>>Ford Royale

Ford Royale

The Ford Royale was a 4-door estate car, manufactured by Ford. The Royale was also available as a 3-door hatchback, as well as a 4-door estate. It was essentially a rebadged Volkswagen Quantum, though it was available in 2-door form, which was a body style not available on the Royale. The vehicle was part of the business ventures of Autolatina by Ford and VW that happened in the early 1990s.

>>Ford Ranger EV

Ford Ranger EV

Ford Ranger EV

Manufacturer	Ford Motor Company
Production	1998–2002 (1,500 produced)
Class	Compact battery electric Pickup truck
Layout	RR layout
Transmission	3:1 single speed reduction integrated with motor and differential

The Ford Ranger EV (Electric Vehicle) is a battery electric vehicle produced by Ford Motor Company. It was produced starting in the 1998 model year through 2002 and is no longer in production. It is built upon a light truck chassis used in the Ford Ranger. A few vehicles with lead-acid batteries were sold, but most units were leased for fleet use. A few persistent and interested private parties were able to obtain leases over a period of three to five years. All leases were terminated in 2003-04, and the vehicles were recalled.

Nickel metal hydride (NiMH) batteries offered

In California and some limited areas outside of California, a NiMH (nickel-metal hydride) battery version was offered, originally exclusively for lease. Some leased Ford Ranger EVs were sold to lessees, however, so there are some Ford Ranger EVs that have been and may be available for purchase as used. The NiMH version delivered a true 65-mile (105 km) range at a steady 65 mph (105 km/h) speed on flat highways (normal operation with some reserve; in comparison the lead-acid version which is said to have a range of up to 65 miles (105 km) with hard tires and careful driving. Actual range of the lead-acid Ford Ranger EV is less). The Ford Ranger EV controller electronics will allow strong acceleration even when in 'E' economy shifter mode. Thus a heavy foot will reduce the EV's range. The above the line cost of this vehicle (before manufacturer discounts and other public agency subsidies) was $52,720.00. Ford Motor Credit supported a generous 3 year lease program that would; along with AQMD (Air Quality Management District) funding and Federal Tax Credits, allow for a RangerEV 3 year lease payment as low as $155. per month. The Lawrence Livermore/Berkeley Labs In Eco-Friendly Northern California signed on for 20 units from Ford Motor Credit with a total lease cost to the Labs of $0. over the 3 year lease term. Thanks to overwhelming financial support from Government funded Clean Cities programs and AQMD Grants, when applied towards an APP (All Payments Paid) version of the RangerEV commercial lease the resulting lease became Paid In Full.

Early life problems

There were numerous problems with the NiMH Ranger associated with an inability to accept a charge in hot environmental conditions, and some other problems requiring replacement of major components, but Ford successfully addressed these problems early in the vehicle's life cycle. There were some range issues around the 25,000-mile (40,200 km) service life with the batteries, and due to the great expense of these batteries, Ford elected not to fix this range problem (as allowed under the lease terms). Some leases were continued despite the shorter range.

Performance

According to the Idaho National Engineering Laboratory Advanced Vehicle Testing 1998 Ford Ranger EV(Lead Acid) and 1999 Ford Ranger NIMH(Nickel Metal Hydride)

Below are some highlights from the nimh document above:

ACCELERATION 0-50 mph
At 100% SOC: 10.3 sec
At 50% SOC: 11.2 sec
Max. Power: 84.13 kW
Performance Goal: 13.5 sec at 50% SOC

MAXIMUM SPEED @ 50% SOC
At 1/4 Mile: 62.1 mph
At 1 Mile: 74.6 mph
Performance Goal: 70 mph in one mile

CONSTANT SPEED RANGE @ 45 mph3,4,5
Range: 115.0 miles
Energy Used: 27.81 kWh
Average Power: 10.94 kW
Efficiency: 242 Wh/mile
Specific Energy: 57.3 Wh/kg

CONSTANT SPEED RANGE @ 60 mph3,4,5
Range: 74.2 miles
Energy Used: 26.83 kWh
Average Power: 21.52 kW
Efficiency: 362 Wh/mile
Specific Energy: 55.3 Wh/kg

DRIVING CYCLE RANGE3,4,5
Range per SAE J1634: 82.4 miles
Energy Used: 25.95 kWh
Average Power: 8.32 kW
Efficiency: 315 Wh/mile
Specific Energy: 53.5 Wh/kg
Performance Goal: 60 miles

External appearance

Charge door in grille distinguishes the EV from the front

The principal identifiers of an electric Ranger are the appearance of the front charging door in a grille location that is open on ICE (Internal Combustion Engine) Rangers, the missing tailpipe, the Hotchkiss drive and the visibility of the EV's unique rear suspension and the traction motor from behind the vehicle. From the side, the vehicle is almost indistinguishable from the ICE Ranger except for a modest script Electric on the side. Only the slight projection of the battery trays below the frame rails is noticeable at a distance. Vehicle height is close to that of four-wheel drive vehicles.

Instruments

Instrument panel

A miles to go indicator to the left of the speedometer is accurate only when the battery system is performing to specification, otherwise it may mislead the driver. A charge indicator at the lower left is in the place of the normal fuel gauge, but with underperforming batteries, cannot be relied upon owing to its tendency to decline from a full charge to about 3/4 and then drop to empty within a mile or two. Above the state of charge is a rate indicator showing energy usage and recovery.

At the upper right an off-run electric gauge will come up to the run position in a few seconds after Start is commanded by a keyswitch turn. This appears to show the pack voltage applied to the main bus upon start-run relay contact closure and the time delay probably reflects the charging of the motor controller's input capacitors. The vehicle's main contacts will not close until the pre-charge is complete.

