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Parts List Power Commander USB Cable CD-ROM Installation Guide Power Commander Decals Dynojet Decals Velcro® Strip Alcohol Swab Wire tap O2 eliminator The ignition MUST be turned OFF before installation! YOU CAN ALSO DOWNLOAD THE POWER COMMANDER SOFTWARE AND LATEST MAPS FROM OUR WEB SITE AT: WWW.POWERCOMMANDER.COM PLEASE READ ALL DIRECTIONS BEFORE STARTING INSTALLATION 2191 Mendenhall Drive 20-008 www.powercommander.com North Las Vegas, NV 89081 (800) 992-4993 www.powercommander.com 2009 Suzuki Hayabusa PCV - 1 POWER COMMANDER V INPUT ACCESSORY GUIDE A C C E S S O RY I N P U T S Map - The PCV has the ability to hold 2 different base maps. You can switch on the fly between these two base maps when you hook up a switch to the MAP inputs. You can use any open/close type switch. The polarity of the wires is not important. When using the Autotune kit one position will hold a base map and the other position will let you activate the learning mode. When the switch is “CLOSED” Autotune will be activated. Shifter- These inputs are for use with the Dynojet quickshifter. Insert the wires from the Dynojet quickshifter into the SHIFTER inputs. The polarity of the wires is not important. Speed- If your application has a speed sensor then you can tap into the signal side of the sensor and run a wire into this input. This will allow you to calculate gear position in the Control Center Software. Once gear position is setup you can alter your map based on gear position and setup gear dependent kill times when using a quickshifter. USB CONNECTION CRANK ANALOG EXPANSION PORTS 1 & 2 Optional Accessories such as Color LCD unit or Auto tune kit.
RCC Turbos - Stage 1 Turbo Install: Suzuki Hayabusa (Gen 1) • Preparation/Disassembly: Remove the seat. Disconnect negative terminal on the battery. Drain the fuel tank. Remove the fuel tank. Remove the stock fuel pump from the tank. Remove the air box. Remove the MAP sensor and temperature sensor from the air box. Remove left and right side fairings. Drain engine oil. Drain engine coolant. Remove the oil filter Remove the oil restrictor, behind the filter. Remove the oil cooler lines. Remove the radiator and oil cooler, as one unit, leaving only the bracket/support for radiator (before reinstalling the radiator please remove all the tabs along the bottom of the radiator). Remove the entire exhaust system. Remove the PAIR system. Remove the oil pan from the engine. • Sensor Bracket Modification: On the left hand side of bike, on the inside of the frame, you will see a bracket, with a plastic vacuum canister, vacuum control solenoid valve, atmospheric pressure sensor, and some vacuum lines, with a check valve in the vacuum line. Please remove this entire bracket, eliminate all the vacuum lines, the plastic canister, and the control solenoid valve, and also cut off the metal tab that held the vacuum canister. Then reinstall this bracket with only the atmospheric pressure sensor, and plug the wires back in. • Tap/plug PAIR System Holes: Tap the four small PAIR system holes, above the exhaust ports, with an M6 x 1.0 tap. Install the four small M6 screws into the exhaust holes after tapping them. • Modify the Oil Pan: Drill a ¾” hole on the left side of the oil pan. Use thread sealant on the washer, and red Loctite on the threads. Make sure the sealing washer is against the inside of pan, then the stainless flat washer, then the nut. Once the fitting is installed, reinstall the oil pan. • Install Header/Turbo/Oil Lines/Exhaust: Install the header and turbo as a unit, but with the bolts loose. Use four of your original header bolts on the top of the turbo header (Allen head). Use the four new bolts on the bottom row of the header (M8, 10mm flange head). PLEASE NOTE! After installing the dump pipes and waste gate, the nipple on the top of the waste gate remains open, and no hose gets installed on the top fitting. The top fitting is used for boost control on Stage 2 and higher end kits. It is not used on Stage 1 kits.
http://www.kmsa.com/Home/Products%20and%20Services | The bizhub 4700P, 4000P and 3300P from Konica Minolta are more than just ordinary printers. Quick B&W print speed and simple control panels make these printing machines perfect for fast paced office environments. Designed with the environment in mind, these printers also come with a special Eco-mode and Auto Duplexing to reduce power consumption and save paper. Whether you use a Windows or Mac computer, you can enjoy the full benefits of Konica Minolta’s bizhub printers.
