Table of Contents ON-BOARD MONITOR AND NAVIGATION SYSTEMS Subject Page On-Board Monitor .2 On-Board Monitor System Introduction.2 Components, Locations and Removal Information.4 On-Board Monitor and Navigation system interfaces.7 On-Board Monitor Controls and Indicators .8 Screen Samples of the On-Board Monitor Functions.11 Wide Screen Board Monitor. 15 Introduction.16 Component Overview.17 Principle of Operation.20 Workshop Hints.20 Mark I Navigation System .23 Global Positioning System (GPS).24 Navigation System Inputs.27 Mark I Navigation System Operation .30 Mark I Navigation System Calibration Overview.35 • Vehicle Owner Calibration .35 • Dealership Calibration Procedures .38 Mark I Navigation System Software Loading.50 Mark I Diagnosis and Troubleshooting .51 Mark II Navigation System .53 Mark II Navigation System Introduction/ Component Locations .54 On-Board Monitor and Mark II Navigation System Interface.58 Mark II Navigation Diagnosis Mode Displays.60 Mark II System Calibration.63 Mark II System Diagnosis.63 Mark III Navigation System .64 Purpose of the System.65 System Components.66 Workshop Hints.72 Review Questions 77 ON-BOARD MONITOR SYSTEM Model: E38, E39, E53, E46 Production Date: E46 1999 to 2002, all others 1997 to 2001. Objectives After completing this module you should be able to: • Describe the controls possible from the On-Board Monitor. • Explain the purpose of the ARCNET. • Know how to operate the various features controlled from the On-Board Monitor. 2 On-Board Monitor and Navigation Systems ON-BOARD MONITOR SYSTEM The On-board Monitor System was introduced as optional equipment on the 1997 MY E38s and E39s. It was made standard on the E38 750iL for 1999 and standard for all E38s in 2000. It uses the latest advances in electronic technology to bring new levels of comfort and convenience to the driver and passengers for control of the audio/communication systems. In addition the Mark I Navigation system is incorporated into the total scope of On-board Monitor Control. NOTE: The E39 six cylinder models with the On-board Monitor option are equipped with the high version IKE and On Board Computer functions. The On-board Monitor is essentially a control and display unit. All data processing and calculations are carried out by the individual system control modules. The display data is sent to the On-board Monitor over the various interfaces. The On-board Monitor is mounted in the center dash console. It replaces the RadioTTape Player, MID and DSP control panel (E38) if equipped. It consists of control knobs and buttons for programming and operating the various systems. There is a 5 1/4 inch, color LCD screen for display of all system functions. The tape player drive is also part of the On-Board Monitor unit. However, the radio receiver/amplifier module is now mounted in the trunk. The audio system is controlled from the on-board monitor. Additionally, the systems controlled and programmed through the On-board Monitor include: • On Board Computer • Navigation system • Telephone • Code Function • Set (on-board monitor setup) • Television (Early production only) • Digital Sound Processor (DSP) • Auxiliary Ventilation • Emergency (provides vehicle location and automatically dials telephone for help). • Monitor Off (Switches the monitor off). 3 On-Board Monitor and Navigation Systems COMPONENTS ON-BOARD MONITOR ASSEMBLY The on-board monitor assembly is mounted in the center console. It consists of the following components: • BMBT. BMBT is a German acronym meaning, “Board Monitor Bedien Tiel”. Translated to English this means On-Board Monitor Control Module/Panel. The BMBT is connected to the l-BUS. It provides the same function as the pushbutton inputs and output illumination of the LEDs of the familiar MID. REMOVAL OF ON-BOARD MONITOR ASSEMBLY FROM CENTER CONSOLE The on-board monitor is removed from the center console as an assembly as follows. 1. Remove the wood trim from the dash on both sides of the on-board monitor. 2. Unscrew the metal plates (E38) or unhook the latches (E39) from each side of the on-board monitor and loosen the recessed screw from the lower edge of the wood trim. 3. Remove the on-board monitor wood trim 4. With the on-board monitor wood trim removed, unscrew the four large torx™screws as shown. 5. Pull the on-board monitor assembly out of the center console. For complete procedures refer to group 65 repair manual in TIS. 4 On-Board Monitor and Navigation Systems The following components are mounted in the trunk on the left side behind the trim cover Mark I NAVIGATIO COMPUTER MODULE It contains a micro¬ processor and CD drive for navigation system operation. The navigation computer is linked directly to the video module which provides the visual and audio output instructions for the navigation system. AUDIO SYSTEM AMPLIFIER RADIO RECEIVER AUDIO SYSTEM CD CHANGER DEO MODULE The video module generates the Red, Green and Blue video signals for the on-board monitor LCD screen. The RGB signals are for all functions of the on-board monitor including the nav. system. The video module also serves as a data memory for the navigation system. As needed the video module instantly provides the RGB signals to change the on¬ board monitors display and sends the audio signals to the audio system amplifier. GLOBAL POSITIONING RECEIVER MODULE (GPS) The module determines the exact position of the vehicle from known orbits of GPS satellites. The GPS receiver determining the vehicle position. interfaces with the Navigation computer module for NAVIGATION COMPUTER REMOVAL: To remove the nav. computer from the mounting bracket insert four small phillips head screwdrivers into the four holes on the face plate. Push the screwdrivers in past a slight detent. Pull the nav. computer out of the mounting bracket SCREWDRIVER INTO EACH HOLE 5 On-Board Monitor and Navigation Systems The following components are located on the rear parcel shelf under the trim panel. MAGNETIC FIELD SENSOR The magnetic field sensor is a small micro processor. It is used while the navigation system is operating to determine the vehicle’s direction of travel. GLOBAL POSITIONING RECEIVER ANTENNA The antenna picks up the signals from the satellites and transmits them to the GPS module. Carry over components that are part of the On-Board Monitor / Navigation system include: • Instrument Cluster Control Module (IKE) for On Board Computer calculations • Multi-Function Steering Wheel (MFL) for radio and telephone control functions. • Telephone handset for operation of the phone. • ASC control module for the two front wheel speed sensor inputs. 6 On-Board Monitor and Navigation Systems ON-BOARD MONITOR AND NAVIGATION SYSTEM INTERFACES I BUS - The On-board Monitor Control Module/Panel is connected to the 1-Bus for communication with the other 1-Bus components. Data communication takes place over the 1-Bus between the BMBT and the following modules: • IKE • Telephone Handset • Multi-Function Steering Wheel (MFL) • Radio Receiver • Video Module • Audio System Amplifier ARCNET - The Attached Resource Computing Network is a high speed (2 MB/sec) digital data link. The Navigation Computer and Video Module are connected by the ARCNET for isolated high speed navigation system communication. The ARCNET is made up of two data wires and a shield similar to the familiar CAN data link. The shielded ARCNET cable has its own triaxial type connector ends that are pushed onto their mating connectors on the modules. Navigation data for board monitor display. Request for navigation data Nav voice output data Rear Window Defroster ON Diagnosis NAVIGATION COMPUTER Video Module Red, Green Blue (RGB) output - The On Board Monitor is connected to the Video module through the RGB connection for the LCD screen displays. Each of the three color signals is shielded. 7 On-Board Monitor and Navigation Systems ON-BOARD MONITOR CONTROLS & INDICATORS AUDIO SYSTEM Operation of the audio system (radio/tape/CD) is similar to current systems installed in other models. The major difference is that the display of stations and settings is through the LCD panel. Tape program and eject buttons. 1-6 buttons correspond to stored radio stations (12+6 Auto) and CD selections (CD 1-6 selection). Weather Band, FM - AM, Dolby and Mode Selection. Mode = Radio, Tape or CD function. Switches the Toggles the audio system audio display in on/off (PUSH) the monitor and adjusts the back to the volume previous (ROTATE). screen. Both the radio Amber LED and the illuminated monitor display when radio is are switched on. \ Arrow rocker switch. Adjusts the tone settings and is used for the seek/scan function for the radio, tape and CD track. \ TONE-SELECT Tone: Adjusts the bass, treble, balance and fader using the tone & arrow buttons. Select: provides choice of station selection method, ie: Manual, Scan, Scan Sensitivity. 