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Cab unit

A cab unit is a type of diesel-electric locomotive featuring a full-width cab at one end, seamlessly integrated into a streamlined carbody that extends the full length of the unit, providing enclosed housing for the engine, generator, and other components, in contrast to later hood units with exposed long hoods and offset cabs.^[1] These locomotives, often nicknamed "covered wagons" due to their boxy, wagon-like appearance, were primarily developed for North American railroads and played a pivotal role in the transition from steam to diesel power during the mid-20th century.^[1]^[2] Introduced in the mid-1930s by manufacturers such as Electro-Motive Division (EMD) of General Motors, the cab unit design emphasized aesthetics, crew comfort, and operational efficiency, with early models debuting in 1937 for railroads like the Baltimore & Ohio (EA series) and Santa Fe (E1).^[1] By 1939, EMD's FT freight cab unit demonstrated superior performance by hauling heavy loads—such as 4,000 tons in tests for the Southern Railway—accelerating the dieselization of freight services and contributing to the decline of steam locomotives, with over 1,000 FT-derived A and B units produced by 1945.^[3]^[1] Passenger variants, like the E series, offered high horsepower (up to 2,000 hp) and elegant styling for streamliner trains, while freight models such as the F series provided robust 1,500 hp outputs for mixed traffic.^[1]^[2] Key manufacturers included EMD, which dominated production with models like the F7 (over 3,800 units built from 1949–1953) and E8 (passenger units with 2,250 hp); American Locomotive Company (Alco) with the PA passenger and FA freight series; Baldwin Locomotive Works; and Fairbanks Morse with the C-Liner line, though General Electric focused on non-cab designs during this era.^[1]^[2] Notable design features encompassed distinctive nose profiles, such as EMD's "bulldog" or "sharknose" variants, which enhanced visibility and aerodynamics.^[1] Although production waned by the 1950s in favor of more versatile road-switcher types like the EMD GP7, many cab units remain preserved in museums or operate on tourist lines, exemplifying the engineering artistry of the diesel age.^[1]^[3]

Introduction

Definition

A cab unit is a type of diesel-electric locomotive featuring a full-width cab at one end, seamlessly integrated into a streamlined carbody that extends the full length of the unit, providing enclosed housing for the engine, generator, and other components.^[1] This design allows the unit to function independently or as the controlling locomotive in a multi-unit consist, where it directs the operation of trailing units.^[4] In contrast to cabless booster units (B units), which lack a cab and rely on remote control from a paired cab unit, cab units incorporate essential features such as throttle, brakes, and signaling controls within the cab for direct crew operation.^[4] The term is most commonly applied to diesel-electric locomotives in North American railroading, where the cab is typically positioned at one end of the unit to facilitate forward visibility and efficient coupling in train formations.^[5] Cab units feature a streamlined carbody that houses the prime mover and auxiliary equipment, enabling versatile use in both freight and passenger services.^[1] This configuration supports multiple unit (MU) control systems, allowing synchronized operation of several locomotives as a single power unit.^[6]

