ADV7610 Software Manual PDF

ADV7610 SOFTWARE MANUAL
Documentation of the Register Maps
SOFTWARE
MANUAL
Rev. 0
April 2013
Register Map
TABLE OF CONTENTS
Introduction........................................................................................................................................................... 3
Legal Terms and Conditions ............................................................................................................................... 3
1 Register Tables............................................................................................................................................... 4
1.1
1.2
1.3
1.4
1.5
1.6
1.7
2
2.1
2.2
2.3
2.4
2.5
2.6
2.7
IO ........................................................................................................................................................................................... 4
DPLL ...................................................................................................................................................................................... 9
HDMI................................................................................................................................................................................... 10
Repeater............................................................................................................................................................................. 14
Infoframe ........................................................................................................................................................................... 18
CP ........................................................................................................................................................................................ 25
CEC ...................................................................................................................................................................................... 28
Signal Documentation ............................................................................................................................... 32
IO ......................................................................................................................................................................................... 32
DPLL .................................................................................................................................................................................... 69
HDMI................................................................................................................................................................................... 69
Repeater............................................................................................................................................................................. 82
Infoframe ........................................................................................................................................................................... 92
CP ........................................................................................................................................................................................ 98
CEC .................................................................................................................................................................................... 108
3 Index ............................................................................................................................................................ 116
Revision History ................................................................................................................................................ 128
Rev. 0
2
Register Map
INTRODUCTION
This document describes the I2 C control registers for the ADV7610. The ADV7610 is a high quality, single input HDMI-capable receiver.
This Register Tables section of this document provides detailed register tables for the ADV7610 register maps. The Signal Documentation
section provides detailed signal documentation for each register.
LEGAL TERMS AND CONDITIONS
Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices
for its use, nor for any infringements of patents or other rights of third parties that may result from its use. No license is granted by
implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of
their respective owners. Information contained within this document is subject to change without notice. Software or hardware provided
by Analog Devices may not be disassembled, decompiled or reverse engineered. Analog Devices’ standard terms and conditions for
products purchased from Analog Devices can be found at:
http://www.analog.com/en/content/analog_devices_terms_and_conditions/fca.html.
Rev. 0
3
IO
Register Map
1 REGISTER TABLES
1.1
IO
ADD
0x00
0x01
DEF
0x08
0x06
REGISTER NAME
VIDEO STANDARD
PRIMARY MODE
7
INP_COLOR_SPAC
E[3]
OP_FORMAT_SEL[
7]
6
V_FREQ[2]
INP_COLOR_SPAC
E[2]
OP_FORMAT_SEL[
6]
5
VID_STD[5]
V_FREQ[1]
INP_COLOR_SPAC
E[1]
OP_FORMAT_SEL[
5]
4
VID_STD[4]
V_FREQ[0]
INP_COLOR_SPAC
E[0]
OP_FORMAT_SEL[
4]
0x02
0xF0
IO_REG_02
rw
0x03
0x00
IO_REG_03
rw
0x04
0x62
IO_REG_04
rw
OP_CH_SEL[2]
OP_CH_SEL[1]
OP_CH_SEL[0]
-
-
0x05
0x2C
IO_REG_05
rw
-
-
-
F_OUT_SEL
DATA_BLANK_EN
0x06
0x0B
0x0C
0xA0
0x44
0x62
IO_REG_06
IO_REG_0C
rw
rw
rw
VS_OUT_SEL
-
-
POWER_DOWN
INV_F_POL
PWR_SAVE_MODE
0x12
0x00
IO_REG_12
r
-
-
-
0x14
0x15
0x6A
0xBE
IO_REG_14
IO_REG_15
rw
rw
-
-
DR_STR[1]
-
0x19
0x00
LLC_DLL
rw
LLC_DLL_EN
-
-
0x1B
0x00
ALSB CONTROL
rw
-
-
0x20
0xF0
HPA_REG1
rw
HPA_MAN_VALUE
_A
CP_STDI_INTERLA
CED
DR_STR[0]
TRI_AUDIO
LLC_DLL_PHASE[4
]
-
-
-
-
0x21
0x00
HPA_REG2
r
-
-
-
-
0x33
0x3F
0x00
0x00
rw
r
0x20
0x41
0x30
INTRQ_DUR_SEL[1
]
INTRQ2_DUR_SEL[
1]
LLC_DLL_MUX
INTRQ_DUR_SEL[0
]
INTRQ2_DUR_SEL[
0]
-
0x40
IO_REG_33
INT STATUS
INT1_CONFIGURA
TION
INT2_CONFIGURA
TION
CP_LOCK_UNLOC
K_EDGE_SEL
0x42
0x00
r
-
-
-
0x43
0x00
r
-
-
-
0x44
0x00
sc
-
-
-
0x45
0x00
rw
-
-
-
STORE_UNMASKE
D_IRQS
STDI_DATA_VALID
_EDGE_SEL
STDI_DATA_VALID
_RAW
STDI_DATA_VALID
_ST
STDI_DATA_VALID
_CLR
STDI_DATA_VALID
_MB2
Rev. 0
RAW_STATUS_1
INTERRUPT_STATU
S_1
INTERRUPT_CLEAR
_1
INTERRUPT2_MAS
KB_1
ACC
rw
rw
rw
rw
-
4
3
VID_STD[3]
PRIM_MODE[3]
2
VID_STD[2]
PRIM_MODE[2]
1
VID_STD[1]
PRIM_MODE[1]
0
VID_STD[0]
PRIM_MODE[0]
ALT_GAMMA
OP_656_RANGE
RGB_OUT
ALT_DATA_SAT
OP_FORMAT_SEL[
3]
OP_FORMAT_SEL[
1]
XTAL_FREQ_SEL[0
]
OP_FORMAT_SEL[
0]
REPL_AV_CODE
OP_SWAP_CB_CR
INV_HS_POL
CORE_PDN
CP_FORCE_INTERL
ACED
DR_STR_SYNC[1]
TRI_PIX
LLC_DLL_PHASE[1
]
-
INV_LLC_POL
XTAL_PDN
PADS_PDN
DR_STR_CLK[1]
TRI_SYNCS
LLC_DLL_PHASE[3
]
-
OP_FORMAT_SEL[
2]
XTAL_FREQ_SEL[1
]
AVCODE_INSERT_
EN
INV_VS_POL
CP_PWRDN
CP_PROG_PARM_
FOR_INT
DR_STR_CLK[0]
TRI_LLC
LLC_DLL_PHASE[2
]
-
DR_STR_SYNC[0]
LLC_DLL_PHASE[0
]
SAMPLE_ALSB
HPA_TRISTATE_A
-
-
-
-
-
-
-
INTRQ_RAW
INTRQ2_RAW
MPU_STIM_INTRQ
INTRQ_OP_SEL[1]
INTRQ_OP_SEL[0]
INT2_POL
INTRQ2_MUX_SEL
[1]
INTRQ2_MUX_SEL
[0]
CP_UNLOCK_RAW
CP_LOCK_RAW
-
-
CP_UNLOCK_ST
CP_LOCK_ST
-
-
CP_UNLOCK_CLR
CP_LOCK_CLR
-
-
CP_UNLOCK_MB2
CP_LOCK_MB2
-
-
CP_INTERLACED
HPA_STATUS_POR
T_A
EN_UMASK_RAW_
INTRQ
EN_UMASK_RAW_
INTRQ2
-
-
IO
Register Map
ADD
DEF
0x46
0x00
0x47
0x00
0x48
0x00
0x49
0x00
0x4A
0x00
0x4B
0x00
0x5B
0x00
0x5C
0x00
0x5D
0x00
0x5E
0x00
0x5F
0x00
0x60
0x00
0x61
0x00
0x62
0x00
0x63
0x00
0x64
0x00
0x65
0x00
0x66
0x00
0x67
0x00
0x68
0x00
0x69
0x00
0x6A
0x00
Rev. 0
REGISTER NAME
INTERRUPT_MASK
B_1
RAW_STATUS_2
INTERRUPT_STATU
S_2
INTERRUPT_CLEAR
_2
INTERRUPT2_MAS
KB_2
INTERRUPT_MASK
B_2
RAW_STATUS_6
INTERRUPT_STATU
S_6
INTERRUPT_CLEAR
_6
INTERRUPT2_MAS
KB_6
INTERRUPT_MASK
B_6
HDMI LVL RAW
STATUS 1
HDMI LVL INT
STATUS 1
HDMI LVL INT CLR
1
HDMI LVL INT2
MASKB 1
HDMI LVL INT
MASKB 1
HDMI LVL RAW
STATUS 2
HDMI LVL INT
STATUS 2
HDMI LVL INT CLR
2
HDMI LVL INT2
MASKB 2
HDMI LVL INT
MASKB 2
HDMI LVL RAW
STATUS 3
ACC
7
6
5
rw
-
-
-
-
-
-
r
r
sc
rw
rw
MPU_STIM_INTRQ
_RAW
MPU_STIM_INTRQ
_ST
MPU_STIM_INTRQ
_CLR
MPU_STIM_INTRQ
_MB2
MPU_STIM_INTRQ
_MB1
4
STDI_DATA_VALID
_MB1
3
2
1
0
CP_UNLOCK_MB1
CP_LOCK_MB1
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
CP_LOCK_CH1_CL
R
CP_LOCK_CH1_M
B2
CP_LOCK_CH1_M
B1
CP_UNLOCK_CH1
_RAW
CP_UNLOCK_CH1
_ST
CP_UNLOCK_CH1
_CLR
CP_UNLOCK_CH1
_MB2
CP_UNLOCK_CH1
_MB1
STDI_DVALID_CH1
_RAW
STDI_DVALID_CH1
_ST
STDI_DVALID_CH1
_CLR
STDI_DVALID_CH1
_MB2
STDI_DVALID_CH1
_MB1
AUDIO_INFO_RA
W
r
-
-
-
-
CP_LOCK_CH1_RA
W
r
-
-
-
-
CP_LOCK_CH1_ST
sc
-
-
-
-
rw
-
-
-
-
rw
-
-
-
-
r
ISRC2_PCKT_RAW
ISRC1_PCKT_RAW
ACP_PCKT_RAW
VS_INFO_RAW
MS_INFO_RAW
SPD_INFO_RAW
r
ISRC2_PCKT_ST
ISRC1_PCKT_ST
ACP_PCKT_ST
VS_INFO_ST
MS_INFO_ST
SPD_INFO_ST
AUDIO_INFO_ST
AVI_INFO_ST
sc
ISRC2_PCKT_CLR
ISRC1_PCKT_CLR
ACP_PCKT_CLR
VS_INFO_CLR
MS_INFO_CLR
SPD_INFO_CLR
AUDIO_INFO_CLR
AVI_INFO_CLR
rw
ISRC2_PCKT_MB2
ISRC1_PCKT_MB2
ACP_PCKT_MB2
VS_INFO_MB2
MS_INFO_MB2
SPD_INFO_MB2
AUDIO_INFO_MB2
AVI_INFO_MB2
rw
ISRC2_PCKT_MB1
ISRC1_PCKT_MB1
ACP_PCKT_MB1
VS_INFO_MB1
MS_INFO_MB1
SPD_INFO_MB1
AUDIO_INFO_MB1
AVI_INFO_MB1
CS_DATA_VALID_
RAW
CS_DATA_VALID_S
T
CS_DATA_VALID_
CLR
CS_DATA_VALID_
MB2
CS_DATA_VALID_
MB1
INTERNAL_MUTE_
RAW
INTERNAL_MUTE_
ST
INTERNAL_MUTE_
CLR
INTERNAL_MUTE_
MB2
INTERNAL_MUTE_
MB1
TMDSPLL_LCK_A_
RAW
AUDIO_CH_MD_R
AW
AUDIO_CH_MD_S
T
AUDIO_CH_MD_C
LR
AUDIO_CH_MD_
MB2
AUDIO_CH_MD_
MB1
TMDS_CLK_A_RA
W
HDMI_MODE_RA
W
HDMI_MODE_MB
2
HDMI_MODE_MB
1
GEN_CTL_PCKT_R
AW
GEN_CTL_PCKT_S
T
GEN_CTL_PCKT_C
LR
GEN_CTL_PCKT_
MB2
GEN_CTL_PCKT_
MB1
AUDIO_C_PCKT_R
AW
AUDIO_C_PCKT_S
T
AUDIO_C_PCKT_C
LR
AUDIO_C_PCKT_
MB2
AUDIO_C_PCKT_
MB1
-
VIDEO_3D_RAW
V_LOCKED_RAW
GAMUT_MDATA_R
AW
GAMUT_MDATA_S
T
GAMUT_MDATA_
CLR
GAMUT_MDATA_
MB2
GAMUT_MDATA_
MB1
DE_REGEN_LCK_R
AW
r
r
sc
rw
rw
r
-
AV_MUTE_RAW
AV_MUTE_ST
AV_MUTE_CLR
AV_MUTE_MB2
AV_MUTE_MB1
-
5
HDMI_MODE_ST
HDMI_MODE_CLR
AVI_INFO_RAW
IO
Register Map
ADD
DEF
0x6B
0x00
0x6C
0x00
0x6D
0x00
0x6E
0x00
0x6F
0x00
0x70
0x00
0x71
0x00
0x72
0x00
0x73
0x00
0x79
0x00
0x7A
0x00
0x7B
0x00
0x7C
0x00
0x7D
0x00
0x7E
0x00
0x7F
0x00
0x80
0x00
0x81
0x00
0x82
0x00
0x83
0x00
0x84
0x00
0x85
0x00
Rev. 0
REGISTER NAME
HDMI LVL INT
STATUS 3
HDMI LVL INT CLR
3
HDMI LVL INT2
MASKB 3
HDMI LVL INT
MASKB 3
HDMI LVL RAW
STATUS 4
HDMI LVL INT
STATUS 4
HDMI LVL INT CLR
4
HDMI LVL INT2
MASKB 4
HDMI LVL INT
MASKB 4
HDMI EDG RAW
STATUS 1
HDMI EDG INT
STATUS 1
HDMI EDG INT CLR
1
HDMI EDG INT2
MASKB 1
HDMI EDG INT
MASKB 1
HDMI EDG RAW
STATUS 2
HDMI EDG INT
STATUS 2
HDMI EDG INT CLR
2
HDMI EDG INT2
MASKB 2
HDMI EDG INT
MASKB 2
HDMI EDG RAW
STATUS 3
HDMI EDG STATUS
3
HDMI EDG INT CLR
3
ACC
7
6
TMDSPLL_LCK_A_
ST
TMDSPLL_LCK_A_
CLR
TMDSPLL_LCK_A_
MB2
TMDSPLL_LCK_A_
MB1
5
4
3
2
1
r
-
-
TMDS_CLK_A_ST
-
VIDEO_3D_ST
V_LOCKED_ST
sc
-
-
TMDS_CLK_A_CLR
-
VIDEO_3D_CLR
V_LOCKED_CLR
rw
-
-
VIDEO_3D_MB2
V_LOCKED_MB2
rw
-
-
VIDEO_3D_MB1
V_LOCKED_MB1
r
-
-
-
-
-
r
-
-
-
-
-
sc
-
-
-
-
-
rw
-
-
-
-
-
rw
-
-
-
-
-
NEW_ISRC2_PCKT
_RAW
NEW_ISRC2_PCKT
_ST
NEW_ISRC2_PCKT
_CLR
NEW_ISRC2_PCKT
_MB2
NEW_ISRC2_PCKT
_MB1
FIFO_NEAR_OVFL
_RAW
FIFO_NEAR_OVFL
_ST
FIFO_NEAR_OVFL
_CLR
FIFO_NEAR_OVFL
_MB2
FIFO_NEAR_OVFL
_MB1
DEEP_COLOR_CH
NG_RAW
DEEP_COLOR_CH
NG_ST
DEEP_COLOR_CH
NG_CLR
NEW_ISRC1_PCKT
_RAW
NEW_ISRC1_PCKT
_ST
NEW_ISRC1_PCKT
_CLR
NEW_ISRC1_PCKT
_MB2
NEW_ISRC1_PCKT
_MB1
FIFO_UNDERFLO_
RAW
FIFO_UNDERFLO_
ST
FIFO_UNDERFLO_
CLR
FIFO_UNDERFLO_
MB2
FIFO_UNDERFLO_
MB1
NEW_ACP_PCKT_
RAW
NEW_ACP_PCKT_
ST
NEW_ACP_PCKT_
CLR
NEW_ACP_PCKT_
MB2
NEW_ACP_PCKT_
MB1
FIFO_OVERFLO_R
AW
NEW_VS_INFO_RA
W
NEW_MS_INFO_R
AW
NEW_MS_INFO_S
T
NEW_MS_INFO_C
LR
NEW_MS_INFO_M
B2
NEW_MS_INFO_M
B1
r
r
sc
rw
rw
r
r
sc
rw
rw
r
r
sc
VCLK_CHNG_RAW
VCLK_CHNG_ST
VCLK_CHNG_CLR
-
FIFO_OVERFLO_ST
FIFO_OVERFLO_C
LR
FIFO_OVERFLO_M
B2
FIFO_OVERFLO_M
B1
AUDIO_MODE_CH
NG_RAW
AUDIO_MODE_CH
NG_ST
AUDIO_MODE_CH
NG_CLR
6
TMDS_CLK_A_MB
2
TMDS_CLK_A_MB
1
NEW_VS_INFO_ST
NEW_VS_INFO_CL
R
NEW_VS_INFO_M
B2
NEW_VS_INFO_M
B1
CTS_PASS_THRSH
_RAW
CTS_PASS_THRSH
_ST
CTS_PASS_THRSH
_CLR
CTS_PASS_THRSH
_MB2
CTS_PASS_THRSH
_MB1
PARITY_ERROR_R
AW
PARITY_ERROR_ST
PARITY_ERROR_CL
R
CHANGE_N_RAW
CHANGE_N_ST
CHANGE_N_CLR
CHANGE_N_MB2
CHANGE_N_MB1
NEW_SAMP_RT_R
AW
NEW_SAMP_RT_S
T
NEW_SAMP_RT_C
LR
HDMI_ENCRPT_A_
RAW
HDMI_ENCRPT_A_
ST
HDMI_ENCRPT_A_
CLR
HDMI_ENCRPT_A_
MB2
HDMI_ENCRPT_A_
MB1
NEW_SPD_INFO_
RAW
NEW_SPD_INFO_S
T
NEW_SPD_INFO_
CLR
NEW_SPD_INFO_
MB2
NEW_SPD_INFO_
MB1
PACKET_ERROR_R
AW
PACKET_ERROR_S
T
PACKET_ERROR_C
LR
PACKET_ERROR_M
B2
PACKET_ERROR_M
B1
AUDIO_FLT_LINE_
RAW
AUDIO_FLT_LINE_
ST
AUDIO_FLT_LINE_
CLR
NEW_AUDIO_INF
O_RAW
NEW_AUDIO_INF
O_ST
NEW_AUDIO_INF
O_CLR
NEW_AUDIO_INF
O_MB2
NEW_AUDIO_INF
O_MB1
AUDIO_PCKT_ERR
_RAW
AUDIO_PCKT_ERR
_ST
AUDIO_PCKT_ERR
_CLR
AUDIO_PCKT_ERR
_MB2
AUDIO_PCKT_ERR
_MB1
NEW_TMDS_FRQ_
RAW
NEW_TMDS_FRQ_
ST
NEW_TMDS_FRQ_
CLR
0
DE_REGEN_LCK_S
T
DE_REGEN_LCK_C
LR
DE_REGEN_LCK_
MB2
DE_REGEN_LCK_
MB1
CABLE_DET_A_RA
W
CABLE_DET_A_ST
CABLE_DET_A_CL
R
CABLE_DET_A_M
B2
CABLE_DET_A_M
B1
NEW_AVI_INFO_R
AW
NEW_AVI_INFO_S
T
NEW_AVI_INFO_C
LR
NEW_AVI_INFO_M
B2
NEW_AVI_INFO_M
B1
NEW_GAMUT_MD
ATA_RAW
NEW_GAMUT_MD
ATA_ST
NEW_GAMUT_MD
ATA_CLR
NEW_GAMUT_MD
ATA_MB2
NEW_GAMUT_MD
ATA_MB1
FIFO_NEAR_UFLO
_RAW
FIFO_NEAR_UFLO
_ST
FIFO_NEAR_UFLO
_CLR
IO
Register Map
ADD
DEF
0x86
0x00
0x87
0x00
0x88
0x00
0x89
0x00
0x8A
0x00
0x8B
0x00
0x8C
0x00
0x8D
0x00
0x8E
0x00
0x8F
0x00
0x90
0x00
0x91
0x00
0x92
0x00
0x93
0x00
0x94
0x00
0x95
0x00
0x96
0x00
0x97
0x00
0x98
0x00
0x99
0x00
0x9A
0x00
0x9B
0x00
0xD6
0x00
Rev. 0
REGISTER NAME
HDMI EDG INT2
MASKB 3
HDMI EDG INT
MASKB 3
HDMI EDG RAW
STATUS 4
HDMI EDG STATUS
4
HDMI EDG INT CLR
4
HDMI EDG INT2
MASKB 4
HDMI EDG INT
MASKB 4
HDMI EDG RAW
STATUS 5
HDMI EDG STATUS
5
HDMI EDG INT CLR
5
HDMI EDG INT2
MASKB 5
HDMI EDG INT
MASKB 5
CEC_STATUS1_RA
W
CEC_STATUS1_INT
_STATUS
CEC_STATUS1_INT
_CLEAR
CEC_STATUS1_INT
2_MASKB
CEC_STATUS1_INT
1_MASKB
CEC_RAW_STATUS
2
CEC_INTERRUPT_S
TATUS2
CEC_INTERRUPT_
CLEAR2
CEC_INTERRUPT2_
MASKB
CEC_INTERRUPT_
MASKB
IO_REG_D6
ACC
7
DEEP_COLOR_CH
NG_MB2
DEEP_COLOR_CH
NG_MB1
MS_INF_CKS_ERR
_RAW
MS_INF_CKS_ERR
_ST
MS_INF_CKS_ERR
_CLR
MS_INF_CKS_ERR
_MB2
MS_INF_CKS_ERR
_MB1
4
PARITY_ERROR_M
B2
PARITY_ERROR_M
B1
AVI_INF_CKS_ERR
_RAW
AVI_INF_CKS_ERR
_ST
AVI_INF_CKS_ERR
_CLR
AVI_INF_CKS_ERR
_MB2
AVI_INF_CKS_ERR
_MB1
3
NEW_SAMP_RT_M
B2
NEW_SAMP_RT_M
B1
SPD_INF_CKS_ERR
_RAW
SPD_INF_CKS_ERR
_ST
SPD_INF_CKS_ERR
_CLR
SPD_INF_CKS_ERR
_MB2
SPD_INF_CKS_ERR
_MB1
5
AUDIO_MODE_CH
NG_MB2
AUDIO_MODE_CH
NG_MB1
AUD_INF_CKS_ER
R_RAW
AUD_INF_CKS_ER
R_ST
AUD_INF_CKS_ER
R_CLR
AUD_INF_CKS_ER
R_MB2
AUD_INF_CKS_ER
R_MB1
r
-
-
-
-
-
-
-
r
-
-
-
-
-
-
-
sc
-
-
-
-
-
-
-
rw
-
-
-
-
-
-
-
rw
-
-
-
-
-
-
-
r
-
-
CEC_RX_RDY2_RA
W
CEC_RX_RDY1_RA
W
CEC_RX_RDY0_RA
W
r
-
-
CEC_RX_RDY2_ST
CEC_RX_RDY1_ST
CEC_RX_RDY0_ST
sc
-
-
rw
-
-
rw
-
-
CEC_INTERRUPT_
BYTE[7]
CEC_INTERRUPT_
BYTE_ST[7]
CEC_INTERRUPT_
BYTE_CLR[7]
CEC_INTERRUPT_
BYTE_MB2[7]
CEC_INTERRUPT_
BYTE_MB1[7]
-
CEC_INTERRUPT_
BYTE[6]
CEC_INTERRUPT_
BYTE_ST[6]
CEC_INTERRUPT_
BYTE_CLR[6]
CEC_INTERRUPT_
BYTE_MB2[6]
CEC_INTERRUPT_
BYTE_MB1[6]
-
CEC_RX_RDY2_CL
R
CEC_RX_RDY2_M
B2
CEC_RX_RDY2_M
B1
CEC_INTERRUPT_
BYTE[5]
CEC_INTERRUPT_
BYTE_ST[5]
CEC_INTERRUPT_
BYTE_CLR[5]
CEC_INTERRUPT_
BYTE_MB2[5]
CEC_INTERRUPT_
BYTE_MB1[5]
-
CEC_RX_RDY1_CL
R
CEC_RX_RDY1_M
B2
CEC_RX_RDY1_M
B1
CEC_INTERRUPT_
BYTE[4]
CEC_INTERRUPT_
BYTE_ST[4]
CEC_INTERRUPT_
BYTE_CLR[4]
CEC_INTERRUPT_
BYTE_MB2[4]
CEC_INTERRUPT_
BYTE_MB1[4]
-
CEC_RX_RDY0_CL
R
CEC_RX_RDY0_M
B2
CEC_RX_RDY0_M
B1
CEC_INTERRUPT_
BYTE[3]
CEC_INTERRUPT_
BYTE_ST[3]
CEC_INTERRUPT_
BYTE_CLR[3]
CEC_INTERRUPT_
BYTE_MB2[3]
CEC_INTERRUPT_
BYTE_MB1[3]
-
CEC_TX_RETRY_TI
MEOUT_RAW
CEC_TX_RETRY_TI
MEOUT_ST
CEC_TX_RETRY_TI
MEOUT_CLR
CEC_TX_RETRY_TI
MEOUT_MB2
CEC_TX_RETRY_TI
MEOUT_MB1
CEC_INTERRUPT_
BYTE[2]
CEC_INTERRUPT_
BYTE_ST[2]
CEC_INTERRUPT_
BYTE_CLR[2]
CEC_INTERRUPT_
BYTE_MB2[2]
CEC_INTERRUPT_
BYTE_MB1[2]
-
CEC_TX_ARBITRAT
ION_LOST_RAW
CEC_TX_ARBITRAT
ION_LOST_ST
CEC_TX_ARBITRAT
ION_LOST_CLR
CEC_TX_ARBITRAT
ION_LOST_MB2
CEC_TX_ARBITRAT
ION_LOST_MB1
CEC_INTERRUPT_
BYTE[1]
CEC_INTERRUPT_
BYTE_ST[1]
CEC_INTERRUPT_
BYTE_CLR[1]
CEC_INTERRUPT_
BYTE_MB2[1]
CEC_INTERRUPT_
BYTE_MB1[1]
-
rw
rw
r
r
sc
rw
rw
r
r
sc
rw
rw
rw
6
VCLK_CHNG_MB2
VCLK_CHNG_MB1
7
-
2
AUDIO_FLT_LINE_
MB2
AUDIO_FLT_LINE_
MB1
RI_EXPIRED_A_RA
W
1
NEW_TMDS_FRQ_
MB2
NEW_TMDS_FRQ_
MB1
RI_EXPIRED_A_ST
-
RI_EXPIRED_A_CL
R
RI_EXPIRED_A_MB
2
RI_EXPIRED_A_MB
1
-
-
0
FIFO_NEAR_UFLO
_MB2
FIFO_NEAR_UFLO
_MB1
AKSV_UPDATE_A_
RAW
AKSV_UPDATE_A_
ST
AKSV_UPDATE_A_
CLR
AKSV_UPDATE_A_
MB2
AKSV_UPDATE_A_
MB1
VS_INF_CKS_ERR_
RAW
VS_INF_CKS_ERR_
ST
VS_INF_CKS_ERR_
CLR
VS_INF_CKS_ERR_
MB2
VS_INF_CKS_ERR_
MB1
CEC_TX_READY_R
AW
CEC_TX_READY_S
T
CEC_TX_READY_C
LR
CEC_TX_READY_
MB2
CEC_TX_READY_
MB1
CEC_INTERRUPT_
BYTE[0]
CEC_INTERRUPT_
BYTE_ST[0]
CEC_INTERRUPT_
BYTE_CLR[0]
CEC_INTERRUPT_
BYTE_MB2[0]
CEC_INTERRUPT_
BYTE_MB1[0]
PIN_CHECKER_EN
IO
Register Map
ADD
DEF
REGISTER NAME
0xD7
0x00
IO_REG_D7
0xDD
0x00
rw
0xEA
0xEB
0x00
0x00
r
r
0xF4
0x00
0xF5
0x00
0xF9
0x00
0xFA
0x00
0xFB
0x00
0xFD
0x00
0xFF
0x00
Rev. 0
CEC SLAVE
ADDRESS
INFOFRAME SLAVE
ADDRESS
KSV SLAVE
ADDRESS
EDID SLAVE
ADDRESS
HDMI SLAVE
ADDRESS
CP SLAVE
ADDRESS
IO_REG_FF
ACC
rw
rw
rw
rw
rw
rw
rw
sc
7
PIN_CHECKER_VA
L[7]
MAN_OP_CLK_SE
L_EN
RD_INFO[15]
RD_INFO[7]
CEC_SLAVE_ADDR
[6]
INFOFRAME_SLAV
E_ADDR[6]
KSV_SLAVE_ADDR
[6]
EDID_SLAVE_ADD
R[6]
HDMI_SLAVE_AD
DR[6]
CP_SLAVE_ADDR[
6]
MAIN_RESET
6
PIN_CHECKER_VA
L[6]
MAN_OP_CLK_SE
L[2]
RD_INFO[14]
RD_INFO[6]
CEC_SLAVE_ADDR
[5]
INFOFRAME_SLAV
E_ADDR[5]
KSV_SLAVE_ADDR
[5]
EDID_SLAVE_ADD
R[5]
HDMI_SLAVE_AD
DR[5]
CP_SLAVE_ADDR[
5]
-
5
PIN_CHECKER_VA
L[5]
MAN_OP_CLK_SE
L[1]
RD_INFO[13]
RD_INFO[5]
CEC_SLAVE_ADDR
[4]
INFOFRAME_SLAV
E_ADDR[4]
KSV_SLAVE_ADDR
[4]
EDID_SLAVE_ADD
R[4]
HDMI_SLAVE_AD
DR[4]
CP_SLAVE_ADDR[
4]
-
8
4
PIN_CHECKER_VA
L[4]
MAN_OP_CLK_SE
L[0]
RD_INFO[12]
RD_INFO[4]
CEC_SLAVE_ADDR
[3]
INFOFRAME_SLAV
E_ADDR[3]
KSV_SLAVE_ADDR
[3]
EDID_SLAVE_ADD
R[3]
HDMI_SLAVE_AD
DR[3]
CP_SLAVE_ADDR[
3]
-
3
PIN_CHECKER_VA
L[3]
2
PIN_CHECKER_VA
L[2]
1
PIN_CHECKER_VA
L[1]
0
PIN_CHECKER_VA
L[0]
-
-
-
-
RD_INFO[11]
RD_INFO[3]
CEC_SLAVE_ADDR
[2]
INFOFRAME_SLAV
E_ADDR[2]
KSV_SLAVE_ADDR
[2]
EDID_SLAVE_ADD
R[2]
HDMI_SLAVE_AD
DR[2]
CP_SLAVE_ADDR[
2]
-
RD_INFO[10]
RD_INFO[2]
CEC_SLAVE_ADDR
[1]
INFOFRAME_SLAV
E_ADDR[1]
KSV_SLAVE_ADDR
[1]
EDID_SLAVE_ADD
R[1]
HDMI_SLAVE_AD
DR[1]
CP_SLAVE_ADDR[
1]
-
RD_INFO[9]
RD_INFO[1]
CEC_SLAVE_ADDR
[0]
INFOFRAME_SLAV
E_ADDR[0]
KSV_SLAVE_ADDR
[0]
EDID_SLAVE_ADD
R[0]
HDMI_SLAVE_AD
DR[0]
CP_SLAVE_ADDR[
0]
-
RD_INFO[8]
RD_INFO[0]
-
DPLL
1.2
Register Map
DPLL
ADD
DEF
REGISTER NAME
0xA0
0x00
0xB5
0x01
Rev. 0
ACC
7
6
5
4
AUDIO MISC
rw
-
-
-
-
MCLK FS
rw
-
-
-
-
9
3
CLK_DIVIDE_RATI
O[3]
-
2
CLK_DIVIDE_RATI
O[2]
MCLK_FS_N[2]
1
CLK_DIVIDE_RATI
O[1]
MCLK_FS_N[1]
0
CLK_DIVIDE_RATI
O[0]
MCLK_FS_N[0]
HDMI
1.3
Register Map
HDMI
ADD
DEF
ACC
7
6
5
4
3
0x00
0x00
rw
HDCP_A0
-
-
-
-
0x01
0x00
rw
-
-
-
MUX_DSD_OUT
0x03
0x18
rw
-
I2SOUTMODE[1]
I2SOUTMODE[0]
I2SBITWIDTH[4]
0x04
0x00
r
-
AV_MUTE
HDCP_KEYS_READ
0x05
0x00
r
HDMI_MODE
r
VERT_FILTER_LOC
KED
LINE_WIDTH[7]
HDMI_CONTENT_
ENCRYPTED
AUDIO_CHANNEL
_MODE
LINE_WIDTH[6]
DVI_HSYNC_POLA
RITY
DE_REGEN_FILTER
_LOCKED
LINE_WIDTH[5]
0x07
0x00
LINE WIDTH_1
r
0x08
0x00
LINE WIDTH_2
0x09
0x00
FIELD0 HEIGHT_1
r
-
-
-
0x0A
0x00
FIELD0 HEIGHT_2
r
0x0B
0x00
FIELD1 HEIGHT_1
r
0x0C
0x00
r
FIELD0_HEIGHT[6]
DEEP_COLOR_MO
DE[0]
FIELD1_HEIGHT[6]
0x0D
0x04
rw
-
0x0F
0x1F
rw
0x10
0x25
0x11
0x7D
0x12
0x02
0x13
0x7F
0x14
0x3F
FIELD1 HEIGHT_2
HDMI_REGISTER_0
DH
AUDIO MUTE
SPEED
HDMI_REGISTER_1
0H
AUDIO FIFO
ALMOST FULL
THRESHOLD
AUDIO FIFO
ALMOST EMPTY
THRESHOLD
AUDIO COAST
MASK
MUTE MASK
21_16
FIELD0_HEIGHT[7]
DEEP_COLOR_MO
DE[1]
FIELD1_HEIGHT[7]
0x15
0xFF
0x16
0xFF
0x18
0x00
0x19
0x00
Rev. 0
REGISTER NAME
HDMI_REGISTER_0
0H
HDMI_REGISTER_0
1H
HDMI
REGISTER_03H
HDMI
REGISTER_04H
HDMI_REGISTER_0
5H
2
HDMI_PORT_SELE
CT[2]
1
HDMI_PORT_SELE
CT[1]
0
HDMI_PORT_SELE
CT[0]
OVR_AUTO_MUX_
DSD_OUT
OVR_MUX_HBR
MUX_HBR_OUT
TERM_AUTO
I2SBITWIDTH[3]
I2SBITWIDTH[2]
I2SBITWIDTH[1]
I2SBITWIDTH[0]
HDCP_RI_EXPIRED
-
HDMI_PIXEL_REPE
TITION[3]
HDMI_PIXEL_REPE
TITION[2]
TMDS_PLL_LOCKE
D
HDMI_PIXEL_REPE
TITION[1]
AUDIO_PLL_LOCK
ED
HDMI_PIXEL_REPE
TITION[0]
LINE_WIDTH[12]
LINE_WIDTH[11]
LINE_WIDTH[10]
LINE_WIDTH[9]
LINE_WIDTH[8]
FIELD0_HEIGHT[9]
FIELD0_HEIGHT[8]
FIELD0_HEIGHT[1]
FIELD0_HEIGHT[0]
FIELD1_HEIGHT[9]
FIELD1_HEIGHT[8]
-
-
MAN_AUDIO_DL_
BYPASS
AUDIO_DELAY_LI
NE_BYPASS
-
rw
-
-
rw
-
rw
-
rw
-
rw
-
-
-
-
MUTE MASK 15_8
rw
MT_MSK_APLL_U
NLOCK
MUTE MASK 7_0
rw
MT_MSK_AVMUTE
MT_MSK_VPLL_U
NLOCK
MT_MSK_NOT_HD
MIMODE
CTS_CHANGE_TH
RESHOLD[5]
AUDIO_FIFO_ALM
OST_FULL_THRES
HOLD[5]
AUDIO_FIFO_ALM
OST_EMPTY_THRE
SHOLD[5]
AC_MSK_VPLL_U
NLOCK
MT_MSK_COMPRS
_AUD
MT_MSK_ACR_NO
T_DET
MT_MSK_NEW_CT
S
LINE_WIDTH[2]
FIELD0_HEIGHT[1
0]
FIELD0_HEIGHT[2]
FIELD1_HEIGHT[1
0]
FIELD1_HEIGHT[2]
FREQTOLERANCE[
2]
AUDIO_MUTE_SPE
ED[2]
CTS_CHANGE_TH
RESHOLD[2]
AUDIO_FIFO_ALM
OST_FULL_THRES
HOLD[2]
AUDIO_FIFO_ALM
OST_EMPTY_THRE
SHOLD[2]
LINE_WIDTH[0]
-
LINE_WIDTH[3]
FIELD0_HEIGHT[1
1]
FIELD0_HEIGHT[3]
FIELD1_HEIGHT[1
1]
FIELD1_HEIGHT[3]
FREQTOLERANCE[
3]
AUDIO_MUTE_SPE
ED[3]
CTS_CHANGE_TH
RESHOLD[3]
AUDIO_FIFO_ALM
OST_FULL_THRES
HOLD[3]
AUDIO_FIFO_ALM
OST_EMPTY_THRE
SHOLD[3]
AC_MSK_NEW_CT
S
LINE_WIDTH[1]
FIELD0_HEIGHT[5]
HDMI_INTERLACE
D
FIELD1_HEIGHT[5]
LINE_WIDTH[4]
FIELD0_HEIGHT[1
2]
FIELD0_HEIGHT[4]
FIELD1_HEIGHT[1
2]
FIELD1_HEIGHT[4]
FIELD1_HEIGHT[1]
FREQTOLERANCE[
1]
AUDIO_MUTE_SPE
ED[1]
CTS_CHANGE_TH
RESHOLD[1]
AUDIO_FIFO_ALM
OST_FULL_THRES
HOLD[1]
AUDIO_FIFO_ALM
OST_EMPTY_THRE
SHOLD[1]
AC_MSK_CHNG_P
ORT
MT_MSK_PARITY_
ERR
MT_MSK_FIFO_U
NDERLFOW
MT_MSK_CHNG_P
ORT
r
-
-
-
-
FIELD1_HEIGHT[0]
FREQTOLERANCE[
0]
AUDIO_MUTE_SPE
ED[0]
CTS_CHANGE_TH
RESHOLD[0]
AUDIO_FIFO_ALM
OST_FULL_THRES
HOLD[0]
AUDIO_FIFO_ALM
OST_EMPTY_THRE
SHOLD[0]
AC_MSK_VCLK_D
ET
MT_MSK_VCLK_C
HNG
MT_MSK_FIFO_OV
ERFLOW
MT_MSK_VCLK_D