8 On-Board Monitor and Navigation Systems TELEPHONE BUTTON AND INDICATORS Send/End button. As on previous systems this button sends the call to the displayed telephone number in the On-Board Monitor display or ends the current call. The telephone LEDs correspond to the E38/E39 MID: Green = Phone call in progress Red = Phone is on Amber = Steady: Roaming in same type system as home system Flashing: Roaming in different type system as home system Fan Symbol: Flashing indicates the park car ventilation system is programmed for activation. Steady indicates the parked car ventilation is currently on. Clock Button: Displays the time with the key switched OFF. Additionally, this button also switches the parked car ventilation system to off when it is on. ON SCREEN CONTROLS There are two main controls for all of the monitor screen displays. MENU BUTTON The menu button is used to call up the Main Menu as shown at right. This Menu provides access to all of the On- Board Monitor functions including: ■HZ □ n On-board computer Television GPS-Navigation DSP Telephone Aux. Ventilation Code Monitor off 07/24/96 Wednesday 7:05 PM ROTARY KNOB PUSH = Switches the monitor on or activates the selected program displayed in the monitor. ROTATE = Selects the desired function for programming or display 9 On-Board Monitor and Navigation Systems GPS AERIAL n GPS RECEIVER NAVIGATION COMPUTER WHEEL SPEED SIGNALS 10 On-Board Monitor and Navigation Systems SCREEN SAMPLES OF THE ON-BOARD MONITOR FUNCTIONS ON BOARD COMPUTER The functions of the On Board Computer remain the same as previous systems. All On Board Computer calculations are still performed by the IKE. The OBC is called up from the On¬ board Monitor main menu by highlighting the BC and pressing the knob. Once the computer functions are displayed, all programming and resetting of the displays is carried out using the rotary knob. MARK I GPS NAVIGATION The on-board monitor provides access to the new Navigation system. The Mark I Navigation system is controlled and displayed via the on¬ board monitor. □ r GREER SC 101 nj Instruction Route map New route Information GA 403 N. LAWRENCEVILLE | 07/24/96 Wednesday 7:05 PM | 11 On-Board Monitor and Navigation Systems TELEPHONE Selecting the Telephone function on the Monitor screen will call up a rotary dial display. The telephone can be dialed with the rotary knob by turning the knob and pressing it when the desired digit is highlighted. Once the number is input, the call is initiated by pressing the send/end button at the left of the Monitor. All telephone programming is carried out through the handset as on other telephone models. Other features of the monitor telephone control include: • Memory storage and recall • Information on signal strength and call timer • Top 8 number storage • Emergency call feature - Displays 911 or Assist. - Displays the vehicles current coordinates in latitude and longitude along with the street name (if the street is on the digitized map database). CODE FUNCTION The familiar BC code function is carried over to the On-board Monitor system. A four digit code can be entered into the system that will disable the vehicle from starting as with previous systems. 12 On-Board Monitor and Navigation Systems SET (On-Board Monitor Setup Utility) The Set Menu provides the on-board monitor display set up. This includes: • Language Selection • Time/date set and format • Etc. The “Audio+BC” selection at the bottom of the list switches the BC display off when the audio display is in the monitor. TELEVISION Early production only! The television function will be selectable from the main menu. Though audio is heard, television images will not display in the On-board Monitor. E38: vehicles are prewired for television viewing in the rear seat. A TV monitor connector is located in the rear of the center console for this purpose. This is only possible with owner purchased equipment. The On-board monitor will only serve as the controller for rear seat television. DIGITAL SOUND PROCESSOR (DSP) The DSP system, introduced with the E38 is controlled and programmed through the On-board Monitor. NOTE: US Law prohibits television display in the front seat viewing area. AUXILIARY VENTILATION The control and programming of the auxiliary ventilation feature is done with the on-board monitor. Use the rotary knob to program the on times for system operation. EMERGENCY The Emergency function provides the exact location of the vehicle including: • Street and Town (if on digitized map) • Longitude and Latitude Coordinates If the vehicle is equipped with a telephone, 911 or Assist (BMW roadside assistance) can be called directly from this screen. If the vehicle is not equipped with a phone the emergency program provides your location. MONITOR OFF Pressing the “Monitor Off” button switches the monitor to a blank screen. All programs are still functioning but not displayed in the monitor. The monitor is turned back on by pressing or turning any button on the on-board monitor. 14 On-Board Monitor and Navigation Systems WIDE SCREEN ON-BOARD MONITOR Model: E39,E38,E46,E53 Production Date: E38,E39 from 9/00 E53 from 1/01 E46 Cabrio from 3/01 all other E46 models from 9/01 Objectives After completing this module you should be able to: • Describe the benefits of the wide screen monitor over the previous versions. • Understand how to operate the wide screen monitor. • Review the procedures to access the Service Modes. 15 On-Board Monitor and Navigation Systems Introduction While the instrument cluster provides all of the important vehicle status information to the driver, the on-board monitor is designed as an additional display that can be viewed by both the driver and vehicle passengers. Information relating to the vehicle, navigation, audio sys¬ tem and telephone can be displayed and controlled from a central location. The wide screen on-board monitor replaces both the 5.5” versions in the E38 and E39, and the 5” board monitor from the E53 and E46. The wide screen display has a screen size of 6.5” and an aspect ratio (length:height) of 16:9. The benefits of the wide screen design are: • Larger display area and higher resolution (400X234 pixels). • Improved display screen technology (Ad-TFT LC). • Bigger text size. • Soft keys replace country specific audio function keys. • Used for all board monitor applications in all markets reducing variants. • Larger display area makes split screen and magnification features possible (future software enhancements). 16 On-Board Monitor and Navigation Systems Component Overview Cassette Drive The cassette drive is located behind the on-board monitor screen. In order to access the cassette, press the “eject” button, the display screen tilts forward to uncover the cassette slot. The images will remain displayed on the screen. After pressing the “eject” button again or automatically after 15 seconds the display returns to its normal position (cassette must be completely inside or removed). The tilt mechanism for the display screen utilizes anti-trap, if the board monitor detects a sudden change in speed, the display will reverse direction. 17 On-Board Monitor and Navigation Systems Display Screen and Control Panel The display screen has a diagonal width of 6.5” and an aspect ratio of 16:9 compared to the previous monitors that had a ratio of 4:3. The new screen also uses a Ad-TFT display (Advanced Thin Film Transistor). This type of screen uses ambient light in addition to back¬ lighting in order to illuminate the display. The advantage is a constant contrast and brightness level at all ambient lighting conditions. 6 5 | NCH display 16:9 ASPECT RATIO RADIO CONTROL KNOB \ PHOTOCELL SENSOR RADIO STATUS LED = Signal from ON-BOARD MONITOR CONTROL KNOB radio via l/K bus. AUXILIARY FAN INDICATOR LED INFO = Activates the soft key menu for RDS and PTY 1-6 BUTTONS = Audio presets and CD selection L M .. , AM/FM SELECTION MODE/DISPLAY = Mode selects between audio functions. Display alternates between radio display and other displays. BC,TEL,NAV etc. TELEPHONE STATUS LEDs / EJECT = Tilts monitor to access cassette drive. TELEPHONE = Send/End button TAPE REVERSE/CLOCK = Clock: Pressing with key off displays time. Aux. ventilation can be switched by holding button longer. TONE/SELECT=Tone: Dolby (cassette only) and audio adjustments. Select: Choose between station search methods (a,m or scan). FAST FORWARD/REVERSE / STATION SEARCH MENU = Returns display to main menu 18 On-Board Monitor and Navigation Systems Wide Screen Board Monitor Interface Telephone PSI Box AUDIO SIGNALS FOR AMPLIFICATION CD PLAYER AUDIO SIGNALS n n t TAPE PLAYER AUDIO SIGNALS MFL-CM Example of E38/E39 with Wide Screen Board Monitor 19 On-Board Monitor and Navigation Systems Principle of Operation The on-board monitor is an input and display device that performs no internal calculations. Inputs from the control panel buttons and knobs are converted into l-bus (K-bus E46) signals by the BM control panel. All of the devices controlled by the BM are connected to the l/K bus interface. The navigation computer contains the graphics stage integrated into the navigation computer housing. Request for on-board monitor displays are made to the navigation computer via the l/K bus. The navigation computer generates the RGB video signals and transmits them via 3 shielded wires. Audio signals generated by the cassette drive are sent via traditional audio wires (4) to the radio (located in the trunk or cargo area) for output to the audio system amplifier. Workshop Hints Service mode Access for the radio, on-board monitor and navigation service modes is available through the on-board monitor screen. To enter the radio service mode: • Turn the ignition key to position 1 (KLR). • Turn the radio on, then off, then on again. • Press the “INFO” button. From the selection list choose “RDS”. • Press and hold the on-board monitor control knob for at least 8 seconds. • The audio display window will show the radio serial number as the first display. • The station search < > buttons are used to scroll through the various settings. • Turn off the radio to “set” any changes made. Note: See the “NG” Radios module for a list of the tests and settings available in the radio service mode. 20 On-Board Monitor and Navigation Systems To enter the On-Board Monitor and Navigation Service Mode: • Turn the ignition key to position 1 (KL R). • From the Menu screen select “SET”. • Once in the Set screen, press and hold the “MENU” button for 8 seconds. • The Service Mode menu will appear on the display. • Select “On-board monitor” for monitor specific tests. Press and hold for 8 seconds after entering Service Mode main menu display the “SET” screen. -£- M AM 6 ON-BOARD MONITOR VERSION Sw level Hw level: Diag. Index: Bus index: Encoding index: Supplier 11.13.2000 Thursday < ◄ return Version Key function Brightness TQNE.SELECI Functions 10:17 o Tests and adjustments available for the on-board monitor are: • Version Information • Key Function (button and rotary knob test) • Brightness (Screen brightness adjustment) 21 On-Board Monitor and Navigation Systems Diagnosis Fault driven diagnosis is possible using the DIS/MoDiC Diagnosis Program. The Diagnosis Program features: • Identification • Read/Clear fault memory • Diagnosis requests • Fault driven test modules. (E46 concept) 22 On-Board Monitor and Navigation Systems Mk-1 NAVIGATION SYSTEM Model: E38, E39 Production Date: 10/96 to 9/97 Objectives After completing this module you should be able to: • Understand the principles of GPS Navigation. • List the components used in the Mk-1 system. • Recognize the reasons that would require a system calibration. 