Save all warnings and instructions for future reference. The term "power tool" in the warnings refers to your mains-operated (corded) power tool or battery-operated (cordless) power tool. Work area safety 1. Keep work area clean and well lit. Cluttered or dark areas invite accidents. 2. Do not operate power tools in explosive atmospheres, such as in the presence of flammable liquids, gases or dust. Power tools create sparks which may ignite the dust or fumes. 3. Keep children and bystanders away while operating a power tool. Distractions can cause you to lose control. Electrical safety 4. Power tool plugs must match the outlet. Never modify the plug in any way. Do not use any adapter plugs with earthed (grounded) power tools. Unmodified plugs and matching outlets will reduce risk of electric shock. 5. Avoid body contact with earthed or grounded surfaces such as pipes, radiators, ranges and refrigerators. There is an increased risk of electric shock if your body is earthed or grounded. Hold the saw with both hands while working! One-handed use is extremely hazardous! This saw is to be used by properly trained operators only. Only for EU countries Do not dispose of electric equipment or battery pack together with household waste material! In observance of European Directive 2002/96/EC on waste electric and electronic equipment, 2006/66/EC on batteries and accumulators and waste batteries and accumulators and their implementation in accordance with national laws, electric equipment and battery pack that have reached the end of their life must be collected separately and returned to an environmentally compatible recycling facility.
Cushioned Shoes You should wear cushioned shoes if you are a runner who needs maximum midsole cushioning and minimum medial (arch-side) support. These shoes are best suited for biomechanically efficient runners (you don't overpronate), and midfoot or forefoot strikers. Runners who do best in cushioned shoes often have moderate to high arches. Motion Control Shoes You should wear motion-control shoes if you are a runner who overpronates moderately to severely. Motion-control shoes will give you maximum rearfoot control and extra support on the medial (arch) side of the foot. Motion-control shoes are also best suited for big or heavy runners who need plenty of support and durability. These runners often have low arches (flat feet). Performance Training Shoes You should wear performance-training shoes if you are a runner who wants a light, well-balanced shoe suitable for racing, speedwork, or daily training. These shoes are best-suited for fast, efficient runners who want to train in them. Moderate overpronators can also train and race in some of these shoes. Racing Shoes You should wear racing shoes if you have a biomechanically efficient stride, don't have any current injuries, and want an exceptionally fast, lightweight shoe for races. Many runners use performance training shoes or their regular training shoes for races. Stability Shoes You should wear stability shoes if you are a runner who needs medial (arch-side) support and good midsole cushioning. These shoes are best suited for runners who are mild to moderate overpronators, and/or need added support and durability. Trail Shoes...
Neutral (Cushioned) shoes...are most appropriate for neutral runners of all shapes and sizes who either do not pronate or roll slightly to the outside when they strike the ground (supinate) and have mid to high arches. Neutral shoes provide the most flexibility of any shoe. Stability shoes...are typically well-suited to the runner who has normal to mild overpronation and medium-to-low arches. They often have a medial post or multi-density midsole to provide a degree of pronation (see illustration below) control which can range from mild to heavy control. Motion control shoes...are highly rigid designed to limit severe over-pronation. They offer maximmum stability and medial support. Typically, they have an inner post and a multi-density or polyurethane midsole. They tend to be the heaviest, most durable, and most expensive running shoes. Motion-control shoes are geared toward the runner who tends to severely over-pronate and who has flat arches. Racing shoes...consist of spikes and flats used in cross country and track. Flats are lightweight shoes used for racing, usually on roads. They consist of minimal amounts of cushioning. Spikes are also used for racing, typically on grass or a track. Spikes usually have metal or ceramic “spikes” that screw into the bottom of the shoe to provide traction. Finding the right fit for spikes is based more on foot shape and feel rather than pronation.