ET
AUDIO_SAMPLE_P
CKT_DET
r
-
-
-
-
PACKETS
DETECTED_2
PACKETS
DETECTED_3
AUDIO_FIFO_ALM
OST_FULL_THRES
HOLD[6]
AUDIO_FIFO_ALM
OST_EMPTY_THRE
SHOLD[6]
AC_MSK_VCLK_C
HNG
10
HDCP_KEY_ERRO
R
DVI_VSYNC_POLA
RITY
AUDIO_MUTE_SPE
ED[4]
CTS_CHANGE_TH
RESHOLD[4]
AUDIO_FIFO_ALM
OST_FULL_THRES
HOLD[4]
AUDIO_FIFO_ALM
OST_EMPTY_THRE
SHOLD[4]
MT_MSK_AUD_M
ODE_CHNG
MT_MSK_NEW_N
AC_MSK_NEW_N
MT_MSK_FLATLIN
E_DET
MT_MSK_CHMOD
E_CHNG
HBR_AUDIO_PCKT
_DET
MT_MSK_APCKT_
ECC_ERR
DST_AUDIO_PCKT
_DET
-
DST_DOUBLE
-
DSD_PACKET_DET
-
-
HDMI
Register Map
ADD
DEF
REGISTER NAME
0x1A
0x80
MUTE_CTRL
0x1B
0x18
0x1C
0x00
0x1D
0x00
0x1E
0x00
0x1F
0x00
0x20
0x00
0x21
0x00
0x22
0x00
0x23
0x00
0x24
0x00
0x25
0x00
0x26
0x00
0x27
0x00
0x28
0x00
0x29
0x00
0x2A
0x00
0x2B
0x00
0x2C
0x00
0x2D
0x00
0x2E
0x00
0x2F
0x00
Rev. 0
DEEPCOLOR_FIFO
_DEBUG_1
DEEPCOLOR_FIFO
_DEBUG_2
REGISTER_1DH
TOTAL_LINE_WIDT
H_1
TOTAL_LINE_WIDT
H_2
HSYNC_FRONT_P
ORCH_1
HSYNC_FRONT_P
ORCH_2
HSYNC_PULSE_WI
DTH_1
HSYNC_PULSE_WI
DTH_2
HSYNC_BACK_PO
RCH_1
HSYNC_BACK_PO
RCH_2
FIELD0_TOTAL_HE
IGHT_1
FIELD0_TOTAL_HE
IGHT_2
FIELD1_TOTAL_HE
IGHT_1
FIELD1_TOTAL_HE
IGHT_2
FIELD0_VS_FRONT
_PORCH_1
FIELD0_VS_FRONT
_PORCH_2
FIELD1_VS_FRONT
_PORCH_1
FIELD1_VS_FRONT
_PORCH_2
FIELD0_VS_PULSE
_WIDTH_1
FIELD0_VS_PULSE
_WIDTH_2
ACC
7
6
IGNORE_PARITY_E
RR
5
4
3
2
1
rw
-
rw
-
MUTE_AUDIO
WAIT_UNMUTE[2]
WAIT_UNMUTE[1]
WAIT_UNMUTE[0]
-
-
-
DCFIFO_RESET_O
N_LOCK
DCFIFO_KILL_NOT
_LOCKED
DCFIFO_KILL_DIS
-
-
r
-
-
-
-
DCFIFO_LOCKED
DCFIFO_LEVEL[2]
DCFIFO_LEVEL[1]
DCFIFO_LEVEL[0]
rw
-
-
-
-
-
-
-
r
-
-
r
TOTAL_LINE_WIDT
H[7]
TOTAL_LINE_WIDT
H[6]
UP_CONVERSION_
MODE
TOTAL_LINE_WIDT
H[13]
TOTAL_LINE_WIDT
H[5]
r
-
-
-
r
HSYNC_FRONT_P
ORCH[7]
HSYNC_FRONT_P
ORCH[6]
HSYNC_FRONT_P
ORCH[5]
r
-
-
-
r
HSYNC_PULSE_WI
DTH[7]
HSYNC_PULSE_WI
DTH[6]
HSYNC_PULSE_WI
DTH[5]
r
-
-
-
r
HSYNC_BACK_PO
RCH[7]
HSYNC_BACK_PO
RCH[6]
r
-
-
r
FIELD0_TOTAL_HE
IGHT[7]
FIELD0_TOTAL_HE
IGHT[6]
r
-
-
r
FIELD1_TOTAL_HE
IGHT[7]
FIELD1_TOTAL_HE
IGHT[6]
r
-
-
r
FIELD0_VS_FRONT
_PORCH[7]
FIELD0_VS_FRONT
_PORCH[6]
r
-
-
r
FIELD1_VS_FRONT
_PORCH[7]
FIELD1_VS_FRONT
_PORCH[6]
r
-
-
r
FIELD0_VS_PULSE
_WIDTH[7]
FIELD0_VS_PULSE
_WIDTH[6]
HSYNC_BACK_PO
RCH[5]
FIELD0_TOTAL_HE
IGHT[13]
FIELD0_TOTAL_HE
IGHT[5]
FIELD1_TOTAL_HE
IGHT[13]
FIELD1_TOTAL_HE
IGHT[5]
FIELD0_VS_FRONT
_PORCH[13]
FIELD0_VS_FRONT
_PORCH[5]
FIELD1_VS_FRONT
_PORCH[13]
FIELD1_VS_FRONT
_PORCH[5]
FIELD0_VS_PULSE
_WIDTH[13]
FIELD0_VS_PULSE
_WIDTH[5]
TOTAL_LINE_WIDT
H[12]
TOTAL_LINE_WIDT
H[4]
HSYNC_FRONT_P
ORCH[12]
HSYNC_FRONT_P
ORCH[4]
HSYNC_PULSE_WI
DTH[12]
HSYNC_PULSE_WI
DTH[4]
HSYNC_BACK_PO
RCH[12]
HSYNC_BACK_PO
RCH[4]
FIELD0_TOTAL_HE
IGHT[12]
FIELD0_TOTAL_HE
IGHT[4]
FIELD1_TOTAL_HE
IGHT[12]
FIELD1_TOTAL_HE
IGHT[4]
FIELD0_VS_FRONT
_PORCH[12]
FIELD0_VS_FRONT
_PORCH[4]
FIELD1_VS_FRONT
_PORCH[12]
FIELD1_VS_FRONT
_PORCH[4]
FIELD0_VS_PULSE
_WIDTH[12]
FIELD0_VS_PULSE
_WIDTH[4]
TOTAL_LINE_WIDT
H[11]
TOTAL_LINE_WIDT
H[3]
HSYNC_FRONT_P
ORCH[11]
HSYNC_FRONT_P
ORCH[3]
HSYNC_PULSE_WI
DTH[11]
HSYNC_PULSE_WI
DTH[3]
HSYNC_BACK_PO
RCH[11]
HSYNC_BACK_PO
RCH[3]
FIELD0_TOTAL_HE
IGHT[11]
FIELD0_TOTAL_HE
IGHT[3]
FIELD1_TOTAL_HE
IGHT[11]
FIELD1_TOTAL_HE
IGHT[3]
FIELD0_VS_FRONT
_PORCH[11]
FIELD0_VS_FRONT
_PORCH[3]
FIELD1_VS_FRONT
_PORCH[11]
FIELD1_VS_FRONT
_PORCH[3]
FIELD0_VS_PULSE
_WIDTH[11]
FIELD0_VS_PULSE
_WIDTH[3]
TOTAL_LINE_WIDT
H[10]
TOTAL_LINE_WIDT
H[2]
HSYNC_FRONT_P
ORCH[10]
HSYNC_FRONT_P
ORCH[2]
HSYNC_PULSE_WI
DTH[10]
HSYNC_PULSE_WI
DTH[2]
HSYNC_BACK_PO
RCH[10]
HSYNC_BACK_PO
RCH[2]
FIELD0_TOTAL_HE
IGHT[10]
FIELD0_TOTAL_HE
IGHT[2]
FIELD1_TOTAL_HE
IGHT[10]
FIELD1_TOTAL_HE
IGHT[2]
FIELD0_VS_FRONT
_PORCH[10]
FIELD0_VS_FRONT
_PORCH[2]
FIELD1_VS_FRONT
_PORCH[10]
FIELD1_VS_FRONT
_PORCH[2]
FIELD0_VS_PULSE
_WIDTH[10]
FIELD0_VS_PULSE
_WIDTH[2]
TOTAL_LINE_WIDT
H[9]
TOTAL_LINE_WIDT
H[1]
HSYNC_FRONT_P
ORCH[9]
HSYNC_FRONT_P
ORCH[1]
HSYNC_PULSE_WI
DTH[9]
HSYNC_PULSE_WI
DTH[1]
HSYNC_BACK_PO
RCH[9]
HSYNC_BACK_PO
RCH[1]
FIELD0_TOTAL_HE
IGHT[9]
FIELD0_TOTAL_HE
IGHT[1]
FIELD1_TOTAL_HE
IGHT[9]
FIELD1_TOTAL_HE
IGHT[1]
FIELD0_VS_FRONT
_PORCH[9]
FIELD0_VS_FRONT
_PORCH[1]
FIELD1_VS_FRONT
_PORCH[9]
FIELD1_VS_FRONT
_PORCH[1]
FIELD0_VS_PULSE
_WIDTH[9]
FIELD0_VS_PULSE
_WIDTH[1]
TOTAL_LINE_WIDT
H[8]
TOTAL_LINE_WIDT
H[0]
HSYNC_FRONT_P
ORCH[8]
HSYNC_FRONT_P
ORCH[0]
HSYNC_PULSE_WI
DTH[8]
HSYNC_PULSE_WI
DTH[0]
HSYNC_BACK_PO
RCH[8]
HSYNC_BACK_PO
RCH[0]
FIELD0_TOTAL_HE
IGHT[8]
FIELD0_TOTAL_HE
IGHT[0]
FIELD1_TOTAL_HE
IGHT[8]
FIELD1_TOTAL_HE
IGHT[0]
FIELD0_VS_FRONT
_PORCH[8]
FIELD0_VS_FRONT
_PORCH[0]
FIELD1_VS_FRONT
_PORCH[8]
FIELD1_VS_FRONT
_PORCH[0]
FIELD0_VS_PULSE
_WIDTH[8]
FIELD0_VS_PULSE
_WIDTH[0]
11
0
NOT_AUTO_UNM
UTE
HDMI
Register Map
ADD
DEF
0x30
0x00
0x31
0x00
0x32
0x00
0x33
0x00
0x34
0x00
0x35
0x00
0x36
0x00
0x37
0x00
0x38
0x00
0x39
0x00
0x3A
0x00
0x3C
0x02
0x40
FIELD1_VS_BACK_
PORCH[6]
5
FIELD1_VS_PULSE
_WIDTH[13]
FIELD1_VS_PULSE
_WIDTH[5]
FIELD0_VS_BACK_
PORCH[13]
FIELD0_VS_BACK_
PORCH[5]
FIELD1_VS_BACK_
PORCH[13]
FIELD1_VS_BACK_
PORCH[5]
4
FIELD1_VS_PULSE
_WIDTH[12]
FIELD1_VS_PULSE
_WIDTH[4]
FIELD0_VS_BACK_
PORCH[12]
FIELD0_VS_BACK_
PORCH[4]
FIELD1_VS_BACK_
PORCH[12]
FIELD1_VS_BACK_
PORCH[4]
3
FIELD1_VS_PULSE
_WIDTH[11]
FIELD1_VS_PULSE
_WIDTH[3]
FIELD0_VS_BACK_
PORCH[11]
FIELD0_VS_BACK_
PORCH[3]
FIELD1_VS_BACK_
PORCH[11]
FIELD1_VS_BACK_
PORCH[3]
2
FIELD1_VS_PULSE
_WIDTH[10]
FIELD1_VS_PULSE
_WIDTH[2]
FIELD0_VS_BACK_
PORCH[10]
FIELD0_VS_BACK_
PORCH[2]
FIELD1_VS_BACK_
PORCH[10]
FIELD1_VS_BACK_
PORCH[2]
1
FIELD1_VS_PULSE
_WIDTH[9]
FIELD1_VS_PULSE
_WIDTH[1]
FIELD0_VS_BACK_
PORCH[9]
FIELD0_VS_BACK_
PORCH[1]
FIELD1_VS_BACK_
PORCH[9]
FIELD1_VS_BACK_
PORCH[1]
0
FIELD1_VS_PULSE
_WIDTH[8]
FIELD1_VS_PULSE
_WIDTH[0]
FIELD0_VS_BACK_
PORCH[8]
FIELD0_VS_BACK_
PORCH[0]
FIELD1_VS_BACK_
PORCH[8]
FIELD1_VS_BACK_
PORCH[0]
CS_DATA[7]
CS_DATA[6]
CS_DATA[5]
CS_DATA[4]
CS_DATA[3]
CS_DATA[2]
CS_DATA[1]
CS_DATA[0]
r
CS_DATA[15]
CS_DATA[14]
CS_DATA[13]
CS_DATA[12]
CS_DATA[11]
CS_DATA[10]
CS_DATA[9]
CS_DATA[8]
r
CS_DATA[23]
CS_DATA[22]
CS_DATA[21]
CS_DATA[20]
CS_DATA[19]
CS_DATA[18]
CS_DATA[17]
CS_DATA[16]
r
CS_DATA[31]
CS_DATA[30]
CS_DATA[29]
CS_DATA[28]
CS_DATA[27]
CS_DATA[26]
CS_DATA[25]
CS_DATA[24]
r
CS_DATA[39]
CS_DATA[38]
CS_DATA[37]
CS_DATA[36]
CS_DATA[35]
CS_DATA[34]
CS_DATA[33]
CS_DATA[32]
REGISTER_3CH
rw
-
-
-
-
-
-
-
0x00
REGISTER_40H
rw
-
OVERRIDE_DEEP_
COLOR_MODE
DEEP_COLOR_MO
DE_USER[1]
-
-
-
-
0x41
0x40
REGISTER_41H
rw
-
-
-
DEREP_N[3]
DEREP_N[2]
DEREP_N[1]
DEREP_N[0]
0x47
0x00
REGISTER_47H
rw
-
-
-
-
-
QZERO_ITC_DIS
QZERO_RGB_FULL
ALWAYS_STORE_I
NF
0x48
0x00
REGISTER_48H
rw
-
DIS_CABLE_DET_
RST
-
-
-
-
-
-
0x50
0x00
HDMI_REGISTER_5
0
rw
-
-
-
-
-
0x51
0x00
r
TMDSFREQ[8]
0x52
0x00
r
TMDSFREQ[0]
TMDSFREQ[7]
TMDSFREQ_FRAC[
6]
TMDSFREQ[6]
TMDSFREQ_FRAC[
5]
GAMUT_IRQ_NEX
T_FIELD
TMDSFREQ[5]
TMDSFREQ_FRAC[
4]
0x53
0x00
HDMI_COLORSPA
CE
r
-
-
-
-
0x56
0x58
FILT_5V_DET_REG
rw
FILT_5V_DET_DIS
FILT_5V_DET_TIM
ER[6]
FILT_5V_DET_TIM
ER[5]
FILT_5V_DET_TIM
ER[4]
0x5A
0x00
REGISTER_5A
sc
-
-
-
-
0x5B
0x5C
0x00
0x00
CTS_N_1
CTS_N_2
r
r
CTS[19]
CTS[11]
CTS[18]
CTS[10]
CTS[17]
CTS[9]
CTS[16]
CTS[8]
TMDSFREQ[4]
TMDSFREQ_FRAC[
3]
HDMI_COLORSPA
CE[3]
FILT_5V_DET_TIM
ER[3]
HDCP_REPT_EDID
_RESET
CTS[15]
CTS[7]
TMDSFREQ[3]
TMDSFREQ_FRAC[
2]
HDMI_COLORSPA
CE[2]
FILT_5V_DET_TIM
ER[2]
DCFIFO_RECENTE
R
CTS[14]
CTS[6]
CS_COPYRIGHT_M
ANUAL
TMDSFREQ[2]
TMDSFREQ_FRAC[
1]
HDMI_COLORSPA
CE[1]
FILT_5V_DET_TIM
ER[1]
CS_COPYRIGHT_V
ALUE
TMDSFREQ[1]
TMDSFREQ_FRAC[
0]
HDMI_COLORSPA
CE[0]
FILT_5V_DET_TIM
ER[0]
FORCE_N_UPDAT
E
CTS[12]
CTS[4]
Rev. 0
REGISTER NAME
FIELD1_VS_PULSE
_WIDTH_1
FIELD1_VS_PULSE
_WIDTH_2
FIELD0_VS_BACK_
PORCH_1
FIELD0_VS_BACK_
PORCH_2
FIELD1_VS_BACK_
PORCH_1
FIELD1_VS_BACK_
PORCH_2
CHANNEL STATUS
DATA_1
CHANNEL STATUS
DATA_2
CHANNEL STATUS
DATA_3
CHANNEL STATUS
DATA_4
CHANNEL STATUS
DATA_5
ACC
7
6
r
-
-
r
FIELD1_VS_PULSE
_WIDTH[7]
FIELD1_VS_PULSE
_WIDTH[6]
r
-
-
r
FIELD0_VS_BACK_
PORCH[7]
FIELD0_VS_BACK_
PORCH[6]
r
-
-
r
FIELD1_VS_BACK_
PORCH[7]
r
12
BYPASS_AUDIO_P
ASSTHRU
DEEP_COLOR_MO
DE_USER[0]
DEREP_N_OVERRI
DE
CTS[13]
CTS[5]
HDMI
Register Map
ADD
0x5D
0x5E
0x5F
DEF
0x00
0x00
0x00
0x6C
0xA2
rw
0x6D
0x00
rw
0x6E
0x73
0x04
0x00
0x83
0xFF
0x8C
0xA3
0x8D
0x8E
0x90
0x91
0x93
0x94
0x0B
0x20
0x0B
0x20
0x0B
0x20
0x96
0x00
Rev. 0
REGISTER NAME
CTS_N_3
CTS_N_4
CTS_N_5
DDC PAD
HDMI_REGISTER_0
2H
EQ DYNAMIC
FREQ
EQ_DYN1_LF
EQ_DYN1_HF
EQ_DYN2_LF
EQ_DYN2_HF
EQ_DYN3_LF
EQ_DYN3_HF
EQ DYNAMIC
ENABLE
ACC
r
r
r
6
CTS[2]
N[14]
N[6]
HPA_DELAY_SEL[2
]
I2S_SPDIF_MAP_I
NV
DDC_PWRDN[6]
5
CTS[1]
N[13]
N[5]
HPA_DELAY_SEL[1
]
I2S_SPDIF_MAP_R
OT[1]
DDC_PWRDN[5]
4
CTS[0]
N[12]
N[4]
HPA_DELAY_SEL[0
]
I2S_SPDIF_MAP_R
OT[0]
DDC_PWRDN[4]
HPA_OVR_TERM
rw
rw
7
CTS[3]
N[15]
N[7]
HPA_DELAY_SEL[3
]
I2S_MODE_ENABL
E
DDC_PWRDN[7]
rw
-
-
-
rw
rw
rw
rw
rw
rw
EQ_DYN_FREQ2[3
]
EQ_DYN1_LF[7]
EQ_DYN1_HF[7]
EQ_DYN2_LF[7]
EQ_DYN2_HF[7]
EQ_DYN3_LF[7]
EQ_DYN3_HF[7]
EQ_DYN_FREQ2[2
]
EQ_DYN1_LF[6]
EQ_DYN1_HF[6]
EQ_DYN2_LF[6]
EQ_DYN2_HF[6]
EQ_DYN3_LF[6]
EQ_DYN3_HF[6]
rw
-
-
rw
2
N[18]
N[10]
N[2]
HPA_AUTO_INT_E
DID[1]
1
N[17]
N[9]
N[1]
HPA_AUTO_INT_E
DID[0]
DSD_MAP_INV
DSD_MAP_ROT[2]
DSD_MAP_ROT[1]
DSD_MAP_ROT[0]
DDC_PWRDN[3]
DST_MAP_ROT[2]
DDC_PWRDN[2]
DST_MAP_ROT[1]
DDC_PWRDN[1]
-
-
-
-
EQ_DYN_FREQ2[1
]
EQ_DYN1_LF[5]
EQ_DYN1_HF[5]
EQ_DYN2_LF[5]
EQ_DYN2_HF[5]
EQ_DYN3_LF[5]
EQ_DYN3_HF[5]
EQ_DYN_FREQ2[0
]
EQ_DYN1_LF[4]
EQ_DYN1_HF[4]
EQ_DYN2_LF[4]
EQ_DYN2_HF[4]
EQ_DYN3_LF[4]
EQ_DYN3_HF[4]
EQ_DYN_FREQ1[3
]
EQ_DYN1_LF[3]
EQ_DYN1_HF[3]
EQ_DYN2_LF[3]
EQ_DYN2_HF[3]
EQ_DYN3_LF[3]
EQ_DYN3_HF[3]
EQ_DYN_FREQ1[2
]
EQ_DYN1_LF[2]
EQ_DYN1_HF[2]
EQ_DYN2_LF[2]
EQ_DYN2_HF[2]
EQ_DYN3_LF[2]
EQ_DYN3_HF[2]
EQ_DYN_FREQ1[1
]
EQ_DYN1_LF[1]
EQ_DYN1_HF[1]
EQ_DYN2_LF[1]
EQ_DYN2_HF[1]
EQ_DYN3_LF[1]
EQ_DYN3_HF[1]
DST_MAP_ROT[0]
DDC_PWRDN[0]
CLOCK_TERMA_DI
SABLE
EQ_DYN_FREQ1[0
]
EQ_DYN1_LF[0]
EQ_DYN1_HF[0]
EQ_DYN2_LF[0]
EQ_DYN2_HF[0]
EQ_DYN3_LF[0]
EQ_DYN3_HF[0]
-
-
-
-
-
EQ_DYN_EN
13
3
N[19]
N[11]
N[3]
0
N[16]
N[8]
N[0]
HPA_MANUAL
Repeater
1.4
Register Map
REPEATER
ADD
0x00
0x01
0x02
0x03
0x04
0x08
0x09
0x0A
0x10
0x11
0x12
0x13
0x14
0x15
0x18
0x19
0x1A
0x1B
0x1C
0x1D
0x1E
0x1F
0x20
0x21
0x22
0x23
0x40
0x41
0x42
DEF
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x83
0x00
0x00
ACC
r
r
r
r
r
r
r
r
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
7
BKSV[7]
BKSV[15]
BKSV[23]
BKSV[31]
BKSV[39]
RI[7]
RI[15]
PJ[7]
AKSV[7]
AKSV[15]
AKSV[23]
AKSV[31]
AKSV[39]
AINFO[7]
AN[7]
AN[15]
AN[23]
AN[31]
AN[39]
AN[47]
AN[55]
AN[63]
SHA_A[7]
SHA_A[15]
SHA_A[23]
SHA_A[31]
BCAPS[7]
BSTATUS[7]
BSTATUS[15]
6
BKSV[6]
BKSV[14]
BKSV[22]
BKSV[30]
BKSV[38]
RI[6]
RI[14]
PJ[6]
AKSV[6]
AKSV[14]
AKSV[22]
AKSV[30]
AKSV[38]
AINFO[6]
AN[6]
AN[14]
AN[22]
AN[30]
AN[38]
AN[46]
AN[54]
AN[62]
SHA_A[6]
SHA_A[14]
SHA_A[22]
SHA_A[30]
BCAPS[6]
BSTATUS[6]
BSTATUS[14]
5
BKSV[5]
BKSV[13]
BKSV[21]
BKSV[29]
BKSV[37]
RI[5]
RI[13]
PJ[5]
AKSV[5]
AKSV[13]
AKSV[21]
AKSV[29]
AKSV[37]
AINFO[5]
AN[5]
AN[13]
AN[21]
AN[29]
AN[37]
AN[45]
AN[53]
AN[61]
SHA_A[5]
SHA_A[13]
SHA_A[21]
SHA_A[29]
BCAPS[5]
BSTATUS[5]
BSTATUS[13]
4
BKSV[4]
BKSV[12]
BKSV[20]
BKSV[28]
BKSV[36]
RI[4]
RI[12]
PJ[4]
AKSV[4]
AKSV[12]
AKSV[20]
AKSV[28]
AKSV[36]
AINFO[4]
AN[4]
AN[12]
AN[20]
AN[28]
AN[36]
AN[44]
AN[52]
AN[60]
SHA_A[4]
SHA_A[12]
SHA_A[20]
SHA_A[28]
BCAPS[4]
BSTATUS[4]
BSTATUS[12]
3
BKSV[3]
BKSV[11]
BKSV[19]
BKSV[27]
BKSV[35]
RI[3]
RI[11]
PJ[3]
AKSV[3]
AKSV[11]
AKSV[19]
AKSV[27]
AKSV[35]
AINFO[3]
AN[3]
AN[11]
AN[19]
AN[27]
AN[35]
AN[43]
AN[51]
AN[59]
SHA_A[3]
SHA_A[11]
SHA_A[19]
SHA_A[27]
BCAPS[3]
BSTATUS[3]
BSTATUS[11]
2
BKSV[2]
BKSV[10]
BKSV[18]
BKSV[26]
BKSV[34]
RI[2]
RI[10]
PJ[2]
AKSV[2]
AKSV[10]
AKSV[18]
AKSV[26]
AKSV[34]
AINFO[2]
AN[2]
AN[10]
AN[18]
AN[26]
AN[34]
AN[42]
AN[50]
AN[58]
SHA_A[2]
SHA_A[10]
SHA_A[18]
SHA_A[26]
BCAPS[2]
BSTATUS[2]
BSTATUS[10]
0x71
0x00
rw
KSV_LIST_READY
-
-
-
-
-
0x74
0x00
HDCP EDID
CONTROLS
rw
-
-
-
-
-
0x76
0x00
EDID DEBUG_2
r
-
-
-
-
0x78
0x00
EDID DEBUG_3
sc
-
-
-
0x79
0x08
rw
-
KSV_MAP_SELECT
[2]
0x7A
0x04
rw
-
0x80
0x81
0x00
0x00
rw
rw
KSV_BYTE_0[7]
KSV_BYTE_1[7]
Rev. 0
REGISTER NAME
BKSV_1
BKSV_2
BKSV_3
BKSV_4
BKSV_5
RI_1
RI_2
PJ
AKSV_1
AKSV_2
AKSV_3
AKSV_4
AKSV_5
AINFO
AN_1
AN_2
AN_3
AN_4
AN_5
AN_6
AN_7
AN_8
SHA_A_1
SHA_A_2
SHA_A_3
SHA_A_4
BCAPS
BSTATUS_1
BSTATUS_2
KSV 0_1
KSV 0_2
1
BKSV[1]
BKSV[9]
BKSV[17]
BKSV[25]
BKSV[33]
RI[1]
RI[9]
PJ[1]
AKSV[1]
AKSV[9]
AKSV[17]
AKSV[25]
AKSV[33]
AINFO[1]
AN[1]
AN[9]
AN[17]
AN[25]
AN[33]
AN[41]
AN[49]
AN[57]
SHA_A[1]
SHA_A[9]
SHA_A[17]
SHA_A[25]
BCAPS[1]
BSTATUS[1]
BSTATUS[9]
SPA_STORAGE_M
ODE
0
BKSV[0]
BKSV[8]
BKSV[16]
BKSV[24]
BKSV[32]
RI[0]
RI[8]
PJ[0]
AKSV[0]
AKSV[8]
AKSV[16]
AKSV[24]
AKSV[32]
AINFO[0]
AN[0]
AN[8]
AN[16]
AN[24]
AN[32]
AN[40]
AN[48]
AN[56]
SHA_A[0]
SHA_A[8]
SHA_A[16]
SHA_A[24]
BCAPS[0]
BSTATUS[0]
BSTATUS[8]
SPA_LOCATION_M
SB
-
-
EDID_A_ENABLE
-
-
-
-
-
-
-
KSV_MAP_SELECT
[1]
KSV_MAP_SELECT
[0]
AUTO_HDCP_MAP
_ENABLE
HDCP_MAP_SELE
CT[2]
-
-
-
-
-
KSV_BYTE_0[6]
KSV_BYTE_1[6]
KSV_BYTE_0[5]
KSV_BYTE_1[5]
KSV_BYTE_0[4]
KSV_BYTE_1[4]
KSV_BYTE_0[3]
KSV_BYTE_1[3]
KSV_BYTE_0[2]
KSV_BYTE_1[2]
HDCP_MAP_SELE
CT[1]
DISABLE_AUTO_E
DID
KSV_BYTE_0[1]
KSV_BYTE_1[1]
14
EDID_A_ENABLE_
CPU
KSV_LIST_READY_
CLR_A
HDCP_MAP_SELE
CT[0]
EDID_SEGMENT_P
OINTER
KSV_BYTE_0[0]
KSV_BYTE_1[0]
Repeater
ADD
0x82
0x83
0x84
0x85
0x86
0x87
0x88
0x89
0x8A
0x8B
0x8C
0x8D
0x8E
0x8F
0x90
0x91
0x92
0x93
0x94
0x95
0x96
0x97
0x98
0x99
0x9A
0x9B
0x9C
0x9D
0x9E
0x9F
0xA0
0xA1
0xA2
0xA3
0xA4
0xA5
0xA6
0xA7
0xA8
0xA9
0xAA
0xAB
0xAC
0xAD
Rev. 0
DEF
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
Register Map
REGISTER NAME
KSV 0_3
KSV 0_4
KSV 0_5
KSV 0_6
KSV 0_7
KSV 0_8
KSV 0_9
KSV 0_10
KSV 0_11
KSV 0_12
KSV 0_13
KSV 0_14
KSV 0_15
KSV 0_16
KSV 0_17
KSV 0_18
KSV 0_19
KSV 0_20
KSV 0_21
KSV 0_22
KSV 0_23
KSV 0_24
KSV 0_25
KSV 0_26
KSV 0_27
KSV 0_28
KSV 0_29
KSV 0_30
KSV 0_31
KSV 0_32
KSV 0_33
KSV 0_34
KSV 0_35
KSV 0_36
KSV 0_37
KSV 0_38
KSV 0_39
KSV 0_40
KSV 0_41
KSV 0_42
KSV 0_43
KSV 0_44
KSV 0_45
KSV 0_46
ACC
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
7
KSV_BYTE_2[7]
KSV_BYTE_3[7]
KSV_BYTE_4[7]
KSV_BYTE_5[7]
KSV_BYTE_6[7]
KSV_BYTE_7[7]
KSV_BYTE_8[7]
KSV_BYTE_9[7]
KSV_BYTE_10[7]
KSV_BYTE_11[7]
KSV_BYTE_12[7]
KSV_BYTE_13[7]
KSV_BYTE_14[7]
KSV_BYTE_15[7]
KSV_BYTE_16[7]
KSV_BYTE_17[7]
KSV_BYTE_18[7]
KSV_BYTE_19[7]
KSV_BYTE_20[7]
KSV_BYTE_21[7]
KSV_BYTE_22[7]
KSV_BYTE_23[7]
KSV_BYTE_24[7]
KSV_BYTE_25[7]
KSV_BYTE_26[7]
KSV_BYTE_27[7]
KSV_BYTE_28[7]
KSV_BYTE_29[7]
KSV_BYTE_30[7]
KSV_BYTE_31[7]
KSV_BYTE_32[7]
KSV_BYTE_33[7]
KSV_BYTE_34[7]
KSV_BYTE_35[7]
KSV_BYTE_36[7]
KSV_BYTE_37[7]
KSV_BYTE_38[7]
KSV_BYTE_39[7]
KSV_BYTE_40[7]
KSV_BYTE_41[7]
KSV_BYTE_42[7]
KSV_BYTE_43[7]
KSV_BYTE_44[7]
KSV_BYTE_45[7]
6
KSV_BYTE_2[6]
KSV_BYTE_3[6]
KSV_BYTE_4[6]
KSV_BYTE_5[6]
KSV_BYTE_6[6]
KSV_BYTE_7[6]
KSV_BYTE_8[6]
KSV_BYTE_9[6]
KSV_BYTE_10[6]
KSV_BYTE_11[6]
KSV_BYTE_12[6]
KSV_BYTE_13[6]
KSV_BYTE_14[6]
KSV_BYTE_15[6]
KSV_BYTE_16[6]
KSV_BYTE_17[6]
KSV_BYTE_18[6]
KSV_BYTE_19[6]
KSV_BYTE_20[6]
KSV_BYTE_21[6]
KSV_BYTE_22[6]
KSV_BYTE_23[6]
KSV_BYTE_24[6]
KSV_BYTE_25[6]
KSV_BYTE_26[6]
KSV_BYTE_27[6]
KSV_BYTE_28[6]
KSV_BYTE_29[6]
KSV_BYTE_30[6]
KSV_BYTE_31[6]
KSV_BYTE_32[6]
KSV_BYTE_33[6]
KSV_BYTE_34[6]
KSV_BYTE_35[6]
KSV_BYTE_36[6]
KSV_BYTE_37[6]
KSV_BYTE_38[6]
KSV_BYTE_39[6]
KSV_BYTE_40[6]
KSV_BYTE_41[6]
KSV_BYTE_42[6]
KSV_BYTE_43[6]
KSV_BYTE_44[6]
KSV_BYTE_45[6]
5
KSV_BYTE_2[5]
KSV_BYTE_3[5]
KSV_BYTE_4[5]
KSV_BYTE_5[5]
KSV_BYTE_6[5]
KSV_BYTE_7[5]
KSV_BYTE_8[5]
KSV_BYTE_9[5]
KSV_BYTE_10[5]
KSV_BYTE_11[5]
KSV_BYTE_12[5]
KSV_BYTE_13[5]
KSV_BYTE_14[5]
KSV_BYTE_15[5]
KSV_BYTE_16[5]
KSV_BYTE_17[5]
KSV_BYTE_18[5]
KSV_BYTE_19[5]
KSV_BYTE_20[5]
KSV_BYTE_21[5]
KSV_BYTE_22[5]
KSV_BYTE_23[5]
KSV_BYTE_24[5]
KSV_BYTE_25[5]
KSV_BYTE_26[5]
KSV_BYTE_27[5]
KSV_BYTE_28[5]
KSV_BYTE_29[5]
KSV_BYTE_30[5]
KSV_BYTE_31[5]
KSV_BYTE_32[5]
KSV_BYTE_33[5]
KSV_BYTE_34[5]
KSV_BYTE_35[5]
KSV_BYTE_36[5]
KSV_BYTE_37[5]
KSV_BYTE_38[5]
KSV_BYTE_39[5]
KSV_BYTE_40[5]
KSV_BYTE_41[5]
KSV_BYTE_42[5]
KSV_BYTE_43[5]
KSV_BYTE_44[5]
KSV_BYTE_45[5]
15
4
KSV_BYTE_2[4]
KSV_BYTE_3[4]
KSV_BYTE_4[4]
KSV_BYTE_5[4]
KSV_BYTE_6[4]
KSV_BYTE_7[4]
KSV_BYTE_8[4]
KSV_BYTE_9[4]
KSV_BYTE_10[4]
KSV_BYTE_11[4]
KSV_BYTE_12[4]
KSV_BYTE_13[4]
KSV_BYTE_14[4]
KSV_BYTE_15[4]
KSV_BYTE_16[4]
KSV_BYTE_17[4]
KSV_BYTE_18[4]
KSV_BYTE_19[4]
KSV_BYTE_20[4]
KSV_BYTE_21[4]
KSV_BYTE_22[4]
KSV_BYTE_23[4]
KSV_BYTE_24[4]
KSV_BYTE_25[4]
KSV_BYTE_26[4]
KSV_BYTE_27[4]
KSV_BYTE_28[4]
KSV_BYTE_29[4]
KSV_BYTE_30[4]
KSV_BYTE_31[4]
KSV_BYTE_32[4]
KSV_BYTE_33[4]
KSV_BYTE_34[4]
KSV_BYTE_35[4]
KSV_BYTE_36[4]
KSV_BYTE_37[4]
KSV_BYTE_38[4]
KSV_BYTE_39[4]
KSV_BYTE_40[4]
KSV_BYTE_41[4]
KSV_BYTE_42[4]
KSV_BYTE_43[4]
KSV_BYTE_44[4]
KSV_BYTE_45[4]
3
KSV_BYTE_2[3]
KSV_BYTE_3[3]
KSV_BYTE_4[3]
KSV_BYTE_5[3]
KSV_BYTE_6[3]
KSV_BYTE_7[3]
KSV_BYTE_8[3]
KSV_BYTE_9[3]
KSV_BYTE_10[3]
KSV_BYTE_11[3]
KSV_BYTE_12[3]
KSV_BYTE_13[3]
KSV_BYTE_14[3]
KSV_BYTE_15[3]
KSV_BYTE_16[3]
KSV_BYTE_17[3]
KSV_BYTE_18[3]
KSV_BYTE_19[3]
KSV_BYTE_20[3]
KSV_BYTE_21[3]
KSV_BYTE_22[3]
KSV_BYTE_23[3]
KSV_BYTE_24[3]
KSV_BYTE_25[3]
KSV_BYTE_26[3]
KSV_BYTE_27[3]
KSV_BYTE_28[3]
KSV_BYTE_29[3]
KSV_BYTE_30[3]
KSV_BYTE_31[3]
KSV_BYTE_32[3]
KSV_BYTE_33[3]
KSV_BYTE_34[3]
KSV_BYTE_35[3]
KSV_BYTE_36[3]
KSV_BYTE_37[3]
KSV_BYTE_38[3]
KSV_BYTE_39[3]
KSV_BYTE_40[3]
KSV_BYTE_41[3]
KSV_BYTE_42[3]
KSV_BYTE_43[3]
KSV_BYTE_44[3]
KSV_BYTE_45[3]
2
KSV_BYTE_2[2]
KSV_BYTE_3[2]
KSV_BYTE_4[2]
KSV_BYTE_5[2]
KSV_BYTE_6[2]
KSV_BYTE_7[2]
KSV_BYTE_8[2]
KSV_BYTE_9[2]
KSV_BYTE_10[2]
KSV_BYTE_11[2]
KSV_BYTE_12[2]
KSV_BYTE_13[2]
KSV_BYTE_14[2]
KSV_BYTE_15[2]
KSV_BYTE_16[2]
KSV_BYTE_17[2]
KSV_BYTE_18[2]
KSV_BYTE_19[2]
KSV_BYTE_20[2]
KSV_BYTE_21[2]
KSV_BYTE_22[2]
KSV_BYTE_23[2]
KSV_BYTE_24[2]
KSV_BYTE_25[2]
KSV_BYTE_26[2]
KSV_BYTE_27[2]
KSV_BYTE_28[2]
KSV_BYTE_29[2]
KSV_BYTE_30[2]
KSV_BYTE_31[2]
KSV_BYTE_32[2]
KSV_BYTE_33[2]
KSV_BYTE_34[2]
KSV_BYTE_35[2]
KSV_BYTE_36[2]
KSV_BYTE_37[2]
KSV_BYTE_38[2]
KSV_BYTE_39[2]
KSV_BYTE_40[2]
KSV_BYTE_41[2]
KSV_BYTE_42[2]
KSV_BYTE_43[2]
KSV_BYTE_44[2]
KSV_BYTE_45[2]
1
KSV_BYTE_2[1]
KSV_BYTE_3[1]
KSV_BYTE_4[1]
KSV_BYTE_5[1]
KSV_BYTE_6[1]
KSV_BYTE_7[1]
KSV_BYTE_8[1]
KSV_BYTE_9[1]
KSV_BYTE_10[1]
KSV_BYTE_11[1]
KSV_BYTE_12[1]
KSV_BYTE_13[1]
KSV_BYTE_14[1]
KSV_BYTE_15[1]
KSV_BYTE_16[1]
KSV_BYTE_17[1]
KSV_BYTE_18[1]
KSV_BYTE_19[1]
KSV_BYTE_20[1]
KSV_BYTE_21[1]
KSV_BYTE_22[1]
KSV_BYTE_23[1]
KSV_BYTE_24[1]
KSV_BYTE_25[1]
KSV_BYTE_26[1]
KSV_BYTE_27[1]
KSV_BYTE_28[1]
KSV_BYTE_29[1]
KSV_BYTE_30[1]
KSV_BYTE_31[1]
KSV_BYTE_32[1]
KSV_BYTE_33[1]
KSV_BYTE_34[1]
KSV_BYTE_35[1]
KSV_BYTE_36[1]
KSV_BYTE_37[1]
KSV_BYTE_38[1]
KSV_BYTE_39[1]
KSV_BYTE_40[1]
KSV_BYTE_41[1]
KSV_BYTE_42[1]
KSV_BYTE_43[1]
KSV_BYTE_44[1]
KSV_BYTE_45[1]
0
KSV_BYTE_2[0]
KSV_BYTE_3[0]
KSV_BYTE_4[0]
KSV_BYTE_5[0]
KSV_BYTE_6[0]
KSV_BYTE_7[0]
KSV_BYTE_8[0]
KSV_BYTE_9[0]
KSV_BYTE_10[0]
KSV_BYTE_11[0]
KSV_BYTE_12[0]
KSV_BYTE_13[0]
KSV_BYTE_14[0]
KSV_BYTE_15[0]
KSV_BYTE_16[0]
KSV_BYTE_17[0]
KSV_BYTE_18[0]
KSV_BYTE_19[0]
KSV_BYTE_20[0]
KSV_BYTE_21[0]
KSV_BYTE_22[0]
KSV_BYTE_23[0]
KSV_BYTE_24[0]
KSV_BYTE_25[0]
KSV_BYTE_26[0]
KSV_BYTE_27[0]
KSV_BYTE_28[0]
KSV_BYTE_29[0]
KSV_BYTE_30[0]
KSV_BYTE_31[0]
KSV_BYTE_32[0]
KSV_BYTE_33[0]
KSV_BYTE_34[0]
KSV_BYTE_35[0]
KSV_BYTE_36[0]
KSV_BYTE_37[0]
KSV_BYTE_38[0]
KSV_BYTE_39[0]
KSV_BYTE_40[0]
KSV_BYTE_41[0]
KSV_BYTE_42[0]
KSV_BYTE_43[0]
KSV_BYTE_44[0]
KSV_BYTE_45[0]
Repeater
ADD
0xAE
0xAF
0xB0
0xB1
0xB2
0xB3
0xB4
0xB5
0xB6
0xB7
0xB8
0xB9
0xBA
0xBB
0xBC
0xBD
0xBE
0xBF
0xC0
0xC1
0xC2
0xC3
0xC4
0xC5
0xC6
0xC7
0xC8
0xC9
0xCA
0xCB
0xCC
0xCD
0xCE
0xCF
0xD0
0xD1
0xD2
0xD3
0xD4
0xD5
0xD6
0xD7
0xD8
0xD9
Rev. 0
DEF
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
Register Map
REGISTER NAME
KSV 0_47
KSV 0_48
KSV 0_49
KSV 0_50
KSV 0_51
KSV 0_52
KSV 0_53
KSV 0_54
KSV 0_55
KSV 0_56
KSV 0_57
KSV 0_58
KSV 0_59
KSV 0_60
KSV 0_61
KSV 0_62
KSV 0_63
KSV 0_64
KSV 0_65
KSV 0_66
KSV 0_67
KSV 0_68
KSV 0_69
KSV 0_70
KSV 0_71
KSV 0_72
KSV 0_73
KSV 0_74
KSV 0_75
KSV 0_76
KSV 0_77
KSV 0_78
KSV 0_79
KSV 0_80
KSV 0_81
KSV 0_82
KSV 0_83
KSV 0_84
KSV 0_85
KSV 0_86
KSV 0_87
KSV 0_88
KSV 0_89
KSV 0_90
ACC
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
7
KSV_BYTE_46[7]
KSV_BYTE_47[7]
KSV_BYTE_48[7]
KSV_BYTE_49[7]
KSV_BYTE_50[7]
KSV_BYTE_51[7]
KSV_BYTE_52[7]
KSV_BYTE_53[7]
KSV_BYTE_54[7]
KSV_BYTE_55[7]
KSV_BYTE_56[7]
KSV_BYTE_57[7]
KSV_BYTE_58[7]
KSV_BYTE_59[7]
KSV_BYTE_60[7]
KSV_BYTE_61[7]
KSV_BYTE_62[7]
KSV_BYTE_63[7]
KSV_BYTE_64[7]
KSV_BYTE_65[7]
KSV_BYTE_66[7]
KSV_BYTE_67[7]
KSV_BYTE_68[7]
KSV_BYTE_69[7]
KSV_BYTE_70[7]
KSV_BYTE_71[7]
KSV_BYTE_72[7]
KSV_BYTE_73[7]
KSV_BYTE_74[7]
KSV_BYTE_75[7]
KSV_BYTE_76[7]
KSV_BYTE_77[7]
KSV_BYTE_78[7]
KSV_BYTE_79[7]
KSV_BYTE_80[7]
KSV_BYTE_81[7]
KSV_BYTE_82[7]
KSV_BYTE_83[7]
KSV_BYTE_84[7]
KSV_BYTE_85[7]
KSV_BYTE_86[7]
KSV_BYTE_87[7]
KSV_BYTE_88[7]
KSV_BYTE_89[7]
6
KSV_BYTE_46[6]
KSV_BYTE_47[6]
KSV_BYTE_48[6]
KSV_BYTE_49[6]
KSV_BYTE_50[6]
KSV_BYTE_51[6]
KSV_BYTE_52[6]
KSV_BYTE_53[6]
KSV_BYTE_54[6]
KSV_BYTE_55[6]
KSV_BYTE_56[6]
KSV_BYTE_57[6]
KSV_BYTE_58[6]
KSV_BYTE_59[6]
KSV_BYTE_60[6]
KSV_BYTE_61[6]
KSV_BYTE_62[6]
KSV_BYTE_63[6]
KSV_BYTE_64[6]
KSV_BYTE_65[6]
KSV_BYTE_66[6]
KSV_BYTE_67[6]
KSV_BYTE_68[6]
KSV_BYTE_69[6]
KSV_BYTE_70[6]
KSV_BYTE_71[6]
KSV_BYTE_72[6]
KSV_BYTE_73[6]
KSV_BYTE_74[6]
KSV_BYTE_75[6]
KSV_BYTE_76[6]
KSV_BYTE_77[6]
KSV_BYTE_78[6]
KSV_BYTE_79[6]
KSV_BYTE_80[6]
KSV_BYTE_81[6]
KSV_BYTE_82[6]
KSV_BYTE_83[6]
KSV_BYTE_84[6]
KSV_BYTE_85[6]
KSV_BYTE_86[6]
KSV_BYTE_87[6]
KSV_BYTE_88[6]
KSV_BYTE_89[6]
5
KSV_BYTE_46[5]
KSV_BYTE_47[5]
KSV_BYTE_48[5]
KSV_BYTE_49[5]
KSV_BYTE_50[5]
KSV_BYTE_51[5]
KSV_BYTE_52[5]
KSV_BYTE_53[5]
KSV_BYTE_54[5]
KSV_BYTE_55[5]
KSV_BYTE_56[5]
KSV_BYTE_57[5]
KSV_BYTE_58[5]
KSV_BYTE_59[5]
KSV_BYTE_60[5]
KSV_BYTE_61[5]
KSV_BYTE_62[5]
KSV_BYTE_63[5]
KSV_BYTE_64[5]
KSV_BYTE_65[5]
KSV_BYTE_66[5]
KSV_BYTE_67[5]
KSV_BYTE_68[5]
KSV_BYTE_69[5]
KSV_BYTE_70[5]
KSV_BYTE_71[5]
KSV_BYTE_72[5]
KSV_BYTE_73[5]
KSV_BYTE_74[5]
KSV_BYTE_75[5]
KSV_BYTE_76[5]
KSV_BYTE_77[5]
KSV_BYTE_78[5]
KSV_BYTE_79[5]