23 On-Board Monitor and Navigation Systems GPS - NAVIGATION SYSTEM GLOBAL POSITIONING SYSTEM (GPS) The BMW Navigation system operates in conjunction with the Global Positioning System (GPS). Utilization of the GPS improves the accuracy and provides redundancy for the Navigation system which also incorporates a dead reckoning system. The GPS was designed by the US Government in the 1970s for military purposes. In recent years it has been made available for civilian use. There are 24 satellites equally divided among six orbits that are positioned 11,000 miles out in space. Each satellite continuously emits a radio signal. The signals contain short information messages including: • The exact time the message was broadcast. • Current latitude and longitude positions relative to the orbit. 24 On-Board Monitor and Navigation Systems A GPS receiver device on earth receives these signals from the satellites and determines its own location by: Comparing its internal clock signal with the satellites. This determines the distance from the satellites location. Through triangulation computation, the receiver module calculates its own longitude and latitude position. This is only possible when it receives a minimum of three satellite signals. ^ SATELLITE B SATELLITE C IF SATELITE "A" IS THERE, "B" IS THERE AND "C IS THERE, MY CALCULATIONS TELL ME THAT I AM AT THESE COORDINATES: GPS SIGNALS INCLUDE: • EXACT TIME OF SIGNAL • CURRENT SATELLITE COORDINATES In a sense, GPS can be compared to navigation methods used by sailing ship navigators years ago. They used a sextant to plot the changing locations of known stars to determine their own position. This, in conjunction with compass navigation, proved an accurate method of sailing across the seas. On-Board Monitor and Navigation Systems The BMW navigation system is based on the CARiN™ system developed by Philips Electronics. CARiN™ = Car Information and Navigation System. The BMW Navigation system is a CD driven, on board, active route mapping computer. The driver can enter a destination through the On Board monitor and the navigation system will select a mapped route, from the current location, to the destination. The route maps are stored digitally on a navigational database CD that is installed in a dedicated CD drive in the navigation computer. The U.S. is divided into 7 mapped CD database areas ranging from: • Area 1- California and Nevada, through • Area 7 - Covering the South Eastern States. In addition to the digitized route maps, other information such as hotels, restaurants, service stations, dealerships, points of interest and local sight-seeing attractions along with their addresses are stored on the database CD. The map CDs are currently being updated twice a year. As the updates occur, more streets and roads will be added. In addition, more local information will be added with regards to businesses, hotels, motels, local attractions, etc. 26 On-Board Monitor and Navigation Systems MARK I NAVIGATION COMPUTER INPUTS The Mark I Navigation computer relies on the digitized map CD data to calculate the routes to the selected destinations. The Nav. computer also relies on accurate input signals from the vehicle to calculate the exact coordinates of the vehicle at all times. GPS SIGNALS INCLUDE: • EXACT TIME • CURRENT SATELLITE COORDINATES GPS INPUT SIGNAL: The GPS receiver module communicates with the navigation computer over a four wire bi¬ direction interface. The Navigation computer requests the exact coordinates of the vehicle over the RXD-RXDN link. The GPS receiver module responds with the data over the TXD-TXDN link. 4 RXD ITULJR—fUlJlJlJTJTJi t RXDN 4 WIRE, BI-DIRECTIONAL DATA INTERFACE "UTimjrnjL^^ UinrLJiJiJirTrirLJi TXDN REQUEST FOR VEHICLE POSITION CURRENT VEHICLE TXD POSITION (COORDINATES) TXDN BMW NAVIGATION SYSTEM O KL 31 Each two wire link is similar to the CAN line signal but unidirectional. When a data burst is transmitted it is mirrored on the other wire as a self check of the data transmission. The GPS receiver module is provided KL 30 to maintain vehicle position in memory. When KL R is switched on the receiver module resumes monitoring the satellite radio signals picked up from the GPS aerial. The link to the GPS antennal is a gold plated coaxial connector. 27 On-Board Monitor and Navigation Systems MAGNETIC FIELD SENSOR In addition to the vehicle’s current position, the navigation computer also needs a direction of travel input. The magnetic field sensor is used for this purpose. The sensor consists of a ferromagnetic ring with two coils of wire placed 90° apart. Signals from the two coils become the vehicle’s directional input when the navigation system is in operation. MAGNETIC FIELD SENSOR BMW Test system Oscilloscope display v <51 m y . INTERSECTING -MONITORING ■COMPARED WITH A TABLE IN THE NAV COMPUTER EQUALS EXACT DIRECTION SENSOR OPERATION The sensor receives its operating power and ground from the navigation computer. When the system is switched on, magnetic fields are induced into the coils. The coils produce a voltage signal that is input to the navigation computer. As the vehicle turns to the left or right, the earth’s magnetic field influences the coil’s magnetic fields causing them to increase and decrease. The changing strength of the magnetic fields causes the voltage signal induced in the coils to increase and decrease linearly. This creates a changing voltage drop at the monitor in the navigation computer. The navigation computer determines the direction of travel of the vehicle by plotting the simultaneously changing voltage signals. 28 On-Board Monitor and Navigation Systems FRONT WHEEL SPEED SENSORS The navigation computer is provided with the front wheel speed signals to track the vehicle speed/distance and turning. LEFT FRONT * WHEEL SPEED i\ SIGNAL RIGHT FRONT * WHEEL SPEED SIGNAL r- MORE S SIGNAL \ PULSES \ FROM \ THAN \ RIGHT \ LEFT j l_ EFT | \ RIGHT FRONT | 1 lit | FRONT WHEEL | if ||f 1 WHEEL - V REVERSE GEAR SELECTED The nav. computer receives a 12 volt signal from the LCM when the back up lights are illuminated. This signal informs the nav. computer that the vehicle is being driven in reverse. REAR WINDOW DEFROSTER ON SIGNAL When the rear window defroster is switched on the C€=[MJJ! nav. computer is informed via the vehicle bus system: IKE REVERSE GEAR SELECTED - • IHKA to the IKE (Kbus) • IKE to video module (Ibus) • Video module to the nav. computer (ARCNET) When the nav. computer receives the signal, it compensates for the magnetic influence from the rear defroster. This compensation is derived from the dealership calibration procedure. REAR WINDOW DEFROSTER ON WDDE© MODULI ARCNET NAVIGATION COMPUTER RIGHT REAR REVERSE LIGHT 29 On-Board Monitor and Navigation Systems MARK I NAVIGATION SYSTEM OPERATION NOTE: There are several methods for entering destinations into the navigation system computer. The following example uses the rotary knob to input a destination from the input destination screen. Enter the navigation system by pressing the GPS-Navigation button from the main menu. After acknowledging the system warning, any previously entered destination is displayed. This destination must be deleted or overwritten in order to input a new destination. The rotary knob is used to enter a city/town from an Alpha-Numeric menu or the destination can be selected from the index of listed locations that are mapped on the CD. Next the desired street is entered in the same fashion. The street number can also be entered at this time. If the street number is on the database CD, the nav. system will guide the driver directly to the house number. There are two choices for route preference available from this screen, • “most use of highways” • “least use of highways” With either selection, the system will pick the most direct route to the destination, based on the selection. Once the location has been entered, the navigation system is ready for guidance. Press the directions button. 30 On-Board Monitor and Navigation Systems n mm Please drive safely, wear your safety belt. The navigation system is no substitute for the observance of traffic laws and constant attention to actual traffic situations. For your safety do not enter data into the navigation system while driving. Please press the rotary knob to accept. 1 07/24/96 Wednesday 7:05 PM INPUT DESTINAT UNITED STATES GREER SC 101 Most use of highways Delete destination Information | Directions 07/24/96 Wednesday 7:05 PM The system will guide the driver via: • The graphical direction display - which consist ot arrows and text that show the current location, the destination and direction ot travel. When turns or intersections approach, a voice command will inform the driver when to turn. ENTERED DESTINATION DISTANCE TO NEXT INTERSECTION DIRECTION OF ROAD PRESENT LOCATION (ROAD, TOWN) MILEAGE TO DESTINATION GREER SC 101 300 YRDS Instruction Route map New route Informatior A 403 N. LAWRENCEVILLE 07/24/96 Wednesday "HEADING DIRECTION" TO DESTINATION INPUT SCREEN AUDIO INSTRUCTION ("STRAIGHT ON") TO GRAPHICAL MAP DISPLAY CALCULATES ALTERNATE ROUTE TO ENTERED DESTINATION TO INFORMATION SCREEN • The graphical map display - which consists of a digital road map showing the entered route, destination and vehicle position. NORTH HEADING "HEADING DIRECTION" GRAPHICAL DESTINATION GRAPHICAL MAP DISPLAY GPS INDICATOR MILEAGE TO DESTINATION DISTANCE TO NEXT INTERSECTION VEHICLE CURSOR In either display mode a voice command will inform the driver when to turn when turns or intersections approach. The navigation screen display can be turned OFF (from main menu) and the system will remain in operation. The voice command will continue to inform the driver when to turn. 31 On-Board Monitor and Navigation Systems GRAPHICAL MAP SCALE The graphical map display can be scaled up or down from 400 feet to 50 miles depending on the distance to the destination. This function is activated by turning the knob one click, and a sub menu will display on screen. Choose “Scale” and adjust as needed. GRAPHICAL MAP POSITIONING The graphical map can be displayed “North Pointing” or “Direction of travel”. This function is also accessed by turning the knob one “click” as described above. m □ n 0 1 SURPRISE LAKE lakeside DrV^ 07/24/96 Wednesday 7:05 PM North Pointing = Top of map is always facing north. □Bn n 5 WOODLAND PARK /o * 130 mi. 3700 yd EH J?