HDMI_CTS_2_0h[1]
High-Definition Multimedia Interface
Version 2.0h
Compliance Test Specification
April 3, 2015
Preface
Notice
THIS SPECIFICATION IS PROVIDED “AS IS” WITH NO WARRANTIES WHATSOEVER, EXPRESS OR IMPLIED, INCLUDING, WITHOUT LIMITATION, NO WARRANTIES OF MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR ANY PARTICULAR PURPOSE, OR ANY WARRANTY OTHERWISE ARISING OUT OF ANY PROPOSAL, SPECIFICATION, OR SAMPLE.
HDMI Forum, Inc. and its members disclaim all liability, including liability for infringement of any proprietary rights, relating to use of information in This Specification.
Copyright ? 2014 by the HDMI Forum, Inc. All rights reserved. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted herein. Unauthorized use or duplication prohibited. “HDMI” and all associated logos are trademarks of HDMI Licensing, LLC. Third-party trademarks and servicemarks are property of their respective owners. Document Revision History
NOTE: Document revision numbering will follow the structure below:
?Change in number indicates follows the main specification (i.e. 2.1, 2.2, 2.3…).
?Change in letter indicates an MOI addition or update (i.e. 2.0a, 2.0b, 2.0c…).
2.0h April 3, 2015 Added Quantum Data MOI (HF2-12,16,32,34,44,50)
Added Rohde & Schwarz MOI (HF2-10,32)
Added Granite River Labs MOI (HF2-10,26,32,35,53)
2.0g December 1, 2014 Updated Rohde & Schwarz MOI (HF1-9,HF2-4)
Updated Tektronix MOI (HF1-1,2,3,4,5,6,7,8,9)
Updated Tektronix MOI (HF2-1,2,3,4,6,7,23,24)
2.0f October 30, 2014 Updated test title (HF3-1, HF3-2, HF3-3, HF3-4)
Added Quantum Data MOI (HF1-35)
Name change: Agilent to Keysight (HF1-1,2,3,4,5,6,7,8,9)
Name change: Agilent to Keysight (HF2-1,2,3,4,6,7,23,24)
2.0e September 10, 2014 Added General MOI (HF3-1)
Added General MOI (HF3-2)
Added General MOI (HF3-4)
Added Astrodesign MOI (HF3-3)
Added Tektronix MOI (HF2-25)
2.0d August 15, 2014 Added Rohde & Schwarz MOI (HF1-35)
Added Quantum Data MOI (HF2-25)
Fixed minor formatting errors
2.0c July 15, 2014 Added Astrodesign MOI (HF2-9)
Added Astrodesign MOI (HF2-24)
Added Quantum Data MOI (HF1-11)
Added Quantum Data MOI (HF1-12)
Added Quantum Data MOI (HF1-14)
Added Quantum Data MOI (HF1-18)
Added Quantum Data MOI (HF2-5)
Added Quantum Data MOI (HF2-7)
Added Quantum Data MOI (HF2-9)
Added Quantum Data MOI (HF2-24)
Added Rohde & Schwarz MOI (HF2-26)
Added Rohde & Schwarz MOI (HF2-35)
Added Rohde & Schwarz MOI (HF2-53)
Added Tektronix MOI (HF2-6)
Added Tektronix MOI (HF2-7)
Added Tektronix MOI (HF2-24)
2.0b May 16, 2014 Added Agilent MOI (HF2-7)
Added Agilent MOI (HF2-24)
2.0a April 24, 2014 Added Astrodesign MOI (HF2-7)
Added Quantum Data MOI (HF1-10)
Added Quantum Data MOI (HF2-6)
Added Quantum Data MOI (HF2-10)
Added Quantum Data MOI (HF2-26)
Added Quantum Data MOI (HF2-35)
Added Quantum Data MOI (HF2-53) 2.0 April 11, 2014 Initial release
Intellectual Property
The commercial use of this Specification in any product requires a separate license from the HDMI Licensing, LLC. Copyright in this Specification is owned by the HDMI Forum, Inc., who reserves all rights therein, and is subject to the Intellectual Property Rights Policy of the HDMI Forum, Inc. Contact Information
The URL for the HDMI Forum web site is: https://www.docsj.com/doc/3e103424.html,/
Table of Contents
Preface (2)
Notice (2)
Document Revision History (2)
Intellectual Property (4)
Contact Information (4)
1
Introduction (9)
2
Purpose and Scope (9)
3
Important Notice to Adopters (9)
Source Tests (10)
4
4.1
Source TMDS Electrical Tests (10)
4.1.1
Source TMDS Electrical 6G Tests (10)
4.2
Source TMDS Protocol Tests (11)
4.2.1
Source TMDS Protocol Scrambling ≤ 3.4Gbps Tests (11)
4.2.2
Source TMDS Protocol 6G and Scrambling Tests (12)
Source TMDS Pixel Encoding (12)
4.3
4.3.1
Source Pixel Encoding YC B C R 4:2:0 Tests (12)
4.3.2