At the lower right a temperature gauge monitors the liquid coolant temperature.

The usual speedometer and odometer complete the analog portion of the instrument panel.

Various indicator lights are included, one of which indicates that the truck is plugged in for charging. This is interlocked with the start circuit, disabling it if the Avcon paddle is inserted.

Charging

Charging

Charging is through an Avcon conductive connector, provided beneath a hinged door to the right side of the grille. A NiMH pack would take six to eight hours to charge, storing about 30 kW·h, and the charging and discharging is regulated through passive control devices.

Controls

Ford attempted to make the driving and operating experience as similar as possible to that experienced in an ICE vehicle with an automatic transmission. A selector operates similar to that for an automatic transmission with the following positions:

• Park
• Reverse
• Neutral
• Drive
• Economy

The economy position will reduce the maximum speed available, will also reduce the throttle response, and will engage energy recovery, and so is useful for long downgrades and when approaching a stop or for start and stop traffic. Drive is normally used only for freeway use.

A conventional switch arrangement is used to provide key inserted detection at Off, Accessory, Run, and Start.

Other controls are identical to that of the ICE version.

The heating system uses a ceramic core resistance heater. Air conditioning is provided with an electric-motor driven compressor-condenser-evaporator system.

Chassis

The Ford Ranger EV was built upon a Ford Ranger four-wheel drive chassis.

Battery trays

Batteries are contained in one big battery box that is bolted to the underside of the vehicle. It can be removed using specialized shop equipment. Individual batteries are then serviced and replaced from the open top of the module. The battery layout inside the box is not the same for the Lead-Acid and NiMH battery type. The Lead-Acid setup is using 39 x 8V batteries setup on two layers. The NiMH setup is using 25 x 12V batteries on one layer. The Lead-Acid setup has a weight of 2,000 lb (907 kg). As for the NiMH setup, it only weighs 1,050 lb (476 kg).

Battery heating

The lead-acid batteries are sensitive to temperature, losing a substantial portion of capacity in winter conditions. When plugged in for charge the battery temperature is sensed and battery heaters used to maintain temperature sufficient to retain specified range - a necessity for colder climate fleet use, where vehicles are usually parked outdoors. This would suggest that to enhance the economy of use in such climates that the vehicle should be sheltered. NiMH batteries do not have this temperature sensitivity; however, models with NiMH batteries do have a loss in range in cold temperatures, perhaps because of greater rolling resistance in the drive train and tires. NiMH pack consists of 25 Panasonic EV-M95, 12.00 Volt, Nickel-Metal Hydride batteries. NiMH pack voltage range Empty 280Vdc - Full 350Vdc.

Battery cooling

The ability to charge NiMH batteries is limited by heat gain, so these batteries are air-cooled by two fans. The first fan is circulating the air around the batteries. The second fan is exchanging the air inside the battery box.

Front suspension

Dual A arm with coil springs and shock absorbers (same as Ranger 2WD)

Rear suspension

The rear suspension consists of a De Dion tube that located the wheels and which was sprung by the usual longitudinal leaf springs. As the first year production (1998) used lightweight carbon fiber leaf springs, which were insufficiently resistant to transversely locate the DeDion tube, these early versions also contained a Watt's linkage. Later versions used conventional steel leaf springs and did not require the additional linkage.

In the 1998 model, carbon fiber leaf springs support a DeDion tube located by a Watt's linkage, motor/transmission is attached to chassis. Later versions have similar appearance but without the linkage

Driveline

Siemens AC induction motor

The rear wheels are powered by a six pole alternating current motor operating through a (single speed) three to one reduction transmission and differential. The motor can produce 60 hp (45 kW) and can operate at a maximum speed of 13,000 rpm. The motor, transmission, and differential are contained in a single unit mounted high between the frame rails, transversely between the rear wheels. Half shafts angle downward to drive the wheels.

Tires and wheels

All wheels including the spare are made of cast aluminum. Tires are low rolling resistance, similar to what would be found on a full-size sedan, rather than on a truck. 1998 and 1999 wheels were of the same, simple design. Later models had wheels of a large 'spoke' design.

Component layout

Under the hood

The front underhood compartment contains the charger, an electric air conditioner, the power steering mechanism, the power brake unit (otherwise conventional), a radiator for the air conditioner, and a vacuum pump and reservoir for the power brakes and a reservoir for the windshield washer. Charger and battery liquid cooling service is performed here but is not an owner-operator service item.

Power controller under bed at rear

To the rear of the rear axle (the usual location for the spare tire) is the AC motor controller. The spare tire could be carried at a station within the truck bed. The spare tire is poorly located within the bed relative to its inefficient use of bed space. Many operators simply did not carry the spare.

Bed cover

In the interest of improved aerodynamics the bed is covered by a snap on cover supported by aluminum bows. Snap receivers slide within aluminum channels. A rear bow allows the tailgate to be opened without removing the cover. The cover can be quite difficult to re-snap under cold conditions due to shrinkage and stiffness of the vinyl material. As the bed was a carryover from the standard Ford Ranger body, some owners opted for after-market tonneau covers, such as hard fiberglass or roll-top.

Charger, battery, and motor controller thermal management

The power electronics such as the motor, motor controller, AC motor controller, and high voltage DCDC converter are liquid-cooled. The batteries and battery charger are air-cooled.

Energy recovery

Cab view

On a very long downhill run one could obtain a noticeably higher state of charge than at the top (3,000 ft (910 m) elevation difference), so the energy recovery was demonstrably effective.

Economy

Power consumption for light duty suburban use is around 500 watt-hours per mile, both by the EPA figures for early models and by some owners' experience.

