HYUNDAI SONATA HYBRID DEBUTS AT NEW YORK AUTO
SHOWBreakthrough Lithium Polymer Batteries Leapfrog Existing
Nickel-Metal Hydride and Lithium-Ion Technology As global automakers work out implementation
timing for new fuel-efficient powertrain technologies such as gasoline
direct-injection (GDI), twin-scroll turbochargers, and full-hybrid
powertrains, Hyundai announced that the all-new 2011 Hyundai
Sonata was the first vehicle in the industry to offer all three
technologies with the new Sonata 2.0T (turbo) and Sonata Hybrid joining
the hot-selling GDI-equipped Sonata in Hyundai showrooms later this
year.
At the
New York auto show last year, Hyundai unveiled its 2011 Sonata Hybrid,
changing the game in hybrids with unique approaches in hybrid
powertrain design, battery technology and vehicle appearance. The
Sonata Hybrid is Hyundai's first hybrid in the U.S.
market.
"The
Hyundai Sonata Hybrid is the new kid on the block, but it's not a
follower," says John Krafcik, president and CEO, Hyundai Motor America.
"Its full parallel hybrid configuration and breakthough lithium polymer
batteries offer a new take on traditional hybrid design, while its
unique design sets it apart from the mid-size hybrid
pack."
 | The
Hyundai-developed Hybrid Blue Drive architecture is a full parallel hybrid drive system, which can operate on an electric motor, gasoline internal combustion engine, and a combination of the two depending on driving conditions and driver demands. Hyundai's proprietary full
parallel architecture differs from the power split technology used by
most competitors, allowing significant efficiency advantages at higher
speeds. Hyundai Hybrid Blue Drive is the first and only system using
lithium polymer battery technology - leapfrogging competitive in-market
nickel-metal hydride and lithium-ion applications. Lithium polymer
offers the benefits of lithium-ion, a technology used in laptops and
cell phones, but adds robustness, power-density and package
flexibility, making it ideal for automotive applications. Hyundai Hybrid Blue Drive also is unique in its use of the company's own highly efficient, compact new 6-speed transmission, modified with hybrid
starter generator, electric motor, and low-friction oil pump, which
together allow the elimination of the traditional torque
converter. |
Hyundai
Hybrid Blue Drive is a new addition to a full suite of eco-focused
products and technologies that Hyundai offers in its goal to be the
auto industry's global eco-leader. According to the EPA, Hyundai has
led the U.S. industry in fuel economy for 2008 and 2009, and is
currently the only automaker with average fleet fuel economy of more
than 30 miles per gallon.
"Hyundai applies advanced technologies to vehicles to
provide the best solutions for the everyday driver," said Krafcik.
"Unlike traditional hybrids that trade off highway fuel economy for
higher city ratings, the Sonata Hybrid delivers best-in-class highway
fuel economy, while still delivering about a 40 percent improvement in
city fuel economy compared to a Sonata equipped with the Theta II GDI
engine. We think this is a better balanced approach for the majority of
car buyers."
PERFORMANCE
| Sonata Hybrid's projected best-in-class highway fuel
economy of 39 mpg offers significant benefit to hybrid owners with
highway commutes, while also offering outstanding city fuel economy of
37 mpg. Government studies have shown that the typical U.S.
driver operates in a highway mode 57 percent of the time. Hyundai's
approach to deliver class-leading fuel economy in highway mode provides
a unique solution in the mid-size sedan hybrid market, and
differentiates Sonata Hybrid from the likes of Toyota Camry Hybrid and
Ford Fusion Hybrid. Sonata Hybrid delivers typical hybrid fuel economy
gains in the city like its competitors, but also gives owners
outstanding fuel economy on the highway, where these competitors fall
short. | 
|
Sonata
Hybrid delivers class-leading electric-vehicle operation at
steady-state speeds of up to 62 miles per hour. Gasoline engine
engagement depends on state of charge, acceleration and vehicle speed.
Its two propulsion units develop a total output of 209 horsepower at
6,000 rpm, exceeding all mid-size competitors, and 195 lb-ft of torque.
The weight-efficient architecture of the new Sonata platform, combined
with the lightweight lithium polymer battery pack, make the Sonata
Hybrid the lightest vehicle in the segment, at just 3,457 pounds, 263
pounds lighter than the Fusion Hybrid. Combined with Sonata's
best-in-class horsepower rating, Sonata Hybrid has a significant
advantage in power-to-weight ratio, a key enabler of both performance
and efficiency.Hyundai's proprietary parallel hybrid drive system is the
heart of the Sonata Hybrid. The competition uses a power split system
with a planetary-geared Continuously Variable Transmission (CVT). This
is where the Sonata Hybrid gains a key advantage. Competing hybrid
models use electric motors that have to power a planetary gear set. By
utilizing a full parallel drive system, Sonata Hybrid uses the power
from the electric motor more efficiently to directly control the
vehicle, allowing it to be operated at much higher speeds than the
competition in EV-only mode. This technology is also a key enabler of
Sonata Hybrid's best-in-class highway fuel economy.
