Chevrolet S-10 EV


The Chevrolet S-10 Electric was an American electric-powered vehicle built by Chevrolet. It was introduced in 1997, updated in 1998, and then discontinued. It was an OEM BEV variant of Chevrolet's S-10 pickup truck. The S-10 Electric was solely powered by electricity, and was marketed primarily to utility fleet customers.

Design

started with a regular-cab, short-box S-10 pickup, with a base-level trim package plus a half-tonneau cover.
In place of a typical inline four cylinder or V-6 internal combustion engine, the Electric S-10 EV was equipped with an three-phase, liquid-cooled AC induction motor, based on GM's EV1 electric coupe. The EV1 had a 100 kW motor; GM reduced the S-10EV's motor because of the additional weight and drag of the truck so as not to overstress the batteries.
Other than the reduced motor size, most of the EV1 power electronics were carried over directly to the S-10 EV, which mandated that the Electric S-10 use a front-wheel-drive configuration, unlike the rear-wheel-drive setup of the standard S-10, and in the competing Ford Ranger EV.

Batteries

Similar to the Gen 1 EV1's, there were lead acid battery and nickel–metal hydride battery options. The 1997 Chevrolet S-10 EV used a lead acid battery pack. Manufactured by Delco Electronics, the battery pack consisted of 27 cells, with one being designated as an "auxiliary" cell. These reportedly offered 16.2 kilowatt-hours for propulsion. In 1998, an Ovonic nickel–metal hydride battery pack was also available; these batteries were lighter and had a combined 29 kilowatt-hours of storage for a longer range. NiMH also has longer life but costs more than the lead acid option. The battery pack was located between the frame rails, beneath the pickup bed. On all battery types, a passive battery monitoring and management system was used; this meant that excess energy was wasted from cells with a higher charge, while the remainder of the cells reach the same state of charge.

Charging

The S-10 EV charges using the Magne Charger, produced by the General Motors subsidiary Delco Electronics. The inductive charging paddle is the model J1773 or the 'large' paddle. The small paddle can also be used with an adapter to properly seat it. The standard charger is a 220 V 30 A ; there is also a 110 V 15 A 'convenience' charger, and a high-power fast-charge version. The vehicle's charging port is accessed by flipping the front license plate frame downwards. The system is designed to be safe even when used in the rain.

Efficiency

Depending on the load and driving conditions the range can vary greatly: For the 1997 model with lead-acid battery pack, city range was ; the mixed city/highway range was ; the highway range was if operating constantly at or less. The acceleration time was listed as 13.5 seconds.
Like the EV1, the top speed of the S-10 EV was governed, albeit to, less than its coupe sibling.
The performance is much better for the 1998 model year with the nickel–metal hydride battery, at an approximately range and an acceleration time of 10.9 seconds at 50% charge.
Note: 1998 GM S10 EV NiMh numbers above are apparently wrong. This page lists the NiMH S10 with a 29-kilowatt-hour battery and range of which corresponds to 40.3 kWh/100 miles. This corresponds to the NiMH version of the vehicle having a lighter battery pack than the lead-acid model.
While the standard S-10 moved to a redesigned front fascia in 1998, the S-10 Electric kept the same front fascia as the '94-'97, with the exception of composite headlamps in 1998 versus the previous year's sealed-beam headlamps. The interior was also updated in 1998 along with internal combustion models, adding a passenger side airbag. Aside from this header panel, a unique lower bumper valance, and a stylized 'Electric' decal on the bottom of the doors, there is little difference externally between the appearance of an Electric and a stock S-10. Any changes, however minimal, were reported to have had a positive influence on reducing the truck's aerodynamic resistance. These changes included a closed grille and a front air skirt, belly pans beneath the front suspension, a seal between the cab and the pickup bed, and a half-length tonneau cover over the rear of the pickup bed.

Instruments

Internally, the instrument cluster was exclusive to the Electric S-10, and featured only four gauges - a speedometer, a large "charge" gauge which reads from 'E' to 'F' like a fuel gauge, a voltmeter ranging from 220 to 440 volts, and a "power use" meter, which acts as an ammeter of sorts showing discharge during acceleration and charge during regenerative braking. The LCD display for the shifter was shortened to display only park, neutral, reverse, and drive, since the S-10 EV does not have the usual transmission.

Additional features

Although the S-10 EV was developed from a "base" trim package, the Electric S-10 still came standard with dual airbags in 1998, a heat pump for both air conditioning and heating, power four-wheel ABS brakes, regenerative braking, power steering, AM/FM radio, and daytime running lamps, among other items. For colder climates, a fuel-fired heater was standard, which runs on diesel fuel from a tank. The heater will operate when ambient temperature falls below.
Because battery performance varies greatly with temperature, the heat pump supplies cooling to the batteries during charging when necessary. Passive air recirculation is used during the driving cycle to equalize variations in battery temperature. The heat pump can be activated during the driving cycle under extreme battery over-temperature conditions over, typically as a result of extreme battery discharge.

Sales

Unlike the EV1, of the 492 S-10EVs assembled about 60 were sold to fleet customers, rather than just leased through restrictive programs, mostly due to the prior Department of Transportation crashworthiness evaluations done on stock S-10 pickups. As a result, a few Electric S-10s can still be found in use today. The fleet life of many of these ended in 2007 and 2008. The vehicles that were not sold were eventually scrapped, similar to the fate of their EV1 siblings.

Recent uses

In 2004 GM converted an S-10 EV to rear-wheel drive, using prototype in-wheel electric motors instead of an under-hood motor.