Controversy and lottery

It was expected that Ford, like other companies, would completely destroy almost all remaining stocks by crushing, as has been done by several other major vehicle manufacturers. This plan engendered considerable resistances from electric vehicle fans, with the adverse publicity prompting a change in Ford's policy. This change of policy appears to have also influenced Toyota not to destroy all of its leased RAV-4 electrics. Also a persistent few of Ford's lease return resistors (some of whom were actually allowed to buy the vehicle under terms of their lease arrangements by the dealer's use of a non-specific lease form) were allowed to purchase their vehicles for one dollar. While most of the 1,500 vehicles produced have been destroyed, a number of Ranger EVs have been parted out for spares and the remaining several hundred units have been refurbished (using selected used and new old stock batteries) and other salvage components (both with lead-acid and NiMH batteries) by a third party company (Blue Sky Motors of Sacramento, California).

Some former NiMH Ranger operators have expressed surprise that any vehicles are being released with NiMH due to the extremely high cost of replacement of cells and packs, while others have pointed out that some NiMH vehicles have run for over 125,000 miles (201,000 km) on their original battery packs. It is not yet clear what would need to be changed within the vehicle to use other batteries such as PbA or NiCad.

Future

Ford has announced no plans to resume production of this model.

Availability Nordic countries

Several Ford Ranger EV's were "rescued" in 2008 and transported to Norway, where a company named Elbil Import sells them to end users.

>>Ford Ranger (T6)

Ford Ranger (T6)

2011 Ford T6 Ranger at the Australian International Motor Show 2010
Also called	Mazda BT-50
Production	2011-present
Assembly	Rayong, Thailand (AutoAlliance) Silverton, South Africa Buenos Aires, Argentina
Predecessor	Ford Ranger (Argentina) Ford Ranger (Mazda BT-50)
Class	mid-size pickup
Body style	2-door single cab 2-door open cab 4-door double cab/crew cab
Layout	front engine, rear wheel drive front engine, four-wheel drive
Engine	2.5L Duratec 25  I4 petrol 2.2L Duratorq  I4 diesel 3.2L Duratorq  I5 diesel
Transmission	5-speed manual 6-speed manual 6-speed automatic
Wheelbase	3,226 mm (127.0 in)
Length	5,359 mm (211.0 in)
Width	1,849 mm (72.8 in)

The Ford Ranger, code named T6, was unveiled at the Australian International Motor Show in Sydney. The T6 replaces two regional Ranger platforms: the Mazda BT-50-derived model sold in the Latin America, Europe, and Asia-Pacific regions and the North American model sold in select Latin American markets.

Although the T6 Ranger will be offered in 180 markets globally, it is not currently planned to be sold in North America, due to the new platform being too close in size and cost to the F-150, and due to overall declining sales of compact pickups in North America. Ford initially planned a mid-size truck based on a modified F-150 chassis for the North American market named the F-100; however, this was shelved in favour of offering the 3.5L EcoBoost V6 engine on the F-150. Additionally, American and Canadian safety and emissions standards as well as the long-standing 25% import tariff imposed on non-American built light trucks prevent the T6 Ranger from being imported into North America. Safety and emissions standards in ECE-compliant nations, the need for right-hand drive in certain international markets, and possible import tariffs prevent the F-150 from being exported out of North America.

Production is expected to commence in Summer 2011, starting with Thailand's Rayong plant with production in South Africa and Argentina to follow. Additionally, Mazda will build a badge engineered version of the T6 as the second generation BT-50, making it the second Ford-based pickup for Mazda, the first being the North American Ranger-based B-Series sold from 1994 to 2010.

Engines & Transmissions

The new Ranger will be available in 4x2 and 4x4 with three engines:

• 2.5L Duratec petrol engine (122 kW & 226Nm) mated with 5-speed manual transmission
• 2.2L Duratorq TDCi ("PUMA" ZSD-424) diesel engine (88 kW & 285Nm; 92 kW & 330Nm or 110 kW & 375Nm) consumes as little as 7.6 L/100 km (37.2 mpg) with choices of 6-speed manual or automatic transmission
• 3.2L Duratorq TDCi ("PUMA") diesel engine (147 kW & 470 Nm) at 8.4 L/100 km (33.6mpg) with choices of 6-speed manual or automatic transmission
• double cab; cargo capacity of 1.21 cubic metres
• open cab/rear access panel; cargo capacity of 1.82 cubic metres
• single cab; cargo capacity of 1.82 cubic metres

Features

Main features includes:

1. Water wading tolerance of 800mm (600mm for standard 2WD models)
2. Electronic Stability Program (ESP) that gives greater control and safety, on-road and off, with features like Trailer Sway Control, Hill Launch Assist, Hill Descent Control, Roll Over Mitigation, Limited Slip Differential and Adaptive Load Traction Control
3. 20 built-in storage spaces, glovebox, and a handy 12V power point in the centre console
4. Dual zone climate control, centre console that becomes a mini cooler, power adjustable seats, an on-board computer, SatNav, cruise control and audio controls on the steering wheel.
5. Rear Park Assist sensors and Rear-View Camera
6. Satellite Navigation and Cruise Control, Voice control and Bluetooth audio streaming, USB and iPod connectivity
7. Curtain airbags, side airbags, driver knee airbag (in European models) and dual front airbags
8. For stopping power there's Emergency Brake Assist, ABS and Electronic Brake-force Distribution are complemented by Gravel Road Logic. The new Ranger features 302x32mm rotors up front clamped by twin-piston calipers. Two-wheel-drive vehicles use a 270x55mm rear drum, while the Hi-Rider and 4x4 vehicles use a 295x55mm rear drum
9. Towing capacity ranging up to 3500 kg
10. Models with the 2.2-litre diesel have a payload capacity of up to 1333 kg
11. 80-litre fuel tank