- o J 07/24/96 Wednesday 7:05 PM w Direction of Travel = Top of map is always facing direction of vehicle 32 On-Board Monitor and Navigation Systems GPS INDICATION Satellite reception, by the navigation system, is indicated in the upper right corner of the display screen. The number of satellite signals being received by the system is indicated by small white dots in the display that surround the picture of the globe. In addition, the GPS logo is displayed at the bottom of the graphic. NO SATELLITE SIGNALS SATELLITE SIGNALS RECEIVED BUT NOT CONSISTANT ENOUGH TO CALCULATE ACCURATE VEHICLE POSITION SATELLITE SIGNALS RECEIVED AND CONSISTANT FOR CALCULATION OF ACCURATE VEHICLE POSITION The number of dots indicate the number of satellite signals that the navigation computer is receiving. If only the globe graphic is displayed, without the dots or logo, the vehicle is in a poor reception area or the signals are being blocked by some obstruction. The dead reckoning function of the compass and wheel sensors provide adequate navigation in this situation. If the dots and logo fail to display in a known good reception area, than a fault is indicated and troubleshooting should be carried out according to the fault symptom ‘GPS Problems”. 33 On-Board Monitor and Navigation Systems NAVIGATION SYSTEM INFORMATION SCREEN The Information screen provides access to the balance of the navigation system features including: POINTS OF INTEREST AT ENTERED DESTINATION POINTS OF INTEREST AT CURRENT LOCATION ROUTE PREFERENCE (SAME FUNCTION FROM ENTER DESTINATION SCREEN) NAVIGATION AUDIO VOLUME CONTROL fo on destination \7 Info on current location Route preference Point to destination-Th Addressbook ' Volume-Navigation Vehicle Position 07/24/96 Wednesday POINT TO DESTINATION (X / Y CURSOR POSITIONING FOR DESTINATION ENTRY) 7:05 PM ADDRESSBOOK (SAVE ENTERED DESTINATIONS FOR FUTURE USE) ACCESS TO SYSTEM CALIBRATION FUNCTION - OWNERS MENU - DEALERSHIP MENU Information on destination or current location provides a detailed list of stored points of interest such as: • Gas stations • Banks • Restaurants • Hotels, etc., This feature allows the user to enter the point of interest and change the route to guide the driver to the entered point. VEHICLE POSITION The vehicle position selection from this screen provides access to the Calibration function of the navigation system. 34 On-Board Monitor and Navigation Systems MARK I NAVIGATION SYSTEM CALIBRATION The Mark I navigation system will require “calibration” at some point in it’s service life. The reasons that cause the necessity of a calibration procedure are as varied as inaccurate navigation display data, after the installation of a new set of tires, to the replacement of a shattered rear window. Calibration procedures are divided into two categories • Vehicle Owner Calibration - Calibration that the vehicle owner can perform. • Dealership Calibration - Procedures only an authorized dealer can perform. This section is divided into these two categories. Always consider what the owner of the vehicle could have inadvertently changed when troubleshooting and/or calibrating the vehicle. Check these data inputs before you embark on a full dealership calibration procedure. VEHICLE OWNER CALIBRATION The vehicle owner’s manual contains the information on how to set the vehicle position and adjust the tire calibration. Both of these adjustments are found on the vehicle position screen which is accessed from the information screen as shown on page 24. “The Owner Calibration Procedures shown on pages 25-27 are for information purposes only. A full Dealership Calibration is the recommended method for accurate system calibration.” 1. RESETTING VEHICLE POSITION A mis-located vehicle is caused by driving in and out of the digitized map areas or starting a vehicle after it has traveled on a flat bed or train. The system will eventually relocate itself automatically through GPS but it can be entered through the on-board monitor for immediate resetting. From the Vehicle Position Screen, rotate the knob to “city:” and push the knob. Enter the city and street information as you would enter a destination. Press the “Intersection” button and select the closest intersecting street from the displayed index. Drive to the entered intersection and press the “Crossing the intersect.” button when you cross. n rwi n Setting of car parameters Wheelbase E39 Track width 1512 Drive the vehicle to see if it is positioned correctly. 35 On-Board Monitor and Navigation Systems 2. ADJUSTING TIRE SIZE Tire calibration is a required input for the Nav computer to base, tire rotation: distance covered ratio. It should be checked to determine that the entered tire size is the same as the tires equipped on the vehicle. Additionally, if the vehicle does not have factory equipped tires installed, the tire calibration will need to be changed to match the new tire size. Press the “Tire Calibration” button from the vehicle position screen. The following message is displayed noting the overwrite of existing values once the procedure is completed. Press continue to access the tire adjustment screen. Press the tire size and rotate the knob to see if the tire size is listed. Select the correct tire size and press the button once again. Note that the tire circumference size automatically changes to the set tire size. If the tire size is not listed the tire circumference value must be entered manually by rotating the tire size button to the “???” position. Press and adjust the actual tire size dimension in millimeters. This value is available from the tire manufacture or it can be measured as illustrated on the next page. "Overwriting" the front tire size cancels the former values. Prior to fine-adjustment check accuracy of the indicated distances over a period and make only minor corrections. Continue 1 07/24/96 Wednesday 7:05 PM Once the correct tire size or circumference has been entered, press the return button to return to the information screen or press the continue button to go on to the Precision Adjustment screen. 36 On-Board Monitor and Navigation Systems TIRE CIRCUMFERENCE MEASUREMENT 1. PLACE A STRAIGHT EDGE UP AGAINST 4. PLACE STRAIGHT EDGE AGAINST TIRE. THE TIRE DIRECTLY IN THE VERTICAL MOVE VEHICLE PRECISELY TO ALIGN CENTERLINE OF THE TIRE THE MARK WITH THE STRAIGHT EDGE. 2. MARK TIRE AND GROUND AT SAME POINT 5. MARK GROUND. MEASURE DISTANCE. PRECISION ADJUSTMENT This screen activates a “Regulator” function that “fine tunes” the tire adjustment with regard to the displayed distance to an intersection measurement. If the displayed measurement is consistently “0” before the intersection is reached slide the regulator bar towards the end of the scale. If the displayed measurement is consistently “0” after the vehicle has passed the intersection, slide the regulator bar towards the “+” end of the scale. When finished press the Ready button. It will require a little “trial and error” to achieve precision adjustment. Keep in mind that distance displays that are 30’ to 60’ out of intersection, in either direction, are within the design tolerances of the system and are acceptable. Don’t expect major results from using the regulator function. If there is an unacceptable displayed distance (more than 150’), the most effective method to calibrate the system is to keep the regulator adjustment at “0” and perform a full dealership calibration procedure. 37 On-Board Monitor and Navigation Systems DEALERSHIP CALIBRATION Calibration of the navigation system must be checked or performed when various components of the system are changed or when the troubleshooting procedures of the diagnostic module call for it. The calibration procedures are stored in the Navigation computer module and are called up for display on the LCD screen. Complete or partial calibration is required when the following components are changed: • Navigation Computer Module - Complete calibration automatically required. • Magnetic Field Sensor or rear window (defroster replacement) - Sensor Check and Compass Calibration • Tires/Wheels - Setting of tire size in tire calibration screen (from Owner Calibration Section) and wheel sensor calibration. Additionally, if the vehicle has had body work (new sheet metal or welding work) a sensor check and Compass calibration should be performed . The following preconditions must exist before a successful calibration can be carried out: • No faults stored in the Navigation system. • The correct tire size set in the tire calibration screen. Tires inflated to correct pressures. • Known location of: - A large flat parking lot with enough width to allow the vehicle to be driven in tight circles to the left and right. - A “back street” (no traffic) with a minimum 100 meter (approx 330 ft) straight path. • There should be no overhead power lines/transformers in the immediate vicinity of the parking lot to create any magnetic interference with the magnetic field sensor. • All electrical consumers should be switched off - Rear window heating, Radio, seat heating, air conditioning, etc. TOOLS NEEDED FOR DEALERSHIP CALIBRATION • Metric tape measure (minimum 8 meters). • Piece of white chalk. • 2” X 2” angle iron (6’ long). 38 On-Board Monitor and Navigation Systems CALIBRATION PROCEDURES The navigation system calibration screen menu is called up trom the information menu screen. Select “Vehicle Position” from the information screen, then press and hold the menu button for a few seconds. The system will enter the calibration mode. Press “Continue” to proceed with the desired system calibration. You are starting the nav calibration. Switch off all electrical consumers and carefully perform the following steps. 