^[56]^[57] Applications for the A998 and 31RH primarily include 1988-1994 Dodge trucks and vans, such as the Dakota pickup and B-series vans paired with the 3.9L V6 engine, where their lightweight design (around 135 lbs dry) contributed to better payload efficiency without sacrificing drivability. The A999 and 32RH found use in heavier-duty setups, including Jeep Cherokee (XJ) and Wrangler (YJ) models from 1987-2001 with 4.0L inline-six engines, providing reliable performance in both on-road and light off-road environments. These transmissions were favored for their simplicity and adaptability to electronic engine controls in fuel-conscious era vehicles.^[56]^[58]^[57] Common aftermarket modifications for these units, especially in off-road Jeep applications, include shift kits that increase line pressure for firmer, quicker shifts, reducing band slippage under load and extending service life in rugged terrain. These kits, often featuring recalibrated valve bodies, can improve throttle response and towing capability while maintaining the transmission's inherent reliability.^[59]

A500 Series

The A500 series represents a family of compact four-speed rear-wheel-drive automatic transmissions developed by Chrysler for light-duty applications, featuring an overdrive fourth gear for improved fuel efficiency. Introduced in 1988, these transmissions were designed to handle input torque up to approximately 300 lb-ft, making them suitable for smaller engines in vans and trucks. Key specifications include gear ratios of 2.74:1 in first, 1.54:1 in second, 1.00:1 in direct, 0.69:1 in overdrive, and 2.21:1 in reverse, paired with a lock-up torque converter to reduce slippage and enhance highway performance.^[60]^[30] These transmissions found primary use in Dodge B-series full-size vans from 1988 to 2003, as well as S-series pickup trucks like the Dodge Dakota, paired with 3.0-liter V6 and 3.9-liter V6 engines for optimal balance of economy and capability. The design evolved from the economy-oriented A904 three-speed lineage, incorporating a shortened version of its bellhousing and case with an added overdrive planetary gearset and extension housing for compactness in light vehicles. By the 1990s, later variants integrated electronic controls for smoother shifting and adaptive performance, replacing earlier hydraulic systems.^[61]^[62]^[60] The series includes non-electronic hydraulic variants designated 40RH (two-wheel drive) and 42RH (four-wheel drive), introduced in 1988 for basic applications, followed by electronic updates as 40RE, 42RE, and 44RE starting around 1990 to support engine management systems in newer models. These electronic versions used solenoid packs for governor pressure and shift timing, enabling features like torque converter lock-up under ECU command. Despite their efficiency, the A500 series is known for reliability issues such as 2-3 shift slippage, often caused by solenoid wear or electrical faults, which can be addressed through solenoid replacement kits to restore firm shifts without full rebuilds.^[30]^[63]^[64]

8-Speed Models

The TorqueFlite 8-speed rear-wheel-drive transmissions, developed in collaboration with ZF Friedrichshafen AG as the longitudinal 8HP series, represent an advanced automatic transmission family for rear-wheel-drive and all-wheel-drive vehicles, offering eight forward gears with a 7.0:1 ratio spread and torque capacity up to 664 lb-ft depending on the variant.^[65] These units prioritize efficiency, performance, and smooth shifting, succeeding earlier four-speed designs.^[6] Introduced in 2012 on the Jeep Grand Cherokee and expanded to other models, the 8HP series has been applied in rear-wheel-drive vehicles such as the Ram 1500 (from 2013), Chrysler 300 (from 2014), Dodge Challenger and Charger (from 2015), and all-wheel-drive variants like the Jeep Grand Wagoneer, paired with engines including the 3.6L Pentastar V6 and 5.7L Hemi V8.^[6]^[66] Key variants include the 8HP45 for lighter-duty V6 applications (up to 354 lb-ft) and the 8HP70 for heavier V8 and truck use (up to 664 lb-ft), supporting all-wheel drive through integrated transfer cases for enhanced traction.^[66] Features include shift-by-wire controls in later models and torque converter lock-up across multiple gears, contributing to fuel economy improvements of up to 10% over prior six-speed units.^[5] As of November 2025, the TorqueFlite 8 remains in production for current Stellantis rear-wheel-drive platforms, with ongoing software updates for refined shift logic and integration with hybrid systems in select applications.^[6]