KSV_BYTE_80[5]
KSV_BYTE_81[5]
KSV_BYTE_82[5]
KSV_BYTE_83[5]
KSV_BYTE_84[5]
KSV_BYTE_85[5]
KSV_BYTE_86[5]
KSV_BYTE_87[5]
KSV_BYTE_88[5]
KSV_BYTE_89[5]
16
4
KSV_BYTE_46[4]
KSV_BYTE_47[4]
KSV_BYTE_48[4]
KSV_BYTE_49[4]
KSV_BYTE_50[4]
KSV_BYTE_51[4]
KSV_BYTE_52[4]
KSV_BYTE_53[4]
KSV_BYTE_54[4]
KSV_BYTE_55[4]
KSV_BYTE_56[4]
KSV_BYTE_57[4]
KSV_BYTE_58[4]
KSV_BYTE_59[4]
KSV_BYTE_60[4]
KSV_BYTE_61[4]
KSV_BYTE_62[4]
KSV_BYTE_63[4]
KSV_BYTE_64[4]
KSV_BYTE_65[4]
KSV_BYTE_66[4]
KSV_BYTE_67[4]
KSV_BYTE_68[4]
KSV_BYTE_69[4]
KSV_BYTE_70[4]
KSV_BYTE_71[4]
KSV_BYTE_72[4]
KSV_BYTE_73[4]
KSV_BYTE_74[4]
KSV_BYTE_75[4]
KSV_BYTE_76[4]
KSV_BYTE_77[4]
KSV_BYTE_78[4]
KSV_BYTE_79[4]
KSV_BYTE_80[4]
KSV_BYTE_81[4]
KSV_BYTE_82[4]
KSV_BYTE_83[4]
KSV_BYTE_84[4]
KSV_BYTE_85[4]
KSV_BYTE_86[4]
KSV_BYTE_87[4]
KSV_BYTE_88[4]
KSV_BYTE_89[4]
3
KSV_BYTE_46[3]
KSV_BYTE_47[3]
KSV_BYTE_48[3]
KSV_BYTE_49[3]
KSV_BYTE_50[3]
KSV_BYTE_51[3]
KSV_BYTE_52[3]
KSV_BYTE_53[3]
KSV_BYTE_54[3]
KSV_BYTE_55[3]
KSV_BYTE_56[3]
KSV_BYTE_57[3]
KSV_BYTE_58[3]
KSV_BYTE_59[3]
KSV_BYTE_60[3]
KSV_BYTE_61[3]
KSV_BYTE_62[3]
KSV_BYTE_63[3]
KSV_BYTE_64[3]
KSV_BYTE_65[3]
KSV_BYTE_66[3]
KSV_BYTE_67[3]
KSV_BYTE_68[3]
KSV_BYTE_69[3]
KSV_BYTE_70[3]
KSV_BYTE_71[3]
KSV_BYTE_72[3]
KSV_BYTE_73[3]
KSV_BYTE_74[3]
KSV_BYTE_75[3]
KSV_BYTE_76[3]
KSV_BYTE_77[3]
KSV_BYTE_78[3]
KSV_BYTE_79[3]
KSV_BYTE_80[3]
KSV_BYTE_81[3]
KSV_BYTE_82[3]
KSV_BYTE_83[3]
KSV_BYTE_84[3]
KSV_BYTE_85[3]
KSV_BYTE_86[3]
KSV_BYTE_87[3]
KSV_BYTE_88[3]
KSV_BYTE_89[3]
2
KSV_BYTE_46[2]
KSV_BYTE_47[2]
KSV_BYTE_48[2]
KSV_BYTE_49[2]
KSV_BYTE_50[2]
KSV_BYTE_51[2]
KSV_BYTE_52[2]
KSV_BYTE_53[2]
KSV_BYTE_54[2]
KSV_BYTE_55[2]
KSV_BYTE_56[2]
KSV_BYTE_57[2]
KSV_BYTE_58[2]
KSV_BYTE_59[2]
KSV_BYTE_60[2]
KSV_BYTE_61[2]
KSV_BYTE_62[2]
KSV_BYTE_63[2]
KSV_BYTE_64[2]
KSV_BYTE_65[2]
KSV_BYTE_66[2]
KSV_BYTE_67[2]
KSV_BYTE_68[2]
KSV_BYTE_69[2]
KSV_BYTE_70[2]
KSV_BYTE_71[2]
KSV_BYTE_72[2]
KSV_BYTE_73[2]
KSV_BYTE_74[2]
KSV_BYTE_75[2]
KSV_BYTE_76[2]
KSV_BYTE_77[2]
KSV_BYTE_78[2]
KSV_BYTE_79[2]
KSV_BYTE_80[2]
KSV_BYTE_81[2]
KSV_BYTE_82[2]
KSV_BYTE_83[2]
KSV_BYTE_84[2]
KSV_BYTE_85[2]
KSV_BYTE_86[2]
KSV_BYTE_87[2]
KSV_BYTE_88[2]
KSV_BYTE_89[2]
1
KSV_BYTE_46[1]
KSV_BYTE_47[1]
KSV_BYTE_48[1]
KSV_BYTE_49[1]
KSV_BYTE_50[1]
KSV_BYTE_51[1]
KSV_BYTE_52[1]
KSV_BYTE_53[1]
KSV_BYTE_54[1]
KSV_BYTE_55[1]
KSV_BYTE_56[1]
KSV_BYTE_57[1]
KSV_BYTE_58[1]
KSV_BYTE_59[1]
KSV_BYTE_60[1]
KSV_BYTE_61[1]
KSV_BYTE_62[1]
KSV_BYTE_63[1]
KSV_BYTE_64[1]
KSV_BYTE_65[1]
KSV_BYTE_66[1]
KSV_BYTE_67[1]
KSV_BYTE_68[1]
KSV_BYTE_69[1]
KSV_BYTE_70[1]
KSV_BYTE_71[1]
KSV_BYTE_72[1]
KSV_BYTE_73[1]
KSV_BYTE_74[1]
KSV_BYTE_75[1]
KSV_BYTE_76[1]
KSV_BYTE_77[1]
KSV_BYTE_78[1]
KSV_BYTE_79[1]
KSV_BYTE_80[1]
KSV_BYTE_81[1]
KSV_BYTE_82[1]
KSV_BYTE_83[1]
KSV_BYTE_84[1]
KSV_BYTE_85[1]
KSV_BYTE_86[1]
KSV_BYTE_87[1]
KSV_BYTE_88[1]
KSV_BYTE_89[1]
0
KSV_BYTE_46[0]
KSV_BYTE_47[0]
KSV_BYTE_48[0]
KSV_BYTE_49[0]
KSV_BYTE_50[0]
KSV_BYTE_51[0]
KSV_BYTE_52[0]
KSV_BYTE_53[0]
KSV_BYTE_54[0]
KSV_BYTE_55[0]
KSV_BYTE_56[0]
KSV_BYTE_57[0]
KSV_BYTE_58[0]
KSV_BYTE_59[0]
KSV_BYTE_60[0]
KSV_BYTE_61[0]
KSV_BYTE_62[0]
KSV_BYTE_63[0]
KSV_BYTE_64[0]
KSV_BYTE_65[0]
KSV_BYTE_66[0]
KSV_BYTE_67[0]
KSV_BYTE_68[0]
KSV_BYTE_69[0]
KSV_BYTE_70[0]
KSV_BYTE_71[0]
KSV_BYTE_72[0]
KSV_BYTE_73[0]
KSV_BYTE_74[0]
KSV_BYTE_75[0]
KSV_BYTE_76[0]
KSV_BYTE_77[0]
KSV_BYTE_78[0]
KSV_BYTE_79[0]
KSV_BYTE_80[0]
KSV_BYTE_81[0]
KSV_BYTE_82[0]
KSV_BYTE_83[0]
KSV_BYTE_84[0]
KSV_BYTE_85[0]
KSV_BYTE_86[0]
KSV_BYTE_87[0]
KSV_BYTE_88[0]
KSV_BYTE_89[0]
Repeater
ADD
0xDA
0xDB
0xDC
0xDD
0xDE
0xDF
0xE0
0xE1
0xE2
0xE3
0xE4
0xE5
0xE6
0xE7
0xE8
0xE9
0xEA
0xEB
0xEC
0xED
0xEE
0xEF
0xF0
0xF1
0xF2
0xF3
0xF4
0xF5
0xF6
0xF7
0xF8
0xF9
0xFA
0xFB
0xFC
0xFD
0xFE
0xFF
Rev. 0
DEF
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
Register Map
REGISTER NAME
KSV 0_91
KSV 0_92
KSV 0_93
KSV 0_94
KSV 0_95
KSV 0_96
KSV 0_97
KSV 0_98
KSV 0_99
KSV 0_100
KSV 0_101
KSV 0_102
KSV 0_103
KSV 0_104
KSV 0_105
KSV 0_106
KSV 0_107
KSV 0_108
KSV 0_109
KSV 0_110
KSV 0_111
KSV 0_112
KSV 0_113
KSV 0_114
KSV 0_115
KSV 0_116
KSV 0_117
KSV 0_118
KSV 0_119
KSV 0_120
KSV 0_121
KSV 0_122
KSV 0_123
KSV 0_124
KSV 0_125
KSV 0_126
KSV 0_127
KSV 0_128
ACC
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
7
KSV_BYTE_90[7]
KSV_BYTE_91[7]
KSV_BYTE_92[7]
KSV_BYTE_93[7]
KSV_BYTE_94[7]
KSV_BYTE_95[7]
KSV_BYTE_96[7]
KSV_BYTE_97[7]
KSV_BYTE_98[7]
KSV_BYTE_99[7]
KSV_BYTE_100[7]
KSV_BYTE_101[7]
KSV_BYTE_102[7]
KSV_BYTE_103[7]
KSV_BYTE_104[7]
KSV_BYTE_105[7]
KSV_BYTE_106[7]
KSV_BYTE_107[7]
KSV_BYTE_108[7]
KSV_BYTE_109[7]
KSV_BYTE_110[7]
KSV_BYTE_111[7]
KSV_BYTE_112[7]
KSV_BYTE_113[7]
KSV_BYTE_114[7]
KSV_BYTE_115[7]
KSV_BYTE_116[7]
KSV_BYTE_117[7]
KSV_BYTE_118[7]
KSV_BYTE_119[7]
KSV_BYTE_120[7]
KSV_BYTE_121[7]
KSV_BYTE_122[7]
KSV_BYTE_123[7]
KSV_BYTE_124[7]
KSV_BYTE_125[7]
KSV_BYTE_126[7]
KSV_BYTE_127[7]
6
KSV_BYTE_90[6]
KSV_BYTE_91[6]
KSV_BYTE_92[6]
KSV_BYTE_93[6]
KSV_BYTE_94[6]
KSV_BYTE_95[6]
KSV_BYTE_96[6]
KSV_BYTE_97[6]
KSV_BYTE_98[6]
KSV_BYTE_99[6]
KSV_BYTE_100[6]
KSV_BYTE_101[6]
KSV_BYTE_102[6]
KSV_BYTE_103[6]
KSV_BYTE_104[6]
KSV_BYTE_105[6]
KSV_BYTE_106[6]
KSV_BYTE_107[6]
KSV_BYTE_108[6]
KSV_BYTE_109[6]
KSV_BYTE_110[6]
KSV_BYTE_111[6]
KSV_BYTE_112[6]
KSV_BYTE_113[6]
KSV_BYTE_114[6]
KSV_BYTE_115[6]
KSV_BYTE_116[6]
KSV_BYTE_117[6]
KSV_BYTE_118[6]
KSV_BYTE_119[6]
KSV_BYTE_120[6]
KSV_BYTE_121[6]
KSV_BYTE_122[6]
KSV_BYTE_123[6]
KSV_BYTE_124[6]
KSV_BYTE_125[6]
KSV_BYTE_126[6]
KSV_BYTE_127[6]
5
KSV_BYTE_90[5]
KSV_BYTE_91[5]
KSV_BYTE_92[5]
KSV_BYTE_93[5]
KSV_BYTE_94[5]
KSV_BYTE_95[5]
KSV_BYTE_96[5]
KSV_BYTE_97[5]
KSV_BYTE_98[5]
KSV_BYTE_99[5]
KSV_BYTE_100[5]
KSV_BYTE_101[5]
KSV_BYTE_102[5]
KSV_BYTE_103[5]
KSV_BYTE_104[5]
KSV_BYTE_105[5]
KSV_BYTE_106[5]
KSV_BYTE_107[5]
KSV_BYTE_108[5]
KSV_BYTE_109[5]
KSV_BYTE_110[5]
KSV_BYTE_111[5]
KSV_BYTE_112[5]
KSV_BYTE_113[5]
KSV_BYTE_114[5]
KSV_BYTE_115[5]
KSV_BYTE_116[5]
KSV_BYTE_117[5]
KSV_BYTE_118[5]
KSV_BYTE_119[5]
KSV_BYTE_120[5]
KSV_BYTE_121[5]
KSV_BYTE_122[5]
KSV_BYTE_123[5]
KSV_BYTE_124[5]
KSV_BYTE_125[5]
KSV_BYTE_126[5]
KSV_BYTE_127[5]
17
4
KSV_BYTE_90[4]
KSV_BYTE_91[4]
KSV_BYTE_92[4]
KSV_BYTE_93[4]
KSV_BYTE_94[4]
KSV_BYTE_95[4]
KSV_BYTE_96[4]
KSV_BYTE_97[4]
KSV_BYTE_98[4]
KSV_BYTE_99[4]
KSV_BYTE_100[4]
KSV_BYTE_101[4]
KSV_BYTE_102[4]
KSV_BYTE_103[4]
KSV_BYTE_104[4]
KSV_BYTE_105[4]
KSV_BYTE_106[4]
KSV_BYTE_107[4]
KSV_BYTE_108[4]
KSV_BYTE_109[4]
KSV_BYTE_110[4]
KSV_BYTE_111[4]
KSV_BYTE_112[4]
KSV_BYTE_113[4]
KSV_BYTE_114[4]
KSV_BYTE_115[4]
KSV_BYTE_116[4]
KSV_BYTE_117[4]
KSV_BYTE_118[4]
KSV_BYTE_119[4]
KSV_BYTE_120[4]
KSV_BYTE_121[4]
KSV_BYTE_122[4]
KSV_BYTE_123[4]
KSV_BYTE_124[4]
KSV_BYTE_125[4]
KSV_BYTE_126[4]
KSV_BYTE_127[4]
3
KSV_BYTE_90[3]
KSV_BYTE_91[3]
KSV_BYTE_92[3]
KSV_BYTE_93[3]
KSV_BYTE_94[3]
KSV_BYTE_95[3]
KSV_BYTE_96[3]
KSV_BYTE_97[3]
KSV_BYTE_98[3]
KSV_BYTE_99[3]
KSV_BYTE_100[3]
KSV_BYTE_101[3]
KSV_BYTE_102[3]
KSV_BYTE_103[3]
KSV_BYTE_104[3]
KSV_BYTE_105[3]
KSV_BYTE_106[3]
KSV_BYTE_107[3]
KSV_BYTE_108[3]
KSV_BYTE_109[3]
KSV_BYTE_110[3]
KSV_BYTE_111[3]
KSV_BYTE_112[3]
KSV_BYTE_113[3]
KSV_BYTE_114[3]
KSV_BYTE_115[3]
KSV_BYTE_116[3]
KSV_BYTE_117[3]
KSV_BYTE_118[3]
KSV_BYTE_119[3]
KSV_BYTE_120[3]
KSV_BYTE_121[3]
KSV_BYTE_122[3]
KSV_BYTE_123[3]
KSV_BYTE_124[3]
KSV_BYTE_125[3]
KSV_BYTE_126[3]
KSV_BYTE_127[3]
2
KSV_BYTE_90[2]
KSV_BYTE_91[2]
KSV_BYTE_92[2]
KSV_BYTE_93[2]
KSV_BYTE_94[2]
KSV_BYTE_95[2]
KSV_BYTE_96[2]
KSV_BYTE_97[2]
KSV_BYTE_98[2]
KSV_BYTE_99[2]
KSV_BYTE_100[2]
KSV_BYTE_101[2]
KSV_BYTE_102[2]
KSV_BYTE_103[2]
KSV_BYTE_104[2]
KSV_BYTE_105[2]
KSV_BYTE_106[2]
KSV_BYTE_107[2]
KSV_BYTE_108[2]
KSV_BYTE_109[2]
KSV_BYTE_110[2]
KSV_BYTE_111[2]
KSV_BYTE_112[2]
KSV_BYTE_113[2]
KSV_BYTE_114[2]
KSV_BYTE_115[2]
KSV_BYTE_116[2]
KSV_BYTE_117[2]
KSV_BYTE_118[2]
KSV_BYTE_119[2]
KSV_BYTE_120[2]
KSV_BYTE_121[2]
KSV_BYTE_122[2]
KSV_BYTE_123[2]
KSV_BYTE_124[2]
KSV_BYTE_125[2]
KSV_BYTE_126[2]
KSV_BYTE_127[2]
1
KSV_BYTE_90[1]
KSV_BYTE_91[1]
KSV_BYTE_92[1]
KSV_BYTE_93[1]
KSV_BYTE_94[1]
KSV_BYTE_95[1]
KSV_BYTE_96[1]
KSV_BYTE_97[1]
KSV_BYTE_98[1]
KSV_BYTE_99[1]
KSV_BYTE_100[1]
KSV_BYTE_101[1]
KSV_BYTE_102[1]
KSV_BYTE_103[1]
KSV_BYTE_104[1]
KSV_BYTE_105[1]
KSV_BYTE_106[1]
KSV_BYTE_107[1]
KSV_BYTE_108[1]
KSV_BYTE_109[1]
KSV_BYTE_110[1]
KSV_BYTE_111[1]
KSV_BYTE_112[1]
KSV_BYTE_113[1]
KSV_BYTE_114[1]
KSV_BYTE_115[1]
KSV_BYTE_116[1]
KSV_BYTE_117[1]
KSV_BYTE_118[1]
KSV_BYTE_119[1]
KSV_BYTE_120[1]
KSV_BYTE_121[1]
KSV_BYTE_122[1]
KSV_BYTE_123[1]
KSV_BYTE_124[1]
KSV_BYTE_125[1]
KSV_BYTE_126[1]
KSV_BYTE_127[1]
0
KSV_BYTE_90[0]
KSV_BYTE_91[0]
KSV_BYTE_92[0]
KSV_BYTE_93[0]
KSV_BYTE_94[0]
KSV_BYTE_95[0]
KSV_BYTE_96[0]
KSV_BYTE_97[0]
KSV_BYTE_98[0]
KSV_BYTE_99[0]
KSV_BYTE_100[0]
KSV_BYTE_101[0]
KSV_BYTE_102[0]
KSV_BYTE_103[0]
KSV_BYTE_104[0]
KSV_BYTE_105[0]
KSV_BYTE_106[0]
KSV_BYTE_107[0]
KSV_BYTE_108[0]
KSV_BYTE_109[0]
KSV_BYTE_110[0]
KSV_BYTE_111[0]
KSV_BYTE_112[0]
KSV_BYTE_113[0]
KSV_BYTE_114[0]
KSV_BYTE_115[0]
KSV_BYTE_116[0]
KSV_BYTE_117[0]
KSV_BYTE_118[0]
KSV_BYTE_119[0]
KSV_BYTE_120[0]
KSV_BYTE_121[0]
KSV_BYTE_122[0]
KSV_BYTE_123[0]
KSV_BYTE_124[0]
KSV_BYTE_125[0]
KSV_BYTE_126[0]
KSV_BYTE_127[0]
Infoframe
1.5
INFOFRAME
ADD
0x00
0x01
0x02
0x03
0x04
0x05
0x06
0x07
0x08
0x09
0x0A
0x0B
0x0C
0x0D
0x0E
0x0F
0x10
0x11
0x12
0x13
0x14
0x15
0x16
0x17
0x18
0x19
0x1A
0x1B
0x1C
0x1D
0x1E
0x1F
0x20
0x21
0x22
0x23
0x24
DEF
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x25
0x00
0x26
0x00
0x27
0x00
Rev. 0
Register Map
REGISTER NAME
AVI_INF_PB_0_1
AVI_INF_PB_0_2
AVI_INF_PB_0_3
AVI_INF_PB_0_4
AVI_INF_PB_0_5
AVI_INF_PB_0_6
AVI_INF_PB_0_7
AVI_INF_PB_0_8
AVI_INF_PB_0_9
AVI_INF_PB_0_10
AVI_INF_PB_0_11
AVI_INF_PB_0_12
AVI_INF_PB_0_13
AVI_INF_PB_0_14
AVI_INF_PB_0_15
AVI_INF_PB_0_16
AVI_INF_PB_0_17
AVI_INF_PB_0_18
AVI_INF_PB_0_19
AVI_INF_PB_0_20
AVI_INF_PB_0_21
AVI_INF_PB_0_22
AVI_INF_PB_0_23
AVI_INF_PB_0_24
AVI_INF_PB_0_25
AVI_INF_PB_0_26
AVI_INF_PB_0_27
AVI_INF_PB_0_28
AUD_INF_PB_0_1
AUD_INF_PB_0_2
AUD_INF_PB_0_3
AUD_INF_PB_0_4
AUD_INF_PB_0_5
AUD_INF_PB_0_6
AUD_INF_PB_0_7
AUD_INF_PB_0_8
AUD_INF_PB_0_9
AUD_INF_PB_0_1
0
AUD_INF_PB_0_1
1
AUD_INF_PB_0_1
2
ACC
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
7
AVI_INF_PB[7]
AVI_INF_PB[15]
AVI_INF_PB[23]
AVI_INF_PB[31]
AVI_INF_PB[39]
AVI_INF_PB[47]
AVI_INF_PB[55]
AVI_INF_PB[63]
AVI_INF_PB[71]
AVI_INF_PB[79]
AVI_INF_PB[87]
AVI_INF_PB[95]
AVI_INF_PB[103]
AVI_INF_PB[111]
AVI_INF_PB[119]
AVI_INF_PB[127]
AVI_INF_PB[135]
AVI_INF_PB[143]
AVI_INF_PB[151]
AVI_INF_PB[159]
AVI_INF_PB[167]
AVI_INF_PB[175]
AVI_INF_PB[183]
AVI_INF_PB[191]
AVI_INF_PB[199]
AVI_INF_PB[207]
AVI_INF_PB[215]
AVI_INF_PB[223]
AUD_INF_PB[7]
AUD_INF_PB[15]
AUD_INF_PB[23]
AUD_INF_PB[31]
AUD_INF_PB[39]
AUD_INF_PB[47]
AUD_INF_PB[55]
AUD_INF_PB[63]
AUD_INF_PB[71]
6
AVI_INF_PB[6]
AVI_INF_PB[14]
AVI_INF_PB[22]
AVI_INF_PB[30]
AVI_INF_PB[38]
AVI_INF_PB[46]
AVI_INF_PB[54]
AVI_INF_PB[62]
AVI_INF_PB[70]
AVI_INF_PB[78]
AVI_INF_PB[86]
AVI_INF_PB[94]
AVI_INF_PB[102]
AVI_INF_PB[110]
AVI_INF_PB[118]
AVI_INF_PB[126]
AVI_INF_PB[134]
AVI_INF_PB[142]
AVI_INF_PB[150]
AVI_INF_PB[158]
AVI_INF_PB[166]
AVI_INF_PB[174]
AVI_INF_PB[182]
AVI_INF_PB[190]
AVI_INF_PB[198]
AVI_INF_PB[206]
AVI_INF_PB[214]
AVI_INF_PB[222]
AUD_INF_PB[6]
AUD_INF_PB[14]
AUD_INF_PB[22]
AUD_INF_PB[30]
AUD_INF_PB[38]
AUD_INF_PB[46]
AUD_INF_PB[54]
AUD_INF_PB[62]
AUD_INF_PB[70]
5
AVI_INF_PB[5]
AVI_INF_PB[13]
AVI_INF_PB[21]
AVI_INF_PB[29]
AVI_INF_PB[37]
AVI_INF_PB[45]
AVI_INF_PB[53]
AVI_INF_PB[61]
AVI_INF_PB[69]
AVI_INF_PB[77]
AVI_INF_PB[85]
AVI_INF_PB[93]
AVI_INF_PB[101]
AVI_INF_PB[109]
AVI_INF_PB[117]
AVI_INF_PB[125]
AVI_INF_PB[133]
AVI_INF_PB[141]
AVI_INF_PB[149]
AVI_INF_PB[157]
AVI_INF_PB[165]
AVI_INF_PB[173]
AVI_INF_PB[181]
AVI_INF_PB[189]
AVI_INF_PB[197]
AVI_INF_PB[205]
AVI_INF_PB[213]
AVI_INF_PB[221]
AUD_INF_PB[5]
AUD_INF_PB[13]
AUD_INF_PB[21]
AUD_INF_PB[29]
AUD_INF_PB[37]
AUD_INF_PB[45]
AUD_INF_PB[53]
AUD_INF_PB[61]
AUD_INF_PB[69]
4
AVI_INF_PB[4]
AVI_INF_PB[12]
AVI_INF_PB[20]
AVI_INF_PB[28]
AVI_INF_PB[36]
AVI_INF_PB[44]
AVI_INF_PB[52]
AVI_INF_PB[60]
AVI_INF_PB[68]
AVI_INF_PB[76]
AVI_INF_PB[84]
AVI_INF_PB[92]
AVI_INF_PB[100]
AVI_INF_PB[108]
AVI_INF_PB[116]
AVI_INF_PB[124]
AVI_INF_PB[132]
AVI_INF_PB[140]
AVI_INF_PB[148]
AVI_INF_PB[156]
AVI_INF_PB[164]
AVI_INF_PB[172]
AVI_INF_PB[180]
AVI_INF_PB[188]
AVI_INF_PB[196]
AVI_INF_PB[204]
AVI_INF_PB[212]
AVI_INF_PB[220]
AUD_INF_PB[4]
AUD_INF_PB[12]
AUD_INF_PB[20]
AUD_INF_PB[28]
AUD_INF_PB[36]
AUD_INF_PB[44]
AUD_INF_PB[52]
AUD_INF_PB[60]
AUD_INF_PB[68]
3
AVI_INF_PB[3]
AVI_INF_PB[11]
AVI_INF_PB[19]
AVI_INF_PB[27]
AVI_INF_PB[35]
AVI_INF_PB[43]
AVI_INF_PB[51]
AVI_INF_PB[59]
AVI_INF_PB[67]
AVI_INF_PB[75]
AVI_INF_PB[83]
AVI_INF_PB[91]
AVI_INF_PB[99]
AVI_INF_PB[107]
AVI_INF_PB[115]
AVI_INF_PB[123]
AVI_INF_PB[131]
AVI_INF_PB[139]
AVI_INF_PB[147]
AVI_INF_PB[155]
AVI_INF_PB[163]
AVI_INF_PB[171]
AVI_INF_PB[179]
AVI_INF_PB[187]
AVI_INF_PB[195]
AVI_INF_PB[203]
AVI_INF_PB[211]
AVI_INF_PB[219]
AUD_INF_PB[3]
AUD_INF_PB[11]
AUD_INF_PB[19]
AUD_INF_PB[27]
AUD_INF_PB[35]
AUD_INF_PB[43]
AUD_INF_PB[51]
AUD_INF_PB[59]
AUD_INF_PB[67]
2
AVI_INF_PB[2]
AVI_INF_PB[10]
AVI_INF_PB[18]
AVI_INF_PB[26]
AVI_INF_PB[34]
AVI_INF_PB[42]
AVI_INF_PB[50]
AVI_INF_PB[58]
AVI_INF_PB[66]
AVI_INF_PB[74]
AVI_INF_PB[82]
AVI_INF_PB[90]
AVI_INF_PB[98]
AVI_INF_PB[106]
AVI_INF_PB[114]
AVI_INF_PB[122]
AVI_INF_PB[130]
AVI_INF_PB[138]
AVI_INF_PB[146]
AVI_INF_PB[154]
AVI_INF_PB[162]
AVI_INF_PB[170]
AVI_INF_PB[178]
AVI_INF_PB[186]
AVI_INF_PB[194]
AVI_INF_PB[202]
AVI_INF_PB[210]
AVI_INF_PB[218]
AUD_INF_PB[2]
AUD_INF_PB[10]
AUD_INF_PB[18]
AUD_INF_PB[26]
AUD_INF_PB[34]
AUD_INF_PB[42]
AUD_INF_PB[50]
AUD_INF_PB[58]
AUD_INF_PB[66]
1
AVI_INF_PB[1]
AVI_INF_PB[9]
AVI_INF_PB[17]
AVI_INF_PB[25]
AVI_INF_PB[33]
AVI_INF_PB[41]
AVI_INF_PB[49]
AVI_INF_PB[57]
AVI_INF_PB[65]
AVI_INF_PB[73]
AVI_INF_PB[81]
AVI_INF_PB[89]
AVI_INF_PB[97]
AVI_INF_PB[105]
AVI_INF_PB[113]
AVI_INF_PB[121]
AVI_INF_PB[129]
AVI_INF_PB[137]
AVI_INF_PB[145]
AVI_INF_PB[153]
AVI_INF_PB[161]
AVI_INF_PB[169]
AVI_INF_PB[177]
AVI_INF_PB[185]
AVI_INF_PB[193]
AVI_INF_PB[201]
AVI_INF_PB[209]
AVI_INF_PB[217]
AUD_INF_PB[1]
AUD_INF_PB[9]
AUD_INF_PB[17]
AUD_INF_PB[25]
AUD_INF_PB[33]
AUD_INF_PB[41]
AUD_INF_PB[49]
AUD_INF_PB[57]
AUD_INF_PB[65]
0
AVI_INF_PB[0]
AVI_INF_PB[8]
AVI_INF_PB[16]
AVI_INF_PB[24]
AVI_INF_PB[32]
AVI_INF_PB[40]
AVI_INF_PB[48]
AVI_INF_PB[56]
AVI_INF_PB[64]
AVI_INF_PB[72]
AVI_INF_PB[80]
AVI_INF_PB[88]
AVI_INF_PB[96]
AVI_INF_PB[104]
AVI_INF_PB[112]
AVI_INF_PB[120]
AVI_INF_PB[128]
AVI_INF_PB[136]
AVI_INF_PB[144]
AVI_INF_PB[152]
AVI_INF_PB[160]
AVI_INF_PB[168]
AVI_INF_PB[176]
AVI_INF_PB[184]
AVI_INF_PB[192]
AVI_INF_PB[200]
AVI_INF_PB[208]
AVI_INF_PB[216]
AUD_INF_PB[0]
AUD_INF_PB[8]
AUD_INF_PB[16]
AUD_INF_PB[24]
AUD_INF_PB[32]
AUD_INF_PB[40]
AUD_INF_PB[48]
AUD_INF_PB[56]
AUD_INF_PB[64]
r
AUD_INF_PB[79]
AUD_INF_PB[78]
AUD_INF_PB[77]
AUD_INF_PB[76]
AUD_INF_PB[75]
AUD_INF_PB[74]
AUD_INF_PB[73]
AUD_INF_PB[72]
r
AUD_INF_PB[87]
AUD_INF_PB[86]
AUD_INF_PB[85]
AUD_INF_PB[84]
AUD_INF_PB[83]
AUD_INF_PB[82]
AUD_INF_PB[81]
AUD_INF_PB[80]
r
AUD_INF_PB[95]
AUD_INF_PB[94]
AUD_INF_PB[93]
AUD_INF_PB[92]
AUD_INF_PB[91]
AUD_INF_PB[90]
AUD_INF_PB[89]
AUD_INF_PB[88]
18
Infoframe
ADD
DEF
0x28
0x00
0x29
0x00
0x2A
0x2B
0x2C
0x2D
0x2E
0x2F
0x30
0x31
0x32
0x33
0x34
0x35
0x36
0x37
0x38
0x39
0x3A
0x3B
0x3C
0x3D
0x3E
0x3F
0x40
0x41
0x42
0x43
0x44
0x45
0x46
0x47
0x48
0x49
0x4A
0x4B
0x4C
0x4D
0x4E
0x4F
0x50
0x51
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
Rev. 0
Register Map
REGISTER NAME
AUD_INF_PB_0_1
3
AUD_INF_PB_0_1
4
SPD_INF_PB_0_1
SPD_INF_PB_0_2
SPD_INF_PB_0_3
SPD_INF_PB_0_4
SPD_INF_PB_0_5
SPD_INF_PB_0_6
SPD_INF_PB_0_7
SPD_INF_PB_0_8
SPD_INF_PB_0_9
SPD_INF_PB_0_10
SPD_INF_PB_0_11
SPD_INF_PB_0_12
SPD_INF_PB_0_13
SPD_INF_PB_0_14
SPD_INF_PB_0_15
SPD_INF_PB_0_16
SPD_INF_PB_0_17
SPD_INF_PB_0_18
SPD_INF_PB_0_19
SPD_INF_PB_0_20
SPD_INF_PB_0_21
SPD_INF_PB_0_22
SPD_INF_PB_0_23
SPD_INF_PB_0_24
SPD_INF_PB_0_25
SPD_INF_PB_0_26
SPD_INF_PB_0_27
SPD_INF_PB_0_28
MS_INF_PB_0_1
MS_INF_PB_0_2
MS_INF_PB_0_3
MS_INF_PB_0_4
MS_INF_PB_0_5
MS_INF_PB_0_6
MS_INF_PB_0_7
MS_INF_PB_0_8
MS_INF_PB_0_9
MS_INF_PB_0_10
MS_INF_PB_0_11
MS_INF_PB_0_12
ACC
7
6
5
4
3
2
1
0
r
AUD_INF_PB[103]
AUD_INF_PB[102]
AUD_INF_PB[101]
AUD_INF_PB[100]
AUD_INF_PB[99]
AUD_INF_PB[98]
AUD_INF_PB[97]
AUD_INF_PB[96]
r
AUD_INF_PB[111]
AUD_INF_PB[110]
AUD_INF_PB[109]
AUD_INF_PB[108]
AUD_INF_PB[107]
AUD_INF_PB[106]
AUD_INF_PB[105]
AUD_INF_PB[104]
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
SPD_INF_PB[7]
SPD_INF_PB[15]
SPD_INF_PB[23]
SPD_INF_PB[31]
SPD_INF_PB[39]
SPD_INF_PB[47]
SPD_INF_PB[55]
SPD_INF_PB[63]
SPD_INF_PB[71]
SPD_INF_PB[79]
SPD_INF_PB[87]
SPD_INF_PB[95]
SPD_INF_PB[103]
SPD_INF_PB[111]
SPD_INF_PB[119]
SPD_INF_PB[127]
SPD_INF_PB[135]
SPD_INF_PB[143]
SPD_INF_PB[151]
SPD_INF_PB[159]
SPD_INF_PB[167]
SPD_INF_PB[175]
SPD_INF_PB[183]
SPD_INF_PB[191]
SPD_INF_PB[199]
SPD_INF_PB[207]
SPD_INF_PB[215]
SPD_INF_PB[223]
MS_INF_PB[7]
MS_INF_PB[15]
MS_INF_PB[23]
MS_INF_PB[31]
MS_INF_PB[39]
MS_INF_PB[47]
MS_INF_PB[55]
MS_INF_PB[63]
MS_INF_PB[71]
MS_INF_PB[79]
MS_INF_PB[87]
MS_INF_PB[95]
SPD_INF_PB[6]
SPD_INF_PB[14]
SPD_INF_PB[22]
SPD_INF_PB[30]
SPD_INF_PB[38]
SPD_INF_PB[46]
SPD_INF_PB[54]
SPD_INF_PB[62]
SPD_INF_PB[70]
SPD_INF_PB[78]
SPD_INF_PB[86]
SPD_INF_PB[94]
SPD_INF_PB[102]
SPD_INF_PB[110]
SPD_INF_PB[118]
SPD_INF_PB[126]
SPD_INF_PB[134]
SPD_INF_PB[142]
SPD_INF_PB[150]
SPD_INF_PB[158]
SPD_INF_PB[166]
SPD_INF_PB[174]
SPD_INF_PB[182]
SPD_INF_PB[190]
SPD_INF_PB[198]
SPD_INF_PB[206]
SPD_INF_PB[214]
SPD_INF_PB[222]
MS_INF_PB[6]
MS_INF_PB[14]
MS_INF_PB[22]
MS_INF_PB[30]
MS_INF_PB[38]
MS_INF_PB[46]
MS_INF_PB[54]
MS_INF_PB[62]
MS_INF_PB[70]
MS_INF_PB[78]
MS_INF_PB[86]
MS_INF_PB[94]
SPD_INF_PB[5]
SPD_INF_PB[13]
SPD_INF_PB[21]
SPD_INF_PB[29]
SPD_INF_PB[37]
SPD_INF_PB[45]
SPD_INF_PB[53]
SPD_INF_PB[61]
SPD_INF_PB[69]
SPD_INF_PB[77]
SPD_INF_PB[85]
SPD_INF_PB[93]
SPD_INF_PB[101]
SPD_INF_PB[109]
SPD_INF_PB[117]
SPD_INF_PB[125]
SPD_INF_PB[133]
SPD_INF_PB[141]
SPD_INF_PB[149]
SPD_INF_PB[157]
SPD_INF_PB[165]
SPD_INF_PB[173]
SPD_INF_PB[181]
SPD_INF_PB[189]
SPD_INF_PB[197]
SPD_INF_PB[205]
SPD_INF_PB[213]
SPD_INF_PB[221]
MS_INF_PB[5]
MS_INF_PB[13]
MS_INF_PB[21]
MS_INF_PB[29]
MS_INF_PB[37]
MS_INF_PB[45]
MS_INF_PB[53]
MS_INF_PB[61]
MS_INF_PB[69]
MS_INF_PB[77]
MS_INF_PB[85]
MS_INF_PB[93]
SPD_INF_PB[4]
SPD_INF_PB[12]
SPD_INF_PB[20]
SPD_INF_PB[28]
SPD_INF_PB[36]
SPD_INF_PB[44]
SPD_INF_PB[52]
SPD_INF_PB[60]
SPD_INF_PB[68]
SPD_INF_PB[76]
SPD_INF_PB[84]
SPD_INF_PB[92]
SPD_INF_PB[100]
SPD_INF_PB[108]
SPD_INF_PB[116]
SPD_INF_PB[124]
SPD_INF_PB[132]
SPD_INF_PB[140]
SPD_INF_PB[148]
SPD_INF_PB[156]
SPD_INF_PB[164]
SPD_INF_PB[172]
SPD_INF_PB[180]
SPD_INF_PB[188]
SPD_INF_PB[196]
SPD_INF_PB[204]
SPD_INF_PB[212]
SPD_INF_PB[220]
MS_INF_PB[4]
MS_INF_PB[12]
MS_INF_PB[20]
MS_INF_PB[28]
MS_INF_PB[36]
MS_INF_PB[44]
MS_INF_PB[52]
MS_INF_PB[60]
MS_INF_PB[68]
MS_INF_PB[76]
MS_INF_PB[84]
MS_INF_PB[92]
SPD_INF_PB[3]
SPD_INF_PB[11]
SPD_INF_PB[19]
SPD_INF_PB[27]
SPD_INF_PB[35]
SPD_INF_PB[43]
SPD_INF_PB[51]
SPD_INF_PB[59]
SPD_INF_PB[67]
SPD_INF_PB[75]
SPD_INF_PB[83]
SPD_INF_PB[91]
SPD_INF_PB[99]
SPD_INF_PB[107]
SPD_INF_PB[115]
SPD_INF_PB[123]
SPD_INF_PB[131]
SPD_INF_PB[139]
SPD_INF_PB[147]
SPD_INF_PB[155]
SPD_INF_PB[163]
SPD_INF_PB[171]
SPD_INF_PB[179]
SPD_INF_PB[187]
SPD_INF_PB[195]
SPD_INF_PB[203]
SPD_INF_PB[211]
SPD_INF_PB[219]
MS_INF_PB[3]
MS_INF_PB[11]
MS_INF_PB[19]
MS_INF_PB[27]
MS_INF_PB[35]
MS_INF_PB[43]
MS_INF_PB[51]
MS_INF_PB[59]
MS_INF_PB[67]
MS_INF_PB[75]
MS_INF_PB[83]
MS_INF_PB[91]
SPD_INF_PB[2]
SPD_INF_PB[10]
SPD_INF_PB[18]
SPD_INF_PB[26]
SPD_INF_PB[34]
SPD_INF_PB[42]
SPD_INF_PB[50]
SPD_INF_PB[58]
SPD_INF_PB[66]
SPD_INF_PB[74]
SPD_INF_PB[82]
SPD_INF_PB[90]
SPD_INF_PB[98]
SPD_INF_PB[106]
SPD_INF_PB[114]
SPD_INF_PB[122]
SPD_INF_PB[130]
SPD_INF_PB[138]
SPD_INF_PB[146]
SPD_INF_PB[154]
SPD_INF_PB[162]
SPD_INF_PB[170]
SPD_INF_PB[178]
SPD_INF_PB[186]
SPD_INF_PB[194]
SPD_INF_PB[202]
SPD_INF_PB[210]
SPD_INF_PB[218]
MS_INF_PB[2]
MS_INF_PB[10]
MS_INF_PB[18]
MS_INF_PB[26]
MS_INF_PB[34]
MS_INF_PB[42]
MS_INF_PB[50]
MS_INF_PB[58]
MS_INF_PB[66]
MS_INF_PB[74]
MS_INF_PB[82]
MS_INF_PB[90]
SPD_INF_PB[1]
SPD_INF_PB[9]
SPD_INF_PB[17]
SPD_INF_PB[25]
SPD_INF_PB[33]
SPD_INF_PB[41]
SPD_INF_PB[49]
SPD_INF_PB[57]
SPD_INF_PB[65]
SPD_INF_PB[73]
SPD_INF_PB[81]
SPD_INF_PB[89]
SPD_INF_PB[97]
SPD_INF_PB[105]
SPD_INF_PB[113]
SPD_INF_PB[121]
SPD_INF_PB[129]
SPD_INF_PB[137]
SPD_INF_PB[145]
SPD_INF_PB[153]
SPD_INF_PB[161]
SPD_INF_PB[169]
SPD_INF_PB[177]
SPD_INF_PB[185]
SPD_INF_PB[193]
SPD_INF_PB[201]
SPD_INF_PB[209]
SPD_INF_PB[217]
MS_INF_PB[1]
MS_INF_PB[9]
MS_INF_PB[17]
MS_INF_PB[25]
MS_INF_PB[33]
MS_INF_PB[41]
MS_INF_PB[49]
MS_INF_PB[57]
MS_INF_PB[65]
MS_INF_PB[73]
MS_INF_PB[81]
MS_INF_PB[89]
SPD_INF_PB[0]
SPD_INF_PB[8]
SPD_INF_PB[16]
SPD_INF_PB[24]
SPD_INF_PB[32]
SPD_INF_PB[40]
SPD_INF_PB[48]
SPD_INF_PB[56]
SPD_INF_PB[64]
SPD_INF_PB[72]
SPD_INF_PB[80]
SPD_INF_PB[88]
SPD_INF_PB[96]
SPD_INF_PB[104]
SPD_INF_PB[112]
SPD_INF_PB[120]
SPD_INF_PB[128]
SPD_INF_PB[136]
SPD_INF_PB[144]
SPD_INF_PB[152]
SPD_INF_PB[160]
SPD_INF_PB[168]
SPD_INF_PB[176]
SPD_INF_PB[184]
SPD_INF_PB[192]
SPD_INF_PB[200]
SPD_INF_PB[208]
SPD_INF_PB[216]
MS_INF_PB[0]
MS_INF_PB[8]
MS_INF_PB[16]
MS_INF_PB[24]
MS_INF_PB[32]
MS_INF_PB[40]
MS_INF_PB[48]
MS_INF_PB[56]
MS_INF_PB[64]
MS_INF_PB[72]
MS_INF_PB[80]
MS_INF_PB[88]
19
Infoframe
ADD
0x52
0x53
0x54
0x55
0x56
0x57
0x58
0x59
0x5A
0x5B
0x5C
0x5D
0x5E
0x5F
0x60
0x61
0x62
0x63
0x64
0x65
0x66
0x67
0x68
0x69
0x6A
0x6B
0x6C
0x6D
0x6E
0x6F
0x70
0x71
0x72
0x73
0x74
0x75
0x76
0x77
0x78
0x79
0x7A
0x7B
0x7C
0x7D
Rev. 0
DEF
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
Register Map
REGISTER NAME
MS_INF_PB_0_13
MS_INF_PB_0_14
VS_INF_PB_0_1
VS_INF_PB_0_2
VS_INF_PB_0_3
VS_INF_PB_0_4
VS_INF_PB_0_5
VS_INF_PB_0_6
VS_INF_PB_0_7
VS_INF_PB_0_8
VS_INF_PB_0_9
VS_INF_PB_0_10
VS_INF_PB_0_11
VS_INF_PB_0_12
VS_INF_PB_0_13
VS_INF_PB_0_14
VS_INF_PB_0_15
VS_INF_PB_0_16
