Product Manual
Table Of Contents
- Notice to Users of This Manual
- Precautions
- Replacement Parts
- Cleanliness and Care of Product
- Copyright and Trademark Information
- Manual Outline
- Section 1A - Specifications
- Table of Contents
- Model Specifications
- Ignition Specifications at 20 °C (68 °F)
- Charging and Starting Specifications
- Fuel System Specifications
- Cylinder Block/Crankcase Specifications
- Piston Specifications
- Cylinder Head Specifications
- Oil System Specifications
- Cooling System Specifications
- Power Tilt Specifications
- Gearcase Specifications
- Section 1B - Maintenance
- Table of Contents
- Cleaning Care
- Inspection and Maintenance Schedule
- Battery Inspection
- Flushing the Cooling System
- Fuel System
- Fuse Replacement - Electric Start Models
- Spark Plug Inspection and Replacement
- Timing Belt Inspection
- Engine Oil
- Corrosion Control Anodes
- Propeller Replacement
- Gearcase Lubrication
- Lubrication Points
- Storage Preparation
- Section 1C - General Information
- Table of Contents
- Recording Serial Number
- Model Year Production Code
- Engine Component Identification - Manual Start Model
- Engine Component Identification - Electric Start Model
- Following Complete Submersion
- Fuel Requirements
- Painting Procedures
- Emissions
- Shipping of Hazardous Material (HazMat) and Engine/Components Containing Hazardous Material
- Section 1D - Outboard Installation
- Section 1E - General Troubleshooting
- Table of Contents
- Conditions Affecting Performance
- Compression Check
- Cylinder Leakage Test
- Guardian Protection System
- Warning System
- Troubleshooting without a Computer Diagnostic System (CDS)
- Troubleshooting with CDS G3
- Accessing ECM Information with CDS G3
- CDS G3 Screens (10/15/20 EFI)
- Engine Control Module Pinout
- Fault Codes
- Section 2A - Ignition
- Table of Contents
- Ignition Specifications at 20 °C (68 °F)
- Ignition Theory of Operation
- General Troubleshooting
- Engine Control Module (ECM)
- Wire Color Code Abbreviations
- Sensors
- Ignition Components
- Section 2B - Charging and Starting Systems
- Section 3A - Fuel System Operation
- Section 3B - Troubleshooting and Diagnostics
- Section 3C - Service Procedures
- Section 4A - Cylinder Block/Crankcase
- Table of Contents
- Cylinder Block/Crankcase Specifications
- Piston Specifications
- Cylinder Block and Crankcase Components
- Crankshaft Components
- Powerhead Removal
- Cylinder Block Disassembly
- Powerhead Cleaning, Inspection, and Repair
- Powerhead Assembly
- Powerhead Installation
- Section 4B - Cylinder Head
- Section 4C - Oil Pump
- Section 4D - Cooling System
- Section 5A - Clamp/Swivel Bracket and Driveshaft Housing
- Table of Contents
- Clamp Bracket Components (Power Tilt)
- Clamp Bracket Components (Manual Tilt)
- Steering Arm and Copilot Components
- Driveshaft Housing Components
- Driveshaft Housing Cover Components
- Driveshaft Housing Covers
- Front Cowl
- Idle Exhaust Port Cover
- Powerhead/Midsection Assembly Separation
- Engine Mount Replacement
- Clamp Brackets, Swivel Bracket - Power Tilt Models
- Clamp Brackets, Swivel Bracket - Manual Tilt Models
- Driveshaft Housing Removal
- Driveshaft Housing Installation
- Shift Operation
- Kicker Strap (Tiller Handle Model)
- Section 5B - Power Tilt
- Table of Contents
- Power Tilt Specifications
- General Troubleshooting
- Power Tilt - General Information
- Power Tilt Components
- Theory of Operation
- Power Tilt Features and Operation
- Check Fluid and Purge the Power Tilt System
- Cowl-Mounted Tilt Switch
- Troubleshooting the Power Tilt System
- Power Tilt Removal
- Manual Release Valve Removal and Repair
- Power Tilt Motor
- Power Tilt Pump
- Power Tilt Installation
- Section 6A - Gear Housing (2.15:1)
- Table of Contents
- Gearcase Specifications
- Gear Housing and Driveshaft
- Propeller Shaft
- General Service Recommendations
- Draining and Inspecting Gear Housing Lubricant
- Gear Housing Removal
- Gear Housing Disassembly
- Gear Housing Assembly
- Pinion Bearing Installation
- Forward Gear Bearing Installation
- Bearing Carrier Assembly
- Water Pump Base Assembly
- Propeller Shaft Assembly
- Pinion Gear and Driveshaft Installation
- Forward Gear Backlash
- Shift Shaft and Water Pump Base Installation
- Water Pump Cover Assembly
- Propeller Shaft and Bearing Carrier Installation
- Gear Housing Installation
- Propeller Installation
- Section 7A - Throttle and Shift Linkage
- Section 7B - Tiller Handle
- Section 8A - Recoil Starter
- Section 9A - Color Diagrams
Theory of Operation
Air Induction System
The air induction system consists of an intake manifold with an intake runner to each cylinder for a smooth air flow to the
combustion chamber. Each runner has a single fuel injector controlled by the ECM. The fuel injector has several very small
holes in the fuel injector nozzle tip, to help atomize the fuel when injected into the runner as the cylinder intake valve opens.
A single throttle body/shutter with an attached throttle position sensor (TPS), along with the idle air control (IAC) valve,
manages the amount of air entering the induction system. A combined manifold air temperature (MAT) and manifold absolute
pressure (MAP) sensor send manifold temperature and pressure information to the ECM to regulate the fuel injector pulse
width and to modulate the IAC duty cycle.
Fuel System
The fuel system consists of:
•
A fuel line connector
• A water‑separating fuel filter
• A low‑pressure mechanical fuel pump
• A pulse‑width modulated (PWM) high‑pressure electric fuel pump with integral fuel filter
• A fuel pressure relief valve
• A water‑cooled vapor separator tank (VST)
• Two fuel injectors
The low‑pressure mechanical fuel pump draws fuel from the fuel tank through the fuel line connector and fuel filter. The fuel is
then delivered to the high‑pressure fuel pump inside the VST. The high‑pressure fuel pump then supplies fuel to the injectors in
the fuel rail.
Fuel rail pressure is regulated both via pulse‑width modulation of the high‑pressure pump and by fuel recirculation through the
pressure relief valve inside the VST.
Each fuel injector sprays fuel into the intake manifold as the corresponding intake valve opens.
Fuel Pump
The fuel pump is a mechanically driven diaphragm pump that is driven off of the camshaft via a rocker arm. The pump base
insulates the fuel pump from the heat of the cylinder head/valve cover.
21124
Vapor Separator Tank
The vapor separator tank (VST) maintains a liquid fuel supply for the high‑pressure fuel pump and delivers pressurized fuel to
the fuel injectors at a regulated pressure. Fuel delivered from the mechanical low‑pressure fuel pump enters at the top of the
vapor separator and passes through a needle/float assembly that controls the fuel level with the VST. The high‑pressure pump
inlet is submerged below the fuel level and draws fuel in through an attached fuel filter.
The high‑pressure fuel pump is pulse‑width modulated by the ECM to deliver fuel flow in excess of the fuel volume injected in
the intake manifold by the fuel injectors. The excess fuel recirculates through the pressure relief valve within the VST.
Fuel System Operation
Page 3A-2 © 2018 Mercury Marine 90-8M0125265 eng NOVEMBER 2017