07/24/96 Wednesday 7:05 PM | The first Dealer calibration screen provides five selections. A full dealer calibration procedure consists of carrying out all five selections. H dpi Though they can be done individually with positive results, it is recommended to complete all five steps to achieve consistent positive results. Start at “Setting Car Parameters” and end with “Finish Calibration”. NOTE: If a new navigation computer is being calibrated for the first time, the individual buttons will not be selectable. The system will automatically go into a “fixed sequence calibration” requiring all steps be performed. petting of car parameters Sensorcheck Wheel sensor Compass Finish Calibration 1 07/24/96 Wednesday 7:05 PM 39 On-Board Monitor and Navigation Systems 1. SETTING OF CAR PARAMETERS There are two settings in the parameters screen: • The vehicle’s track which is as follows for the different vehicles: • The vehicles wheel base which will be an E38 long/short wheel base or an E39. E38 - long = 1549 E38 - short = 1549 E39 =1512 Changing these settings is not required unless a new Navigation computer is installed in the vehicle. If a new nav computer is being calibrated for the first time, enter the vehicle type. NOTE: These settings should be checked as part of the troubleshooting procedures to verify that they are correct. If the displayed setting does not match the figures above, momentarily select another vehicle type and switch back to the correct vehicle. The track width value will change to the displayed values as shown above. AFTERMARKET WHEELS OR SUSPENSION MODIFICATIONS: If the vehicle is equipped with aftermarket wheels or has modified suspension components, the track width may need to be manually adjusted. Do the following to obtain this figure: 1. With the vehicle on the ground (suspension loaded), measure the distance between the two front rims (inner rim tire bead lips) in millimeters and note the measurement. 2. Measure the thickness of one front rim (inside lip to outside lip) using calipers and note the measurement. 3. Add these two figures together. The total is the measured track width. Turn the rotary knob to the vehicle type. Then turn the knob “one click” to the LEFT to access the track measurement. Turn the knob to enter the value manually. Press knob when finished. 40 On-Board Monitor and Navigation Systems 2. SENSOR TEST The Sensor Test performs a functional check of the wheel speed sensors and magnetic field sensor inputs to the navigation computer. This test must be carried out if the navigation computer is replaced. The DIS will also call for this test to be carried out as part of the troubleshooting procedures. □ SENSOR CHECK Slowly drive a full circle to the left. Please select START at the beginning and STOP at the end of the circle. The test requires driving the vehicle in a tight circle at a speed of 6 MPH or less. If there are no faults with the inputs, the system will display “Calibration Successful”. At this point the calibration procedures can be continued or the vehicle can be returned to the workshop to continue the diagnostic procedures. 41 On-Board Monitor and Navigation Systems 3. WHEEL SENSOR This procedure is necessary when the navigation computer or wheel/tires have been changed. The procedure calibrates the wheel circumference/speed sensor input to the navigation computer so that the distance traveled input is correct. The tire inflation pressure must be checked and correctly set prior to carrying out this test. NOTE: The screen instructions will indicate a 4 and 6 meter distance in this procedure. Field testing has proven that a distance of 8 meters provides a more precise wheel sensor calibration. 1. Make sure the front wheels are facing forward. Place the angle iron against the back side of the rear tires. r OVERHEAD VIEW ^ 1.6'X 2" X 2" ANGLE IRON 8m 5. MARK GROUND WITH CHALK 4. MARK GROUND WITH CHALK 3. STARTING AT 0, MEASURE OUT TO 4 AND 8 METERS 2. MARK GROUND WITH CHALK 0 2. Mark the road with the chalk where the angle iron contacts the road. This is your starting point. 3. Using a metric tape measure, measure out 4 and 8 meters from the starting point 4. Mark the distance on the road surface at four (4) meters. 5. Mark the distance on the road surface at eight (8) meters. 42 On-Board Monitor and Navigation Systems 6. Press the start function on the On-board monitor. 7. Drive the vehicle slow and continuously forward (don’t stop) until the rear tires are between the 4 and 8 meter marks (go as close to the 8 meter mark as possible) and MEASURE EXACT DISTANCE 4m 0 9. PLV\CE ANGLE IRON UP AGAINST THE REAR OF THE TIRES AGAIN AND MARK GROUND stop. 8. Press the stop button on the monitor. Set the parking brake. 9. Place the angle iron up against the rear of the back tires again and mark the ground with the chalk. 10 Precisely measure the distance from the starting point to the end point (tolerance < 1cm) and input this value using the rotary knob. Then press continue. Drive the vehicle to the known minimum 100 meter street or area. Press the start button by driving the vehicle straight ahead for a distance of at least 100 meters. • The vehicle speed must also be < 40 KMH and the steering wheel must be held straight. • Once you have travelled at least 100 meters stop the vehicle and press stop. • The monitor screen will display the calibration has successfully completed. 43 On-Board Monitor and Navigation Systems 3. COMPASS (MAGNETIC FIELD SENSOR CALIBRATION) The magnetic field sensor must be calibrated if: • The field sensor is replaced • The navigation computer is replaced • The rear window with the heating grid is replaced • Body work (welding, reconstruction) Calibration of the field sensor is a three step process that includes: H COMPASS CALIBRATION Select calibration via CIRCLE or drive around a BLOCK of houses Circle Block | 1 07/24/96 W ednesday 7:05 PM | COMPASS STEP 1 . Allowing the sensor to read all directions of travel. This is carried out in one of two different methods; • Driving the vehicle in several tight “circles”, or • Driving several times around a “block” (“city block”, “block of houses”) One of these methods must be selected on the monitor before beginning. 44 On-Board Monitor and Navigation Systems Preferred Method- CIRCLE Driving the vehicle two complete circles - both counterclockwise and clockwise - will cover all directions. Press Start, the speed of the vehicle must not exceed 6 MPH during the calibration. Press Stop when you have completed. The monitor will indicate that the navigation computer has seen all directions of travel by displaying “Calibration Successful”. B r IEI if Alternate Method - BLOCK Driving the vehicle around a block several times will also allow the navigation computer to see all directions of travel. The monitor will automatically indicate when this section of the calibration is completed. 45 On-Board Monitor and Navigation Systems COMPASS STEP 2. Calibration of the magnetic field sensor input to the navigation computer. This procedure is only possible after STEP 1 has been completed. Step 2 is carried out in one of three different methods; • Calibration using a digitized address. • Calibration using the GPS satellite signals. • Angular calibration using the direction of a long section of road. Preferred Method - DIGITIZED ADDRESS This procedure can only be used within a fully digitized CD map area. The actual location is entered into the on-board monitor and the navigation system will display a route between two road intersections, along which the vehicle must be driven. 1. If the town is not already displayed, enter it in the same method as entering a destination. 2. Enter the street at which you want to start the calibration. 3. Press the intersection button. 46 On-Board Monitor and Navigation Systems 4. Select the street from the list of intersecting streets that is close to where the vehicle is at this point. 5. Press the “In direction” button. This brings up a list of streets that are in the direction of your planned calibration drive. 6. Select the street that is in your planned direction of travel. 7. Press Start when you begin to drive. □ Parkway Drive -> Patton Ave. |Roche Street -> Aton Blvd. o 1 07/24/96 Wednesday 7:05 PM | After Start Drive in direction wait for results or select Stop. J Start Stop 07/24/96 Wednesday 7:05 PM The screen will automatically confirm that the calibration was successful. Press the continue button to go to Compass Step 3; Rear Window Defroster grid compensation calibration 47 On-Board Monitor and Navigation Systems COMPASS STEP 2 (Continued) Alternate Method - GPS This requires driving the vehicle in all directions until the navigation computer fixes the field sensor inputs. This may require several minutes of driving to complete this step. The roads should be as straight as possible and free from any overhead obstructions that might block the upward view to the satellite signals. The screen will automatically confirm that the calibration was successful. Press the continue button to go to Compass Step 3; Rear Window Defroster grid compensation calibration SIS F*l COMPASS CALIBRATION After start, drive some some long, straight distances in several directions. Watch for clear sight to the sky wait for the result or select stop. I 07/24/96 Wednesday 7:05 PM | Last Method - Angle Angular calibration using the direction of a long section of road. To use this method, the geographical angle of the road must be known and input into the navigation computer to within ±1 °, then the vehicle must be driven along this route. n □ Calibration Successful. Continue | 07/24/96 Wednesday 7:05 PM Any of these three described methods will perform the second step in the compass calibration. Once this step is complete, the last step can be carried out. 48 On-Board Monitor and Navigation Systems COMPASS STEP 3 - REAR WINDOW DEFROSTER COMPENSATION This procedure is only possible after steps #1 and #2 have been successfully completed. The navigation computer determines the magnetic field generated by the defogger grid so it can compensate for this when the rear defogger is switched on. • Switch the rear defogger ON and confirm the input on the Monitor screen. Wait for acknowledgment by the navigation system. • Switch the rear defogger OFF and confirm the input on the monitor screen. Wait for acknowledgment by the navigation system FINISH CALIBRATION Once all of the required calibration procedures have been carried out, press the finish calibration button. This will display whether the calibration process was successful or if faults or problems have occurred that require troubleshooting with the DIS . REAR WINDOW HEATING Please wait a moment. REAR WINDOW HEATING Stop Car. Switch ON rear screen heating and select ON, then switch OFF and Select OFF. 07/24/96 Wednesday 7:05 PM 49 On-Board Monitor and Navigation Systems MARK I NAVIGATION SYSTEM SOFTWARE LOADING As new operational software becomes available, it will be necessary to update existing navigation computers with this latest version software. As with other BMW systems, the software will be distributed on a CD. It will be introduced by an SI or IDC bulletin describing the revisions of the new CD and the loading procedures as outlined below. The software loading procedure is also required if the troubleshooting procedures of the DIS tester call for it.. The procedure for loading the updated software is a s follows: • Remove the existing digitized map database CD. • Turn the ignition switch On. • Insert the new software CD. • Any currently running program will be interrupted and the message “Please Wait” will be displayed on the monitor screen. • The new software will automatically be installed. When the procedure is complete, the screen will display “Software Loaded Successfully”. • The software loading must be acknowledged by pressing the rotary knob and removing the software CD. • The digitized map CD is then reinstalled - followed by a map guided test drive to ensure proper operation of the navigation system. 