VS_INF_PB_0_17
VS_INF_PB_0_18
VS_INF_PB_0_19
VS_INF_PB_0_20
VS_INF_PB_0_21
VS_INF_PB_0_22
VS_INF_PB_0_23
VS_INF_PB_0_24
VS_INF_PB_0_25
VS_INF_PB_0_26
VS_INF_PB_0_27
VS_INF_PB_0_28
ACP_PB_0_1
ACP_PB_0_2
ACP_PB_0_3
ACP_PB_0_4
ACP_PB_0_5
ACP_PB_0_6
ACP_PB_0_7
ACP_PB_0_8
ACP_PB_0_9
ACP_PB_0_10
ACP_PB_0_11
ACP_PB_0_12
ACP_PB_0_13
ACP_PB_0_14
ACC
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
7
MS_INF_PB[103]
MS_INF_PB[111]
VS_INF_PB[7]
VS_INF_PB[15]
VS_INF_PB[23]
VS_INF_PB[31]
VS_INF_PB[39]
VS_INF_PB[47]
VS_INF_PB[55]
VS_INF_PB[63]
VS_INF_PB[71]
VS_INF_PB[79]
VS_INF_PB[87]
VS_INF_PB[95]
VS_INF_PB[103]
VS_INF_PB[111]
VS_INF_PB[119]
VS_INF_PB[127]
VS_INF_PB[135]
VS_INF_PB[143]
VS_INF_PB[151]
VS_INF_PB[159]
VS_INF_PB[167]
VS_INF_PB[175]
VS_INF_PB[183]
VS_INF_PB[191]
VS_INF_PB[199]
VS_INF_PB[207]
VS_INF_PB[215]
VS_INF_PB[223]
ACP_PB[7]
ACP_PB[15]
ACP_PB[23]
ACP_PB[31]
ACP_PB[39]
ACP_PB[47]
ACP_PB[55]
ACP_PB[63]
ACP_PB[71]
ACP_PB[79]
ACP_PB[87]
ACP_PB[95]
ACP_PB[103]
ACP_PB[111]
6
MS_INF_PB[102]
MS_INF_PB[110]
VS_INF_PB[6]
VS_INF_PB[14]
VS_INF_PB[22]
VS_INF_PB[30]
VS_INF_PB[38]
VS_INF_PB[46]
VS_INF_PB[54]
VS_INF_PB[62]
VS_INF_PB[70]
VS_INF_PB[78]
VS_INF_PB[86]
VS_INF_PB[94]
VS_INF_PB[102]
VS_INF_PB[110]
VS_INF_PB[118]
VS_INF_PB[126]
VS_INF_PB[134]
VS_INF_PB[142]
VS_INF_PB[150]
VS_INF_PB[158]
VS_INF_PB[166]
VS_INF_PB[174]
VS_INF_PB[182]
VS_INF_PB[190]
VS_INF_PB[198]
VS_INF_PB[206]
VS_INF_PB[214]
VS_INF_PB[222]
ACP_PB[6]
ACP_PB[14]
ACP_PB[22]
ACP_PB[30]
ACP_PB[38]
ACP_PB[46]
ACP_PB[54]
ACP_PB[62]
ACP_PB[70]
ACP_PB[78]
ACP_PB[86]
ACP_PB[94]
ACP_PB[102]
ACP_PB[110]
5
MS_INF_PB[101]
MS_INF_PB[109]
VS_INF_PB[5]
VS_INF_PB[13]
VS_INF_PB[21]
VS_INF_PB[29]
VS_INF_PB[37]
VS_INF_PB[45]
VS_INF_PB[53]
VS_INF_PB[61]
VS_INF_PB[69]
VS_INF_PB[77]
VS_INF_PB[85]
VS_INF_PB[93]
VS_INF_PB[101]
VS_INF_PB[109]
VS_INF_PB[117]
VS_INF_PB[125]
VS_INF_PB[133]
VS_INF_PB[141]
VS_INF_PB[149]
VS_INF_PB[157]
VS_INF_PB[165]
VS_INF_PB[173]
VS_INF_PB[181]
VS_INF_PB[189]
VS_INF_PB[197]
VS_INF_PB[205]
VS_INF_PB[213]
VS_INF_PB[221]
ACP_PB[5]
ACP_PB[13]
ACP_PB[21]
ACP_PB[29]
ACP_PB[37]
ACP_PB[45]
ACP_PB[53]
ACP_PB[61]
ACP_PB[69]
ACP_PB[77]
ACP_PB[85]
ACP_PB[93]
ACP_PB[101]
ACP_PB[109]
20
4
MS_INF_PB[100]
MS_INF_PB[108]
VS_INF_PB[4]
VS_INF_PB[12]
VS_INF_PB[20]
VS_INF_PB[28]
VS_INF_PB[36]
VS_INF_PB[44]
VS_INF_PB[52]
VS_INF_PB[60]
VS_INF_PB[68]
VS_INF_PB[76]
VS_INF_PB[84]
VS_INF_PB[92]
VS_INF_PB[100]
VS_INF_PB[108]
VS_INF_PB[116]
VS_INF_PB[124]
VS_INF_PB[132]
VS_INF_PB[140]
VS_INF_PB[148]
VS_INF_PB[156]
VS_INF_PB[164]
VS_INF_PB[172]
VS_INF_PB[180]
VS_INF_PB[188]
VS_INF_PB[196]
VS_INF_PB[204]
VS_INF_PB[212]
VS_INF_PB[220]
ACP_PB[4]
ACP_PB[12]
ACP_PB[20]
ACP_PB[28]
ACP_PB[36]
ACP_PB[44]
ACP_PB[52]
ACP_PB[60]
ACP_PB[68]
ACP_PB[76]
ACP_PB[84]
ACP_PB[92]
ACP_PB[100]
ACP_PB[108]
3
MS_INF_PB[99]
MS_INF_PB[107]
VS_INF_PB[3]
VS_INF_PB[11]
VS_INF_PB[19]
VS_INF_PB[27]
VS_INF_PB[35]
VS_INF_PB[43]
VS_INF_PB[51]
VS_INF_PB[59]
VS_INF_PB[67]
VS_INF_PB[75]
VS_INF_PB[83]
VS_INF_PB[91]
VS_INF_PB[99]
VS_INF_PB[107]
VS_INF_PB[115]
VS_INF_PB[123]
VS_INF_PB[131]
VS_INF_PB[139]
VS_INF_PB[147]
VS_INF_PB[155]
VS_INF_PB[163]
VS_INF_PB[171]
VS_INF_PB[179]
VS_INF_PB[187]
VS_INF_PB[195]
VS_INF_PB[203]
VS_INF_PB[211]
VS_INF_PB[219]
ACP_PB[3]
ACP_PB[11]
ACP_PB[19]
ACP_PB[27]
ACP_PB[35]
ACP_PB[43]
ACP_PB[51]
ACP_PB[59]
ACP_PB[67]
ACP_PB[75]
ACP_PB[83]
ACP_PB[91]
ACP_PB[99]
ACP_PB[107]
2
MS_INF_PB[98]
MS_INF_PB[106]
VS_INF_PB[2]
VS_INF_PB[10]
VS_INF_PB[18]
VS_INF_PB[26]
VS_INF_PB[34]
VS_INF_PB[42]
VS_INF_PB[50]
VS_INF_PB[58]
VS_INF_PB[66]
VS_INF_PB[74]
VS_INF_PB[82]
VS_INF_PB[90]
VS_INF_PB[98]
VS_INF_PB[106]
VS_INF_PB[114]
VS_INF_PB[122]
VS_INF_PB[130]
VS_INF_PB[138]
VS_INF_PB[146]
VS_INF_PB[154]
VS_INF_PB[162]
VS_INF_PB[170]
VS_INF_PB[178]
VS_INF_PB[186]
VS_INF_PB[194]
VS_INF_PB[202]
VS_INF_PB[210]
VS_INF_PB[218]
ACP_PB[2]
ACP_PB[10]
ACP_PB[18]
ACP_PB[26]
ACP_PB[34]
ACP_PB[42]
ACP_PB[50]
ACP_PB[58]
ACP_PB[66]
ACP_PB[74]
ACP_PB[82]
ACP_PB[90]
ACP_PB[98]
ACP_PB[106]
1
MS_INF_PB[97]
MS_INF_PB[105]
VS_INF_PB[1]
VS_INF_PB[9]
VS_INF_PB[17]
VS_INF_PB[25]
VS_INF_PB[33]
VS_INF_PB[41]
VS_INF_PB[49]
VS_INF_PB[57]
VS_INF_PB[65]
VS_INF_PB[73]
VS_INF_PB[81]
VS_INF_PB[89]
VS_INF_PB[97]
VS_INF_PB[105]
VS_INF_PB[113]
VS_INF_PB[121]
VS_INF_PB[129]
VS_INF_PB[137]
VS_INF_PB[145]
VS_INF_PB[153]
VS_INF_PB[161]
VS_INF_PB[169]
VS_INF_PB[177]
VS_INF_PB[185]
VS_INF_PB[193]
VS_INF_PB[201]
VS_INF_PB[209]
VS_INF_PB[217]
ACP_PB[1]
ACP_PB[9]
ACP_PB[17]
ACP_PB[25]
ACP_PB[33]
ACP_PB[41]
ACP_PB[49]
ACP_PB[57]
ACP_PB[65]
ACP_PB[73]
ACP_PB[81]
ACP_PB[89]
ACP_PB[97]
ACP_PB[105]
0
MS_INF_PB[96]
MS_INF_PB[104]
VS_INF_PB[0]
VS_INF_PB[8]
VS_INF_PB[16]
VS_INF_PB[24]
VS_INF_PB[32]
VS_INF_PB[40]
VS_INF_PB[48]
VS_INF_PB[56]
VS_INF_PB[64]
VS_INF_PB[72]
VS_INF_PB[80]
VS_INF_PB[88]
VS_INF_PB[96]
VS_INF_PB[104]
VS_INF_PB[112]
VS_INF_PB[120]
VS_INF_PB[128]
VS_INF_PB[136]
VS_INF_PB[144]
VS_INF_PB[152]
VS_INF_PB[160]
VS_INF_PB[168]
VS_INF_PB[176]
VS_INF_PB[184]
VS_INF_PB[192]
VS_INF_PB[200]
VS_INF_PB[208]
VS_INF_PB[216]
ACP_PB[0]
ACP_PB[8]
ACP_PB[16]
ACP_PB[24]
ACP_PB[32]
ACP_PB[40]
ACP_PB[48]
ACP_PB[56]
ACP_PB[64]
ACP_PB[72]
ACP_PB[80]
ACP_PB[88]
ACP_PB[96]
ACP_PB[104]
Infoframe
ADD
0x7E
0x7F
0x80
0x81
0x82
0x83
0x84
0x85
0x86
0x87
0x88
0x89
0x8A
0x8B
0x8C
0x8D
0x8E
0x8F
0x90
0x91
0x92
0x93
0x94
0x95
0x96
0x97
0x98
0x99
0x9A
0x9B
0x9C
0x9D
0x9E
0x9F
0xA0
0xA1
0xA2
0xA3
0xA4
0xA5
0xA6
0xA7
0xA8
0xA9
Rev. 0
DEF
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
Register Map
REGISTER NAME
ACP_PB_0_15
ACP_PB_0_16
ACP_PB_0_17
ACP_PB_0_18
ACP_PB_0_19
ACP_PB_0_20
ACP_PB_0_21
ACP_PB_0_22
ACP_PB_0_23
ACP_PB_0_24
ACP_PB_0_25
ACP_PB_0_26
ACP_PB_0_27
ACP_PB_0_28
ISRC1_PB_0_1
ISRC1_PB_0_2
ISRC1_PB_0_3
ISRC1_PB_0_4
ISRC1_PB_0_5
ISRC1_PB_0_6
ISRC1_PB_0_7
ISRC1_PB_0_8
ISRC1_PB_0_9
ISRC1_PB_0_10
ISRC1_PB_0_11
ISRC1_PB_0_12
ISRC1_PB_0_13
ISRC1_PB_0_14
ISRC1_PB_0_15
ISRC1_PB_0_16
ISRC1_PB_0_17
ISRC1_PB_0_18
ISRC1_PB_0_19
ISRC1_PB_0_20
ISRC1_PB_0_21
ISRC1_PB_0_22
ISRC1_PB_0_23
ISRC1_PB_0_24
ISRC1_PB_0_25
ISRC1_PB_0_26
ISRC1_PB_0_27
ISRC1_PB_0_28
ISRC2_PB_0_1
ISRC2_PB_0_2
ACC
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
7
ACP_PB[119]
ACP_PB[127]
ACP_PB[135]
ACP_PB[143]
ACP_PB[151]
ACP_PB[159]
ACP_PB[167]
ACP_PB[175]
ACP_PB[183]
ACP_PB[191]
ACP_PB[199]
ACP_PB[207]
ACP_PB[215]
ACP_PB[223]
ISRC1_PB[7]
ISRC1_PB[15]
ISRC1_PB[23]
ISRC1_PB[31]
ISRC1_PB[39]
ISRC1_PB[47]
ISRC1_PB[55]
ISRC1_PB[63]
ISRC1_PB[71]
ISRC1_PB[79]
ISRC1_PB[87]
ISRC1_PB[95]
ISRC1_PB[103]
ISRC1_PB[111]
ISRC1_PB[119]
ISRC1_PB[127]
ISRC1_PB[135]
ISRC1_PB[143]
ISRC1_PB[151]
ISRC1_PB[159]
ISRC1_PB[167]
ISRC1_PB[175]
ISRC1_PB[183]
ISRC1_PB[191]
ISRC1_PB[199]
ISRC1_PB[207]
ISRC1_PB[215]
ISRC1_PB[223]
ISRC2_PB[7]
ISRC2_PB[15]
6
ACP_PB[118]
ACP_PB[126]
ACP_PB[134]
ACP_PB[142]
ACP_PB[150]
ACP_PB[158]
ACP_PB[166]
ACP_PB[174]
ACP_PB[182]
ACP_PB[190]
ACP_PB[198]
ACP_PB[206]
ACP_PB[214]
ACP_PB[222]
ISRC1_PB[6]
ISRC1_PB[14]
ISRC1_PB[22]
ISRC1_PB[30]
ISRC1_PB[38]
ISRC1_PB[46]
ISRC1_PB[54]
ISRC1_PB[62]
ISRC1_PB[70]
ISRC1_PB[78]
ISRC1_PB[86]
ISRC1_PB[94]
ISRC1_PB[102]
ISRC1_PB[110]
ISRC1_PB[118]
ISRC1_PB[126]
ISRC1_PB[134]
ISRC1_PB[142]
ISRC1_PB[150]
ISRC1_PB[158]
ISRC1_PB[166]
ISRC1_PB[174]
ISRC1_PB[182]
ISRC1_PB[190]
ISRC1_PB[198]
ISRC1_PB[206]
ISRC1_PB[214]
ISRC1_PB[222]
ISRC2_PB[6]
ISRC2_PB[14]
5
ACP_PB[117]
ACP_PB[125]
ACP_PB[133]
ACP_PB[141]
ACP_PB[149]
ACP_PB[157]
ACP_PB[165]
ACP_PB[173]
ACP_PB[181]
ACP_PB[189]
ACP_PB[197]
ACP_PB[205]
ACP_PB[213]
ACP_PB[221]
ISRC1_PB[5]
ISRC1_PB[13]
ISRC1_PB[21]
ISRC1_PB[29]
ISRC1_PB[37]
ISRC1_PB[45]
ISRC1_PB[53]
ISRC1_PB[61]
ISRC1_PB[69]
ISRC1_PB[77]
ISRC1_PB[85]
ISRC1_PB[93]
ISRC1_PB[101]
ISRC1_PB[109]
ISRC1_PB[117]
ISRC1_PB[125]
ISRC1_PB[133]
ISRC1_PB[141]
ISRC1_PB[149]
ISRC1_PB[157]
ISRC1_PB[165]
ISRC1_PB[173]
ISRC1_PB[181]
ISRC1_PB[189]
ISRC1_PB[197]
ISRC1_PB[205]
ISRC1_PB[213]
ISRC1_PB[221]
ISRC2_PB[5]
ISRC2_PB[13]
21
4
ACP_PB[116]
ACP_PB[124]
ACP_PB[132]
ACP_PB[140]
ACP_PB[148]
ACP_PB[156]
ACP_PB[164]
ACP_PB[172]
ACP_PB[180]
ACP_PB[188]
ACP_PB[196]
ACP_PB[204]
ACP_PB[212]
ACP_PB[220]
ISRC1_PB[4]
ISRC1_PB[12]
ISRC1_PB[20]
ISRC1_PB[28]
ISRC1_PB[36]
ISRC1_PB[44]
ISRC1_PB[52]
ISRC1_PB[60]
ISRC1_PB[68]
ISRC1_PB[76]
ISRC1_PB[84]
ISRC1_PB[92]
ISRC1_PB[100]
ISRC1_PB[108]
ISRC1_PB[116]
ISRC1_PB[124]
ISRC1_PB[132]
ISRC1_PB[140]
ISRC1_PB[148]
ISRC1_PB[156]
ISRC1_PB[164]
ISRC1_PB[172]
ISRC1_PB[180]
ISRC1_PB[188]
ISRC1_PB[196]
ISRC1_PB[204]
ISRC1_PB[212]
ISRC1_PB[220]
ISRC2_PB[4]
ISRC2_PB[12]
3
ACP_PB[115]
ACP_PB[123]
ACP_PB[131]
ACP_PB[139]
ACP_PB[147]
ACP_PB[155]
ACP_PB[163]
ACP_PB[171]
ACP_PB[179]
ACP_PB[187]
ACP_PB[195]
ACP_PB[203]
ACP_PB[211]
ACP_PB[219]
ISRC1_PB[3]
ISRC1_PB[11]
ISRC1_PB[19]
ISRC1_PB[27]
ISRC1_PB[35]
ISRC1_PB[43]
ISRC1_PB[51]
ISRC1_PB[59]
ISRC1_PB[67]
ISRC1_PB[75]
ISRC1_PB[83]
ISRC1_PB[91]
ISRC1_PB[99]
ISRC1_PB[107]
ISRC1_PB[115]
ISRC1_PB[123]
ISRC1_PB[131]
ISRC1_PB[139]
ISRC1_PB[147]
ISRC1_PB[155]
ISRC1_PB[163]
ISRC1_PB[171]
ISRC1_PB[179]
ISRC1_PB[187]
ISRC1_PB[195]
ISRC1_PB[203]
ISRC1_PB[211]
ISRC1_PB[219]
ISRC2_PB[3]
ISRC2_PB[11]
2
ACP_PB[114]
ACP_PB[122]
ACP_PB[130]
ACP_PB[138]
ACP_PB[146]
ACP_PB[154]
ACP_PB[162]
ACP_PB[170]
ACP_PB[178]
ACP_PB[186]
ACP_PB[194]
ACP_PB[202]
ACP_PB[210]
ACP_PB[218]
ISRC1_PB[2]
ISRC1_PB[10]
ISRC1_PB[18]
ISRC1_PB[26]
ISRC1_PB[34]
ISRC1_PB[42]
ISRC1_PB[50]
ISRC1_PB[58]
ISRC1_PB[66]
ISRC1_PB[74]
ISRC1_PB[82]
ISRC1_PB[90]
ISRC1_PB[98]
ISRC1_PB[106]
ISRC1_PB[114]
ISRC1_PB[122]
ISRC1_PB[130]
ISRC1_PB[138]
ISRC1_PB[146]
ISRC1_PB[154]
ISRC1_PB[162]
ISRC1_PB[170]
ISRC1_PB[178]
ISRC1_PB[186]
ISRC1_PB[194]
ISRC1_PB[202]
ISRC1_PB[210]
ISRC1_PB[218]
ISRC2_PB[2]
ISRC2_PB[10]
1
ACP_PB[113]
ACP_PB[121]
ACP_PB[129]
ACP_PB[137]
ACP_PB[145]
ACP_PB[153]
ACP_PB[161]
ACP_PB[169]
ACP_PB[177]
ACP_PB[185]
ACP_PB[193]
ACP_PB[201]
ACP_PB[209]
ACP_PB[217]
ISRC1_PB[1]
ISRC1_PB[9]
ISRC1_PB[17]
ISRC1_PB[25]
ISRC1_PB[33]
ISRC1_PB[41]
ISRC1_PB[49]
ISRC1_PB[57]
ISRC1_PB[65]
ISRC1_PB[73]
ISRC1_PB[81]
ISRC1_PB[89]
ISRC1_PB[97]
ISRC1_PB[105]
ISRC1_PB[113]
ISRC1_PB[121]
ISRC1_PB[129]
ISRC1_PB[137]
ISRC1_PB[145]
ISRC1_PB[153]
ISRC1_PB[161]
ISRC1_PB[169]
ISRC1_PB[177]
ISRC1_PB[185]
ISRC1_PB[193]
ISRC1_PB[201]
ISRC1_PB[209]
ISRC1_PB[217]
ISRC2_PB[1]
ISRC2_PB[9]
0
ACP_PB[112]
ACP_PB[120]
ACP_PB[128]
ACP_PB[136]
ACP_PB[144]
ACP_PB[152]
ACP_PB[160]
ACP_PB[168]
ACP_PB[176]
ACP_PB[184]
ACP_PB[192]
ACP_PB[200]
ACP_PB[208]
ACP_PB[216]
ISRC1_PB[0]
ISRC1_PB[8]
ISRC1_PB[16]
ISRC1_PB[24]
ISRC1_PB[32]
ISRC1_PB[40]
ISRC1_PB[48]
ISRC1_PB[56]
ISRC1_PB[64]
ISRC1_PB[72]
ISRC1_PB[80]
ISRC1_PB[88]
ISRC1_PB[96]
ISRC1_PB[104]
ISRC1_PB[112]
ISRC1_PB[120]
ISRC1_PB[128]
ISRC1_PB[136]
ISRC1_PB[144]
ISRC1_PB[152]
ISRC1_PB[160]
ISRC1_PB[168]
ISRC1_PB[176]
ISRC1_PB[184]
ISRC1_PB[192]
ISRC1_PB[200]
ISRC1_PB[208]
ISRC1_PB[216]
ISRC2_PB[0]
ISRC2_PB[8]
Infoframe
ADD
0xAA
0xAB
0xAC
0xAD
0xAE
0xAF
0xB0
0xB1
0xB2
0xB3
0xB4
0xB5
0xB6
0xB7
0xB8
0xB9
0xBA
0xBB
0xBC
0xBD
0xBE
0xBF
0xC0
0xC1
0xC2
0xC3
DEF
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0x00
0xC4
0x00
0xC5
0x00
0xC6
0x00
0xC7
0x00
0xC8
0x00
0xC9
0x00
0xCA
0x00
0xCB
0x00
0xCC
0x00
Rev. 0
Register Map
REGISTER NAME
ISRC2_PB_0_3
ISRC2_PB_0_4
ISRC2_PB_0_5
ISRC2_PB_0_6
ISRC2_PB_0_7
ISRC2_PB_0_8
ISRC2_PB_0_9
ISRC2_PB_0_10
ISRC2_PB_0_11
ISRC2_PB_0_12
ISRC2_PB_0_13
ISRC2_PB_0_14
ISRC2_PB_0_15
ISRC2_PB_0_16
ISRC2_PB_0_17
ISRC2_PB_0_18
ISRC2_PB_0_19
ISRC2_PB_0_20
ISRC2_PB_0_21
ISRC2_PB_0_22
ISRC2_PB_0_23
ISRC2_PB_0_24
ISRC2_PB_0_25
ISRC2_PB_0_26
ISRC2_PB_0_27
ISRC2_PB_0_28
GAMUT_MDATA_P
B_0_1
GAMUT_MDATA_P
B_0_2
GAMUT_MDATA_P
B_0_3
GAMUT_MDATA_P
B_0_4
GAMUT_MDATA_P
B_0_5
GAMUT_MDATA_P
B_0_6
GAMUT_MDATA_P
B_0_7
GAMUT_MDATA_P
B_0_8
GAMUT_MDATA_P
B_0_9
ACC
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
r
7
ISRC2_PB[23]
ISRC2_PB[31]
ISRC2_PB[39]
ISRC2_PB[47]
ISRC2_PB[55]
ISRC2_PB[63]
ISRC2_PB[71]
ISRC2_PB[79]
ISRC2_PB[87]
ISRC2_PB[95]
ISRC2_PB[103]
ISRC2_PB[111]
ISRC2_PB[119]
ISRC2_PB[127]
ISRC2_PB[135]
ISRC2_PB[143]
ISRC2_PB[151]
ISRC2_PB[159]
ISRC2_PB[167]
ISRC2_PB[175]
ISRC2_PB[183]
ISRC2_PB[191]
ISRC2_PB[199]
ISRC2_PB[207]
ISRC2_PB[215]
ISRC2_PB[223]
6
ISRC2_PB[22]
ISRC2_PB[30]
ISRC2_PB[38]
ISRC2_PB[46]
ISRC2_PB[54]
ISRC2_PB[62]
ISRC2_PB[70]
ISRC2_PB[78]
ISRC2_PB[86]
ISRC2_PB[94]
ISRC2_PB[102]
ISRC2_PB[110]
ISRC2_PB[118]
ISRC2_PB[126]
ISRC2_PB[134]
ISRC2_PB[142]
ISRC2_PB[150]
ISRC2_PB[158]
ISRC2_PB[166]
ISRC2_PB[174]
ISRC2_PB[182]
ISRC2_PB[190]
ISRC2_PB[198]
ISRC2_PB[206]
ISRC2_PB[214]
ISRC2_PB[222]
5
ISRC2_PB[21]
ISRC2_PB[29]
ISRC2_PB[37]
ISRC2_PB[45]
ISRC2_PB[53]
ISRC2_PB[61]
ISRC2_PB[69]
ISRC2_PB[77]
ISRC2_PB[85]
ISRC2_PB[93]
ISRC2_PB[101]
ISRC2_PB[109]
ISRC2_PB[117]
ISRC2_PB[125]
ISRC2_PB[133]
ISRC2_PB[141]
ISRC2_PB[149]
ISRC2_PB[157]
ISRC2_PB[165]
ISRC2_PB[173]
ISRC2_PB[181]
ISRC2_PB[189]
ISRC2_PB[197]
ISRC2_PB[205]
ISRC2_PB[213]
ISRC2_PB[221]
4
ISRC2_PB[20]
ISRC2_PB[28]
ISRC2_PB[36]
ISRC2_PB[44]
ISRC2_PB[52]
ISRC2_PB[60]
ISRC2_PB[68]
ISRC2_PB[76]
ISRC2_PB[84]
ISRC2_PB[92]
ISRC2_PB[100]
ISRC2_PB[108]
ISRC2_PB[116]
ISRC2_PB[124]
ISRC2_PB[132]
ISRC2_PB[140]
ISRC2_PB[148]
ISRC2_PB[156]
ISRC2_PB[164]
ISRC2_PB[172]
ISRC2_PB[180]
ISRC2_PB[188]
ISRC2_PB[196]
ISRC2_PB[204]
ISRC2_PB[212]
ISRC2_PB[220]
3
ISRC2_PB[19]
ISRC2_PB[27]
ISRC2_PB[35]
ISRC2_PB[43]
ISRC2_PB[51]
ISRC2_PB[59]
ISRC2_PB[67]
ISRC2_PB[75]
ISRC2_PB[83]
ISRC2_PB[91]
ISRC2_PB[99]
ISRC2_PB[107]
ISRC2_PB[115]
ISRC2_PB[123]
ISRC2_PB[131]
ISRC2_PB[139]
ISRC2_PB[147]
ISRC2_PB[155]
ISRC2_PB[163]
ISRC2_PB[171]
ISRC2_PB[179]
ISRC2_PB[187]
ISRC2_PB[195]
ISRC2_PB[203]
ISRC2_PB[211]
ISRC2_PB[219]
2
ISRC2_PB[18]
ISRC2_PB[26]
ISRC2_PB[34]
ISRC2_PB[42]
ISRC2_PB[50]
ISRC2_PB[58]
ISRC2_PB[66]
ISRC2_PB[74]
ISRC2_PB[82]
ISRC2_PB[90]
ISRC2_PB[98]
ISRC2_PB[106]
ISRC2_PB[114]
ISRC2_PB[122]
ISRC2_PB[130]
ISRC2_PB[138]
ISRC2_PB[146]
ISRC2_PB[154]
ISRC2_PB[162]
ISRC2_PB[170]
ISRC2_PB[178]
ISRC2_PB[186]
ISRC2_PB[194]
ISRC2_PB[202]
ISRC2_PB[210]
ISRC2_PB[218]
1
ISRC2_PB[17]
ISRC2_PB[25]
ISRC2_PB[33]
ISRC2_PB[41]
ISRC2_PB[49]
ISRC2_PB[57]
ISRC2_PB[65]
ISRC2_PB[73]
ISRC2_PB[81]
ISRC2_PB[89]
ISRC2_PB[97]
ISRC2_PB[105]
ISRC2_PB[113]
ISRC2_PB[121]
ISRC2_PB[129]
ISRC2_PB[137]
ISRC2_PB[145]
ISRC2_PB[153]
ISRC2_PB[161]
ISRC2_PB[169]
ISRC2_PB[177]
ISRC2_PB[185]
ISRC2_PB[193]
ISRC2_PB[201]
ISRC2_PB[209]
ISRC2_PB[217]
0
ISRC2_PB[16]
ISRC2_PB[24]
ISRC2_PB[32]
ISRC2_PB[40]
ISRC2_PB[48]
ISRC2_PB[56]
ISRC2_PB[64]
ISRC2_PB[72]
ISRC2_PB[80]
ISRC2_PB[88]
ISRC2_PB[96]
ISRC2_PB[104]
ISRC2_PB[112]
ISRC2_PB[120]
ISRC2_PB[128]
ISRC2_PB[136]
ISRC2_PB[144]
ISRC2_PB[152]
ISRC2_PB[160]
ISRC2_PB[168]
ISRC2_PB[176]
ISRC2_PB[184]
ISRC2_PB[192]
ISRC2_PB[200]
ISRC2_PB[208]
ISRC2_PB[216]
r
GBD[7]
GBD[6]
GBD[5]
GBD[4]
GBD[3]
GBD[2]
GBD[1]
GBD[0]
r
GBD[15]
GBD[14]
GBD[13]
GBD[12]
GBD[11]
GBD[10]
GBD[9]
GBD[8]
r
GBD[23]
GBD[22]
GBD[21]
GBD[20]
GBD[19]
GBD[18]
GBD[17]
GBD[16]
r
GBD[31]
GBD[30]
GBD[29]
GBD[28]
GBD[27]
GBD[26]
GBD[25]
GBD[24]
r
GBD[39]
GBD[38]
GBD[37]
GBD[36]
GBD[35]
GBD[34]
GBD[33]
GBD[32]
r
GBD[47]
GBD[46]
GBD[45]
GBD[44]
GBD[43]
GBD[42]
GBD[41]
GBD[40]
r
GBD[55]
GBD[54]
GBD[53]
GBD[52]
GBD[51]
GBD[50]
GBD[49]
GBD[48]
r
GBD[63]
GBD[62]
GBD[61]
GBD[60]
GBD[59]
GBD[58]
GBD[57]
GBD[56]
r
GBD[71]
GBD[70]
GBD[69]
GBD[68]
GBD[67]
GBD[66]
GBD[65]
GBD[64]
22
Infoframe
Register Map
ADD
DEF
0xCD
0x00
0xCE
0x00
0xCF
0x00
0xD0
0x00
0xD1
0x00
0xD2
0x00
0xD3
0x00
0xD4
0x00
0xD5
0x00
0xD6
0x00
0xD7
0x00
0xD8
0x00
0xD9
0x00
0xDA
0x00
0xDB
0x00
0xDC
0x00
0xDD
0x00
0xDE
0x00
0xDF
0x00
0xE0
0xE1
0xE2
0x82
0x00
0x00
REGISTER NAME
GAMUT_MDATA_P
B_0_10
GAMUT_MDATA_P
B_0_11
GAMUT_MDATA_P
B_0_12
GAMUT_MDATA_P
B_0_13
GAMUT_MDATA_P
B_0_14
GAMUT_MDATA_P
B_0_15
GAMUT_MDATA_P
B_0_16
GAMUT_MDATA_P
B_0_17
GAMUT_MDATA_P
B_0_18
GAMUT_MDATA_P
B_0_19
GAMUT_MDATA_P
B_0_20
GAMUT_MDATA_P
B_0_21
GAMUT_MDATA_P
B_0_22
GAMUT_MDATA_P
B_0_23
GAMUT_MDATA_P
B_0_24
GAMUT_MDATA_P
B_0_25
GAMUT_MDATA_P
B_0_26
GAMUT_MDATA_P
B_0_27
GAMUT_MDATA_P
B_0_28
AVI_PACKET_ID
AVI_INF_VERS
AVI_INF_LEN
0xE3
0x84
AUD_PACKET_ID
0xE4
0xE5
0x00
0x00
AUD_INF_VERS
AUD_INF_LEN
Rev. 0
ACC
7
6
5
4
3
2
1
0
r
GBD[79]
GBD[78]
GBD[77]
GBD[76]
GBD[75]
GBD[74]
GBD[73]
GBD[72]
r
GBD[87]
GBD[86]
GBD[85]
GBD[84]
GBD[83]
GBD[82]
GBD[81]
GBD[80]
r
GBD[95]
GBD[94]
GBD[93]
GBD[92]
GBD[91]
GBD[90]
GBD[89]
GBD[88]
r
GBD[103]
GBD[102]
GBD[101]
GBD[100]
GBD[99]
GBD[98]
GBD[97]
GBD[96]
r
GBD[111]
GBD[110]
GBD[109]
GBD[108]
GBD[107]
GBD[106]
GBD[105]
GBD[104]
r
GBD[119]
GBD[118]
GBD[117]
GBD[116]
GBD[115]
GBD[114]
GBD[113]
GBD[112]
r
GBD[127]
GBD[126]
GBD[125]
GBD[124]
GBD[123]
GBD[122]
GBD[121]
GBD[120]
r
GBD[135]
GBD[134]
GBD[133]
GBD[132]
GBD[131]
GBD[130]
GBD[129]
GBD[128]
r
GBD[143]
GBD[142]
GBD[141]
GBD[140]
GBD[139]
GBD[138]
GBD[137]
GBD[136]
r
GBD[151]
GBD[150]
GBD[149]
GBD[148]
GBD[147]
GBD[146]
GBD[145]
GBD[144]
r
GBD[159]
GBD[158]
GBD[157]
GBD[156]
GBD[155]
GBD[154]
GBD[153]
GBD[152]
r
GBD[167]
GBD[166]
GBD[165]
GBD[164]
GBD[163]
GBD[162]
GBD[161]
GBD[160]
r
GBD[175]
GBD[174]
GBD[173]
GBD[172]
GBD[171]
GBD[170]
GBD[169]
GBD[168]
r
GBD[183]
GBD[182]
GBD[181]
GBD[180]
GBD[179]
GBD[178]
GBD[177]
GBD[176]
r
GBD[191]
GBD[190]
GBD[189]
GBD[188]
GBD[187]
GBD[186]
GBD[185]
GBD[184]
r
GBD[199]
GBD[198]
GBD[197]
GBD[196]
GBD[195]
GBD[194]
GBD[193]
GBD[192]
r
GBD[207]
GBD[206]
GBD[205]
GBD[204]
GBD[203]
GBD[202]
GBD[201]
GBD[200]
r
GBD[215]
GBD[214]
GBD[213]
GBD[212]
GBD[211]
GBD[210]
GBD[209]
GBD[208]
r
GBD[223]
GBD[222]
GBD[221]
GBD[220]
GBD[219]
GBD[218]
GBD[217]
GBD[216]
rw
r
r
AVI_PACKET_ID[7]
AVI_INF_VERS[7]
AVI_INF_LEN[7]
AUD_PACKET_ID[7
]
AUD_INF_VERS[7]
AUD_INF_LEN[7]
AVI_PACKET_ID[6]
AVI_INF_VERS[6]
AVI_INF_LEN[6]
AUD_PACKET_ID[6
]
AUD_INF_VERS[6]
AUD_INF_LEN[6]
AVI_PACKET_ID[5]
AVI_INF_VERS[5]
AVI_INF_LEN[5]
AUD_PACKET_ID[5
]
AUD_INF_VERS[5]
AUD_INF_LEN[5]
AVI_PACKET_ID[4]
AVI_INF_VERS[4]
AVI_INF_LEN[4]
AUD_PACKET_ID[4
]
AUD_INF_VERS[4]
AUD_INF_LEN[4]
AVI_PACKET_ID[3]
AVI_INF_VERS[3]
AVI_INF_LEN[3]
AUD_PACKET_ID[3
]
AUD_INF_VERS[3]
AUD_INF_LEN[3]
AVI_PACKET_ID[2]
AVI_INF_VERS[2]
AVI_INF_LEN[2]
AUD_PACKET_ID[2
]
AUD_INF_VERS[2]
AUD_INF_LEN[2]
AVI_PACKET_ID[1]
AVI_INF_VERS[1]
AVI_INF_LEN[1]
AUD_PACKET_ID[1
]
AUD_INF_VERS[1]
AUD_INF_LEN[1]
AVI_PACKET_ID[0]
AVI_INF_VERS[0]
AVI_INF_LEN[0]
AUD_PACKET_ID[0
]
AUD_INF_VERS[0]
AUD_INF_LEN[0]
rw
r
r
23
Infoframe
Register Map
ADD
DEF
REGISTER NAME
0xE6
0x83
SPD_PACKET_ID
rw
0xE7
0xE8
0xE9
0xEA
0xEB
0xEC
0xED
0xEE
0x00
0x00
0x85
0x00
0x00
0x81
0x00
0x00
SPD_INF_VERS
SPD_INF_LEN
MS_PACKET_ID
MS_INF_VERS
MS_INF_LEN
VS_PACKET_ID
VS_INF_VERS
VS_INF_LEN
r
r
rw
r
r
rw
r
r
0xEF
0x04
ACP_PACKET_ID
rw
0xF0
0xF1
0x00
0x00
ACP_TYPE
ACP_HEADER2
r
r
0xF2
0x05
ISRC1_PACKET_ID
0xF3
0x00
ISRC1_HEADER1
r
0xF4
0x00
ISRC1_HEADER2
r
0xF5
0x06
ISRC2_PACKET_ID
0xF6
0x00
ISRC2_HEADER1
r
0xF7
0x00
ISRC2_HEADER2
r
0xF8
0x0A
GAMUT_PACKET_I
D
rw
0xF9
0x00
GAMUT_HEADER1
r
0xFA
0x00
GAMUT_HEADER2
r
Rev. 0
ACC
rw
rw
7
SPD_PACKET_ID[7
]
SPD_INF_VERS[7]
SPD_INF_LEN[7]
MS_PACKET_ID[7]
MS_INF_VERS[7]
MS_INF_LEN[7]
VS_PACKET_ID[7]
VS_INF_VERS[7]
VS_INF_LEN[7]
ACP_PACKET_ID[7
]
ACP_TYPE[7]
ACP_HEADER2[7]
ISRC1_PACKET_ID[
7]
ISRC1_HEADER1[7
]
ISRC1_HEADER2[7
]
ISRC2_PACKET_ID[
7]
ISRC2_HEADER1[7
]
ISRC2_HEADER2[7
]
GAMUT_PACKET_I
D[7]
GAMUT_HEADER1
[7]
GAMUT_HEADER2
[7]
6
SPD_PACKET_ID[6
]
SPD_INF_VERS[6]
SPD_INF_LEN[6]
MS_PACKET_ID[6]
MS_INF_VERS[6]
MS_INF_LEN[6]
VS_PACKET_ID[6]
VS_INF_VERS[6]
VS_INF_LEN[6]
ACP_PACKET_ID[6
]
ACP_TYPE[6]
ACP_HEADER2[6]
ISRC1_PACKET_ID[
6]
ISRC1_HEADER1[6
]
ISRC1_HEADER2[6
]
ISRC2_PACKET_ID[
6]
ISRC2_HEADER1[6
]
ISRC2_HEADER2[6
]
GAMUT_PACKET_I
D[6]
GAMUT_HEADER1
[6]
GAMUT_HEADER2
[6]
5
SPD_PACKET_ID[5
]
SPD_INF_VERS[5]
SPD_INF_LEN[5]
MS_PACKET_ID[5]
MS_INF_VERS[5]
MS_INF_LEN[5]
VS_PACKET_ID[5]
VS_INF_VERS[5]
VS_INF_LEN[5]
ACP_PACKET_ID[5
]
ACP_TYPE[5]
ACP_HEADER2[5]
ISRC1_PACKET_ID[
5]
ISRC1_HEADER1[5
]
ISRC1_HEADER2[5
]
ISRC2_PACKET_ID[
5]
ISRC2_HEADER1[5
]
ISRC2_HEADER2[5
]
GAMUT_PACKET_I
D[5]
GAMUT_HEADER1
[5]
GAMUT_HEADER2
[5]
24
4
SPD_PACKET_ID[4
]
SPD_INF_VERS[4]
SPD_INF_LEN[4]
MS_PACKET_ID[4]
MS_INF_VERS[4]
MS_INF_LEN[4]
VS_PACKET_ID[4]
VS_INF_VERS[4]
VS_INF_LEN[4]
ACP_PACKET_ID[4
]
ACP_TYPE[4]
ACP_HEADER2[4]
ISRC1_PACKET_ID[
4]
ISRC1_HEADER1[4
]
ISRC1_HEADER2[4
]
ISRC2_PACKET_ID[
4]
ISRC2_HEADER1[4
]
ISRC2_HEADER2[4
]
GAMUT_PACKET_I
D[4]
GAMUT_HEADER1
[4]
GAMUT_HEADER2
[4]
3
SPD_PACKET_ID[3
]
SPD_INF_VERS[3]
SPD_INF_LEN[3]
MS_PACKET_ID[3]
MS_INF_VERS[3]
MS_INF_LEN[3]
VS_PACKET_ID[3]
VS_INF_VERS[3]
VS_INF_LEN[3]
ACP_PACKET_ID[3
]
ACP_TYPE[3]
ACP_HEADER2[3]
ISRC1_PACKET_ID[
3]
ISRC1_HEADER1[3
]
ISRC1_HEADER2[3
]
ISRC2_PACKET_ID[
3]
ISRC2_HEADER1[3
]
ISRC2_HEADER2[3
]
GAMUT_PACKET_I
D[3]
GAMUT_HEADER1
[3]
GAMUT_HEADER2
[3]
2
SPD_PACKET_ID[2
]
SPD_INF_VERS[2]
SPD_INF_LEN[2]
MS_PACKET_ID[2]
MS_INF_VERS[2]
MS_INF_LEN[2]
VS_PACKET_ID[2]
VS_INF_VERS[2]
VS_INF_LEN[2]
ACP_PACKET_ID[2
]
ACP_TYPE[2]
ACP_HEADER2[2]
ISRC1_PACKET_ID[
2]
ISRC1_HEADER1[2
]
ISRC1_HEADER2[2
]
ISRC2_PACKET_ID[
2]
ISRC2_HEADER1[2
]
ISRC2_HEADER2[2
]
GAMUT_PACKET_I
D[2]
GAMUT_HEADER1
[2]
GAMUT_HEADER2
[2]
1
SPD_PACKET_ID[1
]
SPD_INF_VERS[1]
SPD_INF_LEN[1]
MS_PACKET_ID[1]
MS_INF_VERS[1]
MS_INF_LEN[1]
VS_PACKET_ID[1]
VS_INF_VERS[1]
VS_INF_LEN[1]
ACP_PACKET_ID[1
]
ACP_TYPE[1]
ACP_HEADER2[1]
ISRC1_PACKET_ID[
1]
ISRC1_HEADER1[1
]
ISRC1_HEADER2[1
]
ISRC2_PACKET_ID[
1]
ISRC2_HEADER1[1
]
ISRC2_HEADER2[1
]
GAMUT_PACKET_I
D[1]
GAMUT_HEADER1
[1]
GAMUT_HEADER2
[1]
0
SPD_PACKET_ID[0
]
SPD_INF_VERS[0]
SPD_INF_LEN[0]
MS_PACKET_ID[0]
MS_INF_VERS[0]
MS_INF_LEN[0]
VS_PACKET_ID[0]
VS_INF_VERS[0]
VS_INF_LEN[0]
ACP_PACKET_ID[0
]
ACP_TYPE[0]
ACP_HEADER2[0]
ISRC1_PACKET_ID[
0]
ISRC1_HEADER1[0
]
ISRC1_HEADER2[0
]
ISRC2_PACKET_ID[
0]
ISRC2_HEADER1[0
]
ISRC2_HEADER2[0
]
GAMUT_PACKET_I
D[0]
GAMUT_HEADER1
[0]
GAMUT_HEADER2
[0]
CP
1.6
Register Map
CP
ADD
DEF
REGISTER NAME
ACC
0x2A
0x00
DE_POS_CNTRL_5
rw
0x2B
0x00
DE_POS_CNTRL_6
rw
0x2C
0x00
DE_POS_CNTRL_7
rw
0x2D
0x00
DE_POS_CNTRL_8
rw
0x2E
0x00
DE_POS_CNTRL_9
rw
