The Toyota FT-EV concept was revealed during the 2009 North American International Auto Show (NAIAS), confirming Toyota's plan to launch an urban commuter battery electric vehicle by 2012
In the early 2010s, Toyota plans to sell a million hybrids per year globally, a majority of those in North America. To accomplish this, Toyota will launch eight all new hybrid models over the next few years. These will not include next generation versions of current hybrids; instead, they will be all new dedicated hybrid vehicles, or all new hybrid versions of existing gas engine models.
Image Credit: Toyota
Nanotechnology and nanomaterials are critical to the fabrication and operation of advanced lithium ion batteries used in hybrid vehicles. It is a fast growing market for carbon nanomaterials as well as nano lithium materials.
The heart of hybrid technology is its battery. Since the early 90’s, during the early stages of first-generation Prius development, Toyota has been committed to in-house R&D of advanced nickel-metal hydride batteries. Through three generations
Toyota’s joint venture partnership with Panasonic has been a key element of its success in the advancement of hybrid technology. Later this year, Panasonic EV Energy (PEVE) will have three separate, fully operational production facilities with a combined capacity of more than one million units per year.
Moving the promise of electrification one step further, Toyota recently kicked off its global demonstration program involving approximately 600 Prius plug-in hybrid electric vehicles. Beginning early this year, 150 PHVs will begin to arrive in the U.S. where they will be placed in regional clusters with select partners for market/consumer analysis and technical demonstration.
The Prius PHV introduces Toyota's first generation lithium-ion drive battery. When fully charged, the vehicle is targeted to achieve a maximum electric-only range of about 13 miles and capable of achieving highway speeds of more than 60 mph in electric-only mode. For longer distances, the Prius PHV reverts to “hybrid mode” and operates like a regular Prius. This ability to utilize all-electric power for short trips or hybrid power for longer drives alleviates the issue of limited cruising range encountered with pure-electric vehicles.
All program vehicles will be equipped with data retrieval/ communication devices which will monitor activities such as: how often the vehicle is charged and when, whether the batteries are depleted or being topped-off during charging, trip duration and all-electric driving range, combined mpg and so on.
As it becomes available, data from the program vehicles will be posted to a dedicated Web site. This in use, readily available data will help consumers understand how the vehicles are being used and how they're performing.
Toyota believes this demonstration program is a necessary next step in societal preparation in that it allows Toyota the unique opportunity to inform, educate and prepare customers for the electrification of the automobile in general and the introduction of plug-in hybrid technology.
Toyota is moving quickly with the development of PHV technology well beyond this demonstration program. Advanced battery R&D programs with nickel-metal, lithium-ion and “beyond lithium” are underway for a wide variety of applications in conventional hybrids, PHVs, BEVs and FCHVs.
In the early 1990s, Toyota began R&D on building a practical and affordable hydrogen fuel cell vehicle. FCHV technical advancements have moved at a rapid pace. Engineers have made great strides in cost reduction targets in both materials and manufacturing and Toyota is committed to bringing hydrogen fuel cells to global markets in 2015.
Toyota’s latest model, the Toyota FCHV-advanced began its own national demonstration program late last year. Over the course of the three year program, more than 100 vehicles will be placed in an effort to demonstrate the technology’s performance, reliability and practicality in everyday use.
Recently field tested in southern California by two national laboratories at the request of the U.S. Department of Energy, the FCHV-advanced confirmed an estimated single-tank fuel range of 431 miles. In combined city and highway driving from Santa Monica to San Diego the FCHV-adv logged an estimated 68 miles per kilogram of hydrogen, the rough equivalent of 68 miles per gallon. That range is equivalent to a Highlander hybrid at more than double the MPG with zero emissions other than water vapor.
In 1997, Toyota introduced the RAV4 EV battery electric vehicle in California. 1,484 of these 100 mile range large-battery electric vehicles were either sold or leased over the course of the program. Nearly half are still on the road.
Shortly thereafter, Toyota started a modest demonstration program with a small- battery electric urban commuter vehicle, called the e-com. This concept addressed the idea of the “on-demand” city station car similar to the Zip-car business model that is becoming popular in large urban areas. Although shorter in range, the e-com program addressed a specific mobility niche at a much more affordable price than the RAV4 EV.
The RAV4 EV and e-com programs were short lived due to lack of commitment from the market; the consumer and the consumer’s environmental mind set were not ready to commit to battery electric vehicles at that time. Recent increased awareness of environmental issues and the benefits of advanced technology vehicles have reinvigorated an interest in the electric vehicle market. As a result, Toyota will bring a small, urban commuter lithium-ion BEV to market in model year 2012.
Battery technology has progressed significantly in the time since the RAV4 EV and e-com programs. But major challenges still remain. The cost of lithium-ion batteries needs to be reduced significantly, or a more affordable alternative developed.
Like hydrogen fuel cell vehicles, battery electrics will require the creation of infrastructure for recharging on the go. This issue of range is also a challenge to overcome. Even at 100 miles, BEVs as a primary mode of transportation do not yet offer what most consumers see as true mobility.
Toyota believes these are hurdles that will be cleared. For the last decade its focus has been to concentrate on a comprehensive advanced technology strategy including BEVs, PHVs, and FCHVs. Common to all three is the move to electrification, the full commitment to advanced battery technology and how lessons learned from conventional hybrid R&D have given Toyota a leg-up on all three.
Built specifically to support a global demonstration program beginning in December 2009, the Prius Plug-in Hybrid (PHV) is based on the third-generation Prius. The vehicle represents a significant enhancement of Toyota's Hybrid Synergy Drive® (HSD) system. It combines high-output lithium-ion batteries with HSD technology to offer an expanded fully electric driving mode. The Prius Plug-in Hybrid can be recharged in approximately three hours from a standard 110V electrical outlet or one and a half hours with a 220V connection.
2010 Prius Plug-in Hybrid Vehicle (PHV)
Video explaining the Toyota hybrid vehicle system.