In Thailand, specifications are same as on top, but some equipment are deleted to keep pricing low, specifications levels are XLT and Wildtrak in both extended cab and double cab body, with 2.2-liter or 3.2-liter diesel, standard features are :

1. ABS, driver and front passenger airbags, Immobilizer are standard
2. Audio system with CD player and colour display
3. Power windows, air conditioner, power adjustable mirrors
4. Automatic headlamps and rain sensing wipers

In Wildtrak added :

1. Off-road style decoration package (Roof rails, bed liner, etc.)
2. Audio steering wheel control, Bluetooth connectivity and voice command system
3. Cruise control
4. Driver power seat, Dual-zone climate control, center front console box cooler, Alarm system, Side and curtain airbags and Electric stability programme (ESP), Traction control, Hill launch assist and hill descent control (in 3.2-liter diesel models)

Total sales of T6 Rangers in Thailand until June 2012 are over 25,000 units , take Ford sales number high every month after market launch in late 2011.

Size & power comparison

This chart compares the size of the T6 Ranger to the previous Mazda BT-50-based Ranger and other competitors as well as the North American Ranger, the F-150, and the Explorer Sport Trac.

Model	Wheelbase	Overall Length	Width	Engine	Power	Torque	Fuel Economy
Global Models
2011 Ranger XLT 4x4 Crew Cab (T6)	3,226 mm (127.0 in)	5,359 mm (211.0 in)	1,849 mm (72.8 in)	3.2 L I5 Duratorq diesel	150.0 kW (201 hp)	470.0 N·m (347 lb·ft)	8.5 L/100 km (28 mpg-US)
2011 Ranger XLT 4x4 Crew Cab (Mazda BT-50-based)	3,000 mm (118.1 in)	5,179 mm (203.9 in)	1,788 mm (70.4 in)	3.0 L I4 Mazda WEC diesel	115.0 kW (154 hp)	380.0 N·m (280 lb·ft)	9.5 L/100 km (25 mpg-US)
2010 VW Amarok 4motion Double Cab	3,095 mm (121.9 in)	5,254 mm (206.9 in)	1,834 mm (72.2 in)	2.0 BiTDI (CR) DPF I4 16V	120.0 kW (161 hp)	400.0 N·m (295 lb·ft)	8.1 L/100 km (29 mpg-US)
2012 Chevrolet Colorado/S10	3,096 mm (121.9 in)	5,367 mm (211.3 in)	1,785 mm (70.3 in)	2.8 L CTDI (TD) I4	134.0 kW (180 hp)	470.0 N·m (347 lb·ft)	9.1 L/100 km (26 mpg-US)
2011 Nissan Navara D40	3,198 mm (125.9 in)	5,220 mm (205.5 in)	1,849 mm (72.8 in)	2.5 YD25DDTi High Power	140.0 kW (188 hp)	450.0 N·m (332 lb·ft)	10.2 L/100 km (23 mpg-US)
North American Models
2011 F-150 FX4 4x4 Crew Cab	3,683 mm (145.0 in)	5,890 mm (231.9 in)	2,012 mm (79.2 in)	5.0 L V8 Coyote petrol	268.5 kW (360 hp)	515.2 N·m (380 lb·ft)	14.7 L/100 km (16 mpg-US)
2011 Ranger Sport 4x4 Extended Cab	3,198 mm (125.9 in)	5,171 mm (203.6 in)	1,763 mm (69.4 in)	4.0 L V6 Cologne petrol	154.4 kW (207 hp)	322.7 N·m (238 lb·ft)	12.8 L/100 km (18 mpg-US)
2010 Explorer Sport Trac XLT 4x4	3,315 mm (130.5 in)	5,339 mm (210.2 in)	1,872 mm (73.7 in)	4.0 L V6 Cologne petrol	156.6 kW (210 hp)	344.4 N·m (254 lb·ft)	14.7 L/100 km (16 mpg-US)

Safety

The safety of all-new Ford Ranger are better than other competitors in Europe, the latest Euro NCAP results are better than luxury cars and passenger cars (Audi Q3, BMW 1 series, Toyota Yaris, etc.), with 96% points of adult safety, archived 5 stars for the first time of Euro NCAP crash tests for pickup trucks.

>>Ford Ranger (North America)

Ford Ranger (North America)

Ford Ranger (North American)

Manufacturer	Ford Motor Company
Model years	1983–2012
Predecessor	Ford Courier
Class	Compact pickup truck
Layout	Front-engine, rear- / four-wheel drive

The Ford Ranger is a pickup truck manufactured and marketed by Ford Motor Company for the North American, Chilean, Argentinian, and Brazilian markets for model years 1983 to 2012. The "Ranger" nameplate had previously applied to a premium styling package on the F-Series full-sized pickup trucks, beginning in 1965. In 1983, the Ranger was introduced as the replacement for the Ford Courier, abadge-engineered version of the Mazda B-Series, in a segment largely defined by the pickup trucks from Datsun and Toyota. From 1987 to 2004, the Ranger was the best-selling compact pickup in America.

Rebadged variants of the second-generation Ranger were marketed by Mazda as theB-Series with Mazda using the engine displacement in their model designation; the B2500 had a 2.5 L I4 engine and the B4000 has a 4.0 L V6. For 2002, the B-Series was renamed to simply Mazda Truck in the United States.

The Ranger and Mazda B-Series were manufactured at Ford's Twin Cities Assembly Plant in St. Paul, Minnesota, at Louisville Assembly Plant in Louisville, Kentucky until 1999 and Edison Assembly in Edison, New Jersey until the plant's closing in 2004.

