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Information and Entertainment System




Information and Entertainment System

Principles of Operation

Audio Front Control Module (ACM)

The Audio Front Control Module (ACM) can be operated with the ignition in RUN or ACC. The accessory delay feature allows the audio system to be operated for a preset period of time after the ignition is turned off and a front door has not been opened. The ACM (Audio Front Control Module) sends AC voltage audio signals to the speakers or to the amplifier, depending on vehicle configuration. The ACM (Audio Front Control Module) can produce its own DTCs, which can be communicated to the scan tool through the Medium Speed Controller Area Network (MS-CAN).

Audio Front Control Module (ACM) Illumination

The base (AM/FM) ACM (Audio Front Control Module) has a hardwired illumination circuit from the Body Control Module (BCM). For all other ACMs (Audio Control Modules), the illumination signal is received from the BCM (Body Control Module) via the MS-CAN (Medium Speed Controller Area Network).

Satellite Audio

The satellite audio system consists of a satellite radio receiver (integral to the ACM (Audio Front Control Module) ), a satellite radio antenna, and a satellite radio antenna cable. The satellite radio antenna receives digital audio signals and sends them to the ACM (Audio Front Control Module).

Sony(R) Sound

The Sony(R) sound system provides optimal quality sound in the vehicle. Audio signals are sent from the ACM (Audio Front Control Module) to the audio Digital Signal Processing (DSP) module, which process the audio signals and sends them to all of the speakers. The audio DSP (Digital Signal Processing) module uses internal software to produce an optimal sound environment. A mute circuit to the audio DSP (Digital Signal Processing) module controls allows the ACM (Audio Front Control Module) to mute the audio output. The audio DSP (Digital Signal Processing) module is enabled through software. The audio DSP (Digital Signal Processing) module communicates on the MS-CAN (Medium Speed Controller Area Network).

Navigation System

The navigation system guides the user to a pre-entered destination. No navigation map DVD is needed, as the map guidance information is stored in the ACM (Audio Front Control Module). The ACM (Audio Front Control Module) calculates route information based on GPS (Global Positioning System) data. The GPS (Global Positioning System) antenna tracks several satellites simultaneously. The ACM (Audio Front Control Module) uses vehicle speed and transmission gear selected signals received through the MS-CAN (Medium Speed Controller Area Network) to detect vehicle speed and direction, resulting in more accurate navigation tracking.

The navigation display is shown on the FDIM (Front Display Interface Module). Either the FDIM (Front Display Interface Module) touchscreen or the buttons on the FCIM (Front Controls Interface Module) can be used to interact with the navigation system.

The compass heading is derived from the GPS (Global Positioning System) antenna signal. There are no serviceable parts for the compass.

A voice recognition system allows the user to interface with the system without using the touchscreen. A microphone provides a direct input to the ACM (Audio Front Control Module). The microphone is shared with the SYNC(R) system, if equipped.

If equipped with a rear view camera, the video feed for the camera is provided by the rear view camera while the vehicle is in REVERSE. for information on the rear view camera.

SYNC(R) System

The SYNC(R) system allows interaction with several types of customer devices, including mobile phones and media devices. The system consists of the APIM (Accessory Protocol Interface Module), a microphone, the USB (Universal Serial Bus) cable and port, and the audio input jack. The APIM (Accessory Protocol Interface Module) contains an on-board Bluetooth chipset, which enables certain wireless devices to interact with the system.

The APIM (Accessory Protocol Interface Module) consists of the Consumer Interface Processor (CIP) and the Vehicle Interface Processor (VIP). The modules are not replaceable separately, but can be flashed independently, if required.

The CIP (Consumer Interface Processor) interfaces with all of the inputs to the APIM (Accessory Protocol Interface Module). It contains an analog-to-digital-to-analog converter, as well as the Bluetooth chipset. Any consumer-available application upgrades that are available are loaded directly to the CIP (Consumer Interface Processor) through the USB (Universal Serial Bus) port.

The VIP (Vehicle Interface Processor) provides an interface between the CIP (Consumer Interface Processor) and the vehicle. Its main functions are controlling the APIM (Accessory Protocol Interface Module) power management and translating both inbound and outbound signals over the Controller Area Network (CAN). In addition, the VIP (Vehicle Interface Processor) interrogates the modules on the network to retrieve any DTCs when a vehicle health report is requested.

