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A Guide to Hybrid Synergy Drive
Environmental Technology
Powertrain Technology towards Achieving “Sustainable Mobility”
Three Issues Being Undertaken ― The Mission of Powertrain
Improving the Environmental Performance of Internal Combustion Engines ― Engine
Improving the Environmental Performance of Internal Combustion Engines ― Transmission
Hybrid technology
Support for Diversification of Alternative Fuels
A Guide to Hybrid Synergy Drive
THS II
Introduction
What is a Hybrid System?
Three Objectives of THS II Development
How the THS II Works
High-voltage systems motor and generator
Power Control Unit,Battery and Regenerative Braking System
Hybrid Transmission
Engine
System Control
Output Enhancement
In-house Development and Production
Specifications of New Hybrid System
Fuel Cell Technology
Recycle
Introduction
The Current State of Automobile Recycling
Toyota's Approach to Recycling
Design for Recycling Based on Eco-VAS
Overview of Eco-VAS
Development of Recyclable Vehicle Structures
Management and Further Reductions in the Use of Substances of Concern
New Development of Automobiles Based on the DfR Concept - Activities Undertaken for the New Raum
Use of Renewable Resources
Easy-to-Dismantle Vehicle Structure
Development of Recycling Technologies
Development of ASR Recycling Technologies 1
Development of ASR Recycling Technologies 2
Development of Dismantling Technologies
Structure to Develop Dismantlling Technologies
Dismantling Technologies
CFC/HFC Collection
On-board deployment of airbag
Fuel-draining
Liquid-draining device
Removing windshield glass
Collection of glasses
Collection of wire harnesses
Motor removal
Collection of instrument panels
Collection of bumpers
Collection of door trims
Removing spare tire
Removing engine hood
Hybrid vehicle battery-hooking tool for removal
Dismantling simulation technologies
Tool stand
Dismantling Equipments
CFC/HFC collection device
Fuel-draining device
Liquid-draining device
Vehicle reversal machine
Establishing a Recycling System
Responses to Automobile Recycling Laws in Japan
Responses to the Automobile Recycling Law
ASR Recycling/Recovery Systems
Airbag Collection and Recycling Systems
CFCs/HFCs Collection/Destruction Systems
Overview of Automobile Recycling Laws in the EU
Recycling at Dealers
Expanding the Use of Used Parts
Collecting and Recycling
Appendix
Safety Technology
ITS
TOYOTA's ITS Vision
History of TOYOTA's ITS Activities
ITS-Based Approach (Safety)
Vehicle-Infrastructure Cooperative Systems that support safe driving
ITS-Based Approach (Environment)
ITS-Based Approach (Comfort)
Driving Support Function
Information Service Function
Participation in Public Activities
R&D; Structure
Activities of major ITS-related organizations
Download
Personal Mobility
i-unit
i-unit Overview
Design concept
Basic package
Expanding Human Abilities
Harmony with Nature
Safety (Anti-collision Cars)
i-swing
i-REAL
Robot Technology
Partner Robots
Message
Concept
History
Details
Videos of Robots
Download the whole PDF file
1.5MB | 6P
WHAT IS A HYBRID SYSTEM? (P2)
HYBRID TECHNOLOGY & THE "ULTIMATE ECO-CAR" (P3)
ARE ALL HYBRIDS CREATED EQUAL? (P4)
GOALS - of - HYBRID SYNERGY DRIVE DEVELOPMENT (P5)
HYBRID _ PAST, PRESENT, FUTURE (P6)
Revised as of March 2007