Front-Wheel Drive Transaxles

A404

The A404 TorqueFlite is a three-speed automatic transaxle developed by Chrysler Corporation for front-wheel-drive platforms, marking the first adaptation of the longstanding TorqueFlite design to transverse mounting in compact vehicles. Introduced in the late 1970s, it was engineered for lightweight economy cars and early minivans, pairing with inline-four engines to deliver efficient power transfer in urban and family-oriented applications. The unit's compact aluminum housing contributed to overall vehicle weight reduction, aligning with Chrysler's shift toward fuel-efficient front-wheel-drive architectures during a period of regulatory emphasis on emissions and economy.^[67] Key specifications include a first-gear ratio of 2.69:1, second-gear ratio of 1.55:1, third-gear ratio of 1.00:1, and reverse ratio of 2.10:1, optimized for smooth progression in low-to-mid-range acceleration typical of subcompact and midsize sedans. The transaxle employs a transverse orientation with an integrated differential, facilitating its use in space-constrained FWD layouts, and was designed to handle input torques suitable for engines up to around 100-135 horsepower, such as Chrysler's 2.2-liter inline-four. Its aluminum case construction, weighing approximately 154 pounds when dry, enhanced durability while minimizing mass compared to earlier rear-drive TorqueFlite variants. The A404 shared core planetary gearsets and valve body components with later derivatives but featured a lighter bellhousing tailored for smaller-displacement engines, distinguishing it from heavier-duty siblings.^[67]^[68] Primary applications encompassed the 1978-1983 Dodge Omni and Plymouth Horizon subcompacts, where it mated with the 1.7-liter Volkswagen-sourced engine, as well as 1981-1989 Dodge Aries and Plymouth Reliant K-cars equipped with the Chrysler 2.2-liter powerplant. It also saw duty in 1984-1989 Dodge Caravan and Plymouth Voyager minivans, supporting the brand's entry into family haulers with four-cylinder configurations for base models. Early production units, particularly from 1978 to 1983, occasionally exhibited torque converter shudder under light throttle loads, attributed to clutch material interactions in the lock-up mechanism; this was mitigated starting in 1984 through revised torque converter designs and improved automatic transmission fluid formulations that enhanced friction stability. The A404 represented Chrysler's inaugural front-wheel-drive TorqueFlite implementation, paving the way for broader adoption in the lineup.^[68]^[69]^[70]

