SDAA058 September   2025 TDP0604

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Introduction
  5. 2Test Setup
    1. 2.1 Block Diagram
    2. 2.2 Aardvark I2C and SPI Controller
    3. 2.3 EDID Emulator
    4. 2.4 Enable TDP0604 in I2C Mode and Set Target I2C Address
  6. 3TDP0604 Controls for HDMI Compliance Testing
    1. 3.1 Data Eye Diagram in Different EQ
      1. 3.1.1 HDMI2.0 Test with Resolution 4096 × 2160_60p_8bit_444
        1. 3.1.1.1 D1 NegativeLane, EQ = 0
        2. 3.1.1.2 D1 NegativeLane, EQ = 4
        3. 3.1.1.3 D1 NegativeLane, EQ = F
      2. 3.1.2 HDMI1.4 Test with Resolution 4096 × 2160_30p_8bit_444
        1. 3.1.2.1 Source Eye Diagram: CK - D1, EQ = 0
        2. 3.1.2.2 Source Eye Diagram: CK - D1, EQ = 4
        3. 3.1.2.3 Source Eye Diagram: CK - D1, EQ = F
      3. 3.1.3 HDMI1.4 Test with Resolution 720 × 480_60p_8bit_444
        1. 3.1.3.1 Source Eye Diagram: CK - D1, EQ=0
        2. 3.1.3.2 Source Eye Diagram: CK - D1, EQ = 4
        3. 3.1.3.3 Source Eye Diagram: CK - D1, EQ = F
    2. 3.2 Rising and Falling Resulting in Different Slew Rates
      1. 3.2.1 HDMI2.0 Test with Resolution 4096 × 2160_60p_8bit_444
        1. 3.2.1.1 TRISE, TFALL when SLEW_3G =3h, SLEW_6G=0h, SLEW_CLK 0 =0h
        2. 3.2.1.2 TRISE, TFALL when SLEW_3G =3h, SLEW_6G=1h, SLEW_CLK 0 =1h
        3. 3.2.1.3 TRISE, TFALL when SLEW_3G =3h, SLEW_6G=7h, SLEW_CLK 0 =7h
      2. 3.2.2 HDMI1.4 Test with Resolution 4096 × 2160_30p_8bit_444
      3. 3.2.3 TRISE, TFALL when SLEW_3G =0h, SLEW_6G=1h, SLEW_CLK 0 =0h
      4. 3.2.4 TRISE, TFALL when SLEW_3G =3h, SLEW_6G=1h, SLEW_CLK 0 =1h
      5. 3.2.5 TRISE, TFALL when SLEW_3G =7h, SLEW_6G=1h, SLEW_CLK 0 =7h
      6. 3.2.6 HDMI1.4 Test with Resolution 720 × 480_60p_8bit_444
        1. 3.2.6.1 TRISE, TFALL when SLEW_3G = 0h, SLEW_6G = 1h, SLEW_CLK 0 = 0h
        2. 3.2.6.2 TRISE, TFALL when SLEW_3G = 3h, SLEW_6G = 1h, SLEW_CLK 0 = 1h
        3. 3.2.6.3 TRISE, TFALL when SLEW_3G = 7h, SLEW_6G = 1h, SLEW_CLK 0 = 7h
    3. 3.3 VL and VSwing
      1. 3.3.1 HDMI2.0 Test with Resolution 4096 × 2160_60p_8bit_444
        1. 3.3.1.1 VL and VSwing with HDMI20_VOD =0h, HDMI14_VOD =0h
        2. 3.3.1.2 VL and VSwing with HDMI20_VOD =1h (default 1000mV), HDMI14_VOD =1h (default 1000mV)
        3. 3.3.1.3 VL and VSwing with HDMI20_VOD =0h, HDMI14_VOD =0h
      2. 3.3.2 HDMI1.4 Test with Resolution 4096 x 2160_30p_8bit_444
        1. 3.3.2.1 VL and VSwing with HDMI20_VOD =0h, HDMI14_VOD = 0h, Use Values in CLK_VOD, D0_VOD, D1_VOD and D2_VOD = 0h, Limited -15%
        2. 3.3.2.2 VL and VSwing with HDMI20_VOD =1h (Default 1000mV), HDMI14_VOD =1h (Default 1000mV)
        3. 3.3.2.3 VL and VSwing with HDMI20_VOD =0h, HDMI14_VOD =0h, Use values in CLK_VOD, D0_VOD, D1_VOD and D2_VOD = 7h, Limited +20%)
      3. 3.3.3 HDMI1.4 Test with Resolution 720 x 480_60p_8bit_444
        1. 3.3.3.1 VL and VSwing with HDMI20_VOD =0h, HDMI14_VOD =0h,Use values in CLK_VOD, D0_VOD, D1_VOD and D2_VOD = 0h, Limited -15%)
        2. 3.3.3.2 VL and VSwing with HDMI20_VOD =1h (default 1000mV), HDMI14_VOD =1h (default 1000mV)
        3. 3.3.3.3 VL and VSwing with HDMI20_VOD =0h, HDMI14_VOD =0h, use values in CLK_VOD, D0_VOD, D1_VOD and D2_VOD = 7h, Limited +20%)
    4. 3.4 HDMI1.4-2.0 Pass Compliance Test Pass Result
      1. 3.4.1 HDMI2.0 Test with Resolution 4096x2160_60p_8bit_444
      2. 3.4.2 HDMI1.4 Test With Resolution 4096 × 2160_30p_8bit_444
      3. 3.4.3 HDMI1.4 Test with Resolution 720 x 480_60p_8bit_444
  7. 4Tips
  8. 5Summary
  9. 6References