SONATA HYBRID VERSUS ITS
RIVALSHYUNDAI'S HYBRID BLUE DRIVE
ARCHITECTUREHyundai's Hybrid Blue
Drive is a proprietary parallel hybrid drive system that runs on the
already fuel-efficient 2.4-liter Theta II engine (169 horsepower at
6,000 rpm and 156 lb-ft of torque at 4,500 rpm) mated to a 6-speed
automatic transmission and a 30kW (151 lb-ft) electric motor for
maximum fuel economy. Hyundai's Hybrid Blue Drive has an all-electric
mode and a parallel drive mode. This means the wheels are turned by
power coming directly from the gasoline engine, or the electric motor,
or both together, as conditions demand. This parallel hybrid drive
architecture will serve as the foundation for future hybrid drive
vehicles to be developed by Hyundai.In the Hyundai Hybrid Blue Drive system, the Theta II with
multi-port fuel injection (MPI) operates on an Atkinson Cycle. Atkinson
Cycle is a type of internal combustion engine strategy designed to
dramatically increase fuel efficiency through changes in compression
and power strokes in the four stroke engine. It is typically only used
in hybrid systems where the high-torque electric motor boosts low-end
power, which is traded off for internal combustion engine efficiency.
By combining the electric motor and the Atkinson Cycle engine, the
Hybrid Blue Drive system delivers best-in-class highway hybrid
efficiency.  | To
further improve fuel economy, all of the Theta II major driveline and
cooling system components have been optimized to reduce friction, while
the crankcase has been filled with low friction oil. Hybrid Power
Control (HPC) management software automatically shuts off the engine
when the vehicle comes to a halt, cutting emissions to zero. When
pressure is reapplied to the accelerator pedal, the Hybrid Starter
Generator (HSG) automatically restarts the engine. This control
strategy assures that maximum efficiency is achieved during gentle
acceleration and greater power is immediately available during full
acceleration. During deceleration, braking regeneration comes into
play. Sonata Hybrid also features "smart brake" technology in which
braking input over-rides accelerator pedal input.
The high-tech,
all-aluminum, 16-valve engine also features Continuously Variable Valve
Timing (CVVT) on both camshafts and newly developed engine components
to reduce friction. This optimized Theta II engine achieves 10 percent
better fuel consumption over a conventional Theta II engine.
|
Hyundai Hybrid Blue
Drive uses the company's proprietary 6-speed automatic transmission
rather than a conventional hybrid's CVT. Hyundai's strategy involves an
adaptation of the modular 6-speed transmission, replacing the torque
converter with an electric motor and high-efficiency oil pump. This
technique uses a traditional step-shift 6-speed transmission rather
than a CVT to provide a more traditional shift feel that is preferred
by customers and sometimes artificially replicated in CVT applications.
This saves on cost, making the Hyundai Hybrid Blue Drive system a
better value. It is a more robust and elegantly simple solution to a
complicated engineering challenge.Fuel efficiency improvements are evident throughout Sonata
Hybrid. For example, the top three gear ratios in the transmission have
been extended to ensure the engine runs at lower RPMs, the electric
motor-assisted steering system reduces demands on the engine, and low
resistance tires further optimize fuel
economy.Hybrid
Blue Drive is made up of the following major
components:1. An
efficient 30kW electric motor delivering 151 lb-ft of
torque2. A regenerative braking
system3. An integrated starter generator that
enables the engine to turn off at stops and restart automatically under
acceleration4. A breakthrough lithium polymer battery
package, with 5.3 Ah of capacity at 270 volts5. A
fuel-efficient Theta II 2.4-liter engine6.
6-speed automatic transmission with an improved efficiency electric oil
pump7. Weight-efficient architecture coupled
with a low drag coefficient (.25 Cd target)8.
Electric air conditioning compressor9. Hybrid power
control unitLITHIUM POLYMER BATTERY
TECHNOLOGYSonata's
hybrid system stores its electrical charge in a 270V lithium polymer
rechargeable battery (5.3Ah/270V) that surpasses existing nickel-metal
hydride and pending lithium-ion applications. Lithium polymer batteries
are more durable and space-efficient than other hybrid batteries. They
are also more weight-efficient. The Sonata Hybrid's battery pack weighs
just 95.9 pounds versus the Camry Hybrid's 123.9 pounds. The compact
battery pack resides in the forward portion of the trunk to maximize
cargo space.Lithium
Polymer Batteries vs. Nickel-Metal Hydride BatteriesCompared with nickel-metal hydride
batteries, lithium polymer batteries deliver the same power with 20-30
percent less weight, 40 percent less volume and 10 percent greater
efficiency over the nickel-metal hydride batteries found in today's
hybrids. Lithium polymer batteries offer 1.7 times more energy density
than nickel-metal hydride batteries, allowing Hyundai engineers to
devote less space and weight to the battery pack. Lithium polymer
batteries hold their charge 1.25 times longer. Lithium polymer
batteries also are more resistant to changes in temperature, which
improves cycle life. Additionally, lithium polymer's self-discharge
rate is less than a third of a nickel-metal hydride
battery.