Kevin Balke. Ph.D., P.E.. Texas Transportation Institute. Westin Park Central Hotel. Dallas, Texas. Page 2. ▻ Overview of ITS. ▻ TTI ITS Applications. ▻ Future ... Kevin Balke. Ph.D., P.E. Texas Transportation Institute Westin Park Central Hotel Dallas, Texas Overview of ITS TTI ITS Applications Future Applications of ITS ITS = Intelligent Transportation System Application of advanced surveillance, control, information, vehicle, and communications technologies to address safety, mobility and environmental issues Began as official program of USDOT in 1991 Traffic and Transit Management Road Weather Monitoring and Information Systems Commercial Vehicle Fleet Operations ...
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Department of Research and Development, Hospira Inc., Lake Forest, Illinois, USA, 2Department of Medical Ethics, University of Pennsylvania, Philadelphia, Pennsylvania, USA, 3Advanced Centre for Biochemical Engineering, University College London, London, UK, 4The Stop ALD Foundation, Houston, Texas, USA, 5Interdisciplinary Oncology Program, H. Lee Mofﬁtt Cancer Center & Research Institute, Tampa, Florida, USA, 6Department of Regulatory Affairs, Perkin Elmer Inc., Cambridge, Massachusetts, USA, 7Bone Marrow Transplantation Unit, National Cancer Institute, Rio de Janeiro, Brazil, 8Section of Hematology and Bone Marrow Transplantation Unit, University Hospital, Cremona, Italy, 9Department of Pathology and Laboratory Medicine, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania, USA, 10Department of Cell and Molecular Therapies, Royal Prince Alfred Hospital RPA Hospital and Centenary Institute, Newtown, NSW Australia, 11Research Foundation for , Community Medicine, Tokyo, Japan, and 12Children’s Hospital of Philadelphia, Philadelphia, Pennsylvania, USA Key Words: cell therapy, stem cell, medical tourism, medical ethics, informed consent, regulatory affairs
STEM CELLS AND CEREBRAL PALSY Cerebral palsy (CP) is an umbrella term which includes several forms and levels of nonprogressive brain-related injury, which cause limitations in muscle control, movement and mobility (known as neuromotor impairment) and other symptoms that lead to physical disability. CP is caused by many factors, and can include infection before birth, premature birth and lack of oxygen around the time of birth. It is thought that the major common feature in CP is a lack of blood and oxygen to the brain during fetal development and/or delivery, known as a hypoxic-ischemic insult. The cells most vulnerable to this hypoxic-ischemic insult are oligodendrocytes, the support cells that wrap nerve cells (or neurons) with a protective white fat called myelin, hence the term white matter of the brain. Because of this myelin, neurons can send electrical signals efficiently throughout the body. Once oligodendrocytes die, the neurons are no longer protected and they eventually die. If myelin could be replaced before neurons die, neurons could be spared and motor impairments could be lessened. For this reason, scientists are investigating whether lost oligodendrocytes can be replaced with stem cells. Stem cells are unspecialized cells which can become specialized cells such as brain cells, heart cells or muscle cells. The process of developing into a specialized cell is known as differentiation. Stem cells can also multiply over and over again, a process known as proliferation. During the process of proliferation the stem cell either remains unspecialized or, under the right condition, can become a specialized cell such as a brain cell. Replacing neurons themselves would be like trying to rewire a giant switchboard with tens of thousands of ports but no labels, where improper connections could lead to pain. It is for this reason that the aim of many cell transplantation strategies now being tested is to replace lost oligodendrocytes rather than to make and successfully connect new neurons. Recent decades have seen advances in our knowledge of how to study and use stem cells. It is expected we will develop ways to transplant stem cells into damaged tissues to treat and cure injury and diseases like CP. From Mice to Humans...