0x2F
0x00
0x30
0x00
DE_POS_CNTRL_1
0
DE_POS_ADJ_1
0x31
0x00
DE_POS_ADJ_2
0x36
0x00
0x3A
0x80
0x3B
0x80
0x3C
0x00
0x3D
0x00
0x3E
0x00
0x40
0x5C
0x52
0x53
0x54
0x55
0x56
0x57
0x58
0x59
0x5A
0x5B
0x5C
0x5D
0x5E
0x5F
0x60
0x61
0x62
0x40
0x00
0x00
0x00
0x00
0x08
0x00
0x00
0x00
0x00
0x01
0x00
0x00
0x00
0x00
0x00
0x20
Rev. 0
BIT_REDUCTION_
DITHER
CONTRAST_CNTRL
SATURATION_CNT
RL
BRIGHTNESS_CNT
RL
HUE_CNTRL
CP_PRE_GAIN_CN
TRL
CSC_COEFFS_1
CSC_COEFFS_2
CSC_COEFFS_3
CSC_COEFFS_4
CSC_COEFFS_5
CSC_COEFFS_6
CSC_COEFFS_7
CSC_COEFFS_8
CSC_COEFFS_9
CSC_COEFFS_10
CSC_COEFFS_11
CSC_COEFFS_12
CSC_COEFFS_13
CSC_COEFFS_14
CSC_COEFFS_15
CSC_COEFFS_16
CSC_COEFFS_17
7
CP_START_VBI_R[
11]
CP_START_VBI_R[
3]
CP_END_VBI_R[7]
CP_START_VBI_EV
EN_R[11]
CP_START_VBI_EV
EN_R[3]
CP_END_VBI_EVE
N_R[7]
DE_V_START_R[3]
DE_V_START_EVE
N_R[3]
6
CP_START_VBI_R[
10]
CP_START_VBI_R[
2]
CP_END_VBI_R[6]
CP_START_VBI_EV
EN_R[10]
CP_START_VBI_EV
EN_R[2]
CP_END_VBI_EVE
N_R[6]
DE_V_START_R[2]
DE_V_START_EVE
N_R[2]
5
CP_START_VBI_R[
9]
CP_START_VBI_R[
1]
CP_END_VBI_R[5]
CP_START_VBI_EV
EN_R[9]
CP_START_VBI_EV
EN_R[1]
CP_END_VBI_EVE
N_R[5]
DE_V_START_R[1]
DE_V_START_EVE
N_R[1]
4
CP_START_VBI_R[
8]
CP_START_VBI_R[
0]
CP_END_VBI_R[4]
CP_START_VBI_EV
EN_R[8]
CP_START_VBI_EV
EN_R[0]
CP_END_VBI_EVE
N_R[4]
DE_V_START_R[0]
DE_V_START_EVE
N_R[0]
3
CP_START_VBI_R[
7]
CP_END_VBI_R[11
]
CP_END_VBI_R[3]
CP_START_VBI_EV
EN_R[7]
CP_END_VBI_EVE
N_R[11]
CP_END_VBI_EVE
N_R[3]
DE_V_END_R[3]
DE_V_END_EVEN_
R[3]
2
CP_START_VBI_R[
6]
CP_END_VBI_R[10
]
CP_END_VBI_R[2]
CP_START_VBI_EV
EN_R[6]
CP_END_VBI_EVE
N_R[10]
CP_END_VBI_EVE
N_R[2]
DE_V_END_R[2]
DE_V_END_EVEN_
R[2]
rw
-
-
-
-
-
-
-
rw
rw
CP_CONTRAST[7]
CP_SATURATION[7
]
CP_BRIGHTNESS[7
]
CP_HUE[7]
CP_CONTRAST[6]
CP_SATURATION[6
]
CP_BRIGHTNESS[6
]
CP_HUE[6]
VID_ADJ_EN
-
CP_MODE_GAIN_
ADJ[7]
CSC_SCALE[1]
A4[7]
A3[5]
A2[10]
A2[2]
A1[7]
B4[7]
B3[5]
B2[10]
B2[2]
B1[7]
C4[7]
-
CP_MODE_GAIN_
ADJ[6]
CSC_SCALE[0]
A4[6]
A3[12]
A3[4]
A2[9]
A2[1]
A1[6]
B4[6]
B3[12]
B3[4]
B2[9]
B2[1]
B1[6]
C4[6]
C3[12]
CP_CONTRAST[4]
CP_SATURATION[4
]
CP_BRIGHTNESS[4
]
CP_HUE[4]
CP_UV_ALIGN_SE
L[0]
CP_MODE_GAIN_
ADJ[4]
A4[12]
A4[4]
A3[10]
A3[2]
A2[7]
A1[12]
A1[4]
B4[12]
B4[4]
B3[10]
B3[2]
B2[7]
B1[12]
B1[4]
C4[12]
C4[4]
C3[10]
CP_CONTRAST[3]
CP_SATURATION[3
]
CP_BRIGHTNESS[3
]
CP_HUE[3]
rw
CP_CONTRAST[5]
CP_SATURATION[5
]
CP_BRIGHTNESS[5
]
CP_HUE[5]
CP_UV_ALIGN_SE
L[1]
CP_MODE_GAIN_
ADJ[5]
A4[5]
A3[11]
A3[3]
A2[8]
A2[0]
A1[5]
B4[5]
B3[11]
B3[3]
B2[8]
B2[0]
B1[5]
C4[5]
C3[11]
CP_CONTRAST[2]
CP_SATURATION[2
]
CP_BRIGHTNESS[2
]
CP_HUE[2]
CP_MODE_GAIN_
ADJ_EN
CP_MODE_GAIN_
ADJ[2]
A4[10]
A4[2]
A3[8]
A3[0]
A2[5]
A1[10]
A1[2]
B4[10]
B4[2]
B3[8]
B3[0]
B2[5]
B1[10]
B1[2]
C4[10]
C4[2]
C3[8]
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
rw
25
CP_UV_DVAL_INV
CP_MODE_GAIN_
ADJ[3]
A4[11]
A4[3]
A3[9]
A3[1]
A2[6]
A1[11]
A1[3]
B4[11]
B4[3]
B3[9]
B3[1]
B2[6]
B1[11]
B1[3]
C4[11]
C4[3]
C3[9]
1
CP_START_VBI_R[
5]
0
CP_START_VBI_R[
4]
CP_END_VBI_R[9]
CP_END_VBI_R[8]
CP_END_VBI_R[1]
CP_START_VBI_EV
EN_R[5]
CP_END_VBI_EVE
N_R[9]
CP_END_VBI_EVE
N_R[1]
DE_V_END_R[1]
DE_V_END_EVEN_
R[1]
CP_CONTRAST[1]
CP_SATURATION[1
]
CP_BRIGHTNESS[1
]
CP_HUE[1]
CP_END_VBI_R[0]
CP_START_VBI_EV
EN_R[4]
CP_END_VBI_EVE
N_R[8]
CP_END_VBI_EVE
N_R[0]
DE_V_END_R[0]
DE_V_END_EVEN_
R[0]
TEN_TO_EIGHT_C
ONV
CP_CONTRAST[0]
CP_SATURATION[0
]
CP_BRIGHTNESS[0
]
CP_HUE[0]
ALT_SAT_UV_MAN
ALT_SAT_UV
CP_MODE_GAIN_
ADJ[1]
A4[9]
A4[1]
A3[7]
A2[12]
A2[4]
A1[9]
A1[1]
B4[9]
B4[1]
B3[7]
B2[12]
B2[4]
B1[9]
B1[1]
C4[9]
C4[1]
C3[7]
CP_MODE_GAIN_
ADJ[0]
A4[8]
A4[0]
A3[6]
A2[11]
A2[3]
A1[8]
A1[0]
B4[8]
B4[0]
B3[6]
B2[11]
B2[3]
B1[8]
B1[0]
C4[8]
C4[0]
C3[6]
CP
Register Map
ADD
0x63
0x64
0x65
0x66
DEF
0x00
0x00
0x00
0x00
6
C3[4]
C2[9]
C2[1]
C1[6]
CSC_COEFF_SEL[2
]
CP_PREC[0]
5
C3[3]
C2[8]
C2[0]
C1[5]
CSC_COEFF_SEL[1
]
-
4
C3[2]
C2[7]
C1[12]
C1[4]
CSC_COEFF_SEL[0
]
MAN_CP_CSC_EN
-
3
C3[1]
C2[6]
C1[11]
C1[3]
2
C3[0]
C2[5]
C1[10]
C1[2]
1
C2[12]
C2[4]
C1[9]
C1[1]
0
C2[11]
C2[3]
C1[8]
C1[0]
-
-
-
-
rw
rw
7
C3[5]
C2[10]
C2[2]
C1[7]
CSC_COEFF_SEL[3
]
CP_PREC[1]
0x68
0xF0
0x69
0x77
0x04
0xFF
OFFSET_CNTRL_1
-
-
-
AVCODE_CNTRL
rw
AV_INV_F
AV_INV_V
-
-
-
AV_POS_SEL
-
SYNC_CNTRL_1
SYNC_CNTRL_2
SYNC_CNTRL_3
SYNC_CNTRL_4
SYNC_CNTRL_5
SYNC_DET_CNTRL
_CH1_3
rw
rw
rw
rw
rw
CP_INV_HS
END_HS[7]
START_HS[7]
START_VS[3]
START_FE[3]
CP_INV_VS
END_HS[6]
START_HS[6]
START_VS[2]
START_FE[2]
END_HS[5]
START_HS[5]
START_VS[1]
START_FE[1]
CP_INV_DE
END_HS[4]
START_HS[4]
START_VS[0]
START_FE[0]
START_HS[9]
END_HS[3]
START_HS[3]
END_VS[3]
START_FO[3]
START_HS[8]
END_HS[2]
START_HS[2]
END_VS[2]
START_FO[2]
END_HS[9]
END_HS[1]
START_HS[1]
END_VS[1]
START_FO[1]
DE_WITH_AVCOD
E
END_HS[8]
END_HS[0]
START_HS[0]
END_VS[0]
START_FO[0]
0x7B
0x05
0x7C
0x7D
0x7E
0x7F
0x80
0xC0
0x00
0x00
0x00
0x00
0x86
0x0B
rw
-
-
-
-
-
CH1_TRIG_STDI
CH1_STDI_CONT
-
0x88
0x00
DE_POS_ADJ_3
rw
DE_V_END_EVEN[
0]
rw
END_VS_EVEN[3]
END_VS_EVEN[2]
END_VS_EVEN[1]
END_VS_EVEN[0]
0x8B
0x8C
0x8D
0x8E
0x40
0x00
0x00
0x00
rw
rw
rw
rw
DE_H_START[9]
DE_H_END[3]
DE_H_START[3]
DE_V_END[3]
DE_H_START[8]
DE_H_END[2]
DE_H_START[2]
DE_V_END[2]
DE_H_END[9]
DE_H_END[1]
DE_H_START[1]
DE_V_END[1]
DE_H_END[8]
DE_H_END[0]
DE_H_START[0]
DE_V_END[0]
0x8F
0x40
rw
-
-
-
-
-
CH1_FR_LL[10]
CH1_FR_LL[9]
CH1_FR_LL[8]
0x90
0x00
DE_POS_ADJ_4
DE_POS_ADJ_5
DE_POS_ADJ_6
DE_POS_ADJ_7
SYNC_DET_CNTRL
_CH1_4_1
SYNC_DET_CNTRL
_CH1_4_2
DE_V_START_EVE
N[0]
START_VS_EVEN[0
]
DE_H_END[4]
DE_H_START[4]
DE_V_START[0]
DE_V_END_EVEN[
1]
SYNC_CNTRL_6
DE_V_START_EVE
N[1]
START_VS_EVEN[1
]
DE_H_END[5]
DE_H_START[5]
DE_V_START[1]
DE_V_END_EVEN[
2]
0x00
DE_V_START_EVE
N[2]
START_VS_EVEN[2
]
DE_H_END[6]
DE_H_START[6]
DE_V_START[2]
DE_V_END_EVEN[
3]
0x89
DE_V_START_EVE
N[3]
START_VS_EVEN[3
]
DE_H_END[7]
DE_H_START[7]
DE_V_START[3]
rw
CH1_FR_LL[7]
CH1_FR_LL[6]
CH1_FR_LL[5]
CH1_FR_LL[4]
CH1_FR_LL[3]
CH1_FR_LL[2]
CH1_FR_LL[1]
CH1_FR_LL[0]
0x91
0x40
rw
-
INTERLACED
-
-
-
-
-
-
r
-
-
-
-
CH1_LCF[11]
CH1_LCF[10]
CH1_LCF[9]
CH1_LCF[8]
r
CH1_LCF[7]
CH1_LCF[6]
CH1_LCF[5]
CH1_LCF[4]
CH1_LCF[3]
CH1_LCF[2]
CH1_LCF[1]
CH1_LCF[0]
CP_LCOUNT_MAX
[11]
CP_LCOUNT_MAX
[3]
CP_LCOUNT_MAX
[10]
CP_LCOUNT_MAX
[2]
CP_LCOUNT_MAX
[9]
CP_LCOUNT_MAX
[1]
CP_LCOUNT_MAX
[8]
CP_LCOUNT_MAX
[0]
CP_LCOUNT_MAX
[7]
CP_LCOUNT_MAX
[6]
CP_LCOUNT_MAX
[5]
CP_LCOUNT_MAX
[4]
-
-
-
-
r
CH1_STDI_DVALID
CH1_STDI_INTLCD
CH1_BL[13]
CH1_BL[12]
CH1_BL[11]
CH1_BL[10]
CH1_BL[9]
CH1_BL[8]
r
CH1_BL[7]
CH1_BL[6]
CH1_BL[5]
CH1_BL[4]
CH1_BL[3]
CH1_BL[2]
CH1_BL[1]
CH1_BL[0]
r
CH1_LCVS[4]
CH1_LCVS[3]
CH1_LCVS[2]
CH1_LCVS[1]
CH1_LCVS[0]
-
-
-
0xA3
0x00
0xA4
0x00
0xAB
0x00
0xAC
0x00
0xB1
0x00
0xB2
0x00
0xB3
0x00
Rev. 0
REGISTER NAME
CSC_COEFFS_18
CSC_COEFFS_19
CSC_COEFFS_20
CSC_COEFFS_21
CSC_DECIM_CNTR
L
SYNC_DET_CNTRL
_CH1_RB_1
SYNC_DET_CNTRL
_CH1_RB_2
SYNC_DET_CNTRL
_CH1_4
SYNC_DET_CNTRL
_CH1_5
SYNC_DET_CNTRL
_CH1_RB_3
SYNC_DET_CNTRL
_CH1_RB_4
SYNC_DET_CNTRL
_CH1_RB_5
ACC
rw
rw
rw
rw
rw
rw
rw
26
CP
Register Map
ADD
DEF
0xB8
0x00
0xB9
0x00
0xBA
0x01
0xBE
0x00
0xBF
0x12
FR_COLOR_SEL_1
rw
0xC0
0xC1
0xC2
0x00
0x00
0x00
0xC9
0x2C
0xCB
0x60
FR_COLOR_SEL_2
FR_COLOR_SEL_3
FR_COLOR_SEL_4
CLMP_POS_CNTR
L_4
HDMI_CP_CNTRL_
2
0xE0
0x00
0xF2
0x04
0xF3
0xD4
0xF4
0x00
0xF5
0x00
0xFF
0x00
Rev. 0
REGISTER NAME
SYNC_DET_CNTRL
_CH1_RB_6_1
SYNC_DET_CNTRL
_CH1_RB_6_2
HDMI_CP_CNTRL_
1
CP_REG_F2
SYNC_DET_CNTRL
_CH1_6
CSC_COEFF_SEL_
RB
CP_REG_FF
ACC
7
6
5
4
3
2
1
0
r
-
-
-
CH1_FCL[12]
CH1_FCL[11]
CH1_FCL[10]
CH1_FCL[9]
CH1_FCL[8]
r
CH1_FCL[7]
CH1_FCL[6]
CH1_FCL[5]
CH1_FCL[4]
CH1_FCL[3]
CH1_FCL[2]
CH1_FCL[1]
CH1_FCL[0]
rw
-
-
-
-
-
-
rw
DLY_A
DLY_B
DLY_C
-
-
-
HCOUNT_ALIGN_
ADJ[1]
DEF_COL_CHA[6]
DEF_COL_CHB[6]
DEF_COL_CHC[6]
HCOUNT_ALIGN_
ADJ[0]
DEF_COL_CHA[5]
DEF_COL_CHB[5]
DEF_COL_CHC[5]
-
-
rw
rw
rw
HCOUNT_ALIGN_
ADJ[2]
DEF_COL_CHA[7]
DEF_COL_CHB[7]
DEF_COL_CHC[7]
DEF_COL_CHA[4]
DEF_COL_CHB[4]
DEF_COL_CHC[4]
rw
-
-
-
rw
-
-
r
-
rw
-
HDMI_CP_AUTOP
ARM_LOCKED
-
rw
-
-
r
CSC_COEFF_SEL_
RB[3]
rw
r
DEF_COL_CHA[3]
DEF_COL_CHB[3]
DEF_COL_CHC[3]
CP_DEF_COL_MA
N_VAL
DEF_COL_CHA[2]
DEF_COL_CHB[2]
DEF_COL_CHC[2]
HDMI_FRUN_MO
DE
HCOUNT_ALIGN_
ADJ[4]
CP_DEF_COL_AUT
O
DEF_COL_CHA[1]
DEF_COL_CHB[1]
DEF_COL_CHC[1]
-
-
SWAP_SPLIT_AV
-
-
-
-
-
HDMI_CP_LOCK_T
HRESHOLD[1]
HCOUNT_ALIGN_
ADJ[3]
CP_FORCE_FREER
UN
DEF_COL_CHA[0]
DEF_COL_CHB[0]
DEF_COL_CHC[0]
DIS_AUTO_PARA
M_BUFF
HDMI_CP_LOCK_T
HRESHOLD[0]
HDMI_AUTOPARM
_STS[0]
CH1_FL_FR_THRE
SHOLD[1]
CSC_COEFF_SEL_
RB[0]
-
-
-
-
CH1_FL_FR_THRE
SHOLD[0]
CRC_ENABLE
CH1_F_RUN_THR[
2]
CH1_F_RUN_THR[
1]
CH1_F_RUN_THR[
0]
CSC_COEFF_SEL_
RB[2]
HDMI_AUTOPARM
_STS[1]
CH1_FL_FR_THRE
SHOLD[2]
CSC_COEFF_SEL_
RB[1]
-
-
-
-
-
-
-
-
-
-
-
-
-
CP_FREE_RUN
-
-
27
BYPASS_STDI1_LO
CKING
-
HDMI_FRUN_EN
-
CEC
1.7
Register Map
CEC
ADD
DEF
7
CEC_TX_FRAME_
HEADER[7]
CEC_TX_FRAME_
DATA0[7]
CEC_TX_FRAME_
DATA1[7]
CEC_TX_FRAME_
DATA2[7]
CEC_TX_FRAME_
DATA3[7]
CEC_TX_FRAME_
DATA4[7]
CEC_TX_FRAME_
DATA5[7]
CEC_TX_FRAME_
DATA6[7]
CEC_TX_FRAME_
DATA7[7]
CEC_TX_FRAME_
DATA8[7]
CEC_TX_FRAME_
DATA9[7]
CEC_TX_FRAME_
DATA10[7]
CEC_TX_FRAME_
DATA11[7]
CEC_TX_FRAME_
DATA12[7]
CEC_TX_FRAME_
DATA13[7]
CEC_TX_FRAME_
DATA14[7]
6
CEC_TX_FRAME_
HEADER[6]
CEC_TX_FRAME_
DATA0[6]
CEC_TX_FRAME_
DATA1[6]
CEC_TX_FRAME_
DATA2[6]
CEC_TX_FRAME_
DATA3[6]
CEC_TX_FRAME_
DATA4[6]
CEC_TX_FRAME_
DATA5[6]
CEC_TX_FRAME_
DATA6[6]
CEC_TX_FRAME_
DATA7[6]
CEC_TX_FRAME_
DATA8[6]
CEC_TX_FRAME_
DATA9[6]
CEC_TX_FRAME_
DATA10[6]
CEC_TX_FRAME_
DATA11[6]
CEC_TX_FRAME_
DATA12[6]
CEC_TX_FRAME_
DATA13[6]
CEC_TX_FRAME_
DATA14[6]
5
CEC_TX_FRAME_
HEADER[5]
CEC_TX_FRAME_
DATA0[5]
CEC_TX_FRAME_
DATA1[5]
CEC_TX_FRAME_
DATA2[5]
CEC_TX_FRAME_
DATA3[5]
CEC_TX_FRAME_
DATA4[5]
CEC_TX_FRAME_
DATA5[5]
CEC_TX_FRAME_
DATA6[5]
CEC_TX_FRAME_
DATA7[5]
CEC_TX_FRAME_
DATA8[5]
CEC_TX_FRAME_
DATA9[5]
CEC_TX_FRAME_
DATA10[5]
CEC_TX_FRAME_
DATA11[5]
CEC_TX_FRAME_
DATA12[5]
CEC_TX_FRAME_
DATA13[5]
CEC_TX_FRAME_
DATA14[5]
rw
-
-
-
0x00
rw
-
-
-
4
CEC_TX_FRAME_
HEADER[4]
CEC_TX_FRAME_
DATA0[4]
CEC_TX_FRAME_
DATA1[4]
CEC_TX_FRAME_
DATA2[4]
CEC_TX_FRAME_
DATA3[4]
CEC_TX_FRAME_
DATA4[4]
CEC_TX_FRAME_
DATA5[4]
CEC_TX_FRAME_
DATA6[4]
CEC_TX_FRAME_
DATA7[4]
CEC_TX_FRAME_
DATA8[4]
CEC_TX_FRAME_
DATA9[4]
CEC_TX_FRAME_
DATA10[4]
CEC_TX_FRAME_
DATA11[4]
CEC_TX_FRAME_
DATA12[4]
CEC_TX_FRAME_
DATA13[4]
CEC_TX_FRAME_
DATA14[4]
CEC_TX_FRAME_L
ENGTH[4]
-
0x00
0x00
rw
0x01
0x00
rw
0x02
0x00
rw
0x03
0x00
rw
0x04
0x00
rw
0x05
0x00
rw
0x06
0x00
rw
0x07
0x00
rw
0x08
0x00
rw
0x09
0x00
rw
0x0A
0x00
rw
0x0B
0x00
rw
0x0C
0x00
rw
0x0D
0x00
rw
0x0E
0x00
rw
0x0F
0x00
rw
0x10
0x00
0x11
0x12
0x13
rw
-
CEC_TX_RETRY[2]
CEC_TX_RETRY[1]
CEC_TX_RETRY[0]
0x13
0x57
rw
0x14
0x00
r
0x15
0x00
r
0x16
0x00
r
CEC_TX_SFT[3]
CEC_TX_LOWDRIV
E_COUNTER[3]
CEC_BUF0_RX_FR
AME_HEADER[7]
CEC_BUF0_RX_FR
AME_DATA0[7]
CEC_TX_SFT[2]
CEC_TX_LOWDRIV
E_COUNTER[2]
CEC_BUF0_RX_FR
AME_HEADER[6]
CEC_BUF0_RX_FR
AME_DATA0[6]
CEC_TX_SFT[1]
CEC_TX_LOWDRIV
E_COUNTER[1]
CEC_BUF0_RX_FR
AME_HEADER[5]
CEC_BUF0_RX_FR
AME_DATA0[5]
CEC_TX_SFT[0]
CEC_TX_LOWDRIV
E_COUNTER[0]
CEC_BUF0_RX_FR
AME_HEADER[4]
CEC_BUF0_RX_FR
AME_DATA0[4]
Rev. 0
REGISTER NAME
ACC
28
3
CEC_TX_FRAME_
HEADER[3]
CEC_TX_FRAME_
DATA0[3]
CEC_TX_FRAME_
DATA1[3]
CEC_TX_FRAME_
DATA2[3]
CEC_TX_FRAME_
DATA3[3]
CEC_TX_FRAME_
DATA4[3]
CEC_TX_FRAME_
DATA5[3]
CEC_TX_FRAME_
DATA6[3]
CEC_TX_FRAME_
DATA7[3]
CEC_TX_FRAME_
DATA8[3]
CEC_TX_FRAME_
DATA9[3]
CEC_TX_FRAME_
DATA10[3]
CEC_TX_FRAME_
DATA11[3]
CEC_TX_FRAME_
DATA12[3]
CEC_TX_FRAME_
DATA13[3]
CEC_TX_FRAME_
DATA14[3]
CEC_TX_FRAME_L
ENGTH[3]
CEC_RETRY_SFT[3
]
CEC_TX_SFT[3]
CEC_TX_NACK_C
OUNTER[3]
CEC_BUF0_RX_FR
AME_HEADER[3]
CEC_BUF0_RX_FR
AME_DATA0[3]
2
CEC_TX_FRAME_
HEADER[2]
CEC_TX_FRAME_
DATA0[2]
CEC_TX_FRAME_
DATA1[2]
CEC_TX_FRAME_
DATA2[2]
CEC_TX_FRAME_
DATA3[2]
CEC_TX_FRAME_
DATA4[2]
CEC_TX_FRAME_
DATA5[2]
CEC_TX_FRAME_
DATA6[2]
CEC_TX_FRAME_
DATA7[2]
CEC_TX_FRAME_
DATA8[2]
CEC_TX_FRAME_
DATA9[2]
CEC_TX_FRAME_
DATA10[2]
CEC_TX_FRAME_
DATA11[2]
CEC_TX_FRAME_
DATA12[2]
CEC_TX_FRAME_
DATA13[2]
CEC_TX_FRAME_
DATA14[2]
CEC_TX_FRAME_L
ENGTH[2]
CEC_RETRY_SFT[2
]
CEC_TX_SFT[2]
CEC_TX_NACK_C
OUNTER[2]
CEC_BUF0_RX_FR
AME_HEADER[2]
CEC_BUF0_RX_FR
AME_DATA0[2]
1
CEC_TX_FRAME_
HEADER[1]
CEC_TX_FRAME_
DATA0[1]
CEC_TX_FRAME_
DATA1[1]
CEC_TX_FRAME_
DATA2[1]
CEC_TX_FRAME_
DATA3[1]
CEC_TX_FRAME_
DATA4[1]
CEC_TX_FRAME_
DATA5[1]
CEC_TX_FRAME_
DATA6[1]
CEC_TX_FRAME_
DATA7[1]
CEC_TX_FRAME_
DATA8[1]
CEC_TX_FRAME_
DATA9[1]
CEC_TX_FRAME_
DATA10[1]
CEC_TX_FRAME_
DATA11[1]
CEC_TX_FRAME_
DATA12[1]
CEC_TX_FRAME_
DATA13[1]
CEC_TX_FRAME_
DATA14[1]
CEC_TX_FRAME_L
ENGTH[1]
CEC_RETRY_SFT[1
]
CEC_TX_SFT[1]
CEC_TX_NACK_C
OUNTER[1]
CEC_BUF0_RX_FR
AME_HEADER[1]
CEC_BUF0_RX_FR
AME_DATA0[1]
0
CEC_TX_FRAME_
HEADER[0]
CEC_TX_FRAME_
DATA0[0]
CEC_TX_FRAME_
DATA1[0]
CEC_TX_FRAME_
DATA2[0]
CEC_TX_FRAME_
DATA3[0]
CEC_TX_FRAME_
DATA4[0]
CEC_TX_FRAME_
DATA5[0]
CEC_TX_FRAME_
DATA6[0]
CEC_TX_FRAME_
DATA7[0]
CEC_TX_FRAME_
DATA8[0]
CEC_TX_FRAME_
DATA9[0]
CEC_TX_FRAME_
DATA10[0]
CEC_TX_FRAME_
DATA11[0]
CEC_TX_FRAME_
DATA12[0]
CEC_TX_FRAME_
DATA13[0]
CEC_TX_FRAME_
DATA14[0]
CEC_TX_FRAME_L
ENGTH[0]
CEC_TX_ENABLE
CEC_RETRY_SFT[0
]
CEC_TX_SFT[0]
CEC_TX_NACK_C
OUNTER[0]
CEC_BUF0_RX_FR
AME_HEADER[0]
CEC_BUF0_RX_FR
AME_DATA0[0]
CEC
Register Map
ADD
DEF
7
CEC_BUF0_RX_FR
AME_DATA1[7]
CEC_BUF0_RX_FR
AME_DATA2[7]
CEC_BUF0_RX_FR
AME_DATA3[7]
CEC_BUF0_RX_FR
AME_DATA4[7]
CEC_BUF0_RX_FR
AME_DATA5[7]
CEC_BUF0_RX_FR
AME_DATA6[7]
CEC_BUF0_RX_FR
AME_DATA7[7]
CEC_BUF0_RX_FR
AME_DATA8[7]
CEC_BUF0_RX_FR
AME_DATA9[7]
CEC_BUF0_RX_FR
AME_DATA10[7]
CEC_BUF0_RX_FR
AME_DATA11[7]
CEC_BUF0_RX_FR
AME_DATA12[7]
CEC_BUF0_RX_FR
AME_DATA13[7]
CEC_BUF0_RX_FR
AME_DATA14[7]
6
CEC_BUF0_RX_FR
AME_DATA1[6]
CEC_BUF0_RX_FR
AME_DATA2[6]
CEC_BUF0_RX_FR
AME_DATA3[6]
CEC_BUF0_RX_FR
AME_DATA4[6]
CEC_BUF0_RX_FR
AME_DATA5[6]
CEC_BUF0_RX_FR
AME_DATA6[6]
CEC_BUF0_RX_FR
AME_DATA7[6]
CEC_BUF0_RX_FR
AME_DATA8[6]
CEC_BUF0_RX_FR
AME_DATA9[6]
CEC_BUF0_RX_FR
AME_DATA10[6]
CEC_BUF0_RX_FR
AME_DATA11[6]
CEC_BUF0_RX_FR
AME_DATA12[6]
CEC_BUF0_RX_FR
AME_DATA13[6]
CEC_BUF0_RX_FR
AME_DATA14[6]
5
CEC_BUF0_RX_FR
AME_DATA1[5]
CEC_BUF0_RX_FR
AME_DATA2[5]
CEC_BUF0_RX_FR
AME_DATA3[5]
CEC_BUF0_RX_FR
AME_DATA4[5]
CEC_BUF0_RX_FR
AME_DATA5[5]
CEC_BUF0_RX_FR
AME_DATA6[5]
CEC_BUF0_RX_FR
AME_DATA7[5]
CEC_BUF0_RX_FR
AME_DATA8[5]
CEC_BUF0_RX_FR
AME_DATA9[5]
CEC_BUF0_RX_FR
AME_DATA10[5]
CEC_BUF0_RX_FR
AME_DATA11[5]
CEC_BUF0_RX_FR
AME_DATA12[5]
CEC_BUF0_RX_FR
AME_DATA13[5]
CEC_BUF0_RX_FR
AME_DATA14[5]
r
-
-
-
0x10
rw
-
0x28
0xFF
rw
CEC_LOGICAL_AD
DRESS1[3]
CEC_LOGICAL_AD
DRESS_MASK[2]
CEC_LOGICAL_AD
DRESS1[2]
CEC_LOGICAL_AD
DRESS_MASK[1]
CEC_LOGICAL_AD
DRESS1[1]
4
CEC_BUF0_RX_FR
AME_DATA1[4]
CEC_BUF0_RX_FR
AME_DATA2[4]
CEC_BUF0_RX_FR
AME_DATA3[4]
CEC_BUF0_RX_FR
AME_DATA4[4]
CEC_BUF0_RX_FR
AME_DATA5[4]
CEC_BUF0_RX_FR
AME_DATA6[4]
CEC_BUF0_RX_FR
AME_DATA7[4]
CEC_BUF0_RX_FR
AME_DATA8[4]
CEC_BUF0_RX_FR
AME_DATA9[4]
CEC_BUF0_RX_FR
AME_DATA10[4]
CEC_BUF0_RX_FR
AME_DATA11[4]
CEC_BUF0_RX_FR
AME_DATA12[4]
CEC_BUF0_RX_FR
AME_DATA13[4]
CEC_BUF0_RX_FR
AME_DATA14[4]
CEC_BUF0_RX_FR
AME_LENGTH[4]
CEC_LOGICAL_AD
DRESS_MASK[0]
CEC_LOGICAL_AD
DRESS1[0]
0x17
0x00
r
0x18
0x00
r
0x19
0x00
r
0x1A
0x00
r
0x1B
0x00
r
0x1C
0x00
r
0x1D
0x00
r
0x1E
0x00
r
0x1F
0x00
r
0x20
0x00
r
0x21
0x00
r
0x22
0x00
r
0x23
0x00
r
0x24
0x00
r
0x25
0x00
0x27
0x29
0x0F
rw
-
-
-
-
0x2A
0x3E
rw
-
-
0x2B
0x07
rw
-
-
CEC_GLITCH_FILT
ER_CTRL[5]
CEC_GLITCH_FILT
ER_CTRL[4]
0x2C
0x00
sc
-
-
-
-
0x4C
0x00
rw
-
-
-
-
-
0x53
0x00
r
-
-
CEC_BUF2_TIMEST
AMP[1]
CEC_BUF2_TIMEST
AMP[0]
CEC_BUF1_TIMEST
AMP[1]
Rev. 0
REGISTER NAME
ACC
29
3
CEC_BUF0_RX_FR
AME_DATA1[3]
CEC_BUF0_RX_FR
AME_DATA2[3]
CEC_BUF0_RX_FR
AME_DATA3[3]
CEC_BUF0_RX_FR
AME_DATA4[3]
CEC_BUF0_RX_FR
AME_DATA5[3]
CEC_BUF0_RX_FR
AME_DATA6[3]
CEC_BUF0_RX_FR
AME_DATA7[3]
CEC_BUF0_RX_FR
AME_DATA8[3]
CEC_BUF0_RX_FR
AME_DATA9[3]
CEC_BUF0_RX_FR
AME_DATA10[3]
CEC_BUF0_RX_FR
AME_DATA11[3]
CEC_BUF0_RX_FR
AME_DATA12[3]
CEC_BUF0_RX_FR
AME_DATA13[3]
CEC_BUF0_RX_FR
AME_DATA14[3]
CEC_BUF0_RX_FR
AME_LENGTH[3]
CEC_ERROR_REPO
RT_MODE
CEC_LOGICAL_AD
DRESS0[3]
CEC_LOGICAL_AD
DRESS2[3]
CEC_GLITCH_FILT
ER_CTRL[3]
CEC_CLR_RX_RDY
2
2
CEC_BUF0_RX_FR
AME_DATA1[2]
CEC_BUF0_RX_FR
AME_DATA2[2]
CEC_BUF0_RX_FR
AME_DATA3[2]
CEC_BUF0_RX_FR
AME_DATA4[2]
CEC_BUF0_RX_FR
AME_DATA5[2]
CEC_BUF0_RX_FR
AME_DATA6[2]
CEC_BUF0_RX_FR
AME_DATA7[2]
CEC_BUF0_RX_FR
AME_DATA8[2]
CEC_BUF0_RX_FR
AME_DATA9[2]
CEC_BUF0_RX_FR
AME_DATA10[2]
CEC_BUF0_RX_FR
AME_DATA11[2]
CEC_BUF0_RX_FR
AME_DATA12[2]
CEC_BUF0_RX_FR
AME_DATA13[2]
CEC_BUF0_RX_FR
AME_DATA14[2]
CEC_BUF0_RX_FR
AME_LENGTH[2]
CEC_ERROR_DET_
MODE
CEC_LOGICAL_AD
DRESS0[2]
CEC_LOGICAL_AD
DRESS2[2]
CEC_GLITCH_FILT
ER_CTRL[2]
CEC_CLR_RX_RDY
1
CEC_DIS_AUTO_M
ODE
CEC_BUF1_TIMEST
AMP[0]
1
CEC_BUF0_RX_FR
AME_DATA1[1]
CEC_BUF0_RX_FR
AME_DATA2[1]
CEC_BUF0_RX_FR
AME_DATA3[1]
CEC_BUF0_RX_FR
AME_DATA4[1]
CEC_BUF0_RX_FR
AME_DATA5[1]
CEC_BUF0_RX_FR
AME_DATA6[1]
CEC_BUF0_RX_FR
AME_DATA7[1]
CEC_BUF0_RX_FR
AME_DATA8[1]
CEC_BUF0_RX_FR
AME_DATA9[1]
CEC_BUF0_RX_FR
AME_DATA10[1]
CEC_BUF0_RX_FR
AME_DATA11[1]
CEC_BUF0_RX_FR
AME_DATA12[1]
CEC_BUF0_RX_FR
AME_DATA13[1]
CEC_BUF0_RX_FR
AME_DATA14[1]
CEC_BUF0_RX_FR
AME_LENGTH[1]
CEC_FORCE_NAC
K
CEC_LOGICAL_AD
DRESS0[1]
CEC_LOGICAL_AD
DRESS2[1]
CEC_GLITCH_FILT
ER_CTRL[1]
CEC_CLR_RX_RDY
0
0
CEC_BUF0_RX_FR
AME_DATA1[0]
CEC_BUF0_RX_FR
AME_DATA2[0]
CEC_BUF0_RX_FR
AME_DATA3[0]
CEC_BUF0_RX_FR
AME_DATA4[0]
CEC_BUF0_RX_FR
AME_DATA5[0]
CEC_BUF0_RX_FR
AME_DATA6[0]
CEC_BUF0_RX_FR
AME_DATA7[0]
CEC_BUF0_RX_FR
AME_DATA8[0]
CEC_BUF0_RX_FR
AME_DATA9[0]
CEC_BUF0_RX_FR
AME_DATA10[0]
CEC_BUF0_RX_FR
AME_DATA11[0]
CEC_BUF0_RX_FR
AME_DATA12[0]
CEC_BUF0_RX_FR
AME_DATA13[0]
CEC_BUF0_RX_FR
AME_DATA14[0]
CEC_BUF0_RX_FR
AME_LENGTH[0]
CEC_FORCE_IGNO
RE
CEC_LOGICAL_AD
DRESS0[0]
CEC_LOGICAL_AD
DRESS2[0]
CEC_POWER_UP
CEC_GLITCH_FILT
ER_CTRL[0]
-
-
CEC_BUF0_TIMEST
AMP[1]
CEC_BUF0_TIMEST
AMP[0]
CEC_SOFT_RESET
CEC
Register Map
ADD
DEF
0x54
0x00
r
0x55
0x00
r
0x56
0x00
r
0x57
0x00
r
0x58
0x00
r
0x59
0x00
r
0x5A
0x00
r
0x5B
0x00
r
0x5C
0x00
r
0x5D
0x00
r
0x5E
0x00
r
0x5F
0x00
r
0x60
0x00
r
0x61
0x00
r
0x62
0x00
r
0x63
0x00
r
0x64
0x00
r
0x65
0x00
r
0x66
0x00
r
0x67
0x00
r
0x68
0x00
r
0x69
0x00
r
Rev. 0
REGISTER NAME
ACC
7
CEC_BUF1_RX_FR
AME_HEADER[7]
CEC_BUF1_RX_FR
AME_DATA0[7]
CEC_BUF1_RX_FR
AME_DATA1[7]
CEC_BUF1_RX_FR
AME_DATA2[7]
CEC_BUF1_RX_FR
AME_DATA3[7]
CEC_BUF1_RX_FR
AME_DATA4[7]
CEC_BUF1_RX_FR
AME_DATA5[7]
CEC_BUF1_RX_FR
AME_DATA6[7]
CEC_BUF1_RX_FR
AME_DATA7[7]
CEC_BUF1_RX_FR
AME_DATA8[7]
CEC_BUF1_RX_FR
AME_DATA9[7]
CEC_BUF1_RX_FR
AME_DATA10[7]
CEC_BUF1_RX_FR
AME_DATA11[7]
CEC_BUF1_RX_FR
AME_DATA12[7]
CEC_BUF1_RX_FR
AME_DATA13[7]
CEC_BUF1_RX_FR
AME_DATA14[7]
6
CEC_BUF1_RX_FR
AME_HEADER[6]
CEC_BUF1_RX_FR
AME_DATA0[6]
CEC_BUF1_RX_FR
AME_DATA1[6]
CEC_BUF1_RX_FR
AME_DATA2[6]
CEC_BUF1_RX_FR
AME_DATA3[6]
CEC_BUF1_RX_FR
AME_DATA4[6]
CEC_BUF1_RX_FR
AME_DATA5[6]
CEC_BUF1_RX_FR
AME_DATA6[6]
CEC_BUF1_RX_FR
AME_DATA7[6]
CEC_BUF1_RX_FR
AME_DATA8[6]
CEC_BUF1_RX_FR
AME_DATA9[6]
CEC_BUF1_RX_FR
AME_DATA10[6]
CEC_BUF1_RX_FR
AME_DATA11[6]
CEC_BUF1_RX_FR
AME_DATA12[6]
CEC_BUF1_RX_FR
AME_DATA13[6]
CEC_BUF1_RX_FR
AME_DATA14[6]
5
CEC_BUF1_RX_FR
AME_HEADER[5]
CEC_BUF1_RX_FR
AME_DATA0[5]
CEC_BUF1_RX_FR
AME_DATA1[5]
CEC_BUF1_RX_FR
AME_DATA2[5]
CEC_BUF1_RX_FR
AME_DATA3[5]
CEC_BUF1_RX_FR
AME_DATA4[5]
CEC_BUF1_RX_FR
AME_DATA5[5]
CEC_BUF1_RX_FR
AME_DATA6[5]
CEC_BUF1_RX_FR
AME_DATA7[5]
CEC_BUF1_RX_FR
AME_DATA8[5]
CEC_BUF1_RX_FR
AME_DATA9[5]
CEC_BUF1_RX_FR
AME_DATA10[5]
CEC_BUF1_RX_FR
AME_DATA11[5]
CEC_BUF1_RX_FR
AME_DATA12[5]
CEC_BUF1_RX_FR
AME_DATA13[5]
CEC_BUF1_RX_FR
AME_DATA14[5]
-
-
-
CEC_BUF2_RX_FR
AME_HEADER[7]
CEC_BUF2_RX_FR
AME_DATA0[7]
CEC_BUF2_RX_FR
AME_DATA1[7]
CEC_BUF2_RX_FR
AME_DATA2[7]
CEC_BUF2_RX_FR
AME_DATA3[7]
CEC_BUF2_RX_FR
AME_HEADER[6]
CEC_BUF2_RX_FR
AME_DATA0[6]
CEC_BUF2_RX_FR
AME_DATA1[6]
CEC_BUF2_RX_FR
AME_DATA2[6]
CEC_BUF2_RX_FR
AME_DATA3[6]
CEC_BUF2_RX_FR
AME_HEADER[5]
CEC_BUF2_RX_FR
AME_DATA0[5]
CEC_BUF2_RX_FR
AME_DATA1[5]
CEC_BUF2_RX_FR
AME_DATA2[5]
CEC_BUF2_RX_FR
AME_DATA3[5]
30
4
CEC_BUF1_RX_FR
AME_HEADER[4]
CEC_BUF1_RX_FR
AME_DATA0[4]
CEC_BUF1_RX_FR
AME_DATA1[4]
CEC_BUF1_RX_FR
AME_DATA2[4]
CEC_BUF1_RX_FR
AME_DATA3[4]
CEC_BUF1_RX_FR
AME_DATA4[4]
CEC_BUF1_RX_FR
AME_DATA5[4]
CEC_BUF1_RX_FR
AME_DATA6[4]
CEC_BUF1_RX_FR
AME_DATA7[4]
CEC_BUF1_RX_FR
AME_DATA8[4]
CEC_BUF1_RX_FR
AME_DATA9[4]
CEC_BUF1_RX_FR
AME_DATA10[4]
CEC_BUF1_RX_FR
AME_DATA11[4]
CEC_BUF1_RX_FR
AME_DATA12[4]
CEC_BUF1_RX_FR
AME_DATA13[4]
CEC_BUF1_RX_FR
AME_DATA14[4]
CEC_BUF1_RX_FR
AME_LENGTH[4]
CEC_BUF2_RX_FR
AME_HEADER[4]
CEC_BUF2_RX_FR
AME_DATA0[4]
CEC_BUF2_RX_FR
AME_DATA1[4]
CEC_BUF2_RX_FR
AME_DATA2[4]
CEC_BUF2_RX_FR
AME_DATA3[4]
3
CEC_BUF1_RX_FR
AME_HEADER[3]
CEC_BUF1_RX_FR
AME_DATA0[3]
CEC_BUF1_RX_FR
AME_DATA1[3]
CEC_BUF1_RX_FR
AME_DATA2[3]
CEC_BUF1_RX_FR
AME_DATA3[3]
CEC_BUF1_RX_FR
AME_DATA4[3]
CEC_BUF1_RX_FR
AME_DATA5[3]
CEC_BUF1_RX_FR
AME_DATA6[3]
CEC_BUF1_RX_FR
AME_DATA7[3]
CEC_BUF1_RX_FR
AME_DATA8[3]
CEC_BUF1_RX_FR
AME_DATA9[3]
CEC_BUF1_RX_FR
AME_DATA10[3]
CEC_BUF1_RX_FR
AME_DATA11[3]
CEC_BUF1_RX_FR
AME_DATA12[3]
CEC_BUF1_RX_FR
AME_DATA13[3]
CEC_BUF1_RX_FR
AME_DATA14[3]
CEC_BUF1_RX_FR
AME_LENGTH[3]
CEC_BUF2_RX_FR
AME_HEADER[3]
CEC_BUF2_RX_FR
AME_DATA0[3]
CEC_BUF2_RX_FR
AME_DATA1[3]
CEC_BUF2_RX_FR
AME_DATA2[3]
CEC_BUF2_RX_FR
AME_DATA3[3]
2
CEC_BUF1_RX_FR
AME_HEADER[2]
CEC_BUF1_RX_FR
AME_DATA0[2]
CEC_BUF1_RX_FR
AME_DATA1[2]
CEC_BUF1_RX_FR
AME_DATA2[2]
CEC_BUF1_RX_FR
AME_DATA3[2]
CEC_BUF1_RX_FR
AME_DATA4[2]
CEC_BUF1_RX_FR
AME_DATA5[2]
CEC_BUF1_RX_FR
AME_DATA6[2]
CEC_BUF1_RX_FR
AME_DATA7[2]
CEC_BUF1_RX_FR
AME_DATA8[2]
CEC_BUF1_RX_FR
AME_DATA9[2]
CEC_BUF1_RX_FR
AME_DATA10[2]
CEC_BUF1_RX_FR
AME_DATA11[2]
CEC_BUF1_RX_FR
AME_DATA12[2]
CEC_BUF1_RX_FR
AME_DATA13[2]
CEC_BUF1_RX_FR
AME_DATA14[2]
CEC_BUF1_RX_FR
AME_LENGTH[2]
CEC_BUF2_RX_FR
AME_HEADER[2]
CEC_BUF2_RX_FR
AME_DATA0[2]
CEC_BUF2_RX_FR
AME_DATA1[2]
CEC_BUF2_RX_FR
AME_DATA2[2]
CEC_BUF2_RX_FR
AME_DATA3[2]
1
CEC_BUF1_RX_FR
AME_HEADER[1]
CEC_BUF1_RX_FR
AME_DATA0[1]
CEC_BUF1_RX_FR
