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Audio System: Description

  1. RADIO WAVE BAND 

    The radio wave bands used in radio broadcasting are as follows:

    Fig 1: Wave Radio Broadcasting Chart
    G02946946Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
  2. SERVICE AREA 

    There are great differences in the size of the service area for AM and FM monaural. Sometimes FM stereo broadcasts cannot be received even through AM can be received in very clearly.

    Not only does FM stereo have the smallest service area, but it also picks up static and other types of interference ("noise") easily.

    Fig 2: Identifying Radio Service Area
    G02946947Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
  3. RECEPTION PROBLEMS 

    Besides the problem of static, there are also the problems called "fading", "multipath" and "fade out". These problems are caused not by electrical noise but by the nature of the radio waves themselves.

    • Fading

      Besides electrical interference, AM broadcasts are also susceptible to other types of interference, especially at night. This is because AM radio waves bounce off the ionosphere at night. These radio waves then interfere with the signals from the same transmitter that reach the vehicle's antenna directly. This type of interference is called "fading".

      Fig 3: Identifying Reception Problems (Fading)
      G02946948Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
    • Multipath

      One type of interference caused by the bounce of radio waves off of obstructions is called "multipath". Multipath occurs when a signal from the broadcast transmitter antenna bounces off buildings and mountains and interferes with the signal that is received directly.

      Fig 4: Identifying Reception Problems (Multipath)
      G02946949Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
    • Fade Out

      Because FM radio waves are of higher frequencies than AM radio waves, they bounce off buildings, mountains, and other obstructions. For this reason, FM signals often seem to gradually disappear or fade away as the vehicle goes behind a building or other obstruction. This is called "fade out".

      Fig 5: Identifying Reception Problems (Fade Out)
      G02946950Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
  4. Tape Player/Head Cleaning: 
    1. MAINTENANCE 
    1. Raise the cassette door with your finger.

      Next, using a pencil or similar object, push in the guide.

    2. Using a cleaning pen or cotton applicator soaked in cleaner, clean the head surface, pinch rollers and capstans.
      Fig 6: Cleaning Tape Player/Head
      G02946951Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
  5. CD Player/Disc Cleaning: 
    1. MAINTENANCE 

    If the disc gets dirty, clean the disc by wiping the surface from the center to outside in the radial directions with a soft cloth.

    NOTE: Do not use a conventional record cleaner or anti-static preservative. 
    Fig 7: Cleaning CD Player/Disc
    G02946952Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
  6. OUTLINE OF AVC-LAN 
    1. What is AVC-LAN?

      AVC-LAN is the abbreviation, which stands for Audio Visual Communication-Local Area Network. This is a unified standard co-developed by 6 audio manufactures associated with Toyota Motor Corporation.

      The Unified standard covers signals, such as audio signal, visual signal, signal for switch indication and communication signal.

      Fig 8: Identifying Outline Of AVC-LAN
      G02946953Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
    2. Objectives

      Recently the car audio system has been rapidly developed and functions have been changed drastically. The conventional system has been switched to the multi-media type such as a navigation system. At the same time the level of customers needs to audio system has been upgraded. This lies behind this standardization.

      The concrete objectives are explained below.

      1. When products by different manufactures were combined together, there used to be a case that malfunction occurred such as sound did not come out. This problem has been resolved by standardization of signals.
      2. Various types of after market products have been able to add or replace freely.
      3. Because of the above (2), each manufacture has become able to concentrate on developing products in their strongest field. This has enabled many types of products provided inexpensively
      4. Conventionally, a new product developed by a manufacture could not be used due to a lack of compatibility with other manufactures products. Because of this new standard, users can enjoy compatible products provided for them timely.

    The above descriptions are the objectives to introduce AVC-LAN. By this standardization, development of new products will no longer cause systematic errors. Thus, this is very effective standard for a product in the future.

    HINT:

    • When +B short or GND short is detected in AVC-LAN circuit, communication stops. Accordingly the audio system does not function normally.
    • When audio system is not equipped with a navigation system, audio head unit is the master unit. (When audio system is equipped with a navigation system, navigation ECU is the master unit.)
    • The car audio system using AVC-LAN circuit has a diagnosis function.
    • Each product has its own specified numbers called physical address. Numbers are also allotted to each function in one product, which are called logical address.
  7. DIAGNOSIS FUNCTION 

    Error codes over tuner and connected equipment are displayed on the screen of tuner.