History

The development of cab units began in the mid-1930s as railroads sought more efficient alternatives to steam locomotives, particularly for passenger service. Electro-Motive Corporation (EMC), a subsidiary of General Motors, pioneered the design with its E-series passenger cab units. The first production model was the EMC EA, delivered to the Baltimore & Ohio Railroad in 1937, with No. 51 marking the inaugural streamlined diesel-electric locomotive of its kind. Powered by a 1,800-horsepower Winton 201-A engine, these units featured a full-width body with a cab at one end and a streamlined "covered wagon" appearance, setting the aesthetic standard for decades. The EA and companion EB booster units were assigned to high-profile trains like the Capitol Limited, outperforming steam power on routes between Washington, D.C., and Chicago.^[7]^[8] The transition to freight applications accelerated diesel adoption during World War II. In November 1939, EMC introduced the FT demonstrator, the first cab unit designed specifically for freight hauling, consisting of four sections (two A units and two B units) semi-permanently coupled into two A-B sets, with a combined 5,400 horsepower from four 16-cylinder 567 engines (1,350 hp each).^[9]^[10] This model convinced skeptical railroads of diesel viability, leading to orders like the Atchison, Topeka and Santa Fe Railway's 80-unit fleet (reconfigured as independent A-B pairs for flexibility). By 1945, over 1,000 FT units had been produced, forming the basis for EMD's dominant F-series, including the F3 (1945), F7 (1949–1953, with 3,849 units built), and F9 (up to 1960). These freight cab units revolutionized North American railroading by enabling multiple-unit operation and reducing maintenance costs compared to steam.^[9]^[1] Post-war competition from other manufacturers diversified cab unit designs while EMD maintained market leadership. American Locomotive Company (Alco) entered with the PA passenger cab unit in 1946, featuring a 2,000-horsepower 244 prime mover and distinctive torpedo nose, powering iconic trains like the New York Central's 20th Century Limited. Fairbanks-Morse introduced the "Erie Built" in 1945, and Baldwin followed with its "Sharknose" DR-6-4-20 in 1945, both vying for passenger and freight markets but producing fewer units due to reliability issues. By the 1950s, cab units peaked in production, with over 10,000 EMD E- and F-series alone, but their decline began in the late 1950s as six-axle hood units like the EMD GP9 offered better visibility, simplicity, and cost efficiency for freight service. Surviving examples today operate on tourist lines or in museums, preserving the era's streamlined legacy.^[11]^[1]

Configurations

A Units

A units, also known as cab units or lead units, are diesel-electric locomotives equipped with a forward-facing control cab containing the engineer's operating station, including throttle, brakes, and instrumentation for directing the train.^[5] These units serve as the primary controlling element in locomotive consists, enabling the crew to manage propulsion, signaling, and safety systems from within the cab, which is typically integrated into a streamlined carbody for aerodynamic efficiency.^[1] Unlike booster units, A units incorporate all essential control mechanisms, making them indispensable for initiating and leading train movements on mainline railroads.^[12] The design of A units emerged in the mid-1930s as railroads transitioned from steam to diesel power, prioritizing aesthetics, reduced air resistance, and crew comfort. Early models featured a full-length hood housing the prime mover—such as the Winton 201-A diesel engine producing 900 horsepower—and a slanted nose for improved visibility and streamlining, often with windswept carbodies painted in vibrant schemes to evoke modernity.^[1] This configuration allowed A units to operate independently or as the lead in multi-unit lashups, where additional units could be controlled remotely via multiple-unit (MU) trainline connections, enhancing flexibility for varying train lengths without redundant cabs.^[13] Electro-Motive Division (EMD), a division of General Motors, pioneered A unit production with public demonstrations in 1937, including the Baltimore & Ohio's EA series for passenger service and the Santa Fe's E1, which powered the Super Chief.^[1] The EMD FT freight demonstrator of 1939 marked a milestone, with 555 A units produced by 1945, proving the reliability of diesel cab units and accelerating their adoption across North American railroads.^[1] Subsequent models like the F3 (1,111 A units built from 1945–1949) and F7 (3,849 total units built from 1949–1953) dominated freight applications, offering horsepower ratings up to 1,500 and robust four-axle or six-axle truck arrangements for heavy hauling.^[14] Competitors like the American Locomotive Company (Alco) introduced the PA series in 1946, a 2,000-horsepower passenger A unit with a distinctive high hood and streamlined profile, built from 1946 to 1953, with electrical equipment from General Electric.^[15] Baldwin Locomotive Works produced the DR-12-8-1500/2 "Centipede" in 1945 (54 units, 1,500 hp), and later Sharknose designs like the DR-6-4-2000 starting in 1948, featuring a bulbous nose for enhanced aerodynamics, though production was limited due to reliability issues.^[16] Fairbanks-Morse contributed the "Erie Built" A units in 1945, with consolidated designs emphasizing durability for both passenger and freight roles.^[1] By the 1950s, A units from these manufacturers formed the backbone of dieselization, with EMD's F-series alone comprising over 7,000 units, fundamentally reshaping rail operations through modular consists that balanced power and control.^[1]