Source Pixel Encoding YC B C R 4:2:0 Deep Color Tests (13)
4.4
Source Video Timing Tests (13)
4.4.1
Source Video Timing 6G Tests (13)
4.4.2
Source Video Timing YC B C R 4:2:0 Tests (13)
Source Video Timing YC B C R 4:2:0 Deep Color Tests (14)
4.4.3
4.4.4
Source Video Timing “21:9” (64:27) Video Formats Tests (14)
Source Audio Encoding Tests (14)
4.5
4.5.1
Source Audio Encoding 3D Audio (14)
4.5.2
Source Audio Encoding Multi-stream Audio Tests (14)
4.5.3
Source Audio Encoding High Bit Rate (HBR) Audio Tests (15)
4.5.4
Source Audio Encoding CEA-861-F Audio Tests (15)
4.6
(15)
4.6.1
Source HDMI-VSIFs 3D OSD Disparity Tests (15)
4.6.2
Source HDMI-VSIFs Dual-View Tests (15)
4.6.3
Source HDMI-VSIFs Independent-View Tests (15)
4.7
Source AVI InfoFrame and GCP Tests (15)
4.7.1
Source AVI InfoFrame and GCP 6G Tests (15)
4.7.2
Source AVI InfoFrame YC B C R 4:2:0 Tests (16)
Source AVI InfoFrame and GCP YC B C R 4:2:0 BT.2020 Tests (16)
4.7.3 Source Audio InfoFrame Tests .............................................................................................. 16 4.8 Source Audio InfoFrame 3D and Multi-stream Audio Tests . (16)
4.8.1 Source Audio Channel Status Tests ...................................................................................... 16 4.9 Source Audio Channel Status Basic Audio Tests . (16)
4.9.1 Source E-DDC Protocol Tests ................................................................................................ 17 4.10 Source E-DDC Protocol – Read Request Tests ....................................................... 17 4.10.1 Sink Tests . (18)
5 Sink TMDS Electrical Tests .................................................................................................... 18 5.1 Sink TMDS Electrical 6G Tests .. (18)
5.1.1 Sink TMDS Protocol Tests ..................................................................................................... 18 5.2 Sink TMDS Protocol ≤ 340Mcsc Tests ....................................................................... 19 5.2.1 Sink TMDS Protocol 340-600Mscs and Scrambling Tests ......................................... 19 5.2.2 Sink Character Error Detection Tests (19)
5.2.3 Sink Pixel Decoding Tests ...................................................................................................... 20 5.3 Sink YC B C R 4:2:0 Pixel Decoding Tests ....................................................................... 20 5.3.1 Sink YC B C R 4:2:0 Pixel Deep Color Decoding Tests . (20)
5.3.2 Sink Video Timing Tests ........................................................................................................ 20 5.4 Sink Video Timing 6G Tests ....................................................................................... 20 5.4.1 Sink Video Timing 21:9 (64:27) Video Formats Tests .. (21)
5.4.2 Sink Audio Decoding and Rendering Tests ........................................................................... 22 5.5 Sink Audio Decoding and Rendering 3D Audio Tests ............................................... 22 5.5.1 Sink Audio Decoding and Rendering Multi-stream Audio Tests ............................... 22 5.5.2 Sink Audio Decoding and Rendering CEA-861-F Audio Tests .. (22)
5.5.3 Sink A/V Relationship Tests .................................................................................................. 22 5.6 Sink A/V Relationship Auto Lip-sync Tests . (22)
5.6.1 Sink HDMI-VSIFs Tests .......................................................................................................... 22 5.7 Sink HDMI-VSIFs 3D OSD Disparity Tests .................................................................. 22 5.7.1 Sink HDMI-VSIFs Dual-View Tests .. (23)