AME_DATA1[1]
CEC_BUF1_RX_FR
AME_DATA2[1]
CEC_BUF1_RX_FR
AME_DATA3[1]
CEC_BUF1_RX_FR
AME_DATA4[1]
CEC_BUF1_RX_FR
AME_DATA5[1]
CEC_BUF1_RX_FR
AME_DATA6[1]
CEC_BUF1_RX_FR
AME_DATA7[1]
CEC_BUF1_RX_FR
AME_DATA8[1]
CEC_BUF1_RX_FR
AME_DATA9[1]
CEC_BUF1_RX_FR
AME_DATA10[1]
CEC_BUF1_RX_FR
AME_DATA11[1]
CEC_BUF1_RX_FR
AME_DATA12[1]
CEC_BUF1_RX_FR
AME_DATA13[1]
CEC_BUF1_RX_FR
AME_DATA14[1]
CEC_BUF1_RX_FR
AME_LENGTH[1]
CEC_BUF2_RX_FR
AME_HEADER[1]
CEC_BUF2_RX_FR
AME_DATA0[1]
CEC_BUF2_RX_FR
AME_DATA1[1]
CEC_BUF2_RX_FR
AME_DATA2[1]
CEC_BUF2_RX_FR
AME_DATA3[1]
0
CEC_BUF1_RX_FR
AME_HEADER[0]
CEC_BUF1_RX_FR
AME_DATA0[0]
CEC_BUF1_RX_FR
AME_DATA1[0]
CEC_BUF1_RX_FR
AME_DATA2[0]
CEC_BUF1_RX_FR
AME_DATA3[0]
CEC_BUF1_RX_FR
AME_DATA4[0]
CEC_BUF1_RX_FR
AME_DATA5[0]
CEC_BUF1_RX_FR
AME_DATA6[0]
CEC_BUF1_RX_FR
AME_DATA7[0]
CEC_BUF1_RX_FR
AME_DATA8[0]
CEC_BUF1_RX_FR
AME_DATA9[0]
CEC_BUF1_RX_FR
AME_DATA10[0]
CEC_BUF1_RX_FR
AME_DATA11[0]
CEC_BUF1_RX_FR
AME_DATA12[0]
CEC_BUF1_RX_FR
AME_DATA13[0]
CEC_BUF1_RX_FR
AME_DATA14[0]
CEC_BUF1_RX_FR
AME_LENGTH[0]
CEC_BUF2_RX_FR
AME_HEADER[0]
CEC_BUF2_RX_FR
AME_DATA0[0]
CEC_BUF2_RX_FR
AME_DATA1[0]
CEC_BUF2_RX_FR
AME_DATA2[0]
CEC_BUF2_RX_FR
AME_DATA3[0]
CEC
Register Map
ADD
DEF
REGISTER NAME
ACC
7
CEC_BUF2_RX_FR
AME_DATA4[7]
CEC_BUF2_RX_FR
AME_DATA5[7]
CEC_BUF2_RX_FR
AME_DATA6[7]
CEC_BUF2_RX_FR
AME_DATA7[7]
CEC_BUF2_RX_FR
AME_DATA8[7]
CEC_BUF2_RX_FR
AME_DATA9[7]
CEC_BUF2_RX_FR
AME_DATA10[7]
CEC_BUF2_RX_FR
AME_DATA11[7]
CEC_BUF2_RX_FR
AME_DATA12[7]
CEC_BUF2_RX_FR
AME_DATA13[7]
CEC_BUF2_RX_FR
AME_DATA14[7]
6
CEC_BUF2_RX_FR
AME_DATA4[6]
CEC_BUF2_RX_FR
AME_DATA5[6]
CEC_BUF2_RX_FR
AME_DATA6[6]
CEC_BUF2_RX_FR
AME_DATA7[6]
CEC_BUF2_RX_FR
AME_DATA8[6]
CEC_BUF2_RX_FR
AME_DATA9[6]
CEC_BUF2_RX_FR
AME_DATA10[6]
CEC_BUF2_RX_FR
AME_DATA11[6]
CEC_BUF2_RX_FR
AME_DATA12[6]
CEC_BUF2_RX_FR
AME_DATA13[6]
CEC_BUF2_RX_FR
AME_DATA14[6]
5
CEC_BUF2_RX_FR
AME_DATA4[5]
CEC_BUF2_RX_FR
AME_DATA5[5]
CEC_BUF2_RX_FR
AME_DATA6[5]
CEC_BUF2_RX_FR
AME_DATA7[5]
CEC_BUF2_RX_FR
AME_DATA8[5]
CEC_BUF2_RX_FR
AME_DATA9[5]
CEC_BUF2_RX_FR
AME_DATA10[5]
CEC_BUF2_RX_FR
AME_DATA11[5]
CEC_BUF2_RX_FR
AME_DATA12[5]
CEC_BUF2_RX_FR
AME_DATA13[5]
CEC_BUF2_RX_FR
AME_DATA14[5]
0x6A
0x00
r
0x6B
0x00
r
0x6C
0x00
r
0x6D
0x00
r
0x6E
0x00
r
0x6F
0x00
r
0x70
0x00
r
0x71
0x00
r
0x72
0x00
r
0x73
0x00
r
0x74
0x00
r
0x75
0x00
r
-
-
-
0x76
0x00
r
-
-
-
0x77
0x00
rw
0x78
0x6D
rw
0x79
0x8F
rw
0x7A
0x82
rw
0x7B
0x04
rw
0x7C
0x0D
rw
0x7D
0x70
rw
0x7E
0x42
rw
0x7F
0x41
rw
Rev. 0
4
CEC_BUF2_RX_FR
AME_DATA4[4]
CEC_BUF2_RX_FR
AME_DATA5[4]
CEC_BUF2_RX_FR
AME_DATA6[4]
CEC_BUF2_RX_FR
AME_DATA7[4]
CEC_BUF2_RX_FR
AME_DATA8[4]
CEC_BUF2_RX_FR
AME_DATA9[4]
CEC_BUF2_RX_FR
AME_DATA10[4]
CEC_BUF2_RX_FR
AME_DATA11[4]
CEC_BUF2_RX_FR
AME_DATA12[4]
CEC_BUF2_RX_FR
AME_DATA13[4]
CEC_BUF2_RX_FR
AME_DATA14[4]
CEC_BUF2_RX_FR
AME_LENGTH[4]
-
3
CEC_BUF2_RX_FR
AME_DATA4[3]
CEC_BUF2_RX_FR
AME_DATA5[3]
CEC_BUF2_RX_FR
AME_DATA6[3]
CEC_BUF2_RX_FR
AME_DATA7[3]
CEC_BUF2_RX_FR
AME_DATA8[3]
CEC_BUF2_RX_FR
AME_DATA9[3]
CEC_BUF2_RX_FR
AME_DATA10[3]
CEC_BUF2_RX_FR
AME_DATA11[3]
CEC_BUF2_RX_FR
AME_DATA12[3]
CEC_BUF2_RX_FR
AME_DATA13[3]
CEC_BUF2_RX_FR
AME_DATA14[3]
CEC_BUF2_RX_FR
AME_LENGTH[3]
-
2
CEC_BUF2_RX_FR
AME_DATA4[2]
CEC_BUF2_RX_FR
AME_DATA5[2]
CEC_BUF2_RX_FR
AME_DATA6[2]
CEC_BUF2_RX_FR
AME_DATA7[2]
CEC_BUF2_RX_FR
AME_DATA8[2]
CEC_BUF2_RX_FR
AME_DATA9[2]
CEC_BUF2_RX_FR
AME_DATA10[2]
CEC_BUF2_RX_FR
AME_DATA11[2]
CEC_BUF2_RX_FR
AME_DATA12[2]
CEC_BUF2_RX_FR
AME_DATA13[2]
CEC_BUF2_RX_FR
AME_DATA14[2]
CEC_BUF2_RX_FR
AME_LENGTH[2]
CEC_RX_RDY2
1
CEC_BUF2_RX_FR
AME_DATA4[1]
CEC_BUF2_RX_FR
AME_DATA5[1]
CEC_BUF2_RX_FR
AME_DATA6[1]
CEC_BUF2_RX_FR
AME_DATA7[1]
CEC_BUF2_RX_FR
AME_DATA8[1]
CEC_BUF2_RX_FR
AME_DATA9[1]
CEC_BUF2_RX_FR
AME_DATA10[1]
CEC_BUF2_RX_FR
AME_DATA11[1]
CEC_BUF2_RX_FR
AME_DATA12[1]
CEC_BUF2_RX_FR
AME_DATA13[1]
CEC_BUF2_RX_FR
AME_DATA14[1]
CEC_BUF2_RX_FR
AME_LENGTH[1]
CEC_RX_RDY1
-
-
-
-
-
-
-
CEC_WAKE_OPCO
DE0[7]
CEC_WAKE_OPCO
DE1[7]
CEC_WAKE_OPCO
DE2[7]
CEC_WAKE_OPCO
DE3[7]
CEC_WAKE_OPCO
DE4[7]
CEC_WAKE_OPCO
DE5[7]
CEC_WAKE_OPCO
DE6[7]
CEC_WAKE_OPCO
DE7[7]
CEC_WAKE_OPCO
DE0[6]
CEC_WAKE_OPCO
DE1[6]
CEC_WAKE_OPCO
DE2[6]
CEC_WAKE_OPCO
DE3[6]
CEC_WAKE_OPCO
DE4[6]
CEC_WAKE_OPCO
DE5[6]
CEC_WAKE_OPCO
DE6[6]
CEC_WAKE_OPCO
DE7[6]
CEC_WAKE_OPCO
DE0[5]
CEC_WAKE_OPCO
DE1[5]
CEC_WAKE_OPCO
DE2[5]
CEC_WAKE_OPCO
DE3[5]
CEC_WAKE_OPCO
DE4[5]
CEC_WAKE_OPCO
DE5[5]
CEC_WAKE_OPCO
DE6[5]
CEC_WAKE_OPCO
DE7[5]
CEC_WAKE_OPCO
DE0[4]
CEC_WAKE_OPCO
DE1[4]
CEC_WAKE_OPCO
DE2[4]
CEC_WAKE_OPCO
DE3[4]
CEC_WAKE_OPCO
DE4[4]
CEC_WAKE_OPCO
DE5[4]
CEC_WAKE_OPCO
DE6[4]
CEC_WAKE_OPCO
DE7[4]
CEC_WAKE_OPCO
DE0[3]
CEC_WAKE_OPCO
DE1[3]
CEC_WAKE_OPCO
DE2[3]
CEC_WAKE_OPCO
DE3[3]
CEC_WAKE_OPCO
DE4[3]
CEC_WAKE_OPCO
DE5[3]
CEC_WAKE_OPCO
DE6[3]
CEC_WAKE_OPCO
DE7[3]
CEC_WAKE_OPCO
DE0[2]
CEC_WAKE_OPCO
DE1[2]
CEC_WAKE_OPCO
DE2[2]
CEC_WAKE_OPCO
DE3[2]
CEC_WAKE_OPCO
DE4[2]
CEC_WAKE_OPCO
DE5[2]
CEC_WAKE_OPCO
DE6[2]
CEC_WAKE_OPCO
DE7[2]
CEC_WAKE_OPCO
DE0[1]
CEC_WAKE_OPCO
DE1[1]
CEC_WAKE_OPCO
DE2[1]
CEC_WAKE_OPCO
DE3[1]
CEC_WAKE_OPCO
DE4[1]
CEC_WAKE_OPCO
DE5[1]
CEC_WAKE_OPCO
DE6[1]
CEC_WAKE_OPCO
DE7[1]
31
0
CEC_BUF2_RX_FR
AME_DATA4[0]
CEC_BUF2_RX_FR
AME_DATA5[0]
CEC_BUF2_RX_FR
AME_DATA6[0]
CEC_BUF2_RX_FR
AME_DATA7[0]
CEC_BUF2_RX_FR
AME_DATA8[0]
CEC_BUF2_RX_FR
AME_DATA9[0]
CEC_BUF2_RX_FR
AME_DATA10[0]
CEC_BUF2_RX_FR
AME_DATA11[0]
CEC_BUF2_RX_FR
AME_DATA12[0]
CEC_BUF2_RX_FR
AME_DATA13[0]
CEC_BUF2_RX_FR
AME_DATA14[0]
CEC_BUF2_RX_FR
AME_LENGTH[0]
CEC_RX_RDY0
CEC_USE_ALL_BU
FS
CEC_WAKE_OPCO
DE0[0]
CEC_WAKE_OPCO
DE1[0]
CEC_WAKE_OPCO
DE2[0]
CEC_WAKE_OPCO
DE3[0]
CEC_WAKE_OPCO
DE4[0]
CEC_WAKE_OPCO
DE5[0]
CEC_WAKE_OPCO
DE6[0]
CEC_WAKE_OPCO
DE7[0]
IO
Register Map
2 SIGNAL DOCUMENTATION
2.1
IO
Reg
Bits
VID_STD[5:0]
0x00
00001000
Description
R/W
Sets the input video standard mode. Configuration is dependant on PRIM_MODE[3:0].
000010 - Default value
V_FREQ[2:0]
0x01
00000110
PRIM_MODE[3:0]
0x01
00000110
INP_COLOR_SPACE[3:0]
0x02
11110000
ALT_GAMMA
0x02
11110000
OP_656_RANGE
0x02
11110000
RGB_OUT
0x02
11110000
R/W
A control to set vertical frequency.
000 - 60 Hz
001 - 50 Hz
010 - 30 Hz
011 - 25 Hz
100 - 24 Hz
101 - Reserved
110 - Reserved
111 - Reserved
R/W
A control to selects the primary mode of operation of the decoder. To be used with VID_STD[5:0].
0000 - Reserved
0001 - Reserved
0010 - Reserved
0011 - Reserved
0100 - Reserved
0101 - HDMI-Comp
0110 - HDMI-GR
0111 - 1111 - Reserved
R/W
A control to set the colorspace of the input video. To be used in conjunction with ALT_GAMMA and RGB_OUT to
configure the color space converter. A value of 4'b1111 selects automatic setting of the input color space base on the
primary mode and video standard settings. Settings 1000 to 1110 are undefined.
0000 - Forces RGB (range 16 to 235) input
0001 - Forces RGB (range 0 to 255) input
0010 - Forces YCrCb input (601 color space) (range 16 to 235)
0011 - Forces YCrCb input (709 color space) (range 16 to 235)
0100 - Forces XVYCC 601
0101 - Forces XVYCC 709
0110 - Forces YCrCb input (601 color space) (range 0 to 255)
0111 - Forces YCrCb input (709 color space) (range 0 to 255)
1111 - Input color space depends on color space reported by HDMI block.
R/W
A control to select the type of YPbPr colorspace conversion. This bit is to be used in conjunction with
INP_COLOR_SPACE[3:0] and RGB_OUT. If ALT_GAMMA is set to 1 and RGB_OUT= 0 a colorspace conversion is applied to
convert from 601 to 709 or 709 to 601. Valid only if RGB_OUT set to 0.
0 - No conversion
1 - YUV601 to YUV709 conversion applied if input is YUV601. YUV709 to YUV601 conversion applied if input is
YUV709
R/W
A control to set the output range of the digital data. It also automatically the data saturator setting.
0 - Enables full output range (0 to 255)
1 - Enables limited output range (16 to 235)
R/W
A control to select output color space and the correct digital blank level and offsets on the RGB or YPrPb outputs. It is
used in conjunction with the INP_COLOR_SPACE[3:0] and ALT_GAMMA bits to select the applied CSC.
0 - YPbPr color space output
1 - RGB color space output
Rev. 0
32
IO
Reg
Bits
ALT_DATA_SAT
0x02
11110000
Register Map
Description
R/W
A control to disable the data saturator that limits the output range independently of OP_656_RANGE. This bit is used to
support extended data range modes.
0 - Data saturator enabled or disabled according to OP_656_RANGE setting.
1 - Reverses OP_656_RANGE decision to enable or disable the data saturator
OP_FORMAT_SEL[7:0]
0x03
00000000
OP_CH_SEL[2:0]
0x04
01100010
XTAL_FREQ_SEL[1:0]
0x04
01100010
F_OUT_SEL
0x05
00101100
R/W
A control to select the data format and pixel bus configuration. Refer to the pixel port configuration for full information
on pixel port modes and configuration settings.
0x00 - 8-bit SDR ITU-656 mode
0x01 - 10-bit SDR ITU-656 mode
0x02 - 12-bit SDR ITU-656 mode 0
0x06 - 12-bit SDR ITU-656 mode 1
0x0A - 12-bit SDR ITU mode 2
0x20 - 8-bit 4:2:2 DDR mode
0x21 - 10-bit 4:2:2 DDR mode
0x22 - 12-bit 4:2:2 DDR mode 0
0x23 - 12-bit 4:2:2 DDR mode 1
0x24 - 12-bit 4:2:2 DDR mode 2
0x40 - 24-bit 4:4:4 SDR mode
0x41 - 30-bit 4:4:4 SDR mode
0x42 - 36-bit 4:4:4 SDR mode 0
0x46 - 36-bit SDR 4:4:4 mode 1
0x4C - 24-bit SDR 4:4:4 mode 3
0x50 - 24-bit SDR 4:4:4 mode 4
0x51 - 30-bit SDR 4:4:4 mode 4
0x52 - 36-bit SDR 4:4:4 mode 4
0x60 - 24-bit 4:4:4 DDR mode
0x61 - 30-bit 4:4:4 DDR mode
0x62 - 36-bit 4:4:4 DDR mode
0x80 - 16-bit ITU-656 SDR mode
0x81 - 20-bit ITU-656 SDR mode
0x82 - 24-bit ITU-656 SDR mode 0
0x86 - 24-bit ITU-656 SDR mode 1
0x8A - 24-bit ITU-656 SDR mode 2
0x8D - 20-bit SDR 4:2:2 mode 3
0x90 - 16-bit SDR 4:2:2 mode 4
0x91 - 20-bit SDR 4:2:2 mode 4
0x92 - 24-bit SDR 4:2:2 mode 4
R/W
A control to select the configuration of the pixel data bus on the pixel pins. Refer to the pixel port configuration for full
information on pixel port modes and configuration settings.
000 - P[23:16] Y/G, P[15:8] U/CrCb/B, P[7:0] V/R
001 - P[23:16] Y/G, P[15:8] V/R, P[7:0] U/CrCb/B
010 - P[23:16] U/CrCb/B, P[15:8] Y/G, P[7:0] V/R
011 - P[23:16] V/R, P[15:8] Y/G, P[7:0] U/CrCb/B
100 - P[23:16] U/CrCb/B, P[15:8] V/R, P[7:0]Y/G
101 - P[23:16] V/R, P[15:8] U/CrCb/B, P[7:0] Y/G
110 - Reserved
111 - Reserved
00 - 27 MHz
01 - 28.63636 MHz
10 - 24.567 MHz
11 - Reserved
R/W
A control to select DE signal or Field signal to be output on the FIELD/DE pin.
0 - DE output selected
1 - Field output selected
Rev. 0
R/W
A control to set the XTAL frequency used.
33
IO
Reg
Bits
DATA_BLANK_EN
0x05
00101100
AVCODE_INSERT_EN
0x05
00101100
REPL_AV_CODE
0x05
00101100
OP_SWAP_CB_CR
0x05
00101100
VS_OUT_SEL
0x06
10100000
INV_F_POL
0x06
10100000
INV_VS_POL
0x06
10100000
INV_HS_POL
0x06
10100000
INV_LLC_POL
0x06
10100000
CORE_PDN
0x0B
01000100
XTAL_PDN
0x0B
01000100
POWER_DOWN
0x0C
01100010
PWR_SAVE_MODE
0x0C
01100010
Register Map
Description
R/W
A control to blank data during video blanking sections.
0 - Do not blank data during horizontal and vertical blanking periods.
1 - Blank data during horizontal and vertical blanking periods.
0 - Does not insert AV codes into data stream
1 - Inserts AV codes into data stream
R/W
A control to select the duplication of the AV codes and insertion on all data channels of the output data stream
0 - Outputs complete SAV/EAV codes on all Channels, Channel A, Channel B and Channel C.
1 - Spreads AV code across the three channels. Channel B and Channel C contain the first two ten bit words, 0x3FF
and 0x000. Channel A contains the final two ten bit words 0x00 and 0xXYZ.
R/W
A controls the swapping of Cr and Cb data on the pixel buses.
0 - Outputs Cr and Cb as per OP_FORMAT_SEL
1 - Inverts the order of Cb and Cr in the interleaved data stream
R/W
A control to select VSync signal or Field signal to be output on VS/Field pin.
0 - Field output on VS/FIELD pin
1 - VSync output on VS/FIELD pin
R/W
A control to select the polarity of FIELD/DE signal.
0 - Negative FIELD/DE polarity
1 - Positive FIELD/DE polarity
R/W
A control to select the polarity of VS/FIELD signal
0 - Negative polarity VS/FIELD
1 - Positive polarity VS/FIELD
R/W
A control to select the polarity of HS signal.
0 - Negative polarity HS
1 - Positive polarity HS
R/W
A control to select the polarity of the LLC.
0 - Does not invert LLC
1 - Inverts LLC
R/W
A power-down control for the DPP, CP core and digital sections of the HDMI core.
0 - Powers up CP and digital sections of HDMI block
1 - Powers down the CP and digital section of HDMI block.
R/W
A power-down control for the XTAL in the digital blocks.
0 - Powers up XTAL buffer to the digital core.
1 - Powers down XTAL buffer to the digital core
R/W
A control to enable power-down mode. This is the main I2C power-down control.
0 - Chip is operational
1 - Enables chip power down
R/W
A control to enable power-save mode.
0 - Disables power save mode
1 - Enables power save mode
Rev. 0
R/W
A control to select AV code insertion into the data stream
34
IO
Reg
Bits
CP_PWRDN
0x0C
01100010
PADS_PDN
0x0C
01100010
Register Map
Description
R/W
A power-down control for the CP core.
0 - Powers up the clock to the CP core
1 - Powers down the clock to the CP core. HDMI block will not be affected by this bit.
R/W
A power down control for pads of the digital output pins. When enabled pads are tristated and the input path is disabled.
This control applies to the FIELD/DE, HS, VS/FIELD, INT1, LLC pads and the pixel pads P0 to P23
0 - Powers up the pads of the digital output pins
1 - Powers down the pads of the digital output pins
CP_STDI_INTERLACED
0x12
00000000
R
A readback to indicate the interlaced status of the currently selected STDI block applied to the CP core.
0 - Selected STDI has detected a progressive input
1 - Selected STDI has detected a interlaced input.
CP_INTERLACED
0x12
00000000
R
A readback to indicate the interlaced status of the CP core based on configuration of Video standard and INTERLACED bit
in the CP map.
0 - CP core is processing the input as a progressive input.
1 - CP core is processing the input as a interlaced input.
CP_PROG_PARM_FOR_INT
R
0x12
00000000
A readback to indicate the if the CP core is processing for progressive standard while are the Video standard and the
INTERLACED bit in the CP Map are configured for an interlaced standard.
CP_FORCE_INTERLACED
0x12
00000000
0 - CP core processing for a progressive standard while Video standard and the INTERLACED bits are configured for
an interlaced standard
1 - CP core processing for a progressive standard while Video standard and the INTERLACED bits+ are configured
for a progressive standard
R
A readback to indicate forced-interlaced status of the CP core based on configuration of Video standard and INTERLACED
bit in the CP Map.
0 - Input is detected as interlaced and the CP is programmed in an interlaced mode via VID_STD[5:0]
1 - Input is detected as progressive and the CP is programmed in an interlaced mode.
DR_STR[1:0]
0x14
01101010
DR_STR_CLK[1:0]
0x14
01101010
DR_STR_SYNC[1:0]
0x14
01101010
TRI_AUDIO
0x15
10111110
TRI_SYNCS
0x15
10111110
R/W
A control to set the drive strength of the data output drivers.
00 - Reserved
01 - Medium low (2x)
10 - Medium high (3x)
11 - High (4x)
R/W
A control to set the drive strength control for the output pixel clock out signal on the LLC pin.
00 - Reserved
01 - Medium low (2x) for LLC up to 60 MHz
10 - Medium high (3x) for LLC from 44 MHz to 105 MHz
11 - High (4x) for LLC greater than 100 MHz
00 - Reserved
01 - Medium low (2x)
10 - Medium high (3x)
11 - High (4x)
R/W
A control to tristate the audio output interface pins ( AP1/I2S, AP2 ... AP5).
0 - Audio output pins active
1 - Tristate audio output pins
R/W
Synchronization output pins tristate control. The synchronization pins under this control are HS, VS/FIELD and FIELD/DE.
0 - Sync output pins active
1 - Tristate sync output pins
Rev. 0
R/W
A control to set the drive strength the synchronization pins, HS, VS/FIELD, FIELD/DE
35
IO
Register Map
Reg
Bits
TRI_LLC
0x15
10111110
TRI_PIX
0x15
Description
R/W
A control to tristate the output pixel clock on the LLC pin.
0 - LLC pin active
1 - Tristate LLC pin
10111110
LLC_DLL_EN
0x19
00000000
LLC_DLL_PHASE[4:0]
0x19
00000000
SAMPLE_ALSB
0x1B
00000000
HPA_MAN_VALUE_A
0x20
11110000
HPA_TRISTATE_A
0x20
11110000
HPA_STATUS_PORT_A
0x21
00000000
LLC_DLL_MUX
0x33
00000000
INTRQ_RAW
0x3F
00000000
INTRQ2_RAW
0x3F
00000000
R/W
A control to tristate the pixel data on the pixel pins P[23:0]
0 - Pixel bus active
1 - Tristate pixel bus
R/W
A control to enable the Delay Locked Loop for output pixel clock.
1 - Enable LLC DLL
0 - Disable LLC DLL
R/W
A control to adjust LLC DLL phase in increments of 1/32 of a clock period.
00000 - Default
xxxxx - Sets on of 32 phases of DLL to vary LLC CLK
R/W
When HIGH, VS pin is sampled to be used as ALSB value for IO Map
0 - use previously stored ALSB value
1 - sampel new ALSB value
R/W
A manual control for the value of HPA on Port A. Only valid if HPA_MANUAL is set to 1.
0 - 0 V applied to HPA_A pin
1 - High level applied to HPA_A pin
R/W
Tristate HPA output pin for Port A.
0 - HPA_A pin active.
1 - Tristate HPA_A pin
R
Readback of HPA status for port A
0 - +5V not applied to HPA_A pin by chip
1 - +5V applied to HPA_A pin by chip
R/W
A control to apply the pixel clock DLL to the pixel clock output on the LLC pin.
0 - Bypasses the DLL
1 - Muxes the DLL output on LLC output
R
Status of the interrupt signal on INT1 interrupt pin. If an interrupt event that has been enabled for the INT1 pin has
occurred this bit will be set to 1. Interrupts for INT1 are set via the interrupt 1 mask bits. This bit will remain set to 1 until
all status for interrupts enabled on INT1 are cleared.
0 - No interrupt on INT1
1 - An interrupt event for INT 1 has occurred.
R
Status of the interrupt signal on INT2 interrupt pin. If an interrupt event that has been enabled for the INT2 pin has
occurred this bit will be set to 1. Interrupts for INT2 are set via the interrupt 1 mask bits. This bit will remain set to 1 until
all status for interrupts enabled on INT2 are cleared.
0 - No interrupt on INT2
1 - An interrupt event for INT2 has occurred.
INTRQ_DUR_SEL[1:0]
0x40
00100000
R/W
A control to select the interrupt signal duration for the interrupt signal on INT1
00 - 4 Xtal periods
01 - 16 Xtal periods
10 - 64 Xtal periods
11 - Active until cleared
Rev. 0
36
IO
Register Map
Reg
Bits
Description
STORE_UNMASKED_IRQS
R/W
0x40
00100000
STORE_MASKED_IRQS allows the HDMI status flags for any HDMI interrupt to be triggered regardless of whether the
mask bits are set. This bit allows a HDMI interrupt to trigger and allows this interrupt to be read back through the
corresponding status bit without triggering an interrupt on the interrupt pin. The status is stored until the clear bit is
used to clear the status register and allows another interrupt to occur.
EN_UMASK_RAW_INTRQ
0x40
00100000
MPU_STIM_INTRQ
0x40
00100000
0 - Does not allow x_ST flag of any HDMI interrupt to be set independently of mask bits
1 - Allows x_ST flag of any HDMI interrupt to be set independently of mask bits
R/W
A control to apply the audio mute signal on INT1 interrupt pin.
0 - Does not output audio mute signal on INT1
1 - Outputs audio mute signal on INT1
R/W
Manual interrupt set control. This feature should be used for test purposes only. Note that the appropriate mask bit must
be set to generate an interrupt at the pin
0 - Disables manual interrupt mode
1 - Enables manual interrupt mode
INTRQ_OP_SEL[1:0]
0x40
00100000
R/W
Interrupt signal configuration control for INT1
00 - Open drain
01 - Drives low when active
10 - Drives high when active
11 - Disabled
INTRQ2_DUR_SEL[1:0]
0x41
00110000
R/W
A control to select the interrupt signal duration for the interrupt signal on INT2
00 - 4 Xtal periods
01 - 16 Xtal periods
10 - 64 Xtal periods
11 - Active until cleared
CP_LOCK_UNLOCK_EDGE_SEL
0x41
00110000
A control to configure the functionality of the CP_LOCK,UNLOCK interrupts.
R/W
0 - Generate interrupt for a LOW to HIGH change in CP_LOCK,UNLOCK status for ch1.
1 - Generate interrupt for a LOW to HIGH or a HIGH to LOW change in CP_LOCK,UNLOCK status for ch1.
STDI_DATA_VALID_EDGE_SEL
R/W
0x41
00110000
A control to configure the functionality of the STDI_DATA_VALID interrupt. The interrupt can be generated for the case
when STDI changes to an STDI valid state. Alternatively it can be generated to indicate a change in STDI_VALID status.
0 - Generate interrupt for a LOW to HIGH change in STDI_VALID status
1 - Generate interrupt for a LOW to HIGH or a HIGH to LOW change in STDI_VALID status
EN_UMASK_RAW_INTRQ2
0x41
00110000
A control to apply the internal audio mute signal on INT2 interrupt pin.
INT2_POL
0x41
00110000
INTRQ2_MUX_SEL[1:0]
0x41
00110000
0 - Does not output audio mute signal on INT2
1 - Outputs audio mute signal on INT2
R/W
INT2 polarity control
0 - INT2 low when active
1 - INT2 high when active
R/W
Interrupt signal configuration control for INT2
00 - INT2 disabled
01 - INT2 in MCLK/INT2 pin
10 - INT2 in SCLK/INT2 pin
11 - INT2 in HPA_A/INT2 pin
Rev. 0
R/W
37
IO
Reg
Bits
STDI_DATA_VALID_RAW
0x42
00000000
Register Map
Description
R
STDI_DATA_VALID interrupt can be either an edge sensitive or level sensitive interrupt depending on the configuration
of STDI_DATA_VALID_EDGE_SEL register. When STDI_DATA_VALID_EDGE_SEL set to 1 it is a level sensitive interrupt and
STDI_DATA_VALID_RAW is the raw signal status of the STDI Data Valid signal. When STDI_DATA_VALID_EDGE_SEL set to 0
it is a edge sensitive interrupt and STDI_DATA_VALID_RAW is a sampled -status of the STDI Data Valid signal following a
change in the signal. Once set, this bit will remain high until it is cleared via STDI_DATA_VALID_CLR.
0 - STDI data is not valid.
1 - STDI data is valid.
