SLAU902A September   2023  – January 2024

 

  1.   1
  2.   Description
  3.   Get Started
  4.   Features
  5.   Applications
  6.   6
  7. 1Evaluation Module Overview
    1. 1.1 Introduction
    2. 1.2 Kit Contents
    3. 1.3 Specification
    4. 1.4 Device Information
  8. 2Hardware
    1. 2.1 Setup
    2. 2.2 AC-MB Settings
      1. 2.2.1 Audio Serial Interface Settings
        1. 2.2.1.1 USB Mode
        2. 2.2.1.2 Optical or Auxiliary Analog Audio Input Mode
        3. 2.2.1.3 External Audio Interface Mode
      2. 2.2.2 AC-MB Power Supply
    3. 2.3 TAx5x12EVM-K Hardware Settings
      1. 2.3.1 TAx5x12 EVM Input Hardware Settings
        1. 2.3.1.1 Line Inputs
        2. 2.3.1.2 On-board Microphone Input
      2. 2.3.2 TAx5x12 EVM Output Hardware Settings
      3. 2.3.3 TAx5x12 Headset Connection
      4. 2.3.4 GPIO1 Hardware Configurations
      5. 2.3.5 GPIO2 Hardware Configurations
      6. 2.3.6 GPI1 Hardware Configurations
      7. 2.3.7 GPO1 Hardware Configurations
      8. 2.3.8 I2C Address Hardware Configurations
      9. 2.3.9 Audio Serial Interface Hardware Configurations
  9. 3Software
    1. 3.1 Software Description
    2. 3.2 PurePath Console 3 Installation
      1. 3.2.1 USB Audio Setup
    3. 3.3 TAx5x12 EVM GUI
      1. 3.3.1 Software Overview
      2. 3.3.2 Configuration View
        1. 3.3.2.1 Device Config Tab
        2. 3.3.2.2 Record Config Tab
        3. 3.3.2.3 Playback Config Tab
        4. 3.3.2.4 Audio Serial Bus Tab
          1. 3.3.2.4.1 Configuring Primary Audio Serial Bus
          2. 3.3.2.4.2 Configuring Secondary Audio Serial Bus
          3. 3.3.2.4.3 Example Configuring I2S Interface
        5. 3.3.2.5 GPIO/Interrupts Tab
        6. 3.3.2.6 Advanced Tabs
          1. 3.3.2.6.1 Programmable Biquads Tab
          2. 3.3.2.6.2 Mixer Tab
          3. 3.3.2.6.3 Limiter Tab
      3. 3.3.3 End System Integration View
      4. 3.3.4 Register Map View
      5. 3.3.5 Preset Configuration
      6. 3.3.6 I2C Monitor View
    4. 3.4 Configuration Examples
    5. 3.5 System Overview
  10. 4Hardware Design Files
    1. 4.1 Schematics
    2. 4.2 TAx5x12 EVM Board Layout
    3. 4.3 Bill of Materials (BOM)
      1. 4.3.1 TAC5212 EVM Bill of Materials
      2. 4.3.2 TAC5112 EVM Bill of Material
      3. 4.3.3 TAD5212 EVM Bill of Materials
      4. 4.3.4 TAA5212 EVM Bill of Materials
  11. 5Additional Information
    1. 5.1 Trademarks
  12. 6References
  13. 7Revision History

2.3.1 TAx5x12 EVM Input Hardware Settings

The TAx5x12 evaluation module has several input configuration options and offers extensive flexibility to allow the user to evaluate the device across multiple operation modes. The different operation modes are highlighted in this section.

GUID-20230617-SS0I-BKTQ-8HDP-SHWVGQGRFSHN-low.pngFigure 2-8 TAC5212 and TAC5112 EVM Input Architecture for Channel 1 and 2

The IN1 and IN2 input architecture allows these two channels to be quickly configured to support any of the supported operation modes. The INxP and INxM pins of the TAx5x12 can optionally connect to onboard microphones for quick evaluation of a microphone in AC- or DC-coupled modes. Jumper configuration details can be found in Table 3-2.

For mono devices, there's an option to connect unused inputs to ground though header J52 and J53 and for output jumper header J61 and J62. These jumpers are not populated by default.

For TAD5212 EVM, the input components are not populated.