5.7.2 Sink EDID Tests ..................................................................................................................... 23 5.8 Sink EDID 6G HF-VSDB Tests ..................................................................................... 23 5.8.1 Sink EDID YC B C R 4:2:0 Data Block Tests .................................................................... 23 5.8.2 Sink EDID 3D and Multi-stream Audio Data Block Tests .......................................... 24 5.8.3 Sink EDID Independent-View HF-VSDB Tests ........................................................... 24 5.8.4 Sink EDID Video Format Declaration Tests ............................................................... 24 5.8.5 Sink EDID Non-2160p Tests (24)
5.8.6 Sink E-DDC Protocol Tests ..................................................................................................... 25 5.9 Sink E-DDC Protocol – Read Request ........................................................................ 25 5.9.1 Repeater Tests ................................................................................................................. 27 6
Repeater TMDS Protocol Tests (27)
6.1
6.2
Repeater Repeated Output Port 6G 2160p Tests (27)
6.3
Repeater Repeated Output Port 6G Non-2160p Video Timings Tests (27)
6.4
Repeater Repeated Input Port 6G 2160p Tests (27)
6.5
Repeater Repeated Input Port 6G Non-2160p Video Timings Tests (28)
6.6
Repeater A/V Relationship Tests (28)
6.6.1
Repeater Auto Lip-sync Tests (28)
7
CEC Device Test (29)
7.1
CEC tests: low level (29)
7.2
CEC tests: general protocol (30)
7.3
CEC tests: timing (31)
7.4
CEC tests: polling (32)
CEC tests: address allocation (32)
7.5
7.6
CEC tests: power state changes (34)
7.7
CEC tests: routing/switching (38)
7.8
CEC tests: Remote Control Pass Through (39)
7.9
CEC tests: Device OSD Name Transfer (41)
7.10
CEC tests: System Audio Control (41)
CEC tests: Audio Return Channel Control (43)
7.11
7.12
CEC tests: Vendor Specific Messages (44)
7.13
CEC tests for Converter Cable (44)
Appendix A Source DUT Capabilities Declaration Form (Normative) (45)
Source Characteristics (45)
Appendix B Sink DUT Capabilities Declaration Form (Normative) (54)
Sink Characteristics (54)
Appendix C Repeater DUT Capabilities Declaration Form (Normative) (59)
Repeater Characteristics (59)
Appendix D CEC DUT Capabilities Declaration Form (Normative) (62)
Appendix E Minimum CDF 1.4b for CEC 2.0 Devices (Informative) (64)
Appendix F Test Results Form (TRF) (70)
Document Revision History (70)
Test Results Form – Source DUT (70)
Test Results Form – Sink DUT (75)
Test Results Form – Repeater DUT (80)
Appendix G YC B C R 4:2:0 Test Image (Informative) (81)
Appendix H General DUT Capabilities Declaration (Normative) (83)
Appendix I Lipsync Test - Known Sink (Informative) (84)
Appendix J Additional HDMI 2.0 Requirements (Informative) (85)
Introduction
1
This specification has been developed by the HDMI Forum, Inc.
2
Purpose and Scope
This document constitutes the Compliance Test Specification Version 2.0 for the High-Definition Multimedia Interface (HDMI Compliance Test Specification Version 2.0).
This Specification is intended to set forth the compliance tests associated with the High-Definition Multimedia Interface, Version 2.0 Specification. Such compliance tests are organized according to an associated Test ID.
The test equipment manufacturers develop and provide real test instrument products and these methods of implementation (MOIs). Such MOIs are to be documented in a series of “Method Of Implementation” documents external to this document, and are required for compliance testing in Authorized Test Centers.
3
Important Notice to Adopters
For each Test ID that has a corresponding MOI, a hyperlink to the MOI is included that provides the location online where the MOI is available. Adopters are responsible for obtaining necessary MOI documents in order to use as Normative Reference.