The APIM (Accessory Protocol Interface Module) can receive inputs from the following audio sources:

- USB (Universal Serial Bus) port

- Audio input jack

- Bluetooth

The USB (Universal Serial Bus) port can be used for connecting a media device (such as an iPod(R)) with the device's available cable, or for directly plugging in a portable mass storage device (such as a flash drive). When playing media files stored on a mass storage device, the SYNC(R) system only plays files that do not have Digital Rights Management (DRM) protection. The USB (Universal Serial Bus) port can also be used for uploading vehicle application upgrades.

The USB (Universal Serial Bus) port is powered by the APIM (Accessory Protocol Interface Module), so no external power source is needed to power a device plugged into the USB (Universal Serial Bus) port if the device supports this feature.

The audio input jack allows for a portable MP3 player to be connected to the vehicle audio system. When a portable MP3 player is connected, audio from the MP3 player can be played through the vehicle speakers.

The Bluetooth interface can accommodate both Bluetooth-enabled mobile phones and Bluetooth-enabled media devices. Any Bluetooth device used with the SYNC(R) system must first be paired with the system before it is operational.

Bluetooth is a secure, short-range radio frequency that allows devices to communicate wirelessly through radio waves. The operating range of a Bluetooth signal is a maximum of 32 feet.

Only one Bluetooth phone and one Bluetooth media device can be connected to the system at anytime. If an additional device of either type is paired with the system and made active, the APIM (Accessory Protocol Interface Module) disconnects any active connection and establishes a connection with the new device.

It is important to understand that not all mobile phones have the same level of features when interacting with the SYNC(R) system. For a list of compatible phones, refer to the SyncMyRide website.

In addition to audio information, metadata may also be sent to the APIM (Accessory Protocol Interface Module) from a device plugged into the USB (Universal Serial Bus) port. Metadata consists of such information as artist, album title, song title, and genre. The APIM (Accessory Protocol Interface Module) uses the metadata to create indexes that can be used to sort for particular music, based on customer preference. Not all USB (Universal Serial Bus) devices can send metadata to the APIM (Accessory Protocol Interface Module) ; also, no metadata is transferred when a device is connected through the audio input jack. When a new media device is connected to the SYNC(R) system, the APIM (Accessory Protocol Interface Module) automatically indexes the information. Depending on the amount of data on the device, this may take several minutes and is considered normal operation. When a device that was previously connected to the SYNC(R) system is reconnected, the APIM (Accessory Protocol Interface Module) updates the index (rather than creating a new one), which reduces the amount of time needed to index the device.

The APIM (Accessory Protocol Interface Module) receives both stereo and mono sound inputs, and can also transmit both stereo and mono sound. The mono function receives the microphone input. It also sends sound to the ACM (Audio Front Control Module) for voice prompts, the Text-To-Speech (TTS) feature, ringtones, and any audio received through a connected mobile phone. The TTS (Text-To-Speech) feature speaks information so that it does not have to be read from the display.

The APIM (Accessory Protocol Interface Module) communicates on the MS-CAN (Medium Speed Controller Area Network) and the High Speed Controller Area Network (HS-CAN). Communication with the scan tool is established through the HS-CAN (High Speed Controller Area Network).

Global Positioning System Module (GPSM)

The Global Positioning System Module (GPSM) provides vehicle location for real-time traffic reports and re-routing, and for identifying vehicle location in the event of a collision (part of the e911 feature). The vehicle location information is broadcast to the APIM (Accessory Protocol Interface Module) over the CAN (Controller Area Network).

Voice Recognition For Vehicles With The SYNC(R) System

When the audio system enters voice recognition mode, the ACM (Audio Front Control Module) initially controls the voice recognition feature. The microphone is wired directly to the APIM (Accessory Protocol Interface Module), which relays the microphone input to the ACM (Audio Front Control Module) through dedicated wiring. If the first command spoken is part of the ACM (Audio Front Control Module) voice recognition set, the ACM (Audio Front Control Module) retains control of the voice recognition and takes the appropriate action(s). If the first command spoken is part of the APIM (Accessory Protocol Interface Module) voice recognition set, the ACM (Audio Front Control Module) shuts off its own voice recognition and broadcasts a CAN (Controller Area Network) message to the APIM (Accessory Protocol Interface Module), transferring the voice recognition to the SYNC(R) system and providing the voice command that was spoken. The ACM (Audio Front Control Module) controls the voice engine for the base audio, navigation and climate control systems. The APIM (Accessory Protocol Interface Module) controls the voice engine for the SYNC(R) system (USB (Universal Serial Bus) port, audio input jack and Bluetooth).