    1. Starting and Finishing Diagnosis Mode

      With the audio system OFF and the ignition switch in ACC, while simultaneously pressing the preset buttons "1" and "6", push "DISC" or "CD" 3 times.

      HINT:

      • A beep sound 3 times and the system goes on to the Service Check Mode.
      • System check and diagnosis memory check is performed in the Service Check Mode and the check result is displayed in ascending order of the component codes.
      • It may take about 40 sec. to complete these checks.
        Fig 9: Identifying Audio System
        G02946954Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
    2. Displaying Result in Service Check Mode (For checking the system condition at present and in the past)
      1. By the "SEEK" switch operation, confirm the check result of each component.
        Fig 10: Displaying Result In Service Check Mode
        G02946955Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

        Code No. (physical address) List 

        CODE NO. (PHYSICAL ADDRESS) LIST

        Code No. (physical address) Equipment name
        190 Radio receiver assembly (Audio head unit)
        440 Power amplifier
      2. If "CHEC" or "ECHm" is detected in a component, activate the Detail Display mode and check its DTC.
      3. To restart the Service Check, press the preset button "1".
      4. To exit the diagnosis mode, press "DISC" or "CD" for 2 sec. or more, or turn the ignition switch OFF.
    3. DISPLAYING RESULTS

      Results for each check are displayed as follows:

      ( ): Meaning

      • good (Normal)

        No DTC is detected for both "System Check Confirmation" and "Diagnosis Memory Response".

      • nCon (No connection)

        Although identified by the system at the time of registration, it has transmitted no response when the diagnosis mode is started.

      • CHEC (Check)

        If this is displayed, activate the Detail Display Mode and Check the DTC.

      • ECHn (Exchange)

        -ditto-

      • OLd (Old Version)

        An old version diagnosis system applies to this component.

      • nrES (No Response)

        In spite of response identified when the diagnosis mode is started, no diagnostic information has been responded.

    4. Detail Display Mode (For displaying DTC of erratic components)
      1. While "CHEC" or ECHn" is displayed, press the preset button "2" to go on to the Detail Display Mode.
      2. By the "SEEK" switch operation, "the system check result (SYS)" and "the diagnosis memory response result (COdE)" can be displayed.
      3. Refer to the diagnosis code list and inspect the defective part(s).
      4. Press the preset button "3" to return to the Service Check Mode.
    5. Service Check Mode
      Fig 11: Identifying Service Check Mode
      G02946956Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
    6. DISPLAY IN DETAIL DISPLAY MODE
      DISPLAY IN DETAIL DISPLAY MODE

      Segment for DTC Meaning Display Order by "SEEK UP" button operation (Reverse order when operating "SEEK DOWN" button)
      SYS System check result Physical address -> DTC
      COdE Diagnosis memory response result Physical address -> DTC -> Auxiliary code -> Connection
      COdE Diagnosis memory response result check number -> Number of occurrence
    7. Deleting DTC memory (Deleting DTC stored in the past)
      1. After repairing defective part(s), start the diagnosis mode.
      2. Press the preset button "5" for 2 sec. or more. (Display: "CLR")

        HINT:

        When DTC memory is completely deleted, a beep sounds once.

      3. Pressing the preset button "1", perform the Service Check again and confirm that no error is displayed for all component codes.
  8. DIAGNOSTIC TROUBLE CODE CHART 
    DIAGNOSTIC TROUBLE CODE CHART

    Terms Meaning
    Physical address Three-digit code (shown in hexadecimal) which is given to each component comprising the AVC - LAN
    Physical address Corresponding to the function, individual symbols are specified.
    Logical address Two-digit (shown in hexadecimal) which is given to each function comprising the inner system of the AVC - LAN.

    Physical address: 440 Power amplifier

    Fig 12: Diagnostic Trouble Code Chart - Power Amplifier
    G02946957Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

    Physical address: 190 Radio receiver assembly

    Fig 13: Diagnostic Trouble Code Chart - Radio Receiver Assembly (1 Of 2)
    G02946958Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
    Fig 14: Diagnostic Trouble Code Chart - Radio Receiver Assembly (2 Of 2)
    G02946959Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002
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