Declining sales of the compact truck segment as a whole and the closure of the Twin Cities Assembly Plant led to the cancellation of the Ranger after the 2011 model year; a small run of 2012 models were produced exclusively for the fleet market.

First generation

First generation

Production	January 1982–1992
Assembly	Louisville, Kentucky, United States St. Paul, Minnesota, United States
Engine	Inline-4 engines V6 engines Diesel engines
Transmission	Manual transmissions Automatic transmissions
Wheelbase	107.9 in (2,741 mm) 113.9 in (2,893 mm) 125 in (3,175.0 mm)
Length	Standard bed 1983-1988:175.6 in (4,460 mm) 1989-1992:176.5 in (4,483 mm) SuperCab 1983-1988:187.6 in (4,765 mm) 1989-1992:188.5 in (4,788 mm) Long bed 1983-1988:192.7 in (4,895 mm) 1989-1992:193.6 in (4,917 mm)
Width	1983-1988: 66.9 in (1,699 mm) 1989-1992: 66.8 in (1,697 mm)
Related	Ford Bronco II Ford Explorer Mazda Navajo

1983–1988

Ford began development of the Ranger in 1976, focusing on quality and fuel efficiency. The intent was to build a truck that was as capable as the full-size F-Series, but in a more economical package. The compact Ranger had a similar styling to the full-size Ford F-Series, used a similar architecture, and was offered with a four-wheel drive capability. This ability allowed the Ford Ranger to haul a four-foot-wide (1.2 m) sheet of plywood, which is a common standard for a pickup truck. In the compact Ranger, however, the space between the wheel wells was less than four feet; Ford designed the box with provisions to allow hauling of a standard sheet of plywood.

1983 Ranger production began January 18, 1982 at the Louisville Assembly Plant,hitting showrooms in March.Available engines were the 72 hp (54 kW) 2.0 L and 86 hp (64 kW) 2.3 L OHC four-cylinders, a four-cylinder 59 hp (44 kW) 2.2 L Mazda/Perkins diesel, and a 115 hp (86 kW) 2.8 L Cologne V6. In 1985, a Mitsubishi-built 2.3 L turbodiesel with 86 hp (64 kW) replaced the Mazda diesel engine, and in 1986, the 2.8 L engine was replaced with a 140 hp (104 kW) 2.9 L Cologne V6. The Super-cab was introduced in 1986, offering an extra 17 inches (432 mm) of storage space behind the front seats, with a pair of jump seats available as an option. A lot of the parts of the interior such as the steering wheel and the window cranks were similar to those in other Ford vehicles like the Bronco, Escort, and the F-Series.

Mid-year 1986 saw the introduction of the Ranger GT. Available only as a standard cab with a short bed, it had a 2.9 L Cologne V6 with either a 5-speed Toyo Kogyo manual transmission or an optional A4LD automatic transmission putting power to a Traction-Lok differential with a 3.73 gear ratio. Inside, the pickup was equipped with special bucket seats, full instrument cluster, and an optional center console. Front and rear sway bars were installed, and 14x6 aluminum wheels completed the package. A long bed option was added for 1987, and a new ground effects package was introduced in 1988.

1989–1992

The truck received a facelift for 1989, which included flush composite headlamps, new front fenders, hood, and grille, along with some upgrades to the frame. Inside, there was a modern new dashboard and steering column.

1989 Ford Ranger

The new steering column included, on automatic transmission-equipped models, a column-mounted gear shift, and key removal on manual transmission models became a simpler, one-handed operation. Manual-equipped 1983–88 models had the key release button beneath the column on the left-hand side, requiring drivers to use both hands to remove the key.

Rear-wheel antilock brakes were added, and a 21 US gal (79 L; 17 imp gal) fuel tank was now optional on extended-cab models.

The 2.0 L engine was discontinued, and the 2.3 L now had a distributorless ignition system with two spark plugs per cylinder, giving it a 14 hp (10 kW) boost and better fuel economy.The three-speed automatics were dropped, leaving only the A4LD. The new 160 hp (119 kW) 4.0 L Cologne V6 was added to the option list for all models in 1990. It was introduced to replace the 2.9 L Cologne in rear-wheel drive and 4x4 trucks. With the new engines, the only manual transmission available was the 5-speed M5OD-R1.

The Ranger GT was discontinued, although the Ford Truck Public Affairs office did build a prototype for 1990 powered by a 3.0 L SHO V6.

Second generation

1993–1997

1993–1997

Also called	Mazda B-Series
Production	1993–1997
Assembly	Louisville, Kentucky, United States St. Paul, Minnesota, United States Edison, New Jersey, United States General Pacheco, Argentina
Body style	2-door compact 2-door extended
Engine	2.3 L OHC  I4 3.0 L Vulcan  V6 4.0 L Cologne  V6
Transmission	Manual 5-speed Mazda M5OD-R1 Automatic 4-speed A4LD 4-speed 4R44E 4-speed 4R55E 5-speed 5R55E
Wheelbase	107.9 in (2,741 mm) 113.9 in (2,893 mm) 125.2 in (3,180 mm)
Length	184.3 in (4,681 mm) 196.3 in (4,986 mm) 198.2 in (5,034 mm)
Width	69.4 in (1,763 mm)
Related	Ford Explorer Mazda Navajo Mercury Mountaineer

The 1993 facelift featured mild restyling, flush-mounted door glass, wider doors, and slight fender flares. The 1989-style dashboard remained, but the seats and door panels were new. The 2.9-liter engine was discontinued. The engines offered were offered in displacements of 2.3-, 3.0- and a 4.0 liters. The Mazda M5OD-R1 was now the sole manual transmission option. A new "Splash" model was introduced, which had a flare side bed, unique chrome wheels, 1 inch (25 mm) lowered rear suspension and a 2 inch lowered front suspension (on 4x2 models), and special vinyl "Splash" decals on the sides and the tailgate.