3.3.2.3 VL and VSwing with HDMI20_VOD =0h, HDMI14_VOD =0h, Use values in CLK_VOD, D0_VOD, D1_VOD and D2_VOD = 7h, Limited +20%)

Table 3-9 HDMI1.4_4K_30fps Test VL and VSwing (HDMI20_VOD =0h, HDMI14_VOD = 0h, CLK_VOD, D0_VOD, D1_VOD and D2_VOD = 7h)
Index Test NameLanesSpecification RangeMeas ValueResult
17-2: Source Low Amplitude + (Supported Sink ≤ 165MHzD1+2.700V < VL < 2.900V2.6334VFail
27-2: Source Low Amplitude + (Supported Sink ≤ 165MHzD2+2.700V < VL < 2.900V2.6755VFail
37-2: Source Low Amplitude + (Supported Sink ≤ 165MHzD1-2.700V < VL < 2.900V2.6125VFail
47-2: Source Low Amplitude + (Supported Sink ≤ 165MHzD2-2.700V < VL < 2.900V2.6654VFail
57-2: Source Low Amplitude + (Supported Sink > 165MHzD1+2.600V < VL < 2.900V2.6334VPass
67-2: Source Low Amplitude + (Supported Sink > 165MHzD2+2.600V < VL < 2.900V2.6755VPass
77-2: Source Low Amplitude + (Supported Sink > 165MHzD1-2.600V < VL < 2.900V2.6125VPass
87-2: Source Low Amplitude + (Supported Sink > 165MHzD2-2.600V < VL < 2.900V2.6654VPass
97-2: Source Low Amplitude + (Supported Sink ≤ 165MHzCK+2.700V < VL < 2.900V2.6500VFail
107-2: Source Low Amplitude + (Supported Sink ≤ 165MHzD0+2.700V < VL < 2.900V2.6750VFail
117-2: Source Low Amplitude + (Supported Sink ≤ 165MHzCK-2.700V < VL < 2.900V2.6328VFail
127-2: Source Low Amplitude + (Supported Sink ≤ 165MHzD0-2.700V < VL < 2.900V2.6392VFail
137-2: Source Low Amplitude + (Supported Sink > 165MHzCK+2.600V < VL < 2.900V2.6483VPass
147-2: Source Low Amplitude + (Supported Sink > 165MHzD0+2.600V < VL < 2.900V2.6750VPass
157-2: Source Low Amplitude + (Supported Sink > 165MHzCK-2.600V < VL < 2.900V2.6328VPass
167-2: Source Low Amplitude + (Supported Sink > 165MHzD0-2.600V < VL < 2.900V2.6392VPass