A413 and 31TH

The A413 is a three-speed front-wheel drive automatic transaxle developed by Chrysler as part of the TorqueFlite family, introduced in 1981 as a reinforced evolution of the earlier A404 to handle increased loads in compact vehicles. It employs a Simpson compound planetary gearset for reliable shifting, with hydraulic controls in early versions and electronic enhancements added later for improved efficiency. Designed primarily for four-cylinder engines, the A413 provided smooth operation in urban driving while prioritizing fuel economy over high-performance demands.^[71]^[72] Key specifications include gear ratios of 2.69:1 in first, 1.55:1 in second, 1.00:1 in third, and 2.10:1 in reverse, paired with variable final drive ratios such as 2.76:1 or 3.05:1 and transfer gears ranging from 0.96:1 to 1.22:1, resulting in overall top-gear ratios up to 3.72:1 depending on the application. The unit supports a maximum torque capacity of approximately 200 lb-ft, making it suitable for engines producing 100-150 horsepower. A 9.48-inch torque converter was standard, with cooling via an oil-to-water or oil-to-air exchanger, and fluid requirements shifted from 8.9 quarts of Dexron II (1984-1987) to Mopar ATF Type 7176 from 1988 onward. Shift points varied by throttle and final drive; for example, with a 2.78:1 ratio, 1-2 upshifts occurred at 13-16 mph under minimum throttle.^[71]^[73] The A413 saw widespread use from 1981 to 2001 in Chrysler Corporation's front-wheel drive passenger cars and light trucks, particularly those with 2.2-liter and 2.5-liter inline-four engines. Notable applications include the 1987-1994 Dodge Shadow and Plymouth Sundance, 1984-2000 Dodge Caravan and Chrysler Voyager minivans, and the 1995-2001 Dodge and Plymouth Neon, where it replaced the problematic Ultradrive 41TE for better reliability in economy models. It also appeared in sedans like the 1982-1995 Chrysler LeBaron and Dodge Spirit, often in non-turbo configurations for daily commuting. As a compact derivative of the A404, it incorporated overdrive-like efficiency through optimized ratios but retained a three-speed layout.^[71]^[74]^[72] The 31TH variant, introduced in the mid-1990s, featured a taller transmission case compared to the standard A413, enabling a deeper oil pan for enhanced fluid capacity and cooling in prolonged operation. This design update addressed overheating concerns in higher-mileage scenarios, particularly in minivans and the Neon, while maintaining internal compatibility with A413 components like the gearsets and valve body. The 31TH extended the platform's lifespan into the early 2000s, with production overlapping the A413 until around 2001.^[75]^[76] Features evolved over time, starting with purely hydraulic operation and adding an electronically controlled lock-up torque converter solenoid in 1987 for non-turbo models to reduce slippage and improve highway efficiency. Later iterations, including the 31TH, incorporated lock-up capability in second and third gears by 1995, along with adaptive hydraulic adjustments via the electronic control module for smoother shifts under varying loads. These enhancements minimized heat buildup without requiring full electronic shifting like in the Ultradrive series.^[71]^[72] The A413 and 31TH are noted for strong longevity, often exceeding 200,000 miles with regular ATF changes every 30,000-60,000 miles to prevent varnish buildup. However, solenoid failures are a common issue, particularly in the lock-up circuit, leading to delayed engagement, shuddering, or failure to shift out of lower gears; these can typically be addressed by replacing the solenoid and cleaning the valve body. Proper maintenance, including filter replacements, significantly extends service life in these applications.^[77]^[78]

A415

The A415 is a three-speed front-wheel drive automatic transaxle designed by Chrysler as a performance variant within the TorqueFlite family, specifically reinforced to accommodate higher torque outputs in turbocharged applications. It supports up to 225 lb-ft of torque through upgraded internal components, including strengthened clutches capable of withstanding boosted engine pressures, while maintaining a compact aluminum housing similar to other small-car transaxles. Gear ratios are shorter than those of the base A404 model, with first gear at 2.69:1, second at 1.55:1, and third at 1.00:1, enabling quicker acceleration suited to lightweight, turbocharged vehicles.^[79] This transaxle shared many core components with the A413, such as the hydraulic valve body, oil pump, and gear train, but incorporated specific reinforcements like enhanced clutch packs to manage the additional stress from turbocharging without requiring a full redesign. It utilized a 10.75-inch torque converter without a lock-up clutch, prioritizing direct power transfer for responsive performance in small cars. The design emphasized durability under boost conditions, with selective shims for precise shaft end play (0.007–0.073 inches on the output shaft) to minimize wear.^[79] The A415 was applied exclusively to the 1984–1986 Dodge Omni and Plymouth Horizon Turbo models, where it paired with the turbocharged 2.2-liter engine to deliver spirited performance in subcompact platforms. Production was limited due to the niche demand for automatic transmissions in these performance-oriented variants, as most buyers opted for manuals to maximize the turbo's responsiveness. Shift quality was enhanced by a manual valve body option, allowing for faster, more aggressive changes compared to standard economy setups.^[79] By the late 1980s, the A415 was phased out in favor of four-speed transaxles that better met evolving demands for efficiency and higher torque handling in turbocharged vehicles, marking the end of its short production run.^[79]