In order to satisfy the compliance test required by the HDMI Adopter Agreement, the Adopters must perform applicable tests of HDMI Compliance Test Specification Version 1.4b before performing applicable tests contained in this Specification.
4
Source Tests
4.1
Source TMDS Electrical Tests
4.1.1
Source TMDS Electrical 6G Tests
HF1-1: Source TMDS Electrical – 6G – V L and V swing
Confirm that the DC voltage levels on the HDMI link are within the specific limits of each TMDS signal.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-1_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-1_Tektronix_MOI_V1.0a.pdf
HF1-2: Source TMDS Electrical – 6G – T RISE, T FALL
Confirm that the rise times and fall times on the TMDS differential signals fall within the limits of the specification.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-2_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-2_Tektronix_MOI_V1.0a.pdf
HF1-3: Source TMDS Electrical – 6G – Inter-Pair Skew
Confirm that any skew between the differential data pairs in the TMDS portion of the HDMI link does not exceed the limits in the specification.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-3_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-3_Tektronix_MOI_V1.0a.pdf
HF1-4: Source TMDS Electrical – 6G – Intra-Pair Skew
Confirm that any skew within any one differential data pair in the TMDS portion of the HDMI link does not exceed the limits in the specification.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-4_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-4_Tektronix_MOI_V1.0a.pdf
HF1-5: Source TMDS Electrical – 6G – Differential Voltage
Confirm that the differential signal on each TMDS differential data pair does not exceed the Maximum/Minimum Differential Voltage.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-5_Agilent_MOI_V1.0a.pdf
?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-5_Tektronix_MOI_V1.0a.pdf
HF1-6: Source TMDS Electrical – 6G – Clock Duty Cycle and Clock Rate
Confirm that the duty cycle of the differential TMDS clock does not exceed the limits allowed by the specification.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-6_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-6_Tektronix_MOI_V1.0a.pdf
HF1-7: Source TMDS Electrical – 6G – Clock Jitter
Confirm that the TMDS Clock does not carry excessive jitter.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-7_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-7_Tektronix_MOI_V1.0a.pdf
HF1-8: Source TMDS Electrical – 6G – Data Eye Diagram
Confirm that the differential signal on each TMDS differential data pair has an “eye opening” (region of valid data) that meets or exceeds the limits on eye opening in the specification.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-8_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-8_Tektronix_MOI_V1.0a.pdf
HF1-9: Source TMDS Electrical – 6G – Differential Impedance
Confirm that the TMDS impedance of the Source DUT is within the specified limits.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF1-9_Agilent_MOI_V1.0a.pdf
?Rohde & Schwarz MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/RohdeSchwarz/HF1-9_RohdeSchwarz_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF1-9_Tektronix_MOI_V1.0b.pdf
4.2
Source TMDS Protocol Tests
4.2.1
Source TMDS Protocol Scrambling ≤ 3.4Gbps Tests
HF1-13: Source TMDS Protocol – Scrambling ≤ 3.4Gbps
Confirm that the Source enables/disables scrambling according to the scrambling capability of the connected Sink for TMDS Character Rates at or below 340Mcsc.
Source TMDS Protocol 6G and Scrambling Tests
4.2.2
HF1-10: Source TMDS Protocol – 6G – TMDS Bit Clock Ratio
Confirm the Source changes the TMDS Bit Clock Ratio correctly according to the output signal.
?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-10_QuantumData_MOI_V1.0.pdf
HF1-11: Source TMDS Protocol – 6G – 2160p Legal Codes
Confirm that the Source only outputs legal 10-bit codes.
?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-11_QuantumData_MOI_V1.0.pdf
HF1-12: Source TMDS Protocol – 6G – Basic Protocol and Scrambling
Confirm that the Source only outputs code sequences for Control Periods, Data Island Periods and Video Data Periods corresponding to basic HDMI protocol rules.
?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-12_QuantumData_MOI_V1.0.pdf
HF1-21: Source TMDS Protocol – 6G – Non-2160p Legal Codes
Confirm that the Source only outputs legal 10-bit codes.