B Units

B units, also known as booster units, are cabless diesel locomotives designed to operate in tandem with cab-equipped A units, providing additional horsepower without duplicating control cabs.^[17] These units lack a crew compartment and are controlled remotely from an adjacent A unit, allowing railroads to assemble multi-unit lashups such as A-B-A or A-B-B-A configurations for enhanced pulling power in freight and passenger service.^[17] By eliminating the cab, B units optimize space for mechanical components, contributing to streamlined designs prevalent in mid-20th-century railroading.^[18] The concept of B units emerged in the late 1930s as part of the transition to diesel power. Electro-Motive Corporation (EMC), later Electro-Motive Diesel (EMD), introduced the first B units with the EA series passenger locomotives in 1937, followed by the freight-oriented FT model in 1939, where A-B-B-A sets demonstrated superior performance during promotional tours.^[17]^[8] Production peaked during World War II and the postwar era, with models like the F3 (1946–1948) yielding 696 B units and the F7 (1949–1953) producing 1,483 B units, enabling railroads to meet growing tonnage demands efficiently.^[17] Early examples included Union Pacific's E2 B units (1937), rated at 1,800 horsepower each and used in A-B-B sets for streamliner passenger trains like the City of Los Angeles.^[18]^[19] Major manufacturers beyond EMD included American Locomotive Company (Alco) with its PB series (1947–1948) and FA booster variants, as well as Baldwin Locomotive Works, which produced limited B units like those paired with DR-6-4-20 models.^[17] Fairbanks-Morse offered B units with its opposed-piston engines, such as the five Erie-built boosters acquired by Union Pacific in 1945–1947 for freight duty.^[17]^[18] Passenger-specific examples encompassed EMD's E3B (two units for Atchison, Topeka and Santa Fe in 1937) and E4 B unit showcased at the 1939 New York World's Fair, featuring transparent sides to reveal its dual 12-567A engines generating 2,000 horsepower.^[17]^[8] Later freight applications included Union Pacific's 25 DD35 B units (1964), which formed 15,000-horsepower A-B-B sets with DD35A cab units for heavy-haul operations.^[18]^[20] B units declined in popularity by the late 1950s due to the rise of versatile road-switcher designs like EMD's GP7 and GP9, which incorporated cabs for independent operation and better suited diverse rail tasks.^[17] Operational drawbacks, including limited visibility for maintenance and challenges in yard handling, further reduced their appeal.^[17] Nonetheless, specialized B units persisted into the 1990s, such as EMD's GP60B for railroads like Santa Fe and Burlington Northern, underscoring their niche role in high-power consists before full obsolescence.^[17]^[18]

Design Features

General Characteristics

Cab unit locomotives are diesel-electric units equipped with an operating cab at one end, designed for mainline freight and passenger service, and typically featuring a streamlined carbody for aerodynamic efficiency.^[21] These locomotives replaced steam engines due to their superior efficiency, lower maintenance requirements, and reduced downtime, enabling railroads to operate with greater reliability and flexibility.^[21] They utilize a diesel engine to power an onboard generator, which supplies electricity to traction motors on the axles, providing high starting tractive effort suitable for heavy loads.^[21] Key operational characteristics include the ability to run in multiple units, often in sets of one to six or more, with control centralized in the lead cab unit for coordinated operation.^[21] Power output varies by model, ranging from 1,350 horsepower in early examples like the Electro-Motive Division (EMD) FT to up to 6,000 horsepower in multi-unit configurations such as F-3 sets, allowing them to handle diverse tasks from high-speed passenger trains to fast freight services.^[21] Many incorporate dynamic braking to improve control on grades and reduce wear on mechanical systems, while some passenger-oriented models include steam generators to heat trailing cars.^[21] In terms of physical design, cab units feature a streamlined carbody housing the prime mover and auxiliary equipment, with the cab seamlessly integrated at the front end to minimize air resistance and enhance visibility for the crew.^[1] They are often paired with cabless "B units" to extend power without duplicating control compartments, optimizing length and weight distribution on the rails.^[21] This modular approach, exemplified by EMD's standardized designs, facilitated widespread adoption by the late 1950s, as railroads like the Lehigh Valley fully transitioned to diesel operations by 1951.^[21] Overall, these locomotives' versatility and robustness transformed railroading, supporting both time-sensitive bridge traffic and heavy-haul demands with minimal en-route adjustments.^[21]