50 On-Board Monitor and Navigation Systems MARK I DIAGNOSIS AND TROUBLESHOOTING There are three diagnostic programs for the On Board Monitor system with the Mk-1 Navigation Computer with video module. Based on the customer complaint, one or more of these systems will need to be accessed with the DIS Tester for diagnostic purposes. CONTROL MODULE ID: BOARD MONITOR CONTROL MODULE ID: NAV COMPUTER CONTROL MODULE ID: VIDEO MODULE The On Board Monitor system must be fully functional before any visual displays, inputs or programming can be carried out. The Video Module must be fully functional before any graphical displays can be transmitted to the Monitor unit. The Navigation Computer must be fully functional before any programmed destinations can be called up for display and directions. In all cases fault troubleshooting should begin with the “Fault Symptom” troubleshooting paths provided by the DIS. In the case of positioning errors or faults with the Navigation System, the DIS will request a “Sensor Test” be performed prior to carrying out the diagnosis. This test procedure is outlined in the calibration procedures. 51 On-Board Monitor and Navigation Systems The navigation system diagnostic software has a “SELECTION” screen that is unique to any previous system. • The choice, 1 - “Start diagnosis again”, means to start the diagnostic session (either the first time or restart a fresh diagnostic session.) • 2- “Sensor test has already been carried out, reassume diagnosis.”, means to resume the diagnostic session. This selection is used when you have first started a session and the instructions on the DIS screen request that you disconnect the vehicle and bring it outside for a sensor check or another “field test” of some type as described in the diagnostic pages. When you return to the DIS, Select #2 to resume the diagnostic session started previously. The Navigation Service Functions contains calibration data screens to review the vehicles present state of calibration (calibration status list). The calibration data (#2) is set up for E38 vehicles only at the time of navigation system introduction. Calibration data of wheel-sensor calibration provides a printout page of the vehicles actual distance to wheel sensor pulse. This screen will prove helpful when dealing with the technical hotline if additional data is requested from them on wheel sensor calibration data values. NAVIGATION COMPUTER FLASH CODES The “ON LED” of the navigation computer automatically provides flash codes for when a fault is present. • Single Flash = Internal control module fault. • Triple Flash = ARCNET data link problem (open, short). 52 On-Board Monitor and Navigation Systems MK-2 NAVIGATION SYSTEM Model: E38, E39, E53, E46 Production Date: From 9/97 to 9/00. Objectives After completing this module you should be able to: • Explain the differences between Mk-2 and Mk-2 Navigation. • List the components used in the system. • Describe the operation of the Gyro Sensor. 53 On-Board Monitor and Navigation Systems MARK II NAVIGATION SYSTEM The Mark II Navigation system became available as factory installed optional equipment for all E38/E39 vehicles starting with 9/97 production. Manufactured by Phillips, the Mark II system is the second generation Navigation system based on the Mark I system introduced in October 1996. To the operator, the Mark II system changes are almost transparent. The overall system function and most of the systems components carry over from the Mark I system. The Mark II system provides: • Reduction in the total number of components, • Simplified control module interface, • Automatic calibration procedure. COMPONENT LOCATIONS AND CHANGES Trunk area: At first glance, the reduction of Board Monitor/Navigation system components in the left side trunk area, is immediately recognized. • Though the Navigation Computer looks the same as the Mk-1 from it’s installed posi¬ tion, it is actually a different component. It provides expanded capabilities and simpli¬ fied system interface compared with the same component of the Mark I system. • The GPS receiver module is also a different component. It has an ELO connector for 26 pin breakout box compatibility. • The radio and audio system amplifier are the same compo¬ nents of the previous system. • The Video Module of the Mark I system is not utilized with the Mark II system in the US market. All of the Navigation system/Board monitor functions previously handled by the video module are controlled by the Mk-2 navigation computer. 54 On-Board Monitor and Navigation Systems Parcel Shelf Mounted Components: The GPS Receiver Module Antenna is the only compo¬ nent of the Mark II system mounted on the parcel shelf. The antenna component has a slightly different appear¬ ance but provides the same function of the Mark I system antenna. The parcel shelf mounted Magnetic Field Sensor of the Mark I system is not used for the Mark II system. Board Monitor: The physical characteristics of the Board Monitor are unchanged from the Mark I system. It provides the visual display information and control for: • Audio system (radio, tape, cd and DSP systems) • Board Computer V • Mark II Navigation system • Telephone (if equipped) • Emergency function (Mayday programming) • Owner customized Board Monitor settings Since the limited television audio capabilities of the Mark I system are not available with the Mark II system, the Television function has been removed from the Board Monitor main menu. 55 On-Board Monitor and Navigation Systems MARK II NAVIGATION COMPUTER Though the front bezel is identical to Nav computer of Mark I system, the Mark II Navigation computer is an different new component. Standardized ELO connectors replace the “blade type” connectors of the Mark I system. This ensures circuit integrity and allows simplified 26 pin breakout box connection for diagnostic purposes. The expanded capabilities of the Mark II Nav comput¬ er has made it possible to delete the following required connectors of the Mark I system: • the magnetic field sensor input connector, • the ARCNET triaxial connector, • the 3 amp fuse has also been deleted. INTEGRAL ELECTRONIC PIEZO GYRO SENSOR The nav computer contains an elec¬ tronic gyro sensor that detects changes in the vehicle’s driven direc¬ tion (changes in vehicle yaw). Similar to the Rotation Rate Sensor of the DSC III system, the gyro sensor mea¬ sures the motion of the vehicle on it’s vertical axis. This is an internal component of the Nav Computer. It is not serviceable nor does it require calibration. Do not open the Nav computer, this will void it’s warranty. Photo is only intended to pro¬ vide functional understanding The gyro sensor provides status of vehicle turning maneuvers in the form of a changing voltage signal that the Nav computer uses as an input signal. The Nav computer requires the gyro sensor’s input signal along with the digitized map CD, the vehicle speed signal, and the GPS signals together to calculate, continually update and display the exact vehicle position on the LCD. 56 On-Board Monitor and Navigation Systems Gyro Sensor Operation: • The internal control electronics of the sensor maintain a constant set frequency which is applied to the oscillation elements causing a calculated vibration to occur. The frequency is also simultaneously monitored by the phase detector. • The vibration passes up to the pick-up elements of the tuning fork causing them to vibrate and be suspended in a free floating state, easily influenced by rotational movement. (turned/veered left, or turned/veered right) • When the vehicle turns, the free-floating upper ends of the tuning fork flex. This generates a millivoltage signal proportional to the turn. • The signal amplifier receives the signal and passes it on to the phase detector which com¬ pares it to the original set frequency. • The phase detector determines what direction the vehicle has turned and passes the result on to the frequency filter. • Since the piezo gyro sensor is also picking up other vibrational movements in the vehicle, the frequency filter isolates the pertinent yaw signals and provides a DC voltage signal proportional to the left/right turning movement of the vehicle. 57 On-Board Monitor and Navigation Systems ON-BOARD MONITOR AND NAVIGATION SYSTEM INTERFACE • The 1-Bus is the main communication link. The video module of the Mark I system is not used with the Mark II system in the US market (reduced cost, simplified system, faster operation). The Mark II nav computer communicates directly on the 1-Bus (ARCNET not used). It generates the RGB video signals and sends them to the On-Board Monitor LCD. It also provides improved quality audio signals directly to the amplifier for navigation specific audio instructions (“right turn ahead”). The Mark II nav computer receives two wheel speed sensor signals from the DSC sys¬ tem for monitoring vehicle speed and distance covered. The Mark II nav computer incorporates an electronic gyro compass which takes the place of the magnetic field sensor of the previous system. CD PLAYER AUDIO SIGNALS IMFL-CM 58 On-Board Monitor and Navigation Systems CHANGES TO THE BOARD MONITOR BASIC FUNCTIONS At first glance the system looks and operates similar to the previous Mk-1 system. Only when looking further into the control settings and features is a change noticed. Automatic Date/Time display: When a door is opened the GM sig¬ nals status of “door open” on the K bus. Via the I Bus, the IKE passes the signal onto the Nav computer which generates the RGB signals for display of the Date/Time on the bottom edge of the LCD. The Set function of the opening menu provides additional owner customized settings for the board monitor display. After selecting set from the main menu, scroll down to the bottom of the list, an additional three items are included: • BC display: Provides selection of either the outside temperature or estimated arrival time of the set distance set in the board com¬ puter functions. These items are displayed along with the other BC functions when the Audio + BC is set function is “On”. • Color set: Provides three set vari¬ ations of screen color schemes. • Day/night: Provides a deviation of the selected color set when the headlights are switched on. Though subtle, these changes provide added convenience and provide the owner the opportunity to slightly customize their vehicle’s On-board monitor display. 