CP_UNLOCK_RAW
0x42
00000000
CP_LOCK_RAW
0x42
00000000
STDI_DATA_VALID_ST
0x43
00000000
R
Status of the CP_UNLOCK interrupt signal. When set to 1 it indicates a change in unlock status of the CP core. Once set,
this bit will remain high until it is cleared via CP_UNLOCK_CLR.
0 - CP is locked
1 - CP is unlocked.
R
Status of the CP_LOCK interrupt signal. When set to 1 it indicates a change in lock status of the CP core. Once set, this bit
will remain high until it is cleared via CP_LOCK_CLR.
0 - CP is unlocked
1 - CP is locked.
R
Latched signal status of STDI valid interrupt signal. Once set this bit will remain high until the interrupt has been cleared
via STDI_DATA_VALID_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No STDI valid interrupt has occurred.
1 - A STDI valid interrupt has occurred.
CP_UNLOCK_ST
0x43
00000000
CP_LOCK_ST
0x43
00000000
R
Latched signal status of CP Unlock interrupt signal. Once set this bit will remain high until the interrupt has been cleared
via CP_UNLOCK_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit.
0 - No CP UNLOCK interrupt event has occurred.
1 - A CP UNLOCK interrupt event has occurred.
R
Latched signal status of the CP Lock interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via CP_LOCK_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No CP LOCK interrupt event has occurred.
1 - A CP LOCK interrupt event has occurred.
STDI_DATA_VALID_CLR
0x44
00000000
SC
Clear bit for STDI Data valid interrupt signal.
0 - Does not clear STDI_DVALID_ST bit
1 - Clears STDI_DVALID_ST bit
CP_UNLOCK_CLR
0x44
00000000
SC
Clear bit for CP unlock interrupt signal.
0 - Does not clear CP_UNLOCK_ST bit
1 - Clears CP_UNLOCK_ST bit
CP_LOCK_CLR
0x44
00000000
SC
Clear bit for CP Lock interrupt signal.
0 - Does not clear CP_LOCK_ST bit
1 - Clears CP_LOCK_ST bit
STDI_DATA_VALID_MB2
0x45
00000000
CP_UNLOCK_MB2
0x45
00000000
R/W
INT2 interrupt mask for STDI Data valid interrupt. When set the STDI Data valid interrupt will trigger the INT2 interrupt
and STDI_DATA_VALID_ST will indicate the interrupt status.
0 - Disables STDI Data valid interrupt for INT2
1 - Enables STDI Data valid interrupt for INT2
INT2 interrupt mask for CP Unlock interrupt. When set the CP Unlock interrupt will trigger the INT2 interrupt and
CP_UNLOCK_ST will indicate the interrupt status.
0 - Disable CP Unlock interrupt for INT2
1 - Enable CP Unlock interrupt for INT2
Rev. 0
38
R/W
IO
Reg
Bits
CP_LOCK_MB2
0x45
00000000
Register Map
Description
R/W
INT2 interrupt mask for CP Lock interrupt. When set the CP Lock interrupt will trigger the INT2 interrupt and CP_LOCK_ST
will indicate the interrupt status.
0 - Disable CP Lock interrupt for INT2
1 - Enable CP Lock interrupt for INT2
STDI_DATA_VALID_MB1
0x46
00000000
R/W
INT1 interrupt mask for STDI Data valid interrupt. When set the STDI Data valid interrupt will trigger the INT1 interrupt
and STDI_DATA_VALID_ST will indicate the interrupt status.
0 - Disables STDI Data valid interrupt for INT1
1 - Enables STDI Data valid interrupt for INT1
CP_UNLOCK_MB1
0x46
00000000
CP_LOCK_MB1
0x46
00000000
R/W
INT1 interrupt mask for CP Unlock interrupt. When set the CP Unlock interrupt will trigger the INT1 interrupt and
CP_UNLOCK_ST will indicate the interrupt status.
0 - Disable CP Unlock interrupt for INT1
1 - Enable CP Unlock interrupt for INT1
R/W
INT1 interrupt mask for CP Lock interrupt. When set the CP Lock interrupt will trigger the INT1 interrupt and CP_LOCK_ST
will indicate the interrupt status.
0 - Disable CP Lock interrupt for INT1
1 - Enable CP Lock interrupt for INT1
MPU_STIM_INTRQ_RAW
0x47
00000000
R
Raw status of manual forced interrupt signal.
0 - Manual forced interrupt not applied
1 - Manual forced interrupt applied
MPU_STIM_INTRQ_ST
0x48
00000000
MPU_STIM_INTRQ_CLR
0x49
00000000
MPU_STIM_INTRQ_MB2
0x4A
00000000
R
Latched signal status of Manual Forced interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via MPU_STIM_INTRQ_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Forced manual interrupt event has not occurred.
1 - Force manual interrupt even has occurred.
SC
Clear bit for Manual Forced interrupt signal.
0 - Does not clear MPU_STIM_INT_ST bit
1 - Clears MPU_STIM_INT_ST bit
R/W
INT2 interrupt mask for Manual forced interrupt signal. When set the Manual Forced interrupt will trigger the INT2
interrupt and MPU_STIM_INTRQ_ST will indicate the interrupt status.
0 - Disables Manual forced interrupt for INT2
1 - Enables Manual forced interrupt for INT2
MPU_STIM_INTRQ_MB1
0x4B
00000000
CP_LOCK_CH1_RAW
0x5B
00000000
CP_UNLOCK_CH1_RAW
0x5B
00000000
STDI_DVALID_CH1_RAW
0x5B
00000000
CP_LOCK_CH1_ST
0x5C
00000000
Rev. 0
R/W
INT1 interrupt mask for Manual forced interrupt signal. When set the Manual Forced interrupt will trigger the INT1
interrupt and MPU_STIM_INTRQ_ST will indicate the interrupt status.
0 - Disables Manual forced interrupt for INT1
1 - Enables Manual forced interrupt for INT1
R
0 - No change
1 - Channel 1 input has changed from an unlocked state to a locked state
R
0 - No change
1 - Channel 1 CP input has changed from a locked state to an unlocked state
R
Raw status of STDI Data Valid for sync channel 1 signal.
0 - STDI Data is not valid for sync channel 1
1 - STDI Data is valid for sync channel 1
0 - No change. An interrupt has not been generated from this register.
1 - Channel 1 CP input has caused the decoder to go from an unlocked state to a locked state
39
R
IO
Register Map
Reg
Bits
CP_UNLOCK_CH1_ST
0x5C
00000000
Description
STDI_DVALID_CH1_ST
0x5C
00000000
R
Latched signal status of STDI valid for sync channel 1 interrupt signal. Once set this bit will remain high until the interrupt
has been cleared via STDI_DATA_VALID_CH1_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2
interrupt mask bit
CP_LOCK_CH1_CLR
0x5D
00000000
CP_UNLOCK_CH1_CLR
0x5D
00000000
STDI_DVALID_CH1_CLR
0x5D
00000000
CP_LOCK_CH1_MB2
0x5E
00000000
CP_UNLOCK_CH1_MB2
0x5E
00000000
STDI_DVALID_CH1_MB2
0x5E
00000000
R
0 - No change. An interrupt has not been generated from this register.
1 - Channel 1 CP input has changed from a locked state to an unlocked state and has triggered an interrupt
0 - No STDI valid for sync channel 1 interrupt has occurred.
1 - A STDI valid for sync channel 1 interrupt has occurred.
SC
0 - Does not clear
1 - Clears CP_LOCK_CH1_ST
SC
0 - Does not clear
1 - Clears CP_UNLOCK_CH1_ST
SC
Clear bit for STDI Data valid on sync channel 1 interrupt signal.
0 - Does not clear STDI_DATA_VALID_CH1_ST
1 - Clears STDI_DATA_VALID_CH1_ST
R/W
0 - Masks CP_LOCK_CH1_ST
1 - Unmasks CP_LOCK_CH1_ST
R/W
0 - Masks CP_UNLOCK_CH1_ST
1 - Unmasks CP_UNLOCK_CH1_ST
R/W
INT2 interrupt mask for STDI Data valid for sync channel 1 interrupt. When set the STDI Data valid for sync channel 1
interrupt will trigger the INT2 interrupt and STDI_DATA_VALID_CH1_ST will indicate the interrupt status.
0 - Disables STDI Data valid for sync channel 1 interrupt for INT2
1 - Enables STDI Data valid for sync channel 1 interrupt for INT2
CP_LOCK_CH1_MB1
0x5F
00000000
CP_UNLOCK_CH1_MB1
0x5F
00000000
STDI_DVALID_CH1_MB1
0x5F
00000000
ISRC2_PCKT_RAW
0x60
00000000
R/W
0 - Masks CP_LOCK_CH1_ST
1 - Unmasks CP_LOCK_CH1_ST
R/W
0 - Masks CP_UNLOCK_CH1_ST
1 - Unmasks CP_UNLOCK_CH1_ST
R/W
INT1 interrupt mask for STDI Data valid for sync channel 1 interrupt. When set the STDI Data valid for sync channel 1
interrupt will trigger the INT1 interrupt and STDI_DATA_VALID_CH1_ST will indicate the interrupt status.
0 - Disables STDI Data valid for sync channel 1 interrupt for INT1
1 - Enables STDI Data valid for sync channel 1 interrupt for INT1
R
Raw status signal of International Standard Recording Code 2 (ISRC2) Packet detection signal.
ISRC1_PCKT_RAW
0x60
00000000
0 - No ISRC2 packets received since the last HDMI packet detection reset.
1 - ISRC2 packets have been received. This bit will reset to zero after an HDMI packet detection reset or upon
writing to ISRC2_PACKET_ID.
R
Raw status signal of International Standard Recording Code 1 (ISRC1) Packet detection signal.
ACP_PCKT_RAW
0x60
00000000
0 - No ISRC1 packets received since the last HDMI packet detection reset.
1 - ISRC1 packets have been received. This bit will reset to zero after an HDMI packet detection reset or upon
writing to ISRC1_PACKET_ID.
R
Raw status signal of Audio Content Protection Packet detection signal.
0 - No ACP packet received within the last 600 ms or since the last HDMI packet detection reset.
1 - ACP packets have been received within the last 600 ms. This bit will reset to zero after an HDMI packet
detection reset or upon writing to ACP_PACKET_ID.
Rev. 0
40
IO
Reg
Bits
VS_INFO_RAW
0x60
00000000
Register Map
Description
R
Raw status signal of Vendor specific Infoframe detection signal.
MS_INFO_RAW
0x60
00000000
0 - No new VS infoframe has been received since the last HDMI packet detection reset.
1 - A new VS infoframe has been received. This bit will reset to zero after an HDMI packet detection reset or upon
writing to VS_PACKET_ID.
R
Raw status signal of MPEG Source Infoframe detection signal.
SPD_INFO_RAW
0x60
00000000
0 - No source product description Infoframe received within the last three VSyncs or since the last HDMI packet
detection reset.
1 - MPEG Source InfoFrame received. This bit will reset to zero after an HDMI packet detection reset or upon
writing to MS_PACKET_ID.
R
Raw status of SPD Infoframe detected signal.
AUDIO_INFO_RAW
0x60
00000000
0 - No source product description InfoFrame received since the last HDMI packet detection reset.
1 - Source product description InfoFrame received. This bit will reset to zero after an HDMI packet detection reset
or upon writing to SPD_PACKET_ID.
R
Raw status of Audio InfoFrame detected signal.
AVI_INFO_RAW
0x60
00000000
ISRC2_PCKT_ST
0x61
00000000
0 - No AVI InfoFrame has been received within the last three VSyncs or since the last HDMI packet detection reset.
1 - An Audio InfoFrame has been received within the last three VSyncs. This bit will reset to zero on the fourth
VSync leading edge following an Audio InfoFrame, after an HDMI packet detection reset or upon writing to
AUD_PACKET_ID.
R
Raw status of AVI InfoFrame detected signal. This bit is set to one when an AVI InfoFrame is received and is reset to zero if
no AVI InfoFrame is received for more than 7 VSyncs (on the eighth VSync leading edge following the last received AVI
InfoFrame), after an HDMI packet detection reset or upon writing to AVI_PACKET_ID.
0 - No AVI InfoFrame has been received within the last seven VSyncs or since the last HDMI packet detection reset
1 - An AVI InfoFrame has been received within the last seven VSyncs
R
Latched status of ISRC2 Packet detected interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via ISRC2_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No interrupt generated from this register
1 - ISRC2_PCKT_RAW has changed. Interrupt has been generated.
ISRC1_PCKT_ST
0x61
00000000
ACP_PCKT_ST
0x61
00000000
R
Latched status of ISRC1 Packet detected interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via ISRC1_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No interrupt generated from this register
1 - ISRC1_PCKT_RAW has changed. Interrupt has been generated.
R
Latched status of Audio Content Protection Packet detected interrupt signal. Once set this bit will remain high until the
interrupt has been cleared via ACP_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2
interrupt mask bit
0 - No interrupt generated from this register
1 - ACP_PCKT_RAW has changed. Interrupt has been generated.
VS_INFO_ST
0x61
00000000
MS_INFO_ST
0x61
00000000
R
Latched status of Vendor Specific Infoframe detected interrupt signal. Once set this bit will remain high until the interrupt
has been cleared via VS_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No interrupt generated from this register
1 - VS_INFO_RAW has changed. Interrupt has been generated.
R
Latched status of MPEG Source Infoframe detected interrupt signal. Once set this bit will remain high until the interrupt
has been cleared via MS_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No interrupt generated from this register
1 - MS_INFO_RAW has changed. Interrupt has been generated.
Rev. 0
41
IO
Reg
Bits
SPD_INFO_ST
0x61
00000000
Register Map
Description
R
Latched status of SPD Infoframe detected interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via SPD_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No interrupt generated from this register
1 - SPD_INFO_RAW has changed. Interrupt has been generated.
AUDIO_INFO_ST
0x61
00000000
R
Latched status of Audio Infoframe detected interrupt signal. Once set this bit will remain high until the interrupt has
been cleared via AUDIO_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No interrupt generated from this register
1 - AUDIO_INFO_RAW has changed. Interrupt has been generated.
AVI_INFO_ST
0x61
00000000
ISRC2_PCKT_CLR
0x62
00000000
ISRC1_PCKT_CLR
0x62
00000000
ACP_PCKT_CLR
0x62
00000000
VS_INFO_CLR
0x62
00000000
MS_INFO_CLR
0x62
00000000
SPD_INFO_CLR
0x62
00000000
AUDIO_INFO_CLR
0x62
00000000
AVI_INFO_CLR
0x62
00000000
ISRC2_PCKT_MB2
0x63
00000000
R
Latched status of AVI_INFO_RAW signal. This bit is only valid if enabled via the corresponding INT1 or INT2 interrupt mask
bit. Once set this bit will remain high until the interrupt has been cleared via AVI_INFO_CLR.
0 - AVI_INFO_RAW has not changed state
1 - AVI_INFO_RAW has changed state
0 - Does not clear
1 - Clears ISRC1_PCKT_ST
SC
Clear bit for ISRC1 Packet detection interrupt signal.
0 - Does not clear ISRC1_INFO_ST
1 - Clears ISRC1_INFO_ST
SC
Clear bit for Audio Content Protection Packet detected interrupt signal.
0 - Does not clear ACP_INFO_ST
1 - Clears ACP_INFO_ST
SC
Clear bit for Vendor Specific Infoframe interrupt signal.
0 - Does not clear VS_INFO_ST
1 - Clears VS_INFO_ST
SC
Clear bit for MPEG Source Infoframe interrupt signal.
0 - Does not clear MS_INFO_ST
1 - Clears MS_INFO_ST
SC
Clear bit for SPD Infoframe interrupt signal.
0 - Does not clear SPD_INFO_ST
1 - Clears SPD_INFO_ST
SC
Clear bit for Audio Infoframe interrupt signal.
0 - Does not clear AUDIO_INFO_ST
1 - Clears AUDIO_INFO_ST
SC
Clear bit for AVI_INFO_RAW and AVI_INFO_ST bits.
0 - No function
1 - Clear AVI_INFO_RAW and AVI_INFO_ST
R/W
INT2 interrupt mask for ISRC2 Packet detection interrupt. When set the ISRC2 Packet detection interrupt will trigger the
INT2 interrupt and ISRC2_INFO_ST will indicate the interrupt status.
0 - Disables ISRC2 Infoframe detection interrupt for INT2
1 - Enables ISRC2 Infoframe detection interrupt for INT2
Rev. 0
SC
Clear bit for ISRC2 Packet detection interrupt signal.
42
IO
Reg
Bits
ISRC1_PCKT_MB2
0x63
00000000
Register Map
Description
R/W
INT2 interrupt mask for ISRC1 Packet detection interrupt. When set the ISRC1 Packet detection interrupt will trigger the
INT2 interrupt and ISRC1_INFO_ST will indicate the interrupt status.
0 - Disables ISRC1 Infoframe detection interrupt for INT2
1 - Enables ISRC1 Infoframe detection interrupt for INT2
ACP_PCKT_MB2
0x63
00000000
R/W
INT2 interrupt mask for Audio Content Protection Packet detection interrupt. When set the Audio Content Protection
Infoframe detection interrupt will trigger the INT2 interrupt and ACP_INFO_ST will indicate the interrupt status.
0 - Disables Audio Content Protection Infoframe detection interrupt for INT2
1 - Enables Audio Content Protection Infoframe detection interrupt for INT2
VS_INFO_MB2
0x63
00000000
MS_INFO_MB2
0x63
00000000
R/W
INT2 interrupt mask for Vendor Specific Infoframe detection interrupt. When set the Vendor Specific Infoframe detection
interrupt will trigger the INT2 interrupt and VS_INFO_ST will indicate the interrupt status.
0 - Disables Vendor Specific Infoframe detection interrupt for INT2
1 - Enables Vendor Specific Infoframe detection interrupt for INT2
R/W
INT2 interrupt mask for MPEG source Infoframe detection interrupt. When set the MPEG Source Infoframe detection
interrupt will trigger the INT2 interrupt and MS_INFO_ST will indicate the interrupt status.
0 - Disables MPEG source Info frame detection interrupt for INT2
1 - Enables MPEG source Info frame detection interrupt for INT2
SPD_INFO_MB2
0x63
00000000
AUDIO_INFO_MB2
0x63
00000000
R/W
INT2 interrupt mask for SPD Infoframe detection interrupt. When set the SPD Infoframe detection interrupt will trigger
the INT2 interrupt and SPD_INFO_ST will indicate the interrupt status.
0 - Disables SPD Info frame detection interrupt for INT2
1 - Enables SPD Info frame detection interrupt for INT2
R/W
INT2 interrupt mask for Audio Infoframe detection interrupt. When set the Audio Infoframe detection interrupt will
trigger the INT2 interrupt and AVI_INFO_ST will indicate the interrupt status.
0 - Disables AUDIO Info frame detection interrupt for INT2
1 - Enables AUDIO Info frame detection interrupt for INT2
AVI_INFO_MB2
0x63
00000000
ISRC2_PCKT_MB1
0x64
00000000
ISRC1_PCKT_MB1
0x64
00000000
R/W
INT2 interrupt mask for AVI Infoframe detection interrupt. When set an AVI Infoframe detection event will cause
AVI_INFO_ST to be set and an interrupt will be generated on INT2.
0 - Disables AVI Info frame detection interrupt for INT2
1 - Enables AVI Info frame detection interrupt for INT2
R/W
INT1 interrupt mask for ISRC2 Infoframe detection interrupt. When set the ISRC2 Infoframe detection interrupt will trigger
the INT1 interrupt and ISRC2_INFO_ST will indicate the interrupt status.
0 - Disables ISRC2 Packet detection interrupt for INT1
1 - Enables ISRC2 Packet detection interrupt for INT1
R/W
INT1 interrupt mask for ISRC1 Infoframe detection interrupt. When set the ISRC1 Infoframe detection interrupt will trigger
the INT1 interrupt and ISRC1_INFO_ST will indicate the interrupt status.
0 - Disables ISRC1 Infoframe detection interrupt for INT1
1 - Enables ISRC1 Infoframe detection interrupt for INT1
ACP_PCKT_MB1
0x64
00000000
VS_INFO_MB1
0x64
00000000
R/W
INT1 interrupt mask for Audio Content Protection Packet detection interrupt. When set the Audio Content Protection
Packet detection interrupt will trigger the INT1 interrupt and ACP_INFO_ST will indicate the interrupt status.
0 - Disables Audio Content Protection Infoframe detection interrupt for INT1
1 - Enables Audio Content Protection Infoframe detection interrupt for INT1
R/W
INT1 interrupt mask for Vendor Specific Infoframe detection interrupt. When set the Vendor Specific Infoframe detection
interrupt will trigger the INT1 interrupt and VS_INFO_ST will indicate the interrupt status.
0 - Disables Vendor Specific Infoframe detection interrupt for INT1
1 - Enables Vendor Specific Infoframe detection interrupt for INT1
Rev. 0
43
IO
Reg
Bits
MS_INFO_MB1
0x64
00000000
Register Map
Description
R/W
INT1 interrupt mask for MPEG source Infoframe detection interrupt. When set the MPEG source Infoframe detection
interrupt will trigger the INT1 interrupt and MS_INFO_ST will indicate the interrupt status.
0 - Disables MPEG source Infoframe detection interrupt for INT1
1 - Enables MPEG source Infoframe detection interrupt for INT1
SPD_INFO_MB1
0x64
00000000
R/W
INT1 interrupt mask for SPD Infoframe detection interrupt. When set the SPD Infoframe detection interrupt will trigger
the INT1 interrupt and SPD_INFO_ST will indicate the interrupt status.
0 - Disables SPD Info frame detection interrupt for INT1
1 - Enables SPD Info frame detection interrupt for INT1
AUDIO_INFO_MB1
0x64
00000000
AVI_INFO_MB1
0x64
00000000
R/W
INT1 interrupt mask for Audio Infoframe detection interrupt. When set the Audio Infoframe detection interrupt will
trigger the INT1 interrupt and AVI_INFO_ST will indicate the interrupt status.
0 - Disables AUDIO Info frame detection interrupt for INT1
1 - Enables AUDIO Info frame detection interrupt for INT1
R/W
INT1 interrupt mask for AVI Infoframe detection interrupt. When set an AVI Infoframe detection event will cause
AVI_INFO_ST to be set and an interrupt will be generated on INT1.
0 - Disables AVI Info frame detection interrupt for INT1
1 - Enables AVI Info frame detection interrupt for INT1
CS_DATA_VALID_RAW
0x65
00000000
R
Raw status signal of Channel Status Data Valid signal.
0 - Channel status data is not valid
1 - Channel status data is valid
INTERNAL_MUTE_RAW
0x65
00000000
R
Raw status signal of Internal Mute signal.
0 - Audio is not muted
1 - Audio is muted
AV_MUTE_RAW
0x65
00000000
R
Raw status signal of AV Mute detection signal.
0 - No AV mute raw received since last HDMI reset condition
1 - AV mute received
AUDIO_CH_MD_RAW
0x65
00000000
Raw status signal indicating the layout value of the audio packets that were last received
HDMI_MODE_RAW
0x65
00000000
0 - The last audio packets received have a layout value of 1. (e.g. Layout-1 corresponds to 2-channel audio when
Audio Sample packets are received).
1 - The last audio packets received have a layout value of 0 (e.g. Layout-0 corresponds to 8-channel audio when
Audio Sample packets are received).
R
Raw status signal of HDMI Mode signal.
GEN_CTL_PCKT_RAW
0x65
00000000
AUDIO_C_PCKT_RAW
0x65
00000000
GAMUT_MDATA_RAW
0x65
00000000
R
0 - DVI is being received
1 - HDMI is being received
R
Raw status signal of General Control Packet detection signal.
0 - No general control packets received since the last HDMI reset condition
1 - General control packets received
R
Raw status signal of Audio Clock Regeneration Packet detection signal.
0 - No audio clock regeneration packets received since the last HDMI reset condition
1 - Audio clock regeneration packets received
R
Raw status signal of Gamut Metadata Packet detection signal.
0 - No Gamut Metadata packet has been received in the last video frame or since the last HDMI packet detection
reset.
1 - A Gamut Metadata packet has been received in the last video frame. This bit will reset to zero after an HDMI
packet detection reset or upon writing to GAMUT_PACKET_ID.
Rev. 0
44
IO
Reg
Bits
CS_DATA_VALID_ST
0x66
00000000
Register Map
Description
R
Latched status of Channel Status Data Valid interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via ICS_DATA_VALID_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - CS_DATA_VALID_RAW has not changed. An interrupt has not been generated.
1 - CS_DATA_VALID_RAW has changed. An interrupt has been generated.
INTERNAL_MUTE_ST
0x66
00000000
R
Latched status of Internal Mute interrupt signal. Once set this bit will remain high until the interrupt has been cleared via
INTERNAL_MUTE_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - INTERNAL_MUTE_RAW has not changed. An interrupt has not been generated.
1 - INTERNAL_MUTE_RAW has changed. An interrupt has been generated.
AV_MUTE_ST
0x66
00000000
AUDIO_CH_MD_ST
0x66
00000000
R
Latched status of AV Mute detected interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via AV_MUTE_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - AV_MUTE_RAW has not changed. An interrupt has not been generated.
1 - AV_MUTE_RAW has changed. An interrupt has been generated.
R
Latched status of Audio Channel mode interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via AUDIO_CH_MD_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - AUDIO_CH_MD_RAW has not changed. An interrupt has not been generated.
1 - AUDIO_MODE_CHNG_RAW has changed. An interrupt has been generated.
HDMI_MODE_ST
0x66
00000000
GEN_CTL_PCKT_ST
0x66
00000000
R
Latched status of HDMI Mode interrupt signal. Once set this bit will remain high until the interrupt has been cleared via
HDMI_MODE_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - HDMI_MODE_RAW has not changed. An interrupt has not been generated.
1 - (No Suggestions) has changed. An interrupt has been generated.
R
Latched status of General Control Packet interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via GEN_CTL_PCKT_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - GEN_CTL_PCKT_RAW has not changed. Interrupt has not been generated from this register.
1 - GEN_CTL_PCKT_RAW has changed. Interrupt has been generated from this register.
AUDIO_C_PCKT_ST
0x66
00000000
GAMUT_MDATA_ST
0x66
00000000
CS_DATA_VALID_CLR
0x67
00000000
INTERNAL_MUTE_CLR
0x67
00000000
AV_MUTE_CLR
0x67
00000000
R
Latched status of Audio Clock Regeneration Packet interrupt signal. Once set this bit will remain high until the interrupt
has been cleared via AUDIO_PCKT_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask
bit
0 - AUDIO_C_PCKT_RAW has not changed. Interrupt has not been generated from this register
1 - AUDIO_C_PCKT_RAW has changed. Interrupt has been generated from this register.
R
Latched status of Gamut Metadata Packet detected interrupt signal. Once set this bit will remain high until the interrupt
has been cleared via GAMUT_MDATA_PCKT_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2
interrupt mask bit
0 - GAMUT_MDATA_RAW has not changed. Interrupt has not been generated from this register
1 - GAMUT_MDATA_RAW has changed. Interrupt has been generated from this register.
0 - Does not clear
1 - Clears CS_DATA_VALID_ST
SC
Clear bit for Internal Mute interrupt signal.
0 - Does not clear INTERNAL_MUTE_ST
1 - Clears INTERNAL_MUTE_ST
Clear bit for AV Mute Detected interrupt signal.
0 - Does not clear AV_MUTE_ST
1 - Clears AV_MUTE_ST
Rev. 0
SC
Clear bit for Channel Status Data Valid interrupt signal.
45
SC
IO
Reg
Bits
AUDIO_CH_MD_CLR
0x67
00000000
HDMI_MODE_CLR
0x67
00000000
GEN_CTL_PCKT_CLR
0x67
00000000
AUDIO_C_PCKT_CLR
0x67
00000000
GAMUT_MDATA_CLR
0x67
00000000
CS_DATA_VALID_MB2
0x68
00000000
Register Map
Description
SC
Clear bit for Audio Channel mode interrupt signal.
0 - Does not clear AUDIO_CH_MD_ST
1 - Clears AUDIO_CH_MD_ST
SC
Clear bit for HDMI Mode interrupt signal.
0 - Does not clear HDMI_MODE_ST
1 - Clears HDMI_MODE_ST
SC
Clear bit for General Control Packet detection interrupt signal.
0 - Does not clear GEN_CTL_PCKT_ST
1 - Clears GEN_CTL_PCKT_ST
SC
Clear bit for Audio Clock Regeneration Packet detection interrupt signal.
0 - Does not clear AUDIO_C_PCKT_ST
1 - Clears AUDIO_C_PCKT_ST
SC
Clear bit for Gamut Metadata Packet detection interrupt signal.
0 - Does not clear GAMUT_MDATA_ST
1 - Clears GAMUT_MDATA_ST
R/W
INT2 interrupt mask for Channel Status Data Valid interrupt. When set the Channel Status Data Valid interrupt will trigger
the INT2 interrupt and CS_DATA_VALID_ST will indicate the interrupt status.
0 - Disables Channel Status Data Valid interrupt for INT2
1 - Enables Channel Status Data Valid interrupt for INT2
INTERNAL_MUTE_MB2
0x68
00000000
AV_MUTE_MB2
0x68
00000000
AUDIO_CH_MD_MB2
0x68
00000000
R/W
INT2 interrupt mask for Internal Mute interrupt. When set the Internal Mute interrupt will trigger the INT2 interrupt and
INTERNAL_MUTE_ST will indicate the interrupt status.
0 - Disables Internal Mute interrupt for INT2
1 - Enables Internal Mute interrupt for INT2
R/W
INT2 interrupt mask for AV Mute detected interrupt. When set the AV Mute detected interrupt will trigger the INT2
interrupt and AV_MUTE_ST will indicate the interrupt status.
0 - Disables AV Mute detected interrupt for INT2
1 - Enables AV Mute detected interrupt for INT2
R/W
INT2 interrupt mask for Audio Channel mode interrupt. When set the Audio Channel mode interrupt will trigger the INT2
interrupt and AUDIO_CH_MD_ST will indicate the interrupt status.
0 - Disables Audio Channel Mode interrupt for INT2
1 - Enables Audio Channel Mode interrupt for INT2
HDMI_MODE_MB2
0x68
00000000
GEN_CTL_PCKT_MB2
0x68
00000000
R/W
INT2 interrupt mask for HDMI Mode interrupt. When set the HDMI Mode interrupt will trigger the INT2 interrupt and
HDMI_MODE_ST will indicate the interrupt status.
0 - Disables HDMI Mode interrupt for INT2
1 - Enables HDMI Mode interrupt for INT2
R/W
INT2 interrupt mask for General Control Packet detection interrupt. When set the General Control Packet detection
interrupt will trigger the INT2 interrupt and AUDIO_C_PCKT_ST will indicate the interrupt status.
0 - Disables General Control Packet detection interrupt for INT2
1 - Enables General Control Packet detection interrupt for INT2
AUDIO_C_PCKT_MB2
0x68
00000000
R/W
INT2 interrupt mask for Audio Clock Regeneration Packet detection interrupt. When set the Audio Clock Regeneration
Packet detection interrupt will trigger the INT2 interrupt and AUDIO_C_PCKT_ST will indicate the interrupt status.
0 - Disables Audio Clock Regeneration Packet detection interrupt for INT2
1 - Enables Audio Clock Regeneration Packet detection interrupt for INT2
Rev. 0
46
IO
Reg
Bits
GAMUT_MDATA_MB2
0x68
00000000
Register Map
Description
R/W
INT2 interrupt mask for Gamut Metadata Packet detection interrupt. When set the Gamut Metadata Packet detection
interrupt will trigger the INT2 interrupt and GAMUT_MDATA_PCKT_ST will indicate the interrupt status.
0 - Disables Gamut Metadata Packet detection interrupt for INT2
1 - Enables Gamut Metadata Packet detection interrupt for INT2
CS_DATA_VALID_MB1
0x69
00000000
R/W
INT1 interrupt mask for Channel Status Data Valid interrupt. When set the Channel Status Data Valid interrupt will trigger
the INT1 interrupt and CS_DATA_VALID_ST will indicate the interrupt status.
0 - Disables Channel Status Data Valid interrupt for INT1
1 - Enables Channel Status Data Valid interrupt for INT1
INTERNAL_MUTE_MB1
0x69
00000000
AV_MUTE_MB1
0x69
00000000
R/W
INT1 interrupt mask for Internal Mute interrupt. When set the Internal Mute interrupt will trigger the INT1 interrupt and
INTERNAL_MUTE_ST will indicate the interrupt status.
0 - Disables AV Mute detected interrupt for INT1
1 - Enables AV Mute detected interrupt for INT1
R/W
INT1 interrupt mask for AV Mute detected interrupt. When set the AV Mute detected interrupt will trigger the INT1
interrupt and AV_MUTE_ST will indicate the interrupt status.
0 - Disables AV Mute detected interrupt for INT1
1 - Enables AV Mute detected interrupt for INT1
AUDIO_CH_MD_MB1
0x69
00000000
HDMI_MODE_MB1
0x69
00000000
R/W
INT1 interrupt mask for Audio Channel mode interrupt. When set the Audio Channel mode interrupt will trigger the INT1
interrupt and AUDIO_CH_MD_ST will indicate the interrupt status.
0 - Disables Audio Channel Mode interrupt for INT1
1 - Enables Audio Channel Mode interrupt for INT1
R/W
INT1 interrupt mask for HDMI Mode detection interrupt. When set the HDMI Mode interrupt will trigger the INT1
interrupt and HDMI_MODE_ST will indicate the interrupt status.
0 - Disables HDMI Mode interrupt for INT1
1 - Enables HDMI Mode interrupt for INT1
GEN_CTL_PCKT_MB1
0x69
00000000
AUDIO_C_PCKT_MB1
0x69
00000000
GAMUT_MDATA_MB1
0x69
00000000
R/W
INT1 interrupt mask for General Control Packet detection interrupt. When set the General Control Packet detection
interrupt will trigger the INT1 interrupt and GEN_CTL_PCKT_ST will indicate the interrupt status.
0 - Disables General Control Packet detection interrupt for INT1
1 - Enables General Control Packet detection interrupt for INT1
R/W
INT1 interrupt mask for Audio Clock Regeneration Packet detection interrupt. When set the Audio Clock Regeneration
Packet detection interrupt will trigger the INT1 interrupt and AUDIO_C_PCKT_ST will indicate the interrupt status.
0 - Disables Audio Clock Regeneration Packet detection interrupt for INT1
1 - Enables Audio Clock Regeneration Packet detection interrupt for INT1
R/W
INT1 interrupt mask for Gamut Metadata Packet detection interrupt. When set the Gamut Metadata Packet detection
interrupt will trigger the INT1 interrupt and GAMUT_MDATA_PCKT_ST will indicate the interrupt status.
0 - Disables Gamut Metadata Packet detection interrupt for INT1
1 - Enables Gamut Metadata Packet detection interrupt for INT1
TMDSPLL_LCK_A_RAW
0x6A
00000000
R
A readback to indicate the raw status of the port A TMDS PLL lock signal.
0 - TMDS PLL on port A is not locked
1 - TMDS PLL on port A is locked to the incoming clock
TMDS_CLK_A_RAW
0x6A
00000000
R
Raw status of Port A TMDS Clock detection signal.
0 - No TMDS clock detected on port A
1 - TMDS clock detected on port A
Rev. 0
47
IO
Reg
Bits
VIDEO_3D_RAW
0x6A
00000000
V_LOCKED_RAW
0x6A
00000000
DE_REGEN_LCK_RAW
0x6A
00000000
TMDSPLL_LCK_A_ST
0x6B
00000000
Register Map
Description
R
Raw status of the Video 3D signal.
0 - Video 3D not detected
1 - Video 3D detected
R
Raw status of the Vertical Sync Filter Locked signal.
0 - Vertical sync filter has not locked and vertical sync parameters are not valid
1 - Vertical sync filter has locked and vertical sync parameters are valid
R
Raw status of the DE regeneration lock signal.
0 - DE regeneration block has not been locked
1 - DE regeneration block has been locked to the incoming DE signal
R
Latched status of Port A TMDS PLL Lock interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via TMDSPLL_LCK_A_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - TMDSPLL_LCK_A_RAW has not changed. An interrupt has not been generated.
1 - TMDSPLL_LCK_A_RAW has changed. An interrupt has been generated.
TMDS_CLK_A_ST
0x6B
00000000
VIDEO_3D_ST
0x6B
00000000
V_LOCKED_ST
0x6B
00000000
R
Latched status of Port A TMDS Clock Detection interrupt signal. Once set this bit will remain high until the interrupt has
been cleared via TMDS_CLK_A_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - TMDS_CLK_A_RAW has not changed. An interrupt has not been generated.
1 - TMDS_CLK_A_RAW has changed. An interrupt has been generated.
R
Latched status for the Video 3D interupt. Once set this bit will remain high until the interrupt has been cleared via
VIDEO_3D_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - VIDEO_3D_RAW has not changed. An interrupt has not been generated.
1 - VIDEO_3D_RAW has changed. An interrupt has been generated.
R
Latched status for the Vertical Sync Filter Locked interrupt. Once set this bit will remain high until the interrupt has been
cleared via V_LOCKED_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - V_LOCKED_RAW has not changed. An interrupt has not been generated.
1 - V_LOCKED_RAW has changed. An interrupt has been generated.
DE_REGEN_LCK_ST
0x6B
00000000
TMDSPLL_LCK_A_CLR
0x6C
00000000
TMDS_CLK_A_CLR
0x6C
00000000
VIDEO_3D_CLR
0x6C
00000000
V_LOCKED_CLR
0x6C
00000000
R
Latched status for DE Regeneration Lock interrupt signal. Once set this bit will remain high until the interrupt has been
cleared via DE_REGEN_LCK_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - DE_REGEN_LCK_RAW has not changed. An interrupt has not been generated.
1 - DE_REGEN_LCK_RAW has changed. An interrupt has been generated.
0 - Does not clear TMDSPLL_LCK_A_ST
1 - Clears TMDSPLL_LCK_A_ST
SC
Clear bit for Port A TMDS Clock Detection interrupt signal.
0 - Does not clear TMDS_CLK_A_ST
1 - Clears TMDS_CLK_A_ST
SC
Clear bit for Video 3D Interrupt
0 - Does not clear VIDEO_3D_ST
1 - Clears VIDEO_3D_ST
Clear bit for Vertical Sync Filter Locked Interrupt
0 - Does not clear V_LOCKED_ST
1 - Clears V_LOCKED_ST
Rev. 0
SC
Clear bit for Port A TMDS PLL Lock interrupt signal.
48
SC
IO
Reg
Bits
DE_REGEN_LCK_CLR
0x6C
00000000
TMDSPLL_LCK_A_MB2
0x6D
00000000
Register Map
Description
SC
Clear bit for DE Regeneration Lock interrupt signal.
0 - Does not clear DE_REGEN_LCK_ST
1 - Clears DE_REGEN_LCK_ST
R/W
INT2 interrupt mask for Port A TMDS PLL Lock interrupt. When set the Port A TMDS PLL Lock interrupt will trigger the INT2
interrupt and TMDSPLL_LCK_A_ST will indicate the interrupt status.
0 - Disables Port A TMDSPLL Lock interrupt for INT2
1 - Enables Port A TMDSPLL Lock interrupt for INT2
TMDS_CLK_A_MB2
0x6D
00000000
VIDEO_3D_MB2
0x6D
00000000
V_LOCKED_MB2
0x6D
00000000
R/W
INT2 interrupt mask for Port A TMDS Clock detection interrupt. When set the Port A TMDS Clock detection interrupt will
trigger the INT2 interrupt and TMDS_CLK_A_ST will indicate the interrupt status.
0 - Disables Port A TMDS Clock Detection interrupt for INT2
1 - Enables Port A TMDS Clock Detection interrupt for INT2
R/W
INT2 interrupt mask for Video 3D interrupt. When set the Video 3D interrupt will trigger the INT2 interrupt and
VIDEO_3D_ST will indicate the interrupt status.
0 - Disables Video 3D interrupt on INT2
1 - Enables Video 3D interrupt on INT2
R/W
INT2 interrupt mask for Vertical Sync Filter Locked interrupt. When set the Vertical Sync Filter Locked interrupt will trigger
the INT2 interrupt and V_LOCKED_ST will indicate the interrupt status.
0 - Disables Vertical Sync Filter Lock interrupt on INT2
1 - Enables Vertical Sync Filter Lock interrupt on INT2
DE_REGEN_LCK_MB2
0x6D
00000000
TMDSPLL_LCK_A_MB1
0x6E
00000000
R/W
INT2 interrupt mask for DE Regeneration Lock interrupt. When set the DE Regeneration Lock interrupt will trigger the
INT2 interrupt and DE_REGEN_LCK_ST will indicate the interrupt status.
0 - Disables DE Regeneration Lock interrupt on INT2
1 - Enables DE Regeneration Lock interrupt on INT2
R/W
INT1 interrupt mask for Port A TMDS PLL Lock interrupt. When set the Port A TMDS PLL Lock interrupt will trigger the INT1
interrupt and TMDSPLL_LCK_A_ST will indicate the interrupt status.
0 - Disables Port A TMDSPLL Lock interrupt for INT1
1 - Enables Port A TMDSPLL Lock interrupt for INT1
TMDS_CLK_A_MB1
0x6E
00000000
VIDEO_3D_MB1
0x6E
00000000
V_LOCKED_MB1
0x6E
00000000
R/W
INT1 interrupt mask for Port A TMDS Clock detection interrupt. When set the Port A TMDS Clock detection interrupt will
trigger the INT1 interrupt and TMDS_CLK_A_ST will indicate the interrupt status.
0 - Disables Port A TMDS Clock Detection interrupt for INT1
1 - Enables Port A TMDS Clock Detection interrupt for INT1
R/W
INT1 interrupt mask for Video 3D interrupt. When set the Video 3D interrupt will trigger the INT1 interrupt and
VIDEO_3D_ST will indicate the interrupt status.
0 - Disables Video 3D interrupt on INT1
1 - Enables Video 3D interrupt on INT1
R/W
INT1 interrupt mask for Vertical Sync Filter Locked interrupt. When set the Vertical Sync Filter Locked interrupt will trigger
the INT1 interrupt and V_LOCKED_ST will indicate the interrupt status.
0 - Disables Vertical Sync Filter Lock interrupt on INT1
1 - Enables Vertical Sync Filter Lock interrupt on INT1
DE_REGEN_LCK_MB1
0x6E
00000000
R/W
INT1 interrupt mask for DE Regeneration Lock interrupt. When set the DE Regeneration Lock interrupt will trigger the
INT1 interrupt and DE_REGEN_LCK_ST will indicate the interrupt status.