Cowl Units

A cowl unit is a diesel-electric locomotive featuring a full-width, non-structural enclosing bodywork known as a "cowl," which covers the mechanical components and equipment while providing a streamlined appearance reminiscent of earlier cab units. Unlike traditional cab units, where the body contributes to structural strength, the cowl in these locomotives serves primarily as a lightweight cover, with the underframe bearing the load and ensuring structural integrity, akin to hood unit designs. This configuration allows for easier maintenance access and compatibility with standard freight underframes, though it can result in enhanced ground clearance compared to exposed hood styles.^[22]^[23] The design emphasizes aesthetics, minor aerodynamic improvements for better fuel efficiency, and enhanced protection for crew and components from weather and debris, making cowl units suitable for both passenger and freight service. The full-width body reduces wind resistance and offers a more enclosed engine room, but the non-integral cowl simplifies modifications and rebuilds without compromising the locomotive's core frame. Early cowl units typically featured six axles in a C-C truck arrangement for high-traction freight duties, with prime movers like the EMD 20-645 series delivering around 3,500 horsepower.^[23]^[24] Cowl units emerged in the late 1960s as a hybrid solution bridging the gap between outdated cab units and modern hood units, with the Electro-Motive Division (EMD) introducing the FP45 for passenger service and the F45 for freight in 1968 at the behest of the Atchison, Topeka and Santa Fe Railway. Production peaked in the 1980s and early 1990s, largely for Canadian National and Canadian Pacific, yielding models such as the EMD SD40-2F (25 units), SD50F (60 units), and SD60F (64 units), alongside GE's C40-8M (84 units). A total of 339 new freight cowl units were built, plus 38 conversions from passenger models, reflecting their adaptability for heavy-haul operations in North America. By the mid-1990s, the design waned in favor of standard hood units, though some remain in service today, primarily on Canadian Pacific.^[23]^[24]

Applications

Passenger Service

Cab units played a pivotal role in the transition from steam to diesel power for passenger trains in North America during the mid-20th century, offering streamlined aesthetics and reliable performance for high-speed service.^[1] These locomotives featured full-width cabs integrated into aerodynamic car bodies, designed to match the elegance of streamliner passenger cars while providing the necessary head-end power for heating, lighting, and air conditioning.^[25] By the late 1930s, cab units had become the standard for flagship passenger routes, enabling railroads to achieve speeds up to 100 mph and reduce operating costs compared to steam locomotives.^[26] Electro-Motive Division (EMD) dominated the market with its E-series cab units, which were purpose-built for passenger hauling from 1937 to 1964. The inaugural EA model, introduced in 1937 with 1,800 horsepower, powered Baltimore & Ohio's Capitol Limited, marking the first widespread adoption of diesel cab units in premium service.^[25] Subsequent models like the E7 (2,000 hp, 428 A-units built 1945–1949) and E8/E9 (2,250–2,400 hp, over 500 A-units combined from 1949–1964) featured A1A truck designs for smoother high-speed operation and were extensively used on iconic trains such as Union Pacific's City series and Atchison, Topeka & Santa Fe's Super Chief.^[25] These units' slant-nose or "bulldog" styling complemented streamliner consists, and their production exceeded 1,300 units, underscoring their impact on postwar passenger railroading.^[25] ALCO's PA series, produced from 1946 to 1955, offered a stylish alternative with 2,000–2,250 horsepower V-16 engines and distinctive raked windshields for enhanced visibility.^[11] Approximately 250 PA and PB units were built, with the PA-1 model powering Santa Fe's Super Chief and El Capitan starting in 1948, where sets of multiple units hauled consists at sustained speeds over 90 mph.^[11] The design's monocoque frame and A1A-A1A trucks prioritized passenger comfort by minimizing vibration, though reliability issues with the 244-series engine limited long-term adoption compared to EMD offerings.^[11] Fairbanks Morse entered the passenger cab unit market in 1945 with the Erie-Built series, featuring a unique opposed-piston engine delivering 2,000 horsepower in a boat-nosed, streamlined body.^[26] Only 46 passenger variants were produced through 1949, but they served on key routes like the Milwaukee Road's Olympian Hiawatha and Union Pacific's Pony Express, often in A-B-A configurations for balanced power distribution.^[26] Baldwin Locomotive Works contributed with its Sharknose models, such as the DR-6-4-20 (2,000 hp, 1948–1950), which equipped Pennsylvania Railroad and Baltimore & Ohio passenger trains with distinctive rounded cabs that evoked maritime aesthetics.^[27] These units, totaling around 100 for passenger use, emphasized dual-service versatility but saw limited production due to Baldwin's exit from the diesel market by 1956.^[27] As passenger traffic declined in the 1960s, many cab units were reassigned to freight or retired, with Amtrak inheriting fleets like E8s and E9s for interim service until 1980.^[25] Today, preserved examples continue in excursion roles, such as Union Pacific's E9s on promotional trains and restored ALCO PAs on heritage lines like the Delaware & Hudson, preserving the legacy of cab units in passenger rail history.^[11]