59 On-Board Monitor and Navigation Systems NAVIGATION SYSTEM DIAGNOSTIC MODE DISPLAYS The Mark II system does not commu¬ nicate with the DIS. It does however provide an onboard diagnostic mode on screen display function. These screens provide system hard¬ ware/software identification numbers and status of Navigation specific func¬ tions for use as a diagnostic tool. The screens are accessed as follows: • From the main menu select “Set”. • Once in the Set function, press and hold the menu button for 8 seconds. • The first screen to appear is the SERVICE MODE menu. The On-board monitor and Video module selections are not functional even though they are displayed. The first accessible function is the NAVI/GRAPHIC ELEMENT. This screen is for identification of hardware/ soft¬ ware specific index versions for the installed system. The next available selection from the service mode menu is GPS. Pressing GPS brings up the GPS version dis¬ play. This display provides the GPS receiv¬ er module hardware version number and date of programmed software. Pressing the functions button in the lower right corner of this screen pro¬ vides a sub-selection menu of addi¬ tional GPS system status. n JOn-board monitor NAVIGATION / GRAPHIC ELEMENT Video module GPS Sensor check VIN SW level: HW level DIAG index: BUS index: Encoding Index Supplier: 0103708. I □ n Receiver Version Receiver SW Date: 7.51 EE 1.1.97 (Functions 1 08/24/97 Sunday 7:05 PM r 60 On-Board Monitor and Navigation Systems The sub-selection menu additionally includes GPS “Status” and “Tracking” choices. • GPS Status provides information on the exact coordinates of the vehicle based on the calculations of the GPS receiver module. • GPS Tracking provides information about the individual satellites currently sending signals to the GPS receiver module. The next selection available from the SERVICE MODE menu is “Sensor check” which provides: Wheel speed input (only one wheel speed signal, displayed in the right side window), Total number of GPS satellites currently providing signals, What mode the GPS receiver module is currently in; (ie: Search) The Gyro status provides the millivolt- age value the Nav computer is utilizing for the current vehicle position. This area also includes an icon represent¬ ing what direction the vehicle is head¬ ing in. • The direction status relates to what gear the vehicle is currently in (forward or reverse). 61 On-Board Monitor and Navigation Systems The last selection available in the Service Mode menu is the VIN entry display. The VIN is entered at the VPC when prepped prior to distribution. This is tor the VIN display in the Emergency program if needed when calling the Cross Country Group Roadside Assistance Program. Additionally, if the vehicle is equipped with a Phase V phone the system will auto¬ matically utilize the entered VIN as follows. Similar to the previous phone system, the Phase V phone has the capability to contact Cross Country Group using the “Assist” or “Emergency” button from the Emergency or Telephone functions. What’s new for the Phase V system is the use of dual tone multi frequency (DTMF) signalling. DTMF signalling provides a download of the VIN, the telephone number of the Phase V phone and the vehicle coordinates when the assist button was pressed. This information is dis¬ played on a computer screen of the Cross Country Group “assist” person¬ nel prior to any verbal communication taking place. Through a data base, the VIN pro¬ vides the Owner’s Name. This, in con¬ junction with the vehicle coordinates and the phone number provides the “assist” personnel with crucial prelimi¬ nary information. When the call is patched in from the vehicle, the assist personnel can answer appropriate¬ ly for an “assist” or “emergency” situation. This quick response with the owner’s pertinent information provides an added personnel touch and time savings in an emergency situa¬ tion. The VIN is entered at the VPC for all vehicles (with or without a Phase V phone). If the VIN has been incorrectly entered it can be changed by turning and pressing the rotary knob when the correct letter or digit of the last seven character of the VIN is displayed. 62 On-Board Monitor and Navigation Systems MARK II NAVIGATION SYSTEM CALIBRATION The calibration procedure of the Mark I system is not required with the Mark II system. This system self calibrates automatically as the vehicle is driven after following the steps below. • System must be fully functional with no faults present in fault memory. • Correct Map data base CD installed for your area. • Vehicle outside with an unobstructed overhead view. Switch ignition on and allow sys¬ tem adequate time to receive a minimum of three GPS signals. This is confirmed by the green GPS indicator in the map display. • Set the map display to the 400’ scale and drive the vehicle on digitized roads. Make fre¬ quent turns at intersections where possible. While driving, the system utilizes the map CD, the received GPS coordinates, the Gyro sen¬ sor to determine turn activity and the wheel speed sensor input. It compares all of these variables and automatically pinpoints the vehicle position. MARK II NAVIGATION SYSTEM DIAGNOSIS The reduction of Nav system components also reduces the scope of diagnosis. The Nav computer and Board monitor are the systems which must be considered for when diag¬ nosing the total system. The Mark II Navigation computer does not communicate with the DIS tester. Use the onboard diagnostic screens outlined on the previous pages for navigation system specific diagnosis. Follow the fault symptom path of the DIS Diagnosis Program for detailed diagnostic procedures for the board monitor and LCD panel. 63 On-Board Monitor and Navigation Systems Mk-3 NAVIGATION SYSTEM Models: E38, E39, E46, E52, E53 Production Date: E46 from 6/00, all others from 9/00 Objectives After completing this module you should be able to: • Recognize the changes to Mk-3 from the previous Mk-2 navigation system. • Identify the components used in the system. • Describe how to properly code and program the Mk-3 computer. 64 On-Board Monitor and Navigation Systems Purpose of the System The Mk-3 navigation system is a factory installed navigation system that replaces the previous Mk-2 version. The purpose of the system remains the same as previous navigation systems: To provide the driver with navigation instructions to an entered destination based on the vehicles current position and the roads available selected from a digitized road map. The principle differences of the Mk-3 system over the previous Mk-2 are: • GPS receiver is integrated into the MK-3 computer. • Optimized memory and faster processor resulting in faster start-up and operation. • New split screen and magnifying feature when equipped with wide screen monitor, (software feature) • Same navigation computer used for color board monitor or monochrome MIR display units. 65 On-Board Monitor and Navigation Systems System Components Mk-3 Navigation Computer The Mk-3 navigation computer is located in the left side of the vehicles trunk or cargo area. (In the case of the Z8 it is installed in the stor¬ age box behind the passenger seat.) The navigation computer housing contains: • Map CD drive • Hardware for navigation function • GPS receiver • Gyro sensor • Output for audio interface • Output for visual display • Cooling fan for unit There are two different hardware versions available dependent on the angle of installation in the vehicle (horizontal or vertical). The Mk-3 is compatible with both board monitor or MIR display units. (See workshop hints for configuration instructions) Identification of the Mk-3 computer over the previous versions is easy due to a change in the face plate design and the elimination of the “CD-IN” LED. Mk-3 Navigation Computer Mk-1 and Mk-2 Navigation Computer 66 On-Board Monitor and Navigation Systems Mk-3 computer GPS antenna connection 18 pin ELO connectors: XI313: Violet X1312: Blue Integrated GPS receiver and Gyro (rotation) sensor GPS (Global Positioning System) Receiver The GPS receiver module of the previous Mk-2 system is integrated into the housing of the Mk-3 computer, further reducing the complexity and the number of components used in the system. The receiver is not serviceable. The GPS receiver is responsible for receiving the satellite signals and providing the vehicle’s position information to the navigation computer. Information provided by the GPS receiver to the navigation computer can be displayed in the service mode (see workshop hints) but is not typically used in diagnosis. Gyro (Rotation) Sensor The navigation computer contains the electronic (piezo) Gyro sensor that detects rotation (yaw) of the vehicle as a confirmation that the vehicle is turning. The signal provided by the gyro is a mili-voltage that changes as the vehicle rotates. The navigation computer uses the input to track the vehicle along the digitized map and display the exact vehicle position. The signal is available in the sensor test page of the service mode for diagnosis. The sensor is not a separately serviceable item and does not require calibration. 