The 1993 Splash trim level was offered with regular cab in arctic white, gloss black, red orange, and sky blue. The Mazda B-Series became a rebadged Ranger for the 1994 model year, but the Mazda B-Series did not offer an equivalent to the Splash model. While 1993 Rangers used R-12 Freon, 1994 saw the transition to CFC-free air-conditioning systems in compliance with the Clean Air Act. For the 1994 model year, the Splash trim had options which all included; a 1 in (25 mm) lowered rear suspension and 2 inch lowered front suspension (on 4x2 models), flare side bed, an extended cab, and unique chrome wheels. The decals also underwent subtle changes. While the 1993–1994 models carried red, yellow and blue stripes, the 1995–1996 models had lime green stripes. Additionally, the available colors for the Splash model changed from the 1993–1994 models to the 1995–1997 models. The latter were offered in Maroon Red, Gloss black, White, and Canary Yellow.

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  Ford Ranger dash panel
 
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  Ford Ranger jump seat closed
 
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  Ford Ranger jump seat open

1995 included a steering wheel modified to include a driver's side airbag and a redesigned dashboard which included a double DIN radio head unit and a standard passenger airbag with a key-operated cutoff switch that allowed the airbag to be turned off for smaller passengers riding in the front seat. The A4LD transmission was updated. 2.3 L and 3.0 L models got the 4R44E, while 4.0 L trucks got the 4R55E. The front brakes were changed to use the same 2-piston brake calipers as the second-generation Explorer, and four-wheel anti-lock brakes were added as standard on 4x4 and 4.0 L models.

1997 brought in the first ever 5 speed automatic transmission to be used by an American manufacturer. The 4.0L models were equipped with the 5r55E, while the 3.0L was still mated to the 4r44E.

Mazda B-Series

Mazda B2300 extended cab (US)

For 1994, the third-generation Mazda B-Series was introduced. While the company continued to manufacture its own trucks in Japan and internationally, the North American version of the B-Series was now a badge-engineered version of the Ranger. The new B3000 and B4000boasted Ford V6 engines, and the M5OD-R1 manual transmission returning to the options sheet. Extended cab models were available, as was four-wheel drive; Mazda made the B-Series available in two trim lines, LE and SE. The 3.0 L B3000 was dropped for 1997.

Engine options:

• B2300
  • 1994 – 2.3 L (2311 cc) OHC  I4, 98 hp (73 kW)
  • 1995–1997 – 2.3 L (2311 cc) OHC  I4, 112 hp (84 kW)
• B3000
  • 1994 – 3.0 L (2983 cc) Vulcan V6, 140 hp (104 kW)
  • 1995–1996 – 3.0 L (2983 cc) Vulcan V6, 145 hp (108 kW)
• B4000
  • 1994–1997 – 4.0 L (4016 cc) Cologne V6, 160 hp (119 kW)

South America

In 1995 Ford began exports of the Ranger from the United States to Argentina; initial exports started with two-door SuperCab equipped with the 4.0-liter gasoline Cologne V6. As demand increased, Ford made the decision to produce it locally in Buenos Aires, Argentina at the Ford General Pacheco Assembly Plant for the local market and subsequently for the rest of Latin America.The first Rangers produced at General Pacheco were built in 1996 with a single cab, gasoline engine version. By November 1997, supply was increased with both diesel and gasoline engines, two-wheel and four-wheel drive and different levels of equipment.

1998–2012

1998–2012

Also called	Mazda B-Series
Production	1998–2012
Assembly	St. Paul, Minnesota, United States Edison, New Jersey, United States General Pacheco, Argentina
Body style	2-door compact 2-door extended (1998) 2+2-door extended (1999-2011) 4-door crew cab (South America)
Engine	2.3 L Duratec I4 2.5 L OHC  I4 3.0 L Vulcan  V6 (1998–08) 4.0 L Cologne  V6 4.0 L 4.0 SOHC  V6
Transmission	Manual 5-speed Mazda M5OD-R1 Automatic 4-speed 4R44E 5-speed 5R55E
Wheelbase	111.6 in (2,835 mm) 117.6 in (2,987 mm) 125.9 in (3,198 mm)
Length	188.5 in (4,788 mm) 200.5 in (5,093 mm) 202.9 in (5,154 mm)
Width	70.3 in (1,786 mm)
Height	68.3 in (1,735 mm) 69.4 in (1,763 mm)
Related	Ford Explorer Mercury Mountaineer

In 1998 the Ranger got another redesign, giving it a longer wheelbase and a three-inch (76 mm) longer cab for the regular cab models (part of which provided more room in the interior. The 1995–97 interior look was retained. The twin I-beam front suspension was replaced by the wishbone-style system found on the Explorer and the front half of the frame was of "boxed", rather than C-channel construction. Rack and pinion steering was also added. The four-cylinder engine was bumped up to a 2.5 L SOHC I4 giving it a 6% increase in power over the old 2.3 L. It put out 120 hp (89 kW) and 149 lb·ft (202 N·m) of torque. Also, for the 2000 model year, amber rear turn signals were discontinued. 4x4 models were equipped with a PVH lockout system for the front axles. This system has proven to be rather unreliable and was changed to a live axle setup in 2001.

