Ford Ranger EV

Ford Ranger EV

Infobox Automobile
name=Ford Ranger EV


manufacturer=Ford Motor Company
production=1998–2002 (1,500 produced)
predecessor=
class=Compact battery electric Pickup truck
assembly=
layout=RR layout
similar=
transmission=3:1 single speed reduction integrated with motor and differential
engine=
power=90 hp (67 kW)
Wheelbase=112 in (2.84 m)
torque=149 ft·lbf (202 N·m)

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, but only for lease [10/05/06 update: some leased Ford Ranger EVs were sold to leasees, so there are some Ford Ranger EVs that have been and may be available for purchase as used] . The NiMH version delivered a true convert|65|mi|km|0|sing=on range at a steady Auto mph|65|0 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 convert|65|mi|km|0 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 $50,000.

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 convert|25000|mi|km|-2|sing=on 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

Performance was generally considered as quite acceptable. Early versions through the 1999 model year were programmed for a higher acceleration than later models, which could advertise a higher EPA mileage.

External appearance


The appearance of the front charging door in a grille location that is open on ICE (Internal Combustion Engine) Rangers, and the missing tailpipe and Hotchkiss drive and the visibility of the EV's unique rear suspension and the traction motor from behind the vehicle are the principle identifiers indicating that this is an electric Ranger. 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


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 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.

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, also used to provide battery cooling during charging (this may be a NiMH-only feature).

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 Auto lb|2000|0. As for the NiMH setup, it only weighs Auto lb|1050|0.

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. Models with NiMH batteries did not have a loss in range in cold temperatures. 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.

Driveline

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 Convert|60|hp|kW|0|abbr=on 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

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.

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

On a very long downhill run one could obtain a noticeably higher state of charge than at the top (3000 ft. 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.

Driving impressions

With its smooth and quiet operation the impression is one of luxury, despite its being a truck. The weighty batteries eliminate any hint of a "trucky" ride. The low center of gravity gives it solid and stable handling. To quote one owner: "My only wishes are that it was fifteen hundred pounds lighter and looked like a Lamborghini".

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 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 convert|125000|mi|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.

A documentary about the demise of the various electric vehicles entitled Who Killed the Electric Car? debuted in June 2006 but was largely concerned with the General Motors EV1.

Future

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

Availability Nordic countries

Quite a few Ford Ranger EV's was "rescued" in 2008 and transported to Norway, where they are sold by the company Elbil import to end users.

Notes


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