HF1-22: Source TMDS Protocol – 6G – Non-2160p Basic Protocol and Scrambling
Confirm that the Source only outputs code sequences for Control Periods, Data Island Periods and Video Data Periods corresponding to the basic HDMI protocol rules.
4.3
Source TMDS Pixel Encoding
4.3.1
Source Pixel Encoding YC B C R 4:2:0 Tests
HF1-31: Source Pixel Encoding – YC B C R 4:2:0 – TMDS Pixel Encoding
Confirm that a YC B C R 4:2:0 Pixel encoding-capable Source DUT outputs correct YC B C R 4:2:0 Pixel encoding and signaling. In the case where a Source DUT can output standardized test images, then ensure the proper position of the Pixels and the order of the color-component data of the test Pixels with fully saturated (extreme-value) color-components. NOTE: Only the spatial/ordering relationship of
Pixels/components is evaluated by this test. Therefore, fine color level variations (perhaps due to color/level processing) will not produce false-positive FAIL indications.
?Astrodesign MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Astrodesign/HF1-31_Astro_MOI_V1.1.pdf ?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-31_QuantumData_MOI_V1.0.pdf ?Rohde & Schwarz MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/RohdeSchwarz/HF1-31_RohdeSchwarz_MOI_V1.0.pdf
4.3.2
Source Pixel Encoding YC B C R 4:2:0 Deep Color Tests
HF1-32: Source Pixel Encoding – YC B C R 4:2:0 Deep Color – TMDS Pixel Encoding
Confirm that a YC B C R 4:2:0 Deep Color Pixel encoding-capable Source DUT outputs the correct YC B C R
4:2:0 Pixel encoding and signaling. In the case where a Source DUT can output standardized test images, then ensure the proper position of the Pixels and the order of the color-component data of the test Pixels with fully saturated (extreme-value) color-components. NOTE: Only the spatial/ordering relationship of Pixels/components is evaluated by this test, therefore, fine color level variations (perhaps due to color/level processing) will not produce false-positive FAIL indications.
Source Video Timing Tests
4.4
4.4.1
Source Video Timing 6G Tests
HF1-14: Source Video Timing – 6G – 2160p 24-bit Color Depth
Confirm that the Source, whenever transmitting any 24-bit Color Depth 2160p Video Format for TMDS Character Rate above 340Mcsc up to 600Mcsc, complies with all of the required Pixel and line counts.
?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-14_QuantumData_MOI_V1.0.pdf
HF1-15: Source Video Timing – 6G – 2160p Deep Color
Confirm that the Source outputs correct 2160p Deep Color Video Format for TMDS Character Rates above 340Mcsc up to 600Mcsc.
HF1-16: Source Video Timing – 6G – 2160p 3D
Confirm that the Source outputs the correct 2160p 3D Video Formats for TMDS Character Rate above 340Mcsc up to 600Mcsc.
HF1-24: Source Video Timing – 6G – Non-2160p 24-bit Color Depth
Confirm that the Source, whenever transmitting any 24bits color depth non-2160p Video Timing with a TMDS Character Rate that is greater than 340Mcsc, complies with all of the required Pixel and line counts.
HF1-25: Source Video Timing – 6G – Non-2160p Deep Color
Confirm that the Source outputs the correct Deep Color non-2160p Video Timing with a TMDS Character Rate that is greater than 340Mcsc.
HF1-26: Source Video Timing – 6G – Non-2160p 3D
Confirm that the Source outputs the correct 3D non-2160p Video Timing with a TMDS Character Rate that is greater than 340Mcsc.
4.4.2
Source Video Timing YC B C R 4:2:0 Tests
HF1-33: Source Video Timing – YC B C R 4:2:0
To confirm that the Source outputs the correct timing for YC B C R 4:2:0 timings.
?Astrodesign MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Astrodesign/HF1-33_Astro_MOI_V1.1.pdf
?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-33_QuantumData_MOI_V1.0.pdf ?Rohde & Schwarz MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/RohdeSchwarz/HF1-33_RohdeSchwarz_MOI_V1.0.pdf
4.4.3
Source Video Timing YC B C R 4:2:0 Deep Color Tests
HF1-34: Source Video Timing – YC B C R 4:2:0 Deep Color
To confirm that the Source outputs the correct timing for YC B C R 4:2:0 Deep Color timings.