A470

The A470 is a strengthened variant of the Chrysler TorqueFlite front-wheel drive transaxle, introduced in the early 1980s as a heavy-duty 3-speed automatic with lock-up torque converter for improved efficiency and durability in upscale applications. Designed to handle higher torque loads than the standard A413, it featured reinforced internal components, including a larger torque converter and enhanced band and clutch assemblies, to support engines up to approximately 250 lb-ft of torque while providing smoother shifts through hydraulic control with electronic lock-up actuation.^[80]^[81] The A470 was primarily applied in luxury front-drive sedans like the 1983–1988 Chrysler New Yorker, paired with the 2.6L Mitsubishi inline-four engine, as well as in K-platform compacts (e.g., 1983 Scamp) and early minivans (e.g., 1984–1987 Dodge Caravan with 2.6L).^[82]^[81] Its adaptive hydraulic programming allowed for refined shift patterns suited to luxury vehicles, and it included a light-duty towing mode for occasional hauling, though it was not intended for heavy towing. Common issues included wear on the kickdown band and 2-3 clutch pack, particularly in high-mileage or overheated units, often requiring rebuilds with upgraded frictions for longevity.^[83]^[84] With a relatively short production run due to the shift toward more advanced units, the A470 was phased out by the late 1980s in favor of the 4-speed A670, which offered greater versatility for evolving V6 applications. It built briefly on the A413's lock-up electronics for basic electronic overdrive control.^[80]^[85]

A670

The A670 is a three-speed automatic transaxle developed by Chrysler Corporation for front-wheel-drive vehicles, specifically as the heavy-duty variant of the A413/31TH series tailored for V6 engine applications. Introduced in 1987, it adapted the hydraulic architecture of the earlier A904 rear-wheel-drive TorqueFlite for transaxle use, incorporating a lock-up torque converter controlled by a solenoid for enhanced highway efficiency and reduced heat buildup. This design emphasized durability for mid-size sedans and minivans, with a planetary gearset enabling smooth hydraulic shifting without advanced electronic modulation.^[86] Key specifications include three forward gears with ratios of 2.69:1 (first), 1.55:1 (second), and 1.00:1 (third), paired with a 2.10:1 reverse ratio, providing a gear spread suitable for balanced acceleration and cruising. The unit's construction supported engine outputs typical of the period, integrating a steel-backed pump and band apply mechanisms for reliable operation under load. It shared electronic lock-up heritage from the A470 four-cylinder transaxle, evolving basic solenoid actuation for torque converter engagement.^[67] The A670 found applications in luxury-oriented and family front-drive models equipped with the 3.0 L Mitsubishi 6G72 V6 engine, including the Chrysler New Yorker (1988), Dynasty (1988–1993), and LeBaron (1987–1994); Dodge Dynasty (1988–1993), Spirit (1989–1995), and Shadow (1990–1994); and Plymouth Acclaim (1989–1995) and Sundance (1990–1994). Minivans such as the Dodge Caravan (1988–1995) and Plymouth Voyager/Grand Voyager (1987–1990 and 1995–2000) also utilized it for V6 configurations, prioritizing smooth power delivery in daily driving scenarios.^[87] Early production units experienced issues like reverse band breakage, leading to loss of reverse gear, and harsh engagements from governor valve wear or fluid contamination, often resulting in delayed shifts or clunks during neutral-to-drive transitions. These were commonly resolved via rebuild kits addressing clutch packs, bands, and valve body calibration, with aftermarket shift kits available to firm up changes and prevent overlap. By 2000, the A670 was phased out, superseded by the 41TE four-speed transaxle family for improved fuel economy and refined shifting in subsequent front-drive platforms.^[88]

8-Speed Models

The TorqueFlite 8-speed front-wheel drive transaxles, developed in collaboration with ZF Friedrichshafen AG, represent a transverse-mounted automatic transmission family designed for modern passenger cars and crossovers, offering eight forward gears with a ratio spread of up to 6.00:1 in select configurations and torque capacity reaching 500 lb-ft.^[65] These units prioritize efficiency and smooth power delivery, with variants succeeding earlier six-speed transaxles like the 62TE in FWD applications.^[89] Introduced in 2013, these transaxles have been applied in all-wheel drive compatible platforms, such as certain Jeep models, paired primarily with the 3.6-liter Pentastar V6 engine to optimize performance in family-oriented and performance-oriented platforms.^[90] The design supports all-wheel drive compatibility through integrated transfer case options, enabling better traction in adverse conditions without sacrificing front-wheel drive efficiency.^[65] Key variants include the 840E as the base model for standard-duty applications and the 850RE tuned for higher-performance needs, with hybrid versions incorporating an integrated starter/generator for mild-hybrid systems to improve start-stop functionality and regenerative braking.^[66] Features emphasize fuel economy gains of 5-10% over preceding 6-speed units, achieved through optimized gear ratios and reduced parasitic losses.^[91] In the 2020s, refinements focused on software calibrations for smoother low-gear shifts during urban driving, reducing hesitation and enhancing driver confidence in stop-and-go traffic.^[92]