67 On-Board Monitor and Navigation Systems GPS Antenna The GPS antenna is directly connected to the navigation computer via a coaxial cable. Locations of the antenna in the vehicles are as follows: E38: E39 sedan: E39 Sport Wagon: E46 sedan/coupe: E46 Sport Wagon: E46 Convertible: E52: E53: Under the rear parcel shelf. Under the rear parcel shelf. Behind the dashboard on the left side. Under the rear parcel shelf. Above the rear glass under the spoiler. Behind the instrument cluster. Left front corner behind the dashboard. Above the rear glass under the spoiler. Display Units Based on the particular model, the factory installed Mk-3 system is displayed using a color board monitor or on a smaller monochromatic screen (MIR). E52 MIR (Multi Information Radio) E46/E53 Color Board Monitor E38/E39 Wide Screen Color Board Monitor (phased in for E53 1/01, E46 9/01) 68 On-Board Monitor and Navigation Systems Navigation System Interface FOR AMPLIFICATION CD PLAYER AUDIO SIGNALS TAPE PLAYER AUDIO SIGNALS MFL-CM Example of E38/E39 with Mk-3 navigation 69 On-Board Monitor and Navigation Systems Information/body bus Interface The navigation computer is integrated into the vehicle bus system as it’s main communica¬ tion link with the vehicle. Communication occurs with the following modules: • BMBT - Control inputs • Radio - Display data • GM - Door open • IKE/Kombi - On-board computer data • Telephone PSE Box - Monitor display data, mayday function • DISplus - Coding data PSE = Portable Support Electronics Video/Audio Signals Board Monitor (Top Navigation) The RGB video signal for all display functions of the board monitor are produced by the navigation computer graphics stage via three output signals. The Red-Green-Blue signals are direct inputs to the board monitor. The audio signals for navigation instructions to the radio are sent via two separate lines. GPS ANTENNA MIR (Radio Navigation) Since a color display is not used for the MIR, the navigation information for the display is sent via a NAV bus. The NAV bus is a single dedicated line between the Mk-3 computer and the MIR. Audio signals for navigation instructions are sent to the radio via two separate lines. AUDIO SIGNALS NAV BUS E52 MIR 70 On-Board Monitor and Navigation Systems Speed Signals A speed signal is provided to the navigation computer for detection of distance traveled and vehicle speed to calculate the vehicles position on the digital map. The input is a processed signal provided by the vehicles DSC control unit. • E46: The speed signal used is from the left rear wheel. • E38/E39/E52/E53: The speed signal used is from the left front wheel. Reverse Gear Input The reverse gear input is used by the navigation computer to distinguish between the vehicle backing up or turning around. • E38/E39/E52/E53: The reverse input is a high signal produced by the LCM III. • E46: The reverse input is a high signal supplied by a splice from the back-up lights. Automatic Transmission KL15 KL30 Reversing Light Relay K6325 71 On-Board Monitor and Navigation Systems Workshop Hints Replacing the Mk-3 navigation computer When replacing the Mk-3 navigation computer be aware that there are two hardware variants depending on the installation position (vertical or horizontal). The ignition should be in position 0 during removal and replacement of the computer. After installing, close all doors, hood and trunk. A bus line reset will be carried out within two minutes. Resetting allows the gyro to perform a calibration run. Do not move the car during this reset period. The coding sequence for the Mk-3 navigation computer has been changed from the previous Mk-2. There is now an additional step (configuration) that must be done before the software can be loaded. After resetting, a configuration signal is needed to allow the computer to load the correct software for use with a board monitor or MIR. This is performed using the DIS coding pro¬ gram (CD 22.0 onward) and the Navigation System operating software (CD VI 5.0 onward). Note: Vehicles using the wide screen BM require CD V16.1 onward. 1. From the DIS/MoDiC Coding /Programming select “1 ZCS Coding” 2. Select the appropriate series (E46,E39,E38,E52,E53) 3. Select “4 Conversion” 4. Select “3 IKE?Kombi” 5. Select “2 language” 6. At the prompt “is the CD ROM present?” select yes , but do not install the operating software CD ROM yet. 7. First select the main language and then an additional language, (i.e. English-spanish) 8. Select the gender of the navigation audio voice. 9. Select “automatic coding-yes” 72 On-Board Monitor and Navigation Systems 10. After coding is done the DIS/MoDiC instructs you to follow the instructions on the monitor for the installation of the Navigation System CD ROM. 11. Place the navigation system software in the navigation computer CD drive. 12. Once loading has been completed, remove the CD and then confirm completion by pressing the rotary push-button on the monitor. Important: Do not switch the ignition off during the software loading procedure. Do not use any soft¬ ware for the Mk-3 earlier than CD V15.0. 13. Turn off the key for 10 seconds, then turn it back on and conduct a functional check. 14. After this step has been finished, encode the navigation computer using the “Recoding” path in ZCS Coding. The coding process involves coding vehicle specific data: VIN, Model, Telematics data etc. n = 1 Software Update r I 1 - Programming r - 1 [ ' 1 ( 1 Application Software Version 2.0 Language 1 : Amerikan Language 2: Spanish Progress ^ j i_i re O 1 ^ J The software status can be confirmed from the “Set” screen for Mk-3 systems. • 3 = Third generation system Mk-3. • 1 = Device variant (1 =Color screen, 2= MIR monochrome screen). • 20 = Software version of the graphic component (Version 2.0). ursday 10:17 e After the navigation computer has been successfully programmed and coded the vehicle should be left in an area with a clear view of the sky with the key in KL R for at least 15 min¬ utes to complete the calibration process. 73 On-Board Monitor and Navigation Systems Service Mode Just as Mk-2, Mk-3 provides an on-screen service mode for diagnosis. The service mode provides five different test screens: • On-board monitor • Naviqation/Graphic element • GPS • Sensor Check • Telematics To enter the Navigation Service Mode: • Turn the ignition key to position 1 (KL R). • From the Menu screen select “SET”. • Once in the Set screen, press and hold the “MENU” button for 8 seconds. • The Service Mode menu will appear on the display. • Select from the Service Mode menu for navigation specific tests. r-"-—i Press and hold for 8 seconds after entering Service Mode main menu display the “Set” mode Diagnosis Diagnosis is carried out using Test Modules in the Diagnosis Program as well as on-screen in the Service mode.The Sensor Check display is intended to be used while test driving the vehicle. The following pages contain charts with explanations of the Service Mode display. 74 On-Board Monitor and Navigation Systems STATUS DISPLAY WHAT SHOULD BE DISPLAYED WHAT TO DO IF NOT OK Wheel Sensors: As the vehicle is driven, the number should increase with an increase in vehicle speed. Check fault codes in DSC system. If necessary carry out wheel speed sensor test. GPS Satellites: With unobstructed upward view of sky the display should be > 3 Check for interference of signals to GPS antenna, Check integrity of circuit from GPS antenna to nav computer. GPS Status: “See Legend below” Gyro: Direction icon moves with vehicle turning movement. Milli voltage display value should be approx 2500 mV (+/- 400mV) when the vehicle is stationary or driven straight ahead. When the vehicle is turning, the signal voltage should increase on right hand turns and decrease on left hand turns. Replace Navigation computer. Direction: Reverse is displayed when range selector is in reverse. Forward in any other range. Check back up light signal input. GPS Status Text Display Description 1. “GPS fault” Problem with GPS system. Swap nav computer and or antenna from know good vehicle after checking GPS status display information 2. “Reception Interference" Problem with GPS system. Same as above. 3. “No Almanac” No Data yet stored from satellites. The GPS almanac is a memory account of received satellite signals. If the vehicle battery has been disconnected or after replacing a nav computer it has an empty memory and requires satellite signals to become functional. After the nav computer receives battery voltage and ground, it must be left outside with an unobstructed sky above with the ignition switched to KL R for approximatly 15 minutes. 4. “Satellite search” GPS is currently searching for satellite signals. 5. “Satellite contact” At least one satellite is found 6. “Position known” Vehicle’s Latitude and Longitude known. Navigation is possible. 75 On-Board Monitor and Navigation Systems Menu Display Explanation GPS/Status G-speed Relative speed over the ground Heading Direction of travel Rec status Search/track/position receiver status Pos-src Number of satellites available for analysis PDOP Accuracy of the calculated location HDOP <8=sufficient determinations of location VDOP <4=very good determinations of location G PS/Tracking CH Channel info PRN Satellite detection S/N Better reception as the value increases Visible Sat Number of visible satellites, receivable Signals, depending on time of day/configuration Almanac Satellite database, loaded automatically after 15 minutes Telematics VIN VIN (Automatically assigned during coding) Color Color code or text GSM Telephone network/contract number BMW info Customer specific info Emergency call out On/off status Initialization Telematics services on/off status Logging off Logging off telematics services PDOP Position Dilution of Precision HDOP Horizontal Dilution of Precision VDOP Vertical Dilution of Precision S/N Signal/noise relationship Gyro Piezo gyro sensor (in navigation computer) Dir Direction of travel 76 On-Board Monitor and Navigation Systems Review Questions 1. List the most significant changes made to the Mk-2 navigation computer over the previous Mk-1. Describe the changes between Mk-2 and Mk-3._ 2. How can the signal provided by the gyro sensor to the navigation computer be checked?_ 3. Describe how the display signals are transmitted from the navigation computer to the MIR and board monitor._ 4. What step is necessary before loading the navigation computer operating software CD on a newly replaced Mk-3 navigation computer? Where can the software status be confirmed after it has been loaded? 5. How is the VIN entered into the Mk-2 or Mk-3 navigation computer? 6. Describe the situations that would require a full calibration be performed on a Mk-1 navigation computer._ 7. How are the On-Board Monitor input signals (function requests) received by the Nav. computer, Radio, IKE, IHKA and Telephone?_ 77 On-Board Monitor and Navigation Systems