Freight Service

Cab units, particularly the EMD F-series, were extensively employed in freight service during the mid-20th century as a transition from steam locomotives to diesel power. These locomotives provided reliable, high-horsepower hauling for mainline freight trains, with the F3 and F7 models becoming staples due to their 1,500 horsepower output and streamlined design that improved aerodynamics and crew comfort.^[1] Railroads valued their multi-unit configurations, such as A-B-B-A sets, which allowed for flexible power distribution while maintaining control from the leading cab unit.^[28] The Union Pacific Railroad was an early adopter, ordering 42 F3 cab units and 30 booster units specifically for freight service in 1947, delivered between May 1947 and February 1948 under EMD order E-818.^[29] These units, initially numbered 1400A-1441A and 1442B-1471B, were regeared for heavier freight duties on the Northwestern District and later upgraded to F7 and F9 specifications in the 1950s, serving in freight until the 1960s.^[29] Similarly, the Atchison, Topeka and Santa Fe Railway deployed 163 FT cab units and 190 boosters from 1940 to 1944 for mainline freight, often in A-B-B-A configurations that complied with post-World War II union rules favoring crew positioning.^[28] By the late 1940s, Santa Fe added 67 F7 sets (202LABC-268LABC) delivered between 1949 and 1951, which handled general freight across routes in Arizona and Texas, with some featuring steam generators for occasional troop train support before full freight dedication.^[28] In freight operations, cab units excelled in long-haul applications where their enclosed cabs protected crews from weather and noise, and their V16-567 diesel engines delivered consistent power for tonnage trains.^[30] For instance, Santa Fe's F7s were renumbered into the 325 class in 1973 for exclusive freight after passenger service ended, operating trains like those carrying agricultural goods from Kern County.^[28] However, their fixed cab-forward design limited versatility for yard switching compared to emerging road-switcher locomotives like the EMD GP7, leading to a phase-out by the 1960s as railroads prioritized visibility and multi-directional operation.^[1] Many were rebuilt into cowl units or scrapped, though a few F-units persisted in secondary freight roles into the 1970s and 1980s.^[29]