Lithium
Polymer Batteries vs. Lithium-ion BatteriesLithium-polymer has significant advantages
over lithium-ion, including higher energy density and lower
manufacturing costs. Lithium polymer is more resistant to physical
damage and can handle more charge-discharge cycles before storage
capacity begins to degrade. Lithium polymer technology also offers
significant advantages in thermal robustness and
safety.
A key
difference between traditional lithium ion batteries and Hyundai's
lithium polymer battery solution is the overall packaging of the cell -
the anode, the cathode, the electrolyte, and the encasement material.
Traditional lithium-ion batteries, like those found in laptops, use
what's known as the 18650 cell format. In this format, each
mass-produced cell is 18 mm. in diameter and 65 mm. tall, which is a
bit larger than a "AA" battery. Each of these small metal cylinders is
filled with a liquid electrolyte that facilitates the movement of
lithium ions across anode and cathode, creating the battery
current.
Traditional lithium-ion batteries are easy to handle,
withstand mild internal pressures, and have been around in various
forms since 1991. That means a manufacturing infrastructure is in
place, and economies of scale are reasonably high. However, they do
have several disadvantages. For example, their cylindrical shape
reduces packaging efficiency and they are surprisingly complicated to
manufacture since they have so many small parts. These small parts make
them robust to thermal fluctuations and add significant cost and weight
to the overall battery system. Cell-to-cell consistency also is
extremely critical in a vehicle battery package, since the pack is only
as robust as its weakest cell. Traditional lithium-ion batteries have
considerable cell-to-cell variation, while Hyundai's lithium polymer
batteries deliver outstanding cell-to-cell
consistency.
  | Lithium
polymer technology uses a completely different approach. Rather than
using a liquid electrolyte, which requires a robust metal casing,
lithium polymer batteries use a polymer gel as the electrolyte, which
allows the use of a thinner and lighter aluminum-walled encasement, or
pouch. Inside each lithium polymer cell, the cathode, separator, and
anode are laminated together, enabling much simpler and more reliable
manufacturing. This allows the battery pack to be about 20 percent
smaller than a lithium-ion battery pack, making it much easier to
change the cell footprint to fit the nooks and crannies of available
vehicle space. |
Hyundai
and its battery supplier, LG Chem, have spent hundreds of hours testing
the Hyundai Hybrid Blue Drive lithium polymer battery system. This
testing has proven that Hyundai's lithium polymer technology has
greater thermal and mechanical stability than existing systems, meaning
better safety and performance.
Another key engineering challenge for Hyundai Hybrid Blue
Drive has been assuring maintenance-free battery operation over the
vehicle's life - at least 10 years, and 150,000 miles - in all weather
conditions. Heat is the enemy of battery cycle life. Hyundai's thermal
imaging testing shows how much cooler a lithium polymer battery is
compared to today's nickel-metal hydride battery or a conventional
lithium-ion battery. Consumers will notice these advantages in improved
useful life and lower maintenance
costs.
FLUIDIC SCULPTURE DESIGN
ADDS A UNIQUE ECO FLAIRHyundai designers have taken Sonata's fluidic sculpture
design language a bit further with Sonata Hybrid, making it even more
aerodynamic. The goal was a modern, eco-friendly design, with
"at-a-glance" differentiation from the non-hybrid Sonata
models.
Unique exterior design
elements*Headlights and taillights*Aerodynamic bumper fascias*Aerodynamic rocker
panels*Bold hexagonal grille*Eco-spoke wheels*Air dam and aero side
sills*Hybrid Blue Drive badging*Exclusive hybrid paint colorInterior
refinements*Supervision cluster with eco-display
options*Unique interior color choice*Unique seat
patternsThe
Sonata Hybrid also offers drivers a way to be more engaged in
fuel-efficient driving thanks to Hyundai's Hybrid Technology Display.
The Hybrid Technology Display is featured on a 4.2-inch LCD screen
located between the odometer and tachometer, or is visible on the
optional seven-inch navigation screen. It features the following
information:
Driving mode*Energy flow within the
vehicle*Engine and motor movement*Fuel level*Battery power levels and charge
status*Electric vehicle mode indicator*Average and instant
mpgThe Hybrid Technology Display's most unique feature is an
Eco Level scoring system. The high definition display acknowledges
eco-focused driving with eight levels of sky color, ranging from gray
to bright blue. It also accumulates points in Total Eco mode over time.
An Eco Guide also provides instant fuel economy feedback.