Steering Wheel Controls

The steering wheel controls consist of a series of resistors. Each steering wheel controls switch function corresponds with a specific resistance value within the switch. When a switch is pressed, the Steering Column Control Module (SCCM) monitors the change in reference voltage to determine the requested function. The SCCM (Steering Column Control Module) sends the switch information to the BCM (Body Control Module) over the HS-CAN (High Speed Controller Area Network). The BCM (Body Control Module) gateways the information to the ACM (Audio Front Control Module) or the APIM (Accessory Protocol Interface Module) over the MS-CAN (Medium Speed Controller Area Network).

Audio Input Jack

The audio input jack can be used for connecting a media device (such as an iPod(R)) utilizing a 1/8-inch audio jack. When a device is connected through the audio input jack, only the speaker volume can be controlled by the ACM (Audio Front Control Module). All other functions (such as seek, fast forward and pause) must be carried out on the device itself.

AM/FM Antenna

A coaxial antenna cable connects the AM/FM antenna to the ACM (Audio Front Control Module).

Global Positioning System (GPS) Antenna

For vehicles equipped with navigation, the GPS (Global Positioning System) antenna receives information from satellites. The compass heading is also derived from the GPS (Global Positioning System) signal. A quad-band antenna is utilized.

Audio Signals

Stereo signals contain left and right channel information and are used for most audio signals.

A mono signal is used for the microphone input to the APIM (Accessory Protocol Interface Module). The mono signal is also used for the voice prompts, the TTS (Text-To-Speech) feature, ringtones, and any audio received through a connected mobile phone. These audio signals are output from the APIM (Accessory Protocol Interface Module) to the ACM (Audio Front Control Module). The mono output from the APIM (Accessory Protocol Interface Module) utilizes separate circuits from the stereo output.

A digital signal transmits data from a media device connected through the USB (Universal Serial Bus) port to the APIM (Accessory Protocol Interface Module). The APIM (Accessory Protocol Interface Module) then converts the signal to analog and relays the signal to the ACM (Audio Front Control Module).

A wireless signal broadcasts audio signals from a Bluetooth media device to the APIM (Accessory Protocol Interface Module), which converts the wireless audio signal to analog and relays it to the ACM (Audio Front Control Module).

Noise Suppression Equipment

The radio frequency suppression equipment reduces interference transmitted through the speakers by the engine ignition and electrical systems. When installing any new radio suppression equipment components, make sure that a good contact is made at all connections.

Network Communication

The following audio system components communicate via the MS-CAN (Medium Speed Controller Area Network) :

- ACM (Audio Front Control Module)

- Navigation ACM (Audio Front Control Module)

- Audio DSP (Digital Signal Processing) module

- FCIM (Front Controls Interface Module)

- FDIM (Front Display Interface Module) (vehicles without navigation)

- APIM (Accessory Protocol Interface Module)

- GPSM (Global Positioning System Module)

There are numerous messages internal to the audio system. The functions of these messages include (but are not limited to):

- Changing the audio source

- Changing equalizer settings

- Updating the FDIM (Front Display Interface Module) display

- Dialing phone numbers from the FCIM (Front Controls Interface Module) or FDIM (Front Display Interface Module) (if equipped with the SYNC(R) system)

In addition, messages are utilized by the audio system in conjunction with systems outside of the audio system.

Battery Load Shed

The BCM (Body Control Module) uses the battery current sensor to keep track of the battery state of charge. The battery current sensor is a hall-effect sensor attached to the battery ground cable. When the engine is off, and the BCM (Body Control Module) determines the battery state of charge is below 40% or 10% of the charge has been drained or 45 minutes have elapsed, a load shed message is sent over the Controller Area Network (CAN). This message turns off the audio/navigation system to save the remaining battery charge. Under this condition, SYS OFF TO SAVE BATT is displayed on the Front Display Interface Module (FDIM) to notify the driver that battery protection actions are active.

Engine off load shed occurs when the engine is not running, and the ignition is in the ACC or RUN position. To clear the load shed state, restart the engine.