Regional Variations

North America

In North American railroading, cab units are diesel-electric locomotives equipped with an integrated driving cab containing crew controls and accommodations, typically positioned at one end to facilitate operation from either direction when paired with boosters. This design contrasted with earlier steam locomotives and later hood-style units, emphasizing streamlined aesthetics and operational efficiency during the mid-20th-century transition from steam power. The concept evolved from early 20th-century experiments, with General Electric producing the first successful internal combustion switcher in 1913 for an electric traction company, followed by commercial box cab units in the 1920s through partnerships involving GE, ALCO, and Ingersoll-Rand.^[2]^[13] By the 1930s, amid the Great Depression and competition from automobiles and trucks, railroads sought modern, streamlined alternatives to steam; Electro-Motive Corporation (EMC), acquired by General Motors in 1930, pioneered visibility cab designs for better crew visibility, as seen in early switchers and the 1934 M-10000 gas-turbine streamliner. The breakthrough came with EMC's 1939 FT demonstrator, a 1,350-horsepower four-unit set that introduced the "bulldog nose" front— a sleek, rounded cab profile crafted from sheet metal for aerodynamic appeal and structural integrity—which became emblematic of first-generation cab units. This led to the mass production of F-units (freight-oriented, 1940s–1950s) and E-units (passenger-oriented, starting with the 1937 EA/EB), both utilizing EMD's two-stroke 567-series engines for high power-to-weight ratios and multiple-unit (MU) control allowing seamless coupling of cab and booster (B-unit) configurations. EMD's La Grange, Illinois, facility dominated production, delivering over 7,600 F-series locomotives that propelled the dieselization of North American railroads, reducing maintenance needs compared to steam by eliminating water stops and coaling.^[2]^[31]^[13] Competitors like American Locomotive Company (ALCO) and Baldwin Locomotive Works contributed distinctive cab unit designs, with ALCO's PA series (1946–1955) featuring A1A-A1A truck arrangements for high-speed passenger service on railroads such as the Delaware & Hudson and Union Pacific, powered by 2,000-horsepower models with streamlined aluminum cowls for reduced drag. Baldwin's DR-series (e.g., DR-6-4-20 "Sharknose," 1945–1948) offered similar passenger cab aesthetics but struggled with reliability, producing fewer than 200 units before exiting the market in 1956. General Electric, initially focused on electrical components, entered full locomotive production later with U-series "U-boats" starting in the 1960s, featuring modular hood configurations with offset cabs that differed from traditional cab unit designs, as seen in models like the U25B (introduced 1965). These cab units revolutionized freight and passenger operations; for instance, Union Pacific acquired a total of 89 F3 cab units and 90 boosters, deploying them across its network for heavy-haul service with EMD 567B engines and dynamic braking.^[11]^[29]^[14] The widespread adoption of cab units accelerated post-World War II, with most Class I railroads fully dieselized by 1960, as diesels proved 20–30% more efficient in fuel and labor than steam. Passenger E-units like the E9 (last built 1964) reached speeds up to 117 mph on lines such as Union Pacific's streamliners, while F-units handled tonnage trains with phased dynamic braking for control on grades. However, by the late 1950s, the rise of four-axle GP-series and six-axle SD-series hood units from EMD and GE—offering better visibility, simpler repairs, and lower costs—marginalized traditional cowl-style cab units, though variants like the EMD FL9 (1956–1960) persisted for electrified territories such as the New Haven Railroad into the 2000s. Today, preserved examples underscore their legacy in museums and excursion services, symbolizing the aesthetic and technological shift that modernized North American rail transport.^[32]^[29]^[31]

Great Britain

In Great Britain, cab units refer to diesel and electric locomotives equipped with driving cabs, typically at both ends to enable bidirectional operation on a network historically reliant on avoiding extensive use of turntables or wyes. This design philosophy emerged prominently during British Railways' (BR) post-war transition from steam, emphasizing versatility for mixed passenger and freight duties on a dense, irregularly laid-out rail system.^[33] The 1955 Modernisation Plan marked a pivotal shift, aiming to electrify key routes while introducing diesel traction to replace steam locomotives, with cab units forming the core of the fleet. Early mainline examples included the LMS-built No. 10000 and its BR counterpart No. 10001, 1,600 hp diesel-electrics completed in 1947–1948, featuring central driving positions, dual cabs with triple windscreens for enhanced visibility, and English Electric 16SVT engines; these prototypes hauled express trains but highlighted reliability issues leading to their withdrawal by 1963.^[34] The plan's pilot scheme ordered 174 locomotives across 10 types between 1955 and 1958 to test designs, most incorporating full-width cabs for crew protection and control.^[35] Key pilot scheme cab units included the English Electric Type 1 (later Class 20), a 1,000 hp single-cab Bo-Bo introduced in 1957 for shunting and trip freight, with a hood-style body and centralized cab over the leading bogie for cost efficiency, though its single-cab layout limited top-end speeds to around 50 mph.^[35] In contrast, the Brush Type 2 (Class 30, later 31) adopted a double-cab A1A-A1A configuration with gangway connections for multiple working, 1,365 hp Mirrlees engines, and three-piece windscreens, entering service in 1957 for secondary passenger routes.^[35] The English Electric Type 4 (Class 40), a 2,000 hp Co-Co double-cab unit from 1958, exemplified high-speed express capability with vacuum brakes and a spacious cab supporting crew of two, hauling flagship services like the Royal Scot until phased out in the 1980s.^[36] Subsequent production emphasized standardized double-cab designs for durability and ergonomics. The Class 37 (English Electric Type 3), built from 1960 to 1965 with 1,750 hp 12CSVT engines, featured a robust full-width cab with central headcode discs (later boxes) for train classification, high-intensity headlights, and improved heating, making it a mainstay for freight and passenger work across BR's network for over 60 years.^[37] Class 25 (Sulzer Type 2), produced from 1961, evolved cab features like recessed doors for safety, larger central windscreens for visibility, and removal of gangway doors in later variants to reduce drafts, powered by 1,250 hp 6LDA28-A engines for versatile medium-duty roles.^[38] Cab evolution focused on safety and efficiency, incorporating asbestos insulation (later removed for health reasons), desk-mounted controls for single-manning, and by the 1970s, orange warning panels and air conditioning in select classes.^[34] These units supported BR's freight revival in the 1960s–1980s, with over 1,200 diesel cab locomotives in service by 1970, though many were privatized or scrapped post-1990s sectorization.^[39] Preservation efforts, such as the Class 37 at the National Railway Museum, underscore their legacy in modern heritage operations.^[37]