Table 2-1 Input Jumper Configuration
Input TerminalInput ModeInstalled JumpersUninstalled JumpersInput SwingTopologyRegister Setting
IN1LINE-IN Differential, AC-coupledJ8J4, J5, J6, J11, J12, J15, J16, J20, J212 VRMSGUID-20230624-SS0I-NBFW-05HR-0VZLRLHGH5PL-low.pngB0_P0_R80, B0_P1_R115
LINE-IN Single-ended, AC-coupledJ6, J8, J12 (2-3)J4, J5, J11, J15, J16, J20, J211 VRMSGUID-20230624-SS0I-NGCN-PMWS-LRXDCM42JZ37-low.pngB0_P0_R80, B0_P1_R115
LINE-IN Differential, DC-coupledJ15, J16J4, J5, J6, J11, J12, J20, J21,

J8 (DUT MICBIAS is not used)

4 VRMSGUID-20230624-SS0I-0MS3-JTZK-GMSJGVNMRZQQ-low.pngB0_P0_R80
LINE-IN Single-ended, DC-coupledJ6, J12 (2-3), J15, J16J4, J5, J11, J20, J21, J8 (DUT MICBIAS is not used)2 VRMSGUID-20230624-SS0I-QQS0-HPL4-FLXCGCHQNXFB-low.pngB0_P0_R80
On-board Electret Condenser Microphone (ECM) Differential, AC-coupledJ4, J5, J8, J11, J12 (1-2)J6, J15, J16, J20, J21Refer to data sheetGUID-20230712-SS0I-DSZW-1JJX-R6WXSNNRFLZK-low.pngB0_P0_R80, B0_P1_R115
On-board Electret Condenser Microphone (ECM) Single-ended, AC-coupledJ4, J5, J8, J11, J12 (2-3)J6, J15, J16, J20, J21Refer to data sheetGUID-20230712-SS0I-9LXV-W7XF-8TPRHXFDBFVT-low.pngB0_P0_R80, B0_P1_R115
On-board Electret Condenser Microphone (ECM) Differential, DC-coupledJ4, J5, J8, J11, J12 (1-2), J15, J16J6, J20, J21Refer to data sheetGUID-20230712-SS0I-GJ3W-QSS6-G4DFG7N6XSM0-low.pngB0_P0_R80, B0_P1_R115
On-board Electret Condenser Microphone (ECM) Single-ended, DC-coupledJ4, J5, J8, J11, J12 (2-3), J15, J16J6, J20, J21Refer to data sheetGUID-20230712-SS0I-39CR-81TH-BJ6NWJJQPZWS-low.pngB0_P0_R80, B0_P1_R115
IN2LINE-IN Differential, AC-coupledJ8J7, J9, J13, J14, J17, J18, J22, J23, J462 VRMSGUID-20230624-SS0I-NBFW-05HR-0VZLRLHGH5PL-low.pngB0_P0_R85, B0_P1_R115
LINE-IN Single-ended, AC-coupledJ7, J8, J14 (2-3)J9, J13, J17, J18, J22, J23, J46

1 VRMS

GUID-20230624-SS0I-NGCN-PMWS-LRXDCM42JZ37-low.pngB0_P0_R85, B0_P1_R115
LINE-IN Differential, DC-coupledJ17, J18J7, J9, J13, J14, J22, J23, J46, J8 (DUT MICBIAS is not used)4 VRMSGUID-20230624-SS0I-0MS3-JTZK-GMSJGVNMRZQQ-low.pngB0_P0_R80
LINE-IN Single-ended, DC-coupledJ7, J14 (2-3), J17, J18J9, J13, J22, J23, J46, J8 (DUT MICBIAS is not used)2 VRMSGUID-20230624-SS0I-QQS0-HPL4-FLXCGCHQNXFB-low.pngB0_P0_R80
On-board Analog MEMS microphone, AC-coupledJ8, J9, J46J7, J13, J14, J17, J18, J22, J23Refer to data sheetGUID-20230712-SS0I-CKTZ-QVC4-CZHWVXDGNQBC-low.pngB0_P0_R85, B0_P1_R115
On-board Analog MEMS microphone, DC-coupledJ9, J17, J18, J46J7, J13, J14, J22, J23, J8 (DUT MICBIAS is not used)Refer to data sheetGUID-20230805-SS0I-SP9W-DCBK-CTLD82MH2WQP-low.pngB0_P0_R85, B0_P1_R115