4.4.4
Source Video Timing “21:9” (64:27) Video Formats Tests HF1-35: Source Video Timing – 21:9 (64:27)
Confirm that a "21:9" (64:27) capable Source DUT complies with all of the required Pixel and line counts and Pixel clock frequency range whenever transmitting any supported "21:9" (64:27) Video Format.
?Rohde & Schwarz MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/RohdeSchwarz/HF1-35_RohdeSchwarz_MOI_V1.0.pdf ?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-35_QuantumData_MOI_V1.0.pdf
4.5
Source Audio Encoding Tests
4.5.1
Source Audio Encoding 3D Audio
HF1-41: Source Audio Encoding – 3D Audio – IEC Sample Packet
Confirm that the behavior of all fields within the 3D Audio Sample Packet follows the corresponding rules specified in the IEC 60958 specifications.
HF1-36: Source Audio Encoding – 3D Audio (L-PCM) – Packet Format
Confirm that the Source DUT transmits 3D Audio (L-PCM) using a valid packet format.
HF1-37: Source Audio Encoding – 3D Audio (One Bit) – Packet Format
Confirm that the Source DUT transmits One Bit 3D Audio using a valid packet format.
4.5.2
Source Audio Encoding Multi-stream Audio Tests
HF1-42: Source Audio Encoding – MS Audio – IEC Sample Packet
Confirm that the behavior of all fields within the Multi-stream Audio Sample subpackets follows the corresponding rules specified in the IEC 60958 or IEC 61937 specifications.
HF1-38: Source Audio Encoding – MS Audio (L-PCM and 61937) – Packet Format
Confirm that the Source DUT transmits Multi-stream Audio using a valid packet format.
HF1-39: Source Audio Encoding – MS Audio (One Bit) – Packet Format
Confirm that the Source transmits One Bit Multi-stream Audio using a valid packet format.
4.5.3
Source Audio Encoding High Bit Rate (HBR) Audio Tests HF1-43: Source Audio Encoding – HBR Audio – IEC Audio Stream Packet
Confirm that the behavior of all fields within the HBR Audio Sample Packet follows the corresponding rules specified in the IEC 60958 and IEC 61937 specifications.
4.5.4
Source Audio Encoding CEA-861-F Audio Tests
HF1-40: Source Audio Encoding – CEA-861-F Audio
Confirm that the Source DUT, whenever transmitting a supported audio format, sends a properly formatted audio signal.
4.6
Source HDMI-VSIFs Tests
4.6.1
Source HDMI-VSIFs 3D OSD Disparity Tests
HF1-47: Source HDMI-VSIFs – 3D OSD Disparity
Confirm that the Source DUT, whenever transmitting “3D OSD Disparity” signaling, inserts correctly formatted and filled Vendor Specific InfoFrames.
4.6.2
Source HDMI-VSIFs Dual-View Tests
HF1-48: Source HDMI-VSIFs – Dual-View
Confirm that the Source DUT inserts a correctly formatted and filled Vendor Specific InfoFrame, whenever transmitting “Dual View”.
4.6.3
Source HDMI-VSIFs Independent-View Tests
HF1-49: Source HDMI-VSIFs – Independent-View
Confirm that the Source DUT inserts a correctly formatted and filled Vendor Specific InfoFrame, whenever transmitting “independent view”.
4.7
Source AVI InfoFrame and GCP Tests
Source AVI InfoFrame and GCP 6G Tests
4.7.1
HF1-18: Source AVI InfoFrame and GCP – 6G – 2160p
Confirm that the Source, whenever transmitting any 2160p Video Format for TMDS Character Rate above 340Mcsc up to 600Mcsc, transmits an accurate AVI InfoFrame at least once per every two video fields and appropriate color depth as indicated by GCP.
? Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-18_QuantumData_MOI_V1.0.pdf
HF1-28: Source AVI InfoFrame and GCP – 6G – Non-2160p
Confirm that the Source, whenever transmitting any non-2160p Video Timing with a TMDS Character Rate that is greater than 340Mcsc, transmits an accurate AVI InfoFrame at least once every two video fields and appropriate color depth as indicated by GCP. Source AVI InfoFrame YC B C R 4:2:0 Tests
4.7.2HF1-51: Source AVI InfoFrame – YC B C R 4:2:0 Confirm that the YC B C R 4:2:0 signaling information in the AVI InfoFrame is correct.
? Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF1-51_QuantumData_MOI_V1.0.pdf
? Rohde & Schwarz MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/RohdeSchwarz/HF1-51_RohdeSchwarz_MOI_V1.0.pdf
Source AVI InfoFrame and GCP YC B C R 4:2:0 BT.2020 4.7.3Tests
HF1-52: Source AVI InfoFrame and GCP – YC B C R 4:2:0 BT.2020
Confirm that BT.2020 Colorimetry information in the AVI InfoFrame is correct and appropriate color depth as indicated by GCP. Source Audio InfoFrame Tests
4.8 Source Audio InfoFrame 3D and Multi-stream Audio
4.8.1Tests
HF1-44: Source Audio InfoFrame – 3D and MS Audio – Supported Frequency
Confirm that One Bit 3D Audio Sample Packets or One Bit Multi-stream Audio Sample Packets are transmitted with the supported sample frequency. Source Audio Channel Status Tests
4.9 Source Audio Channel Status Basic Audio Tests
4.9.1HF1-45: Source Audio Channel Status – Basic Audio – Allowed Rate Confirm that the Audio Sample Packet is transmitted with the supported sample frequency.
Source E-DDC Protocol Tests
4.10
4.10.1
Source E-DDC Protocol – Read Request Tests
HF1-27: Source E-DDC Protocol – Read Request – SCDC Enable Logic
Insure that the Source reads the Sink’s RR_Capable bit before enabling the SCDC Read Request feature. HF1-17: Source E-DDC Protocol – Read Request – START Response
To validate that the Source responds immediately to a Sink-initiated START condition. Verify Source completes a valid I2C transaction to read SCDC Update Flags in response to a Sink-Initiated START Condition.
HF1-19: Source E-DDC Protocol – Read Request – STOP Condition
To validate that the Source generates a STOP condition in response to a Sink-initiated START condition. HF1-20: Source E-DDC Protocol – Read Request – Update Flags Read
To verify that, when the Source has enabled the Read Request feature and responds to a Read Request by generating a STOP condition, the Source subsequently reads the SCDC Update Flags register(s).
HF1-23: Source E-DDC Protocol – Clock Stretching
Confirm that HDMI 2.0 Sources, that support SCDC, properly delay DDC transactions in response to Sinks that use clock stretching.
HF1-29: Source E-DDC Protocol – CED Counter Read
To verify, when reading the error count registers and associated checksum, the transmitter reads all 7-bytes in a single SCDC transaction.
5
Sink Tests
5.1
Sink TMDS Electrical Tests
5.1.1
Sink TMDS Electrical 6G Tests
HF2-1: Sink TMDS Electrical – 6G – Min/Max Differential Swing Tolerance
Confirm that the Sink properly supports TMDS differential voltages at minimum and maximum levels.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF2-1_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF2-1_Tektronix_MOI_V1.0a.pdf
HF2-2: Sink TMDS Electrical – 6G – Intra-Pair Skew
Confirm that the maximum allowed timing skew within each TMDS pair is supported by the Sink DUT.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF2-2_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF2-2_Tektronix_MOI_V1.0a.pdf
HF2-3: Sink TMDS Electrical – 6G – Jitter Tolerance
Confirm that the maximum allowed TMDS clock jitter is supported by the Sink DUT.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF2-3_Agilent_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF2-3_Tektronix_MOI_V1.0a.pdf
HF2-4: Sink TMDS Electrical – 6G – Differential Impedance
Confirm that the TMDS input impedance of the Sink DUT is within the specified limits.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF2-4_Agilent_MOI_V1.0a.pdf ?Rohde & Schwarz MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/RohdeSchwarz/HF2-4_RohdeSchwarz_MOI_V1.0a.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF2-4_Tektronix_MOI_V1.0b.pdf
HF2-52: Sink TMDS Electrical – 6G – Character Error Rate
Confirm that the Sink meets the Character Error Rate requirement.