9-Speed Models

The TorqueFlite 9-speed front-wheel-drive transaxles, based on the ZF 9HP platform, were introduced in 2013 for compact and mid-size vehicles, providing a wider gear spread and improved efficiency over prior 6-speed units.^[93] These transaxles feature nine forward gears with a 9.81:1 overall ratio spread, enabling better engine matching across operating conditions.^[94] A key design element is the use of two dog clutches—designated A and F—for compactness and reduced weight, with Dog Clutch A controlling annulus and sun gear engagement via a double-action piston and sensing valve, while Dog Clutch F holds the double sun gear stationary.^[95] The system supports maximum input torque up to 350 lb-ft, making it suitable for a range of inline-four and V6 engines.^[94] Primary applications include the Jeep Cherokee (KL platform) since 2014, paired with 2.4L Tigershark inline-four or 3.2L Pentastar V6 engines; the Jeep Renegade since 2015, often with the 2.4L engine; and the Ram ProMaster van since 2022, utilizing the 3.6L Pentastar V6.^[96]^[97] The Chrysler-branded variant is the 948TE, which serves as the standard model for most Jeep applications, while the ZF 9HP48 designates a light-duty configuration optimized for lower-torque outputs in compact vehicles.^[98] A hybrid-specific variant, the 9P48H, replaces the traditional torque converter with an electric motor integration for plug-in hybrid systems, primarily used in Jeep platforms such as the Wrangler 4xe.^[99] Notable features include skip-shift logic, which enables direct shifts such as 1-3 for quicker acceleration without engaging intermediate gears, controlled by precise clutch speed synchronization to avoid grinding.^[100] Early production models from 2013-2014 experienced harsh shift quality due to adaptation issues in the transmission control module (TCM), but these were addressed through 2015 software calibrations and diagnostic enhancements that refined clutch overlap and pressure management.^[101] As of 2025, ongoing NHTSA investigations address reliability concerns in hybrid variants, including wiring shorts leading to shutdowns.^[102] This parallel to the broader 8-speed TorqueFlite family emphasizes modular design for front-transverse layouts.^[103] In terms of efficiency, the 9-speed design delivers approximately 16% better fuel economy compared to preceding 6-speed transaxles, primarily through optimized gear spacing and torque converter lockup available from first through ninth gears.^[93] For the 2022+ Ram ProMaster, specific calibrations enhance towing performance, supporting up to 6,910 pounds while maintaining drivability in commercial van duties.^[97]