The 2.5L engine was replaced by a new DOHC 2.3 L Duratec I4 in mid-2001. 2001 also saw the pushrod 4.0 L V6 replaced by the SOHC version from the Explorer, bringing with it a beefier M5OD-R1HD manual transmission. Also in 2001, the five-speed automatic transmission that was introduced in 1997 for the 4.0 V6, was now also available with the 2.3 I4 and 3.0 V6. The Ranger received a facelift, including a new grille, hood, and front bumper, as well as updated headlights and taillights. SLP produced a version of the Ranger called "thunderbolt". This model included different options such as a unique front and rear bumper, air intake, exhaust and even a spoiler.

In 2004 the Ranger received minor updates to the grille, hood, and front bumper. New front bucket seats were also added in 2004 to meet the new U.S. Federal safety requirements. It retained the dash lines of the previous years trucks with an instrument cluster change. In 2006 the Ranger received more minor updates to the grille, front turn signals and taillights, along with a bigger rear Ford logo that was now centered in the middle of the tailgate. It also received new larger mirrors similar to those found on other Ford trucks and SUV's.

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  Ford Ranger double cab (South America)
 
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  2001–2003 Ford Ranger extended cab
 
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  2004–2005 Ford Ranger extended cab
 
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  2006–2012 Ford Ranger regular cab

The latest Ranger offered a 143 hp (107 kW) 2.3-liter I4 and a 207 hp (154 kW) 4.0-liter V6. The 3.0 Vulcan V6 was discontinued as of the 2009 model year. The FX4 Level II version comes with a special 31-spline 8.8-inch (223.5 mm) rear axle equipped with a Zexel-Torsen limited-slip differential, three skid plates, upgraded tow hooks, 31" BFGoodrich All Terrains, 15-inch Alcoa wheels, and Bilstein shocks. Inside, the Level II package added leather front bucket seats and rubber floors along with a six-CD MP3 headunit as standard options. Ford uses code "R10" through "R19" in the 5th, 6th, and 7th VIN positions for all Ranger's. R10, R14, and R18 are ALL 2wheel drive; regular cab, 2-door SuperCab, and 4-door SuperCab respectively. R11, R15, and R19 are ALL 4wheel drive; regular cab, 2-door SuperCab, 4-door SuperCab respectively.

In December 2009, Ford announced that specially-designed custom graphics would be applied to the Ranger beginning with the 2010 models. The feature will be exclusive to Ford Dealers and will allow customers to pick a design that they want customized for their Ranger trims.

As of 2010 in the US, the Ranger is no longer offered with the FX4 trim level. The FX4 is still available in Canada; however, it is a $2500 option on top of the Sport trim level. The FX4 package cannot be applied to an XLT. The FX4 for the 2010–2011 model years in Canada come with a 4.10 limited slip rear end.

For the 2011 model year, the level trims have adjusted. The XL trim will be the standard level, followed by the XLT and Sport trims. The latter two will include Sirius radio as a optional feature.

The Ford Ranger was the first small pickup to introduce dual air bags as safety features.It received an "acceptable" frontal crash test rating from the Insurance Institute for Highway Safety when they were first tested in 1998, while many of its competitors received "marginal" or "poor" ratings at that time. The exception was the Toyota Tacoma, which also got an "acceptable" rating.

The 2010 model year brought the addition of front seat combination head and torso airbags to improve passenger safety in a side-impact collision and earned Good rating through the Insurance Institute for Highway Safety's Side Impact Test. Also Electronic Stability Control was added for the 2010 Models as Standard Equipment.

In the Roof Strength Test conducted by Insurance Institute for Highway Safety, the Ford Ranger earned an Acceptable rating.

Electric Ranger

Ranger EV, front 3/4 view

The Ford Ranger EV was a battery electric vehicle produced by Ford Motor Company; it was produced from 1998 to 2002. The chassis of the four-wheel drive model was used, but the Ranger EV was strictly a rear-wheel drive vehicle. Unlike other versions, the EV was designed with an independent rear suspension (with de Dion tube). 1998 models employed lead-acid batteries while subsequent models used Nickel metal hydride (NiMH) batteries.

The Ranger EV is largely indistinguishable from a standard Ranger except for its grille. On EV models, a door for a charging port is located on the right third of the grille.

Mazda B-Series

1998–2001 Mazda B4000 extended cab (North America)

2002-2009 Mazda B3000 regular cab (US)

North America saw a redesigned B-Series again for 1998, with a larger base engine. A five-speed automatic transmission was available.The 1999 B-Series added four doors, a first in the extended-cab pickup truck market. In 2001 a more powerful SOHC version of the 4.0 L V6 replaced the old OHV engine, while Ford's Duratec engine replaced the ancient Lima engine in four-cylinder models the following year. 2007 was the last year for 3.0 L B-Series trucks. For 2009, the B4000 Cab Plus SE model was discontinued in the United States market. The full B-Series lineup was discontinued, in the United States, at the end of the 2009 model year, while the Ford Ranger remains in production. The B-Series was sold in the Canadian market for one more model year.

Engine options:

• B2500
  • 1998– early 2001 – 2.5 L (2507 cc) OHC  I4, 119 hp (89 kW)
• B2300
  • late 2001–2010 – 2.3 L (2300 cc) Duratec  I4, 143 hp (107 kW)
• B3000
  • 1998–2002 – 3.0 L (2957 cc) Vulcan  V6, 145 hp (108 kW)
  • 2003–2008 – 3.0 L (2957 cc) Vulcan V6, 154 hp (115 kW)
• B4000
  • 1998–2000 – 4.0 L (4025 cc) Cologne  V6, 160 hp (119 kW)
  • 2001–2010 – 4.0 L (4025 cc) Cologne V6, 207 hp (154 kW)

South America

South American 2004-2009 Ranger Double Cab

South American 2010–present Ford Ranger

After two years of local production of the 1995 updated model in Argentina, Ford introduced the same version of the newly updated 1998 Ranger. Along with the single cab (the North American SuperCab), South America received an exclusive double cab body variant.The crew cab was not sold in North America, as it was essentially similar to the Ford Explorer Sport Trac undergoing development.