References

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Road Numbers, A or B Unit, Bldr Numbers, Bldr Dates, Engine Type. DR44-1500, Baldwin Locomotive Works, 6001A, 6001D, A, 73871, 73984, 6/49, --. BLW (Demo) ...
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May 6, 2025 · The first EMD F-units delivered to the UP, built under EMD's order number E-818, were the 42 cab units and 30 booster units for freight service.
[27]
Mayes F-Units - The Diesel Shop
F-units are four-axle freight haulers with a bull-dog nose, known for economy, reliability, and dependability, powered by a V16-567 diesel engine. Over 7600 ...
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Cab Units: A Work of Art? - Railfan & Railroad Magazine
Sep 15, 2019 · The top was cut to the profile of the nose, then curved to match its arched profile. The front of the nose, meanwhile, was also constructed of ...<|control11|><|separator|>
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EMD "F" Units (Locomotives): Specs, History, Photos
Feb 20, 2025 · The later F series, built primarily for freight service, would become the principal diesel-electric model to spell the end for steam.
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From Steam to Green: The History and Evolution of Locomotives
How passenger and freight rail locomotives have changed throughout history, from steam locomotives like the Big Boy to fuel efficient and battery-electric ...<|control11|><|separator|>
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BRITISH RAILWAYS - Chicago Railfan.com
Traditional locomotives throughout Britain and the rest of Europe, electric and diesel, have cabs at both ends. Many longer distance trains in Britain now have ...
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[PDF] Early Main Line Diesel Locomotives of British Railways
The first example was a purpose-built freight type Bo-Bo No.10800, built by the. North British Locomotive Co. with a Paxman engine and entered service in 1951.
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15 - PILOT SCHEME ... - David Heys steam diesel photo collection
(Below) The graph gives some idea of the different locomotives ordered in the original 1955 Modernisation Plan. After the plan was announced, however, the ...
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History - The Class Forty Preservation Society
This is a brief history of the English Electric Type 4 (British Rail Class 40) locomotive and its origins. It is intended to cover most significant points in ...
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Diesel-electric locomotive, British Railways Type 3 Class 37 No. 6700
The Class 37s were part of this plan to modernise the rail network, and 309 of these locomotives were built between 1959 and 1965. Designed for both passenger ...
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locomotive cab, Class 25 - Derby Sulzers
Sep 1, 2003 · The former method of using four discs was replaced by a four position alpha-numeric display housed in what became known as headcode boxes. This ...
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Exploring Type 1 Locomotives | Avanti West Coast
The single-cab design was unusual for a British locomotive as it looked more like a North American road switcher. Road switchers have a single-driver cab seat ...