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Automatic Transmission | Crown Automotive Sales Co
Dodge Minivan (S) (1984-1990) w/ A413 Transmission. ... Dodge Neon (PL) (1995-2001) w/ 31TH Transmission. ... Dodge Shadow (P) (1987-1994) w/ A413 Transmission.
[78]
A413 vs 31TH - YouTube
Aug 13, 2021 · The A413 can be found in all of the 80's K car based Dodge/Chrysler/Plymouth vehicles, while the 31TH ... Transfer Gear Cover 01:44 - Diff ...
[79]
https://atsg.eculabnic.com/BOOKS/404-670.pdf
[80]
A413 Transmission parts, repair guidelines, problems, manuals
A typical repair procedure of this transmission family includes the replacement of all spare parts (including the kit of friction components, steel discs and ...
[81]
A413 Trans Problem | Allpar Forums
Oct 25, 2018 · First time it happened it did shift into 3rd but then dropped back into 2nd. Found I could get to 3rd and stay there by manually shifting from 2 ...Powertrain longevityDex 6 in a torqueflite?More results from www.allpar.comMissing: capacity longevity solenoid
[82]
[PDF] 404 UPDATE.cdr
OF THE TORQUE-FLITE FRONT WHEEL DRIVE TRANSAXLES. A670. 3.0 LITRE. A470. 2.6 LITRE. A415. 1.6 LITRE. A413. 2.2 LITRE. A404. 1.7 LITRE. Figure 248. Page 86 ...
[83]
Lead on an A470 Trans | Allpar Forums
Jun 28, 2023 · The A470 was for the Mitsubishi 2.6L 4-cylinder. The A670 was for the Mitsubishi 3.0L 6-cylinder.Missing: specifications | Show results with:specifications
[84]
Chrysler A-413 & A-470 Transaxle Guide | PDF - Scribd
This document provides information about Chrysler Motors A-413 & A-470 automatic transmissions used in various 1984 Dodge Caravan models.Missing: TorqueFlite history
[85]
https://www.scribd.com/document/58884004/Voyager-Transmission-a470-a670-31th
[86]
https://www.go4trans.com/transmission/a413/a670/
[87]
CHRYSLER A404, A413, A470, A670 Stage-1 Friction Clutch Pack
Stage-1 frictions are not limited to performance, but also enhance heavy duty applications by increasing holding capacity, while being able to withstand higher ...
[88]
Voyager Transmission A470 A670 - 31th | PDF - Scribd
This document provides part numbers and descriptions for rebuilding kits and components for Chrysler front wheel drive transmissions.
[89]
https://media.stellantisnorthamerica.com/newsrelease.do?id=16833&mid=
[90]
None
Summary of each segment:
[91]
A670 Transmission - Chrysler - Sonnax
Bushing Style: Precision; Material: Steel-backed bimetal; Width: 0.535"; Shaft Dia.: 1.498"; Housing Bore: 1.619". Helps cure: Pump seal leakage; Pump noise ...Missing: specifications | Show results with:specifications
[92]
A Deep Look at ZF's 9-speed Automatic - Car and Driver
Jul 30, 2013 · It's a nine-speed transaxle for transverse applications sporting a 9.8 ratio spread (that's good) and it promises 10-percent better fuel economy when compared ...Missing: TorqueFlite 948TE specifications Renegade ProMaster
[93]
ZF9HP48 _ 948TE Introduction_manuals.pdf - Slideshare
The document provides an overview of the ZF 9HP48 and Chrysler 948TE nine-speed automatic transmissions, including their applications in various vehicle models.
[94]
Chrysler 948TE: It's a doggy dog transmission
Aug 4, 2022 · The Chrysler 948TE transmission stands out for its unique use of two dog clutches: Dog clutch A and dog clutch F.
[95]
ZF9HP48, 948TE Line Pressure Control and Diagnostics
Aug 11, 2021 · The units are utilized in the Acura TLX and MDX, Chrysler 200 Fiat, Honda CR-V, Jeep Cherokee KL and Renegade, Range Rover, and Land Rover, to ...
[96]
2022 Ram Promaster gets 9-speed trans, tech and safety update
Aug 26, 2021 · A next-generation 3.6-liter Pentastar V-6 engine is now paired to a segment-exclusive TorqueFlite nine-speed automatic transmission.Missing: 948TE 16%
[97]
ZF 9HP48 - A Mechanical Marvel! - Gears Magazine
Nov 27, 2019 · The ZF 9HP48, also known as the 948TE for FCA (Fiat/ Chrysler Automobiles) vehicles, is a nine-speed transmission found in various Honda ...Missing: TorqueFlite variants
[98]
ZF9HP48 FWD Nine Speed, Part 2 - Transmission Digest
Sep 1, 2015 · The 9HP is not a mechatronic design. The 9HP uses a torque converter; however, a hybrid version, the 9P48H, will utilize an electric motor instead.
[99]
[PDF] 948TE Introduction Webinar Handout - NET
The 9-speed automatic transmission is, without an additional oil pump, stop-start capable. Since, in the case of restarting, it is only one friction shift ...
[100]
Flash: Transmission Diagnostic And Shift Enhancements - 2015 ...
Aug 23, 2017 · Using wiTECH, check the TCM calibration and see if it is up to date. · Reprogram the TCM with the latest software.
[101]
9-Speed Automatic Transmission - ZF
The ZF 9-speed automatic transmission for passenger cars with front-transverse engines. Thanks to the modular principle, different starting elements and ...Missing: Cherokee Renegade ProMaster