5.2
Sink TMDS Protocol Tests
Sink TMDS Protocol ≤ 340Mcsc Tests
5.2.1
HF2-9: Sink TMDS Protocol – Scrambling ≤ 340Mcsc
Confirm that the Sink properly supports scrambling for TMDS Character Rates at or below 340Mcsc.
?Rohde & Schwarz MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/RohdeSchwarz/HF2-9_RohdeSchwarz_MOI_V1.0.pdf ?Astrodesign MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Astrodesign/HF2-9_Astro_MOI_V1.0.pdf
?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF2-9_QuantumData_MOI_V1.0.pdf
5.2.2
Sink TMDS Protocol 340-600Mscs and Scrambling Tests HF2-5: Sink TMDS Protocol – 6G – Scrambling
Confirm that the Sink sets the Scrambling_Status bit to a 1.
?Astrodesign MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Astrodesign/HF2-5_Astro_MOI_V1.1.pdf
?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF2-5_QuantumData_MOI_V1.0.pdf
Sink Character Error Detection Tests
5.2.3
HF2-17: Sink TMDS Protocol - CED – Locked Bits
Confirm that the SCDC Ch0_Locked, Ch1_Locked, and Ch2_Locked bits are functioning correctly.
HF2-18: Sink TMDS Protocol - CED – Normal Video Data
Confirm that the Valid bit and error counters function correctly in the presence of normal video data. HF2-19: Sink TMDS Protocol - CED – Specific Video Data Error Injection
Confirm that the Valid bit functions correctly and that the error counters are accurate in the presence of a specific amount of video data errors being injected into a single channel.
HF2-20: Sink TMDS Protocol - CED – Maximum Video Data Error Injection
Confirm that the Valid bit functions correctly and that the error counters stop counting and remain at their maximum value after receiving a large number of errors injected into single channels (i.e. a number that exceeds the counting capacity of the error counters).
HF2-21: Sink TMDS Protocol - CED – Standby Error Counter Reset
Confirm that the Valid bits and error counters return to 0 when the Sink is put into standby.
HF2-22: Sink TMDS Protocol - CED – Disconnect Error Counter Reset
Confirm that the Valid bits and error counters return to 0 when the +5V Power Signal is removed from the Sink.
Sink Pixel Decoding Tests
5.3
5.3.1
Sink YC B C R 4:2:0 Pixel Decoding Tests
HF2-23: Sink Pixel Decoding – YC B C R 4:2:0
Confirm that a YC B C R 4:2:0 Pixel encoding-capable Sink DUT supports YC B C R 4:2:0 Pixel decoding and signaling.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF2-23_Keysight_MOI_V1.0a.pdf ?Astrodesign MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Astrodesign/HF2-23_Astro_MOI_V1.1.pdf ?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF2-23_QuantumData_MOI_V1.0.pdf ?Rohde & Schwarz MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/RohdeSchwarz/HF2-23_RohdeSchwarz_MOI_V1.0.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF2-23_Tektronix_MOI_V1.0a.pdf
5.3.2
Sink YC B C R 4:2:0 Pixel Deep Color Decoding Tests
HF2-24: Sink Pixel Decoding – YC B C R 4:2:0 Deep Color
Confirm that a YC B C R 4:2:0 Pixel Deep Color encoding-capable Sink DUT supports YC B C R 4:2:0 Pixel Deep Color decoding and signaling.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF2-24_Keysight_MOI_V1.0a.pdf ?Astrodesign MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Astrodesign/HF2-24_Astro_MOI_V1.0.pdf ?Quantum Data MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/QuantumData/HF2-24_QuantumData_MOI_V1.0.pdf ?Tektronix MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Tektronix/HF2-24_Tektronix_MOI_V1.0a.pdf
Sink Video Timing Tests
5.4
5.4.1
Sink Video Timing 6G Tests
HF2-6: Sink Video Timing – 6G – 2160p 24-bit Color Depth
Confirm that the Sink DUT supports 24-bit Color Depth 2160p Video Format for TMDS Character Rate above 340Mcsc up to 600Mcsc indicated in the EDID.
?Keysight MOI:
https://www.docsj.com/doc/3e103424.html,/docs/moi/Keysight/HF2-6_Keysight_MOI_V1.0a.pdf