Fishing & Boating News

New High Pressure Direct Injection Outboards From Yamaha Best Outboard For Freshwater Anglers


(Monday, September 06,1999 - ATLANTA, GA) Anglers who fish freshwater lakes and rivers will appreciate Yamaha’s new High Pressure Direct Injection (HPDI) VMAX 150 outboard. Designed around a new 2.6-liter 76-degree engine block, the HPDI VMAX offers the perfect mix of performance and fuel economy making it the best outboard motor available for freshwater anglers.

"We designed the HPDI VMAX 150 to give freshwater anglers what they want — a clean running, high-performance, fuel-efficient engine," said David Grigsby, product manager of Yamaha's Marine Power Division. "In fact, the new HPDI VMAX meets the EPA’s 2006 low-emission requirements six years early by reducing emissions 75 percent. It's this emission-reducing technology that helps increase fuel economy and performance.

"The HPDI VMAX was designed to be most fuel efficient when running on plane. Most, if not all, freshwater anglers fish in several different spots during the day and rarely are all these spots located close to the launch ramp. By designing the HPDI VMAX to run most efficiently at full throttle, we're able to give anglers an outboard they can run hard between productive spots all day and enjoy improved fuel-efficiency by up to 20 percent over conventional direct injected engines. In addition, the new 76-degree engine block that we use provides more torque than 60-degree blocks to get up on plane faster and a more streamlined appearance over 90-degree designs to make achieving top speeds easier."

How HPDI Works On conventional two-stroke outboards, the fuel/oil mixture enters from the bottom of the cylinder and must travel up around the piston into the combustion chamber. The exhaust port is exposed and open as the piston is in the down position. As the piston moves up and compresses the mixture, some of the fuel/oil mixture escapes out of the exhaust port. Once the piston blocks the exhaust port and the mixture is compressed, then the spark plug fires and the mixture is ignited forcing the piston down. On Yamaha's HPDI direct injection system, the fuel is injected from the top of the cylinder milliseconds before the piston reaches the top of its stroke. This precise timing allows for the exhaust port to be completely closed and doesn't permit any unburned fuel to escape. This alone provides for greater fuel economy.

Adding to the when and where the fuel is delivered, an important element is how it is delivered. Yamaha developed a high pressure delivery system that builds delivery pressure to 700 psi. Other systems utilize pressures ranging from 90 to 250 psi. This highly pressurized fuel means a more uniform atomization that results in a cleaner, more complete burn.

Another innovation of Yamaha's HPDI is the injector itself. Competitors utilize an injector that protrudes and opens outwardly into the combustion chamber creating a disturbance in the flow of fuel and leaves the injector tip susceptible to carbon buildup. Yamaha's injector opens internally and does not protrude into the combustion chamber, and due to its internally opening design,ya developed a high-werhead and is not subjected to excessive heat exposure and carbon buildup. All this means that an HPDI engine is a cleaner running, more fuel efficient and more durable outboard.

In addition, Yamaha uses a patented O2 Sensor to enhance performance by continually monitoring oxygen density in the exhaust gas and then instantly feeding the information to the microcomputer which then adjusts the amount of fuel that each individual fuel injector delivers. This means the right amount of fuel is always delivered, resulting in optimum power and fuel economy as well as improved durability and reliability.

Precision Blend Oil Injection ensures the proper amount of oil is automatically injected depending on the needs of the engine. Engines running at idle need less oil than engines running at full throttle. The Precision Blend system measures RPM and throttle position to determine how much oil is needed. Internal lubrication can also be a problem with conventional direct injection systems but not with Yamaha's HPDI. On conventional direct injection systems, since the fuel isn't mixed with the oil, the oil is not thinned out and can't flow past the bottom piston ring in each cylinder to adequately lubricate the top piston rings. This results in excessive heat and can damage the ring seal causing further engine damage. Yamaha's HPDI system allows the upper ring to be lubricated by designing the bottom ring with 12 tapers or by-passes that allow the right amount of oil to flow past the lower ring to the top ring. This translates into longer engine life and added durability for the consumer.

"We designed a new cowling with distinctive HPDI graphics to ensure that other anglers at the lake will know you're running the best outboard on the market," said Grigsby.

The HPDI VMAX features a wide-range power trim and tilt that goes from -4 degrees for quick hole shots to +16 degrees to improve top-end performance. The motors can also be raised and lowered while the boat is on the trailer with the conveniently located pan-mounted tilt switch.

PrimeStart Auto Choke provides the proper fuel mixture for all weather conditions to ensure the motor starts quickly the first time the key is turned on. In addition, Yamaha's HPDI VMAX uses a pressure sensor inside the high-speed fuel pump that senses fuel pressure at startup and instantly relays that information to the microcomputer. The microcomputer then increases the duration that each fuel injector is open to enrich the fuel mixture for immediate starting instead of having the engine crank while building pressure and draining battery power as on conventional direct injection designs.

The HPDI VMAX features a microcomputer ignition coupled with a throttle position sensor to provide better throttle response, timing control and engine protection without the use of a moving base plate under the flywheel. All this translates into optimum engine performance and better fuel economy. Overheat, low oil pressure and over-rev sensors protect the owner's investment in the engine and provide peace of mind. If a problem should occur such as debris in the water blocking the water intakes, the sensors alert the operator with a buzzer and warning light and automatically reduce engine speed to 2,000 RPM to keep the outboard from overheating and being damaged.

Alternator output of 30 amps at 1,000 RPM and 45 amps at full throttle keeps the batteries charged while allowing electronics, trolling motors or livewell pumps to run all day. A high-performance 2.00:1 gear ratio enables quick hole shots and high top-end speeds for long lake runs.

Another strength of the new Yamaha outboards is their level of proven corrosion fighting measures. A front-mounted freshwater flushing device offers convenient engine flushing from the dock or the boat by attaching to a standard garden hose without any special tools. The motor does not need to be running to flush the engine. Protection from the elements comes from the ACP-221 paint application, a technologically-advanced process featuring multiple layers of tough primer, color and finish coats. Stainless steel components battle internal corrosion while all aluminum components that contact the water are made from Yamaha's tough YDC 30 aluminum alloy. Zinc anodes in the powerhead, the lower unit and on the power trim and tilt bracket sacrifice themselves to protect other metal components from corrosion.

For added safety while the boat is underway, Yamaha's key switch features a standard engine stop switch lanyard that conveniently clips to the operator's wrist, clothing or personal flotation device and automatically stops the engine if the operator accidentally leaves the helm.

Like all Yamaha two-stroke outboards, the new motors are backed by Yamaha's Two-Year Factory Limited Warranty at no extra cost.

For the location of your nearest Yamaha Outboard dealer, call toll-free (800) 88-YAMAHA.