There was a choice of two powerplant options including a 3.0-liter turbocharged four-cylinder diesel with 163 horsepower and 280 lb-ft of torque mated to a Eaton FSO-2405-A five-speed manual transmission.

In 2007 Ford invested US$156.5 million in its facility in General Pacheco, Argentina. For 2008, the Ranger received a makeover with a grill and headlights similar to the 2006 North American version; bed extenders became available for all boxes.The 2010 Ranger was updated further with new sheet metal giving it a more aggressive stance; it also received its own version of the corporate three-bar grille completely different from its North American counterpart. Other changes included redesigned outer door skins with pull-out door handles and wider wheel arches, though the 2008 interior was retained as well as the two engine choices.

The other Ford Ranger available for the rest of the Latin American market is a badge-engineered version of the Mazda B-Series (to 2006) and the BT-50 (2006–2011) being assembled in Colombia and Ecuador (in CKD form). As the Ford designed Ranger became the basis of the first-generation Explorer, the Mazda designed Ranger is the basis of a body-on-frame SUV named the Ford Everest sold in markets outside of North America and Europe.

The version of the Ford Ranger produced in Argentina for the markets of Brazil,Chile, and Mexico will continue to be manufactured and in 2010 it was modified and updated starting on the original second generation model of North America with a restyling giving it a more aggressive stance and is distinguished by its new corporate three-bar front grille, although the appearance of 2008-10 interior remained as the two engine options.

In 2010 Ford also introduced a new optional engine to run exclusively on compressed natural gas, which makes it the first pick up to offer a factory-built natural gas vehicle (NGV) commercially available in Argentina and Brazil.

After 2012, the Ranger T6 designed by Ford of Australia will be produced in Argentina, it will replace both the North American and Mazda-based versions.

2010 Ford Ranger (Argentina) Wheelbases and bed lengths:

• 2010–present – 111.5 inches (2,831 mm) – 6 ft. bed (1,732mm) Single Cab
• 2010–present – 117.6 inches (2,987 mm) – 7 ft. bed (2,129mm) Single Cab
• 2010–present – 125.7 inches (3,192 mm) – 5 ft. bed (1,467mm) Double Cab

Engines:

Engine	Years	Power	Torque
2.3 L Duratec HE Gasoline I4	2004–present	148 hp (110 kW)	159 lb·ft (216 N·m)
3.0 L Power Stroke Diesel I4	2004–present	163 hp (122 kW)	280 lb·ft (380 N·m)

Discontinuation in North America

It was reported in 2005 that an all-new Ranger, codenamed P273, was in the works to be introduced by 2010. The P273 was slated to be a world pickup, presumably to be merged with the Mazda world pickups. A 2007 Ranger for the Thai market based on the Asian 4Trac concept was unveiled; in the end, it did not replace the North American truck. There are rumors that Ford's future product plans in the compact pickup market segment will be announced after seeing how well the redesigned 2013 Chevrolet Colorado fares in the North American market. Ford chose to invest improvements in the Ford Explorer SUV which was branched to a more advanced platform than the Ranger, letting Ranger's sales decline.

The next-generation global Ranger, codenamed T6, already at an advanced stage of development by Ford Australia, would be sold in North America despite being designed for global markets outside of North America. The T6 Ranger entered production in 2011.

As of May 2010, T6 engineering prototypes are being tested in various countries including the U.S.It is expected that the new truck will come with at least two engine choices: a 2.0 L EcoBoost four-cylinder, and the 3.0 L Duratorq diesel for models sold outside the U.S.

In recent years, Ranger's competitors, from the Nissan Frontier to the Toyota Tacoma have been redesigned and enlarged towards the mid-size market, leaving the Ranger the only truck in the US compact market segment. The Ranger remains a decent seller for Ford,with fleet customers buying them regularly as well as those individuals seeking good fuel mileage in a compact truck (Ranger gets better MPG than any other pickup with its Mazda-derived 4cyl engine).

Ford initially considered a smaller-than-F-150 pickup truck, one based on the F-Series (following the older F-100 offering). This proposal was cancelled in favor of offering an EcoBoost engine in the F-150 product line.

The decision as to why the Ranger will no longer be available in the United States is that the new global platform is simply too close in size to the F-150. Another factor is due to declining sales, as Ford's Vice President of Global Product Development, Derrick Kuzak, notes that the compact pickup market in the United States has been declining for the past 15 years, dropping from eight percent of the industry in 1994 to around two percent in 2010. The ending of the Ranger in the United States also marks a departure for Ford from the compact truck segment after 30 years.

On June 22, 2011, a report from the United Auto Workers 879, which represents workers at the factory where the North American Ranger is produced, was released which stated that production of the Ranger was planned to end by December 22, 2011.The final North American-built Ranger, a white, extended cab Sport model purchased by pest-control company Orkin, was produced at the St. Paul plant on December 16, 2011.2011 was the last model year of retail Ranger sales, while 2012 was the final model year of fleet sales.

Yearly American sales

Calendar Year	Total American sales
1999	348,358
2000	330,125
2001	272,460
2002	226,094
2003	209,117
2004	156,322
2005	120,958
2006	92,420
2007	72,711
2008	65,872
2009	55,600
2010	55,364