0 - Disables DE Regeneration Lock interrupt on INT1
1 - Enables DE Regeneration Lock interrupt on INT1
Rev. 0
49
IO
Reg
Bits
HDMI_ENCRPT_A_RAW
0x6F
00000000
CABLE_DET_A_RAW
0x6F
00000000
HDMI_ENCRPT_A_ST
0x70
00000000
CABLE_DET_A_ST
0x70
00000000
Register Map
Description
R
Raw status of Port A Encryption detection signal.
0 - Current frame in port A is not encrypted
1 - Current frame in port A is encrypted
R
Raw status of Port A +5 V cable detection signal.
0 - No cable detected on Port A
1 - Cable detected on Port A (High level on RXA_5V)
R
Latched status for Port A Encryption detection interrupt signal. Once set this bit will remain high until the interrupt has
been cleared via HDMI_ENCRPT_A_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask
bit
0 - HDMI_ENCRPT_A_RAW has not changed. An interrupt has not been generated.
1 - HDMI_ENCRPT_A_RAW has changed. An interrupt has been generated.
R
Latched status for Port A +5V cable detection interrupt signal. Once set this bit will remain high until the interrupt has
been cleared via CABLE_DET_A_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask
bit
0 - CABLE_DET_A_RAW has not changed. Interrupt has not been generated from this register.
1 - CABLE_DET_A_RAW has changed. Interrupt has been generated from this register.
HDMI_ENCRPT_A_CLR
0x71
00000000
SC
Clear bit for Port A Encryption detection interrupt signal.
0 - Does not clear HDMI_ENCRPT_A_ST
1 - Clears HDMI_ENCRPT_A_ST
CABLE_DET_A_CLR
0x71
00000000
SC
Clear bit for Port A +5V cable detection interrupt signal.
0 - Does not clear
1 - Clears CABLE_DET_A_ST
HDMI_ENCRPT_A_MB2
0x72
00000000
CABLE_DET_A_MB2
0x72
00000000
R/W
INT2 interrupt mask for Port A Encryption detection interrupt. When set the Port A Encryption detection interrupt will
trigger the INT2 interrupt and HDMI_ENCRPT_A_ST will indicate the interrupt status.
0 - Disables Port A HDMI Encryption detection interrupt for INT2
1 - Enables Port A HDMI Encryption detection interrupt for INT2
R/W
INT2 interrupt mask for Port A +5V cable detection interrupt. When set the Port B +5V cable detection interrupt will
trigger the INT2 interrupt and CABLE_DET_A_ST will indicate the interrupt status.
0 - Disables Port A +5V Cable Detection interrupt for INT2
1 - Enables Port A +5V Cable Detection interrupt for INT2
HDMI_ENCRPT_A_MB1
0x73
00000000
CABLE_DET_A_MB1
0x73
00000000
NEW_ISRC2_PCKT_RAW
0x79
00000000
R/W
INT1 interrupt mask for Port A Encryption detection interrupt. When set the Port A Encryption detection interrupt will
trigger the INT1 interrupt and HDMI_ENCRPT_A_ST will indicate the interrupt status.
0 - Disables Port A HDMI Encryption detection interrupt for INT1
1 - Enables Port A HDMI Encryption detection interrupt for INT1
R/W
INT1 interrupt mask for Port A +5V cable detection interrupt. When set the Port A +5V cable detection interrupt will
trigger the INT1 interrupt and CABLE_DET_A_ST will indicate the interrupt status.
0 - Disables Port A +5V Cable Detection interrupt for INT1
1 - Enables Port A +5V Cable Detection interrupt for INT1
R
Status of the New ISRC2 interrupt signal. When set to 1 it indicates a that an ISRC2 packet has been received with new
contents. Once set, this bit will remain high until it is cleared via NEW_ISRC2_PCKT_CLR.
0 - No new ISRC2 packet received
1 - ISRC2 packet with new content received
Rev. 0
50
IO
Reg
Bits
NEW_ISRC1_PCKT_RAW
0x79
00000000
Register Map
Description
R
Status of the New ISRC1 interrupt signal. When set to 1 it indicates a that an ISRC1 packet has been received with new
contents. Once set, this bit will remain high until it is cleared via NEW_ISRC1_PCKT_CLR.
0 - No new ISRC1 packet received
1 - ISRC1 packet with new content received
NEW_ACP_PCKT_RAW
0x79
00000000
R
Status of the New ACP Packet interrupt signal. When set to 1 it indicates a that an ACP packet has been received with new
contents. Once set, this bit will remain high until it is cleared via NEW_ACP_PCKT_CLR.
0 - No new ACP packet received
1 - ACP packet with new content received
NEW_VS_INFO_RAW
0x79
00000000
R
Status of the New Vendor Specific Infoframe interrupt signal. When set to 1 it indicates a that an Vendor Specific
Infoframe has been received with new contents. Once set, this bit will remain high until it is cleared via
NEW_VS_INFO_CLR.
0 - No new VS packet received
1 - VS packet with new content received
NEW_MS_INFO_RAW
0x79
00000000
NEW_SPD_INFO_RAW
0x79
00000000
R
Status of the New MPEG Source Infoframe interrupt signal. When set to 1 it indicates a that an MPEG Source Infoframe
has been received with new contents. Once set, this bit will remain high until it is cleared via NEW_MS_INFO_CLR.
0 - No new MPEG source InfoFrame received
1 - MPEG source InfoFrame with new content received
R
Status of the New Source Product Descriptor Packet interrupt signal. When set to 1 it indicates a that an Source Product
Descriptor packet has been received with new contents. Once set, this bit will remain high until it is cleared via
NEW_SPD_INFO_CLR.
0 - No new SPD InfoFrame received
1 - SPD InfoFrame with new content received
NEW_AUDIO_INFO_RAW
0x79
00000000
NEW_AVI_INFO_RAW
0x79
00000000
R
Status of the New Audio Infoframe interrupt signal. When set to 1 it indicates a that an Audio Infoframe has been
received with new contents. Once set, this bit will remain high until it is cleared via NEW_AUDIO_INFO_CLR.
0 - No new audio InfoFrame received
1 - Audio InfoFrame with new content received
R
Status of the New AVI Infoframe interrupt signal. When set to 1 it indicates that an AVI Infoframe has been received with
new contents. Once set this bit will remain high until the interrupt has been cleared via NEW_AVI_INFO_CLR.
0 - No new AVI InfoFrame received
1 - AVI InfoFrame with new content received
NEW_ISRC2_PCKT_ST
0x7A
00000000
NEW_ISRC1_PCKT_ST
0x7A
00000000
R
Latched status for the New ISRC2 Packet interrupt. Once set this bit will remain high until the interrupt has been cleared
via NEW_ISRC2_PCKT_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No new ISRC2 packet received. An interrupt has not been generated.
1 - ISRC2 packet with new content received. An interrupt has been generated.
R
Latched status for the New ISRC1 Packet interrupt. Once set this bit will remain high until the interrupt has been cleared
via NEW_ISRC1_PCKT_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No new ISRC1 packet received. An interrupt has not been generated.
1 - ISRC1 packet with new content received. An interrupt has been generated.
NEW_ACP_PCKT_ST
0x7A
00000000
R
Latched status for the New ACP Packet interrupt. Once set this bit will remain high until the interrupt has been cleared via
NEW_ACP_PCKT_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No new ACP packet received. An interrupt has not been generated.
1 - ACP packet with new content received. An interrupt has been generated.
Rev. 0
51
IO
Reg
Bits
NEW_VS_INFO_ST
0x7A
00000000
Register Map
Description
R
Latched status for the New Vendor Specific Infoframe interrupt. Once set this bit will remain high until the interrupt has
been cleared via NEW_VS_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask
bit
0 - No new VS packet received. An interrupt has not been generated.
1 - VS packet with new content received. An interrupt has been generated.
NEW_MS_INFO_ST
0x7A
00000000
R
Latched status for the New MPEG Source Infoframe interrupt. Once set this bit will remain high until the interrupt has
been cleared via NEW_MS_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask
bit
0 - No new MPEG Source InfoFrame received. Interrupt has not been generated.
1 - MPEG Source InfoFrame with new content received. Interrupt has been generated.
NEW_SPD_INFO_ST
0x7A
00000000
NEW_AUDIO_INFO_ST
0x7A
00000000
R
Latched status for the New Source Product Descriptor Infoframe interrupt. Once set this bit will remain high until the
interrupt has been cleared via NEW_SPD_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2
interrupt mask bit
0 - No new SPD InfoFrame received. Interrupt has not been generated.
1 - SPD InfoFrame with new content received. Interrupt has been generated.
R
Latched status for the New Audio Infoframe interrupt. Once set this bit will remain high until the interrupt has been
cleared via NEW_AUDIO_INFO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No new Audio InfoFrame received. Interrupt has not been generated.
1 - Audio InfoFrame with new content received. Interrupt has been generated.
NEW_AVI_INFO_ST
0x7A
00000000
NEW_ISRC2_PCKT_CLR
0x7B
00000000
NEW_ISRC1_PCKT_CLR
0x7B
00000000
NEW_ACP_PCKT_CLR
0x7B
00000000
NEW_VS_INFO_CLR
0x7B
00000000
NEW_MS_INFO_CLR
0x7B
00000000
NEW_SPD_INFO_CLR
0x7B
00000000
NEW_AUDIO_INFO_CLR
0x7B
00000000
R
Latched status for the NEW_AVI_INFO_RAW. This bit is only valid if enabled via the corresponding INT1 or INT2 interrupt
mask bit. Once set this bit will remain high until the interrupt has been cleared via NEW_AVI_INFO_CLR.
0 - NEW_AVI_INFO_RAW has not changed state
1 - NEW_AVI_INFO_RAW has changed state
0 - No function
1 - Clear NEW_ISRC2_PCKT_RAW and NEW_ISRC2_PCKT_ST
SC
Clear bit for NEW_ISRC1_PCKT_RAW and NEW_ISCR1_PCKT_ST bits.
0 - No function
1 - Clear NEW_ISRC1_PCKT_RAW and NEW_ISRC1_PCKT_ST
SC
Clear bit for NEW_ACP_PCKT_RAW and NEW_ACP_PCKT_ST bits.
0 - No function
1 - Clear NEW_ACP_PCKT_RAW and NEW_ACP_PCKT_ST
SC
Clear bit for NEW_VS_INFO_RAW and NEW_VS_INFO_ST bits.
0 - No function
1 - Clear NEW_VS_INFO_RAW and NEW_VS_INFO_ST
SC
Clear bit for NEW_MS_INFO_RAW and NEW_MS_INFO_ST bits.
0 - No function
1 - Clear NEW_MS_INFO_RAW and NEW_MS_INFO_ST
SC
Clear bit for NEW_SPD_INFO_RAW and NEW_SPD_INFO_ST bits.
0 - No function
1 - Clear NEW_SPD_INFO_RAW and NEW_SPD_INFO_ST
Clear bit for NEW_AUDIO_INFO_RAW and NEW_AUDIO_INFO_ST bits.
0 - No function
1 - Clear NEW_AUDIO_INFO_RAW and NEW_AUDIO_INFO_ST
Rev. 0
SC
Clear bit for NEW_ISRC2_PCKT_RAW and NEW_ISRC2_PCKT_ST bits.
52
SC
IO
Reg
Bits
NEW_AVI_INFO_CLR
0x7B
00000000
NEW_ISRC2_PCKT_MB2
0x7C
00000000
Register Map
Description
SC
Clear bit for NEW_AVI_INFO_RAW and NEW_AVI_INFO_ST bits.
0 - No function
1 - Clear NEW_AVI_INFO_RAW and NEW_AVI_INFO_ST
R/W
INT2 interrupt mask for New ISRC2 Packet interrupt. When set the New ISRC2 interrupt will trigger the INT2 interrupt and
NEW_ISRC2_ST will indicate the interrupt status.
0 - Disables New ISRC2 Packet interrupt for INT2
1 - Enables New ISRC2 Packet interrupt for INT2
NEW_ISRC1_PCKT_MB2
0x7C
00000000
NEW_ACP_PCKT_MB2
0x7C
00000000
NEW_VS_INFO_MB2
0x7C
00000000
R/W
INT2 interrupt mask for New ISRC1 Packet interrupt. When set the New ISRC2 interrupt will trigger the INT2 interrupt and
NEW_ISRC1_ST will indicate the interrupt status.
0 - Disables New ISRC1 Packet interrupt for INT2
1 - Enables New ISRC1 Packet interrupt for INT2
R/W
INT2 interrupt mask for New ACP Packet interrupt. When set the New ACP interrupt will trigger the INT2 interrupt and
NEW_ACP_ST will indicate the interrupt status.
0 - Disables New ACP Packet interrupt for INT2
1 - Enables New ACP Packet interrupt for INT2
R/W
INT2 interrupt mask for New Vendor Specific Infoframe interrupt. When set the New Vendor Specific Infoframe interrupt
will trigger the INT2 interrupt and NEW_VS_INFO_ST will indicate the interrupt status.
0 - Disables New VS Infoframe interrupt for INT2
1 - Enables New VS Infoframe interrupt for INT2
NEW_MS_INFO_MB2
0x7C
00000000
NEW_SPD_INFO_MB2
0x7C
00000000
R/W
INT2 interrupt mask for New MPEG Source Infoframe interrupt. When set the New MPEG Source Infoframe interrupt will
trigger the INT2 interrupt and NEW_SPD_INFO_ST will indicate the interrupt status.
0 - Disables New MS Infoframe interrupt for INT2
1 - Enables New MS Infoframe interrupt for INT2
R/W
INT2 interrupt mask for New Source Product Descriptor Infoframe interrupt. When set the New Source Product Descriptor
Infoframe interrupt will trigger the INT2 interrupt and NEW_SPD_INFO_ST will indicate the interrupt status.
0 - Disables New SPD Infoframe interrupt for INT2
1 - Enables New SPD Infoframe interrupt for INT2
NEW_AUDIO_INFO_MB2
0x7C
00000000
NEW_AVI_INFO_MB2
0x7C
00000000
NEW_ISRC2_PCKT_MB1
0x7D
00000000
R/W
INT2 interrupt mask for New Audio Infoframe interrupt. When set the New Audio Infoframe interrupt will trigger the INT2
interrupt and NEW_AUDIO_INFO_ST will indicate the interrupt status.
0 - Disables New Audio Infoframe interrupt for INT2
1 - Enables New Audio Infoframe interrupt for INT2
R/W
INT2 interrupt mask for New AVI Infoframe detection interrupt. When set a new AVI InfoFrame detection event will cause
NEW_AVI_INFO_ST to be set and an interrupt will be generated on INT2.
0 - Disables New SPD Infoframe interrupt for INT2
1 - Enables New SPD Infoframe interrupt for INT2
R/W
INT1 interrupt mask for New ISRC2 Packet interrupt. When set the New ISRC2 interrupt will trigger the INT1 interrupt and
NEW_ISRC2_ST will indicate the interrupt status.
0 - Disables New ISRC2 Packet interrupt for INT1
1 - Enables New ISRC2 Packet interrupt for INT1
NEW_ISRC1_PCKT_MB1
0x7D
00000000
R/W
INT1 interrupt mask for New ISRC1 Packet interrupt. When set the New ISRC2 interrupt will trigger the INT1 interrupt and
NEW_ISRC1_ST will indicate the interrupt status.
0 - Disables New ISRC1 Packet interrupt for INT1
1 - Enables New ISRC1 Packet interrupt for INT1
Rev. 0
53
IO
Reg
Bits
NEW_ACP_PCKT_MB1
0x7D
00000000
Register Map
Description
R/W
INT1 interrupt mask for New ACP Packet interrupt. When set the New ACP interrupt will trigger the INT1 interrupt and
NEW_ACP_ST will indicate the interrupt status.
0 - Disables New ACP Packet interrupt for INT1
1 - Enables New ACP Packet interrupt for INT1
NEW_VS_INFO_MB1
0x7D
00000000
R/W
INT1 interrupt mask for New Vendor Specific Infoframe interrupt. When set the New Vendor Specific Infoframe interrupt
will trigger the INT1 interrupt and NEW_VS_INFO_ST will indicate the interrupt status.
0 - Disables New VS Infoframe interrupt for INT1
1 - Enables New VS Infoframe interrupt for INT1
NEW_MS_INFO_MB1
0x7D
00000000
NEW_SPD_INFO_MB1
0x7D
00000000
R/W
INT1 interrupt mask for New MPEG Source Infoframe interrupt. When set the New MPEG Source Infoframe interrupt will
trigger the INT1 interrupt and NEW_SPD_INFO_ST will indicate the interrupt status.
0 - Disables New MS Infoframe interrupt for INT1
1 - Enables New MS Infoframe interrupt for INT1
R/W
INT1 interrupt mask for New Source Product Descriptor Infoframe interrupt. When set the New Source Product Descriptor
Infoframe interrupt will trigger the INT1 interrupt and NEW_SPD_INFO_ST will indicate the interrupt status.
0 - Disables New SPD Infoframe interrupt for INT1
1 - Enables New SPD Infoframe interrupt for INT1
NEW_AUDIO_INFO_MB1
0x7D
00000000
NEW_AVI_INFO_MB1
0x7D
00000000
R/W
INT1 interrupt mask for New Audio Infoframe interrupt. When set the New Audio Infoframe interrupt will trigger the INT1
interrupt and NEW_AUDIO_INFO_ST will indicate the interrupt status.
0 - Disables New Audio Infoframe interrupt for INT1
1 - Enables New Audio Infoframe interrupt for INT1
R/W
INT1 interrupt mask for New AVI Infoframe detection interrupt. When set a new AVI InfoFrame detection event will cause
NEW_AVI_INFO_ST to be set and an interrupt will be generated on INT1.
0 - Disable new AVI Infoframe interrupt for INT1
1 - Enable new AVI Infoframe interrupt for INT1
FIFO_NEAR_OVFL_RAW
0x7E
00000000
FIFO_UNDERFLO_RAW
0x7E
00000000
FIFO_OVERFLO_RAW
0x7E
00000000
R
Status of Audio FIFO Near Overflow interrupt signal. When set to 1 it indicates the Audio FIFO is near overflow as the
number FIFO registers containing stereo data is greater or equal to value set in
AUDIO_FIFO_ALMOST_FULL_THRESHOLD. Once set, this bit will remain high until it is cleared via FIFO_NEAR_OVFL_CLR.
0 - Audio FIFO has not reached high threshold defined in AUDIO_FIFO_ALMOST_FULL_THRESHOLD [5:0]
1 - Audio FIFO has reached high threshold defined in AUDIO_FIFO_ALMOST_FULL_THRESHOLD [5:0]
R
Status of Audio FIFO Underflow interrupt signal. When set to 1 it indicates the Audio FIFO read pointer has reached the
write pointer causing the audio FIFO to underflow. Once set, this bit will remain high until it is cleared via
AUDIO_FIFO_UNDERFLO_CLR.
0 - Audio FIFO has not underflowed
1 - Audio FIFO has underflowed
R
Status of Audio FIFO Overflow interrupt signal. When set to 1 it indicates Audio FIFO write pointer has reached the read
pointer causing the audio FIFO to overflow. Once set, this bit will remain high until it is cleared via
AUDIO_FIFO_OVERFLO_CLR.
0 - Audio FIFO has not overflowed
1 - Audio FIFO has overflowed
CTS_PASS_THRSH_RAW
0x7E
00000000
R
Status of the ACR CTS value exceed threshold interrupt signal. When set to 1 it indicates the CTS Value of the ACR packets
has exceeded the threshold set by CTS_CHANGE_THRESHOLD. Once set, this bit will remain high until it is cleared via
CTS_PASS_THRSH_CLR.
0 - Audio clock regeneration CTS value has not passed the threshold
1 - Audio clock regeneration CTS value has changed more than threshold
Rev. 0
54
IO
Reg
Bits
CHANGE_N_RAW
0x7E
00000000
Register Map
Description
R
Status of the ACR N Value changed interrupt signal. When set to 1 it indicates the N Value of the ACR packets has
changed. Once set, this bit will remain high until it is cleared via CHANGE_N_CLR.
0 - Audio clock regeneration N value has not changed
1 - Audio clock regeneration N value has changed
PACKET_ERROR_RAW
0x7E
00000000
AUDIO_PCKT_ERR_RAW
0x7E
00000000
R
Status of the Packet Error interrupt signal. When set to 1 it indicates a that an any packet has been received with an
uncorrectable EEC error in either the header or body. Once set, this bit will remain high until it is cleared via
PACKET_ERROR_CLR.
0 - No uncorrectable error detected in packet header
1 - Uncorrectable error detected in an unknown packet (error in packet header)
R
Status of the Audio Packet Error interrupt signal. When set to 1 it indicates a that an Audio packet has been received with
an uncorrectable error. Once set, this bit will remain high until it is cleared via AUDIO_PCKT_ERR_CLR.
0 - No uncorrectable error detected in audio packets
1 - Uncorrectable error detected in an audio packet
NEW_GAMUT_MDATA_RAW
R
0x7E
00000000
Status of the New Gamut Metadata Packet interrupt signal. When set to 1 it indicates a that a Gamut Metadata packet has
been received with new contents. Once set, this bit will remain high until it is cleared via
NEW_GAMUT_MDATA_PCKT_CLR.
FIFO_NEAR_OVFL_ST
0x7F
00000000
0 - No new Gamut metadata packet received or no change has taken place
1 - New Gamut metadata packet received that triggered this interrupt
R
Latched status for the Audio FIFO Near Overflow interrupt. Once set this bit will remain high until the interrupt has been
cleared via FIFO_OVFL_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Audio FIFO has not reached high threshold
1 - Audio FIFO has reached high threshold
FIFO_UNDERFLO_ST
0x7F
00000000
FIFO_OVERFLO_ST
0x7F
00000000
R
Latched status for the Audio FIFO Underflow interrupt. Once set this bit will remain high until the interrupt has been
cleared via FIFO_UNDERFLO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Audio FIFO has not underflowed
1 - Audio FIFO has underflowed
R
Latched status for the Audio FIFO Overflow interrupt. Once set this bit will remain high until the interrupt has been
cleared via FIFO_OVERFLO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Audio FIFO has not overflowed
1 - Audio FIFO has overflowed
CTS_PASS_THRSH_ST
0x7F
00000000
CHANGE_N_ST
0x7F
00000000
R
Latched status for the ACR CTS Value Exceed Threshold interrupt. Once set this bit will remain high until the interrupt has
been cleared via CTS_PASS_THRSH_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt
mask bit
0 - Audio clock regeneration CTS value has not passed the threshold
1 - Audio clock regeneration CTS value has changed more than threshold
R
Latched status for the ACR N Value Changed interrupt. Once set this bit will remain high until the interrupt has been
cleared via CHANGE_N_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Audio clock regeneration N value has not changed
1 - Audio clock regeneration N value has changed
PACKET_ERROR_ST
0x7F
00000000
R
Latched status for the Packet Error interrupt. Once set this bit will remain high until the interrupt has been cleared via
PACKET_ERROR_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No uncorrectable error detected in packet header. An interrupt has not been generated.
1 - Uncorrectable error detected in an unknown packet (in packet header). An interrupt has been generated.
Rev. 0
55
IO
Reg
Bits
AUDIO_PCKT_ERR_ST
0x7F
00000000
Register Map
Description
R
Latched status for the Audio Packet Error interrupt. Once set this bit will remain high until the interrupt has been cleared
via AUDIO_PCKT_ERR_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No uncorrectable error detected in audio packets. An interrupt has not been generated.
1 - Uncorrectable error detected in an audio packet. An interrupt has been generated.
NEW_GAMUT_MDATA_ST
R
0x7F
00000000
Latched status for the New Gamut Metadata Packet interrupt. Once set this bit will remain high until the interrupt has
been cleared via NEW_GAMUT_MDATA_PCKT_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2
interrupt mask bit
FIFO_NEAR_OVFL_CLR
0x80
00000000
FIFO_UNDERFLO_CLR
0x80
00000000
FIFO_OVERFLO_CLR
0x80
00000000
CTS_PASS_THRSH_CLR
0x80
00000000
CHANGE_N_CLR
0x80
00000000
PACKET_ERROR_CLR
0x80
00000000
AUDIO_PCKT_ERR_CLR
0x80
00000000
0 - No new Gamut metadata packet received or no change has taken place. An interrupt has not been generated.
1 - New Gamut metadata packet received. An interrupt has been generated.
SC
Clear bit for the Audio FIFO Near Overflow interrupt.
0 - Does not clear
1 - Clears FIFO_NEAR_OVERL_ST
0 - Does not clear FIFO_UNDERFLO_ST
1 - Clears FIFO_UNDERFLO_ST
SC
Clear bit for the Audio FIFO Overflow interrupt.
0 - Does not clear FIFO_OVERFLO_ST
1 - Clears FIFO_OVERFLO_ST
SC
Clear bit for ACR CTS Value Exceed Threshold interrupt.
0 - Does not clear
1 - Clears CTS_PASS_THRSH_ST
SC
Clear bit for ACR N Value Changed interrupt.
0 - Does not clear CHANGE_N_ST
1 - Clears CHANGE_N_ST
SC
Clear bit for Packet Error interrupt.
0 - Does not clear PACKET_ERROR_ST
1 - Clears PACKET_ERROR_ST
SC
Clear bit for Audio Packet Error interrupt.
0 - Does not clear AUDIO_PCKT_ERR_ST
1 - Clears AUDIO_PCKT_ERR_ST
NEW_GAMUT_MDATA_CLR
0x80
00000000
Clear bit for New Gamut Metadata Packet interrupt.
FIFO_NEAR_OVFL_MB2
0x81
00000000
SC
Clear bit for the Audio FIFO Underflow interrupt.
SC
0 - Does not clear NEW_GAMUT_MDATA_ST
1 - Clears NEW_GAMUT_MDATA_ST
R/W
INT2 interrupt mask for Audio FIFO Near Overflow interrupt. When set the Audio FIFO Near Overflow interrupt will trigger
the INT2 interrupt and FIFO_NEAR_OVFL_ST will indicate the interrupt status.
0 - Disable Audio FIFO Near Overflow interrupt on INT2
1 - Enable Audio FIFO Near Overflow interrupt on INT2
FIFO_UNDERFLO_MB2
0x81
00000000
R/W
INT2 interrupt mask for Audio FIFO Underflow interrupt. When set the Audio FIFO Underflow interrupt will trigger the
INT2 interrupt and FIFO_UNDERFLO_ST will indicate the interrupt status.
0 - Disable Audio FIFO Underflow interrupt on INT2
1 - Enable Audio FIFO Underflow interrupt on INT2
Rev. 0
56
IO
Reg
Bits
FIFO_OVERFLO_MB2
0x81
00000000
Register Map
Description
R/W
INT2 interrupt mask for Audio FIFO Overflow interrupt. When set the Audio FIFO Overflow interrupt will trigger the INT2
interrupt and FIFO_OVERFLO_ST will indicate the interrupt status.
0 - Disable Audio FIFO Overflow interrupt on INT2
1 - Enable Audio FIFO Overflow interrupt on INT2
CTS_PASS_THRSH_MB2
0x81
00000000
R/W
INT2 interrupt mask for ACR CTS Value Exceed Threshold interrupt. When set the ACR CTS Value Exceed Threshold
interrupt will trigger the INT2 interrupt and CTS_PASS_THRSH_ST will indicate the interrupt status.
0 - Disable ACR CTS Value Exceeded Threshold interrupt on INT2
1 - Enable ACR CTS Value Exceeded Threshold interrupt on INT2
CHANGE_N_MB2
0x81
00000000
PACKET_ERROR_MB2
0x81
00000000
R/W
INT2 interrupt mask for ACR N Value changed interrupt. When set the ACR N Value changed interrupt will trigger the INT2
interrupt and CHANGE_N_ST will indicate the interrupt status.
0 - Disables ACR N Value Changed interrupt for INT2
1 - Enables ACR N Value Changed interrupt for INT2
R/W
INT2 interrupt mask for Packet Error interrupt. When set the Audio Packet Error interrupt will trigger the INT2 interrupt
and PACKET_ERROR_ST will indicate the interrupt status.
0 - Disables Packet Error interrupt for INT2
1 - Enables Packet Error interrupt for INT2
AUDIO_PCKT_ERR_MB2
0x81
00000000
R/W
INT2 interrupt mask for Audio Packet Error interrupt. When set the Audio Packet Error interrupt will trigger the INT2
interrupt and AUDIO_PCKT_ERR_ST will indicate the interrupt status.
0 - Disables Audio Packet Error interrupt for INT2
1 - Enables Audio Packet Error interrupt for INT2
NEW_GAMUT_MDATA_MB2
R/W
0x81
00000000
INT2 interrupt mask for New Gamut Metadata packet interrupt. When set the New Gamut Metadata packet interrupt will
trigger the INT2 interrupt and NEW_GAMUT_MDATA_PCKT_ST will indicate the interrupt status.
0 - Disables New Gamut metadata Infoframe interrupt for INT2
1 - Enables New SPD Infoframe interrupt for INT2
FIFO_NEAR_OVFL_MB1
0x82
00000000
FIFO_UNDERFLO_MB1
0x82
00000000
FIFO_OVERFLO_MB1
0x82
00000000
R/W
INT1 interrupt mask for Audio FIFO Near Overflow interrupt. When set the Audio FIFO Overflow interrupt will trigger the
INT1 interrupt and FIFO_NEAR_OVFL_ST will indicate the interrupt status.
0 - Disable Audio FIFO Overflow interrupt on INT1
1 - Enable Audio FIFO Overflow interrupt on INT1
R/W
INT1 interrupt mask for Audio FIFO Overflow interrupt. When set the Audio FIFO Overflow interrupt will trigger the INT1
interrupt and FIFO_OVERFLO_ST will indicate the interrupt status.
0 - Disable Audio FIFO Overflow interrupt on INT1
1 - Enable Audio FIFO Overflow interrupt on INT1
R/W
INT1 interrupt mask for Audio FIFO Overflow interrupt. When set the Audio FIFO Overflow interrupt will trigger the INT1
interrupt and FIFO_OVERFLO_ST will indicate the interrupt status.
0 - Disable Audio FIFO Overflow interrupt on INT1
1 - Enable Audio FIFO Overflow interrupt on INT1
CTS_PASS_THRSH_MB1
0x82
00000000
CHANGE_N_MB1
0x82
00000000
R/W
INT1 interrupt mask for ACR CTS Value Exceed Threshold interrupt. When set the ACR CTS Value Exceed Threshold
interrupt will trigger the INT1 interrupt and CTS_PASS_THRSH_ST will indicate the interrupt status.
0 - Disable ACR CTS Value Exceeded Threshold interrupt on INT1
1 - Enable ACR CTS Value Exceeded Threshold interrupt on INT1
R/W
INT1 interrupt mask for ACR N Value changed interrupt. When set the ACR N Value changed interrupt will trigger the INT1
interrupt and CHANGE_N_ST will indicate the interrupt status.
0 - Disables ACR N Value Changed interrupt for INT1
1 - Enables ACR N Value Changed interrupt for INT1
Rev. 0
57
IO
Reg
Bits
PACKET_ERROR_MB1
0x82
00000000
Register Map
Description
R/W
INT1 interrupt mask for Packet Error interrupt. When set the Audio Packet Error interrupt will trigger the INT1 interrupt
and PACKET_ERROR_ST will indicate the interrupt status.
0 - Disables Packet Error interrupt for INT1
1 - Enables Packet Error interrupt for INT1
AUDIO_PCKT_ERR_MB1
0x82
00000000
R/W
INT1 interrupt mask for Audio Packet Error interrupt. When set the Audio Packet Error interrupt will trigger the INT1
interrupt and AUDIO_PCKT_ERR_ST will indicate the interrupt status.
0 - Disables Audio Packet Error interrupt for INT1
1 - Enables Audio Packet Error interrupt for INT1
NEW_GAMUT_MDATA_MB1
R/W
0x82
00000000
INT1 interrupt mask for New Gamut Metadata packet interrupt. When set the New Gamut Metadata packet interrupt will
trigger the INT1 interrupt and NEW_GAMUT_MDATA_PCKT_ST will indicate the interrupt status.
0 - Disables New Gamut METADATA Infoframe interrupt for INT1
1 - Enables New SPD Infoframe interrupt for INT1
DEEP_COLOR_CHNG_RAW
R
0x83
00000000
Status of Deep Color Mode Changed Interrupt signal. When set to 1 it indicates a change in the deep color mode has
been detected. Once set, this bit will remain high until it is cleared via DEEP_COLOR_CHNG_CLR.
0 - Deep color mode has not changed
1 - Change in deep color triggered this interrupt
VCLK_CHNG_RAW
0x83
00000000
R
Status of Video Clock Changed Interrupt signal. When set to 1 it indicates that irregular or missing pulses are detected in
the TMDS clock. Once set, this bit will remain high until it is cleared via VCLK_CHNG_CLR.
0 - No irregular or missing pulse detected in TMDS clock
1 - Irregular or missing pulses detected in TMDS clock triggered this interrupt
AUDIO_MODE_CHNG_RAW
R
0x83
00000000
Status of Audio Mode Change Interrupt signal. When set to 1 it indicates that the type of audio packet received has
changed. The following are considered Audio modes, No Audio Packets, Audio Sample Packet, DSD packet, HBR Packet or
DST Packet. Once set, this bit will remain high until it is cleared via AUDIO_MODE_CHNG_CLR.
0 - Audio mode has not changed.
1 - Audio mode has changed.
PARITY_ERROR_RAW
0x83
00000000
NEW_SAMP_RT_RAW
0x83
00000000
R
Status of Parity Error Interrupt signal. When set to 1 it indicates an audio sample packet has been received with parity
error. Once set, this bit will remain high until it is cleared via PARITY_ERROR_CLR.
0 - No parity error detected in audio packets
1 - Parity error has been detected in an audio packet
R
Status of new sampling rate interrupt signal. When set to 1 it indicates that audio sampling frequency field in channel
status data has changed. Once set, this bit will remain high until it is cleared via NEW_SAMP_RT _CLR.
0 - Sampling rate bits of the channel status data on audio channel 0 have not changed
1 - Sampling rate bits of the channel status data on audio channel 0 have changed
AUDIO_FLT_LINE_RAW
0x83
00000000
NEW_TMDS_FRQ_RAW
0x83
00000000
R
Status of Audio Flat Line interrupt signal. When set to 1 it indicates audio sample packet has been received with the Flat
line bit set to 1. Once set, this bit will remain high until it is cleared via AUDIO_FLT_LINE_CLR.
0 - Audio sample packet with flat line bit set has not been received
1 - Audio sample packet with flat line bit set has been received
R
Status of New TMDS Frequency interrupt signal. When set to 1 it indicates the TMDS Frequency has changed by more
than the tolerance set in FREQTOLERANCE[3:0]. Once set, this bit will remain high until it is cleared via
NEW_TMDS_FREQ_CLR.
0 - TMDS frequency has not changed by more than tolerance set in FREQTOLERANCE[3:0] in the HDMI Map
1 - TMDS frequency has changed by more than tolerance set in FREQTOLERANCE[3:0] in the HDMI Map
Rev. 0
58
IO
Reg
Bits
FIFO_NEAR_UFLO_RAW
0x83
00000000
DEEP_COLOR_CHNG_ST
0x84
00000000
VCLK_CHNG_ST
0x84
00000000
Register Map
Description
R
Status of Audio FIFO Near Underflow interrupt signal. When set to 1 it indicates the Audio FIFO is near underflow as the
number of FIFO registers containing stereo data is less or equal to value set in
AUDIO_FIFO_ALMOST_EMPTY_THRESHOLD. Once set, this bit will remain high until it is cleared via
FIFO_NEAR_UFLO_CLR.
0 - Audio FIFO has not reached low threshold defined in AUDIO_FIFO_ALMOST_EMPTY_THRESHOLD [5:0]
1 - Audio FIFO has reached low threshold defined in AUDIO_FIFO_ALMOST_EMPTY_THRESHOLD [5:0]
R
Latched status of Deep Color Mode Change Interrupt. Once set this bit will remain high until the interrupt has been
cleared via DEEP_COLOR_CHNG_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask
bit
0 - Deep color mode has not changed
1 - Change in deep color has been detected
R
Latched status of Video Clock Change Interrupt. Once set this bit will remain high until the interrupt has been cleared via
VCLK_CHNG_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No irregular or missing pulse detected in TMDS clock
1 - Irregular or missing pulses detected in TMDS clock
AUDIO_MODE_CHNG_ST
R
0x84
00000000
Latched status of Audio Mode Change Interrupt. Once set this bit will remain high until the interrupt has been cleared via
AUDIO_MODE_CHNG_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Audio mode has not changed
1 - Audio mode has changed. The following are considered Audio modes, No Audio, PCM, DSD, HBR or DST.
PARITY_ERROR_ST
0x84
00000000
NEW_SAMP_RT_ST
0x84
00000000
R
Latched status of Parity Error Interrupt. Once set this bit will remain high until the interrupt has been cleared via
PARITY_ERROR_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No parity error detected in audio packets
1 - Parity error detected in an audio packet
R
Latched status of New Sampling Rate Interrupt. Once set this bit will remain high until the interrupt has been cleared via
NEW_SAMP_RT_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Sampling rate bits of the channel status data on audio channel 0 have not changed
1 - Sampling rate bits of the channel status data on audio channel 0 have changed.
AUDIO_FLT_LINE_ST
0x84
00000000
NEW_TMDS_FRQ_ST
0x84
00000000
FIFO_NEAR_UFLO_ST
0x84
00000000
R
Latched status of New TMDS Frequency Interrupt. Once set this bit will remain high until the interrupt has been cleared
via NEW_TMDS_FREQ_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Audio sample packet with flat line bit set has not been received
1 - Audio sample packet with flat line bit set has been received
R
Latched status of New TMDS Frequency Interrupt. Once set this bit will remain high until the interrupt has been cleared
via NEW_TMDS_FREQ_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - TMDS frequency has not changed by more than tolerance
1 - TMDS frequency has changed by more than tolerance
R
Latched status for the Audio FIFO Near Underflow interrupt. Once set this bit will remain high until the interrupt has been
cleared via FIFO_UFLO_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - Audio FIFO has not reached low threshold
1 - Audio FIFO has reached low threshold
DEEP_COLOR_CHNG_CLR
0x85
00000000
Clear bit for the Deep Color Mode Change Interrupt.
SC
0 - Does not clear DEEP_COLOR_CHNG_ST
1 - Clears DEEP_COLOR_CHNG_ST
VCLK_CHNG_CLR
0x85
00000000
SC
Clear bit for the Video Clock Change Interrupt.
0 - Does not clear VCLK_CHNG_ST
1 - Clears VCLK_CHNG_ST
Rev. 0
59
IO
Register Map
Reg
Bits
Description
AUDIO_MODE_CHNG_CLR
0x85
00000000
Clear bit for the Audio Mode Change Interrupt.
PARITY_ERROR_CLR
0x85
00000000
NEW_SAMP_RT_CLR
0x85
00000000
AUDIO_FLT_LINE_CLR
0x85
00000000
NEW_TMDS_FRQ_CLR
0x85
00000000
FIFO_NEAR_UFLO_CLR
0x85
00000000
0 - Does not clear AUDIO_MODE_CHNG_ST
1 - Clears AUDIO_MODE_CHNG_ST
SC
SC
Clear bit for the Parity Error Interrupt.
0 - Does not clear
1 - Clears PARRITY_ERROR_ST
SC
Clear bit for the New Sample Rate Interrupt.
0 - Does not clear NEW_SAMP_RT_ST
1 - Clears NEW_SAMP_RT_ST
SC
Clear bit for the Audio Flat line Interrupt.
0 - Does not clear
1 - Clears AUDIO_FLT_LINE_ST
SC
Clear bit for the New TMDS Frequency Interrupt.
0 - Does not clear NEW_TMDS_FRQ_ST
1 - Clears NEW_TMDS_FRQ_ST
SC
Clear bit for the Audio FIFO Near Underflow interrupt.
0 - Does not clear
1 - Clears FIFO_NEAR_UFLO_ST
DEEP_COLOR_CHNG_MB2
R/W
0x86
00000000
INT2 interrupt mask for Deep Color Mode Changed interrupt. When set the Deep Color Mode Changed interrupt will
trigger the INT2 interrupt and DEEP_COLOR_CHNG_ST will indicate the interrupt status.
0 - Disable Deep Color Mode Changed interrupt on INT2
1 - Enable Deep Color Mode Changed interrupt on INT2
VCLK_CHNG_MB2
0x86
00000000
R/W
INT2 interrupt mask for Video Clock Changed interrupt. When set the Video Clock Changed interrupt will trigger the INT2
interrupt and VCLK_CHNG_ST will indicate the interrupt status.
0 - Disable Video Clock Changed interrupt on INT2
1 - Enable Video Clock Changed interrupt on INT2
AUDIO_MODE_CHNG_MB2
R/W
0x86
00000000
INT2 interrupt mask for Audio Mode Change interrupt. When set the Audio Mode Change interrupt will trigger the INT2
interrupt and AUDIO_MODE_CHNG_ST will indicate the interrupt status.
PARITY_ERROR_MB2
0x86
00000000
0 - Disable Audio Mode Changed interrupt on INT2
1 - Enable Audio Mode Changed interrupt on INT2
R/W
INT2 interrupt mask for Parity Error interrupt. When set the Parity Error interrupt will trigger the INT2 interrupt and
PARITY_ERROR_ST will indicate the interrupt status.
0 - Disable Parity Error interrupt on INT2
1 - Enable Parity Error interrupt on INT2
NEW_SAMP_RT_MB2
0x86
00000000
AUDIO_FLT_LINE_MB2
0x86
00000000
R/W
INT2 interrupt mask for New Sample Rate interrupt. When set the New Sample interrupt will trigger the INT2 interrupt
and NEW_SAMP_RT_ST will indicate the interrupt status.
0 - Disable New Sample Rate interrupt on INT2
1 - Enable New Sample Rate interrupt on INT2
R/W
INT2 interrupt mask for Audio Flat line interrupt. When set the Audio Flat line interrupt will trigger the INT2 interrupt and
AUDIO_FLT_LINE_ST will indicate the interrupt status.
0 - Disable Audio Flat Line interrupt on INT2
1 - Enable Audio Flat Line interrupt on INT2
Rev. 0
60
IO
Reg
Bits
NEW_TMDS_FRQ_MB2
0x86
00000000
Register Map
Description
R/W
INT2 interrupt mask for New TMDS Frequency interrupt. When set the New TMDS Frequency interrupt will trigger the
INT2 interrupt and NEW_TMDS_ST will indicate the interrupt status.
0 - Disable New TMDS Frequency interrupt on INT2
1 - Enable New TMDS Frequency interrupt on INT2
FIFO_NEAR_UFLO_MB2
0x86
00000000
R/W
INT2 interrupt mask for Audio FIFO Near Underflow interrupt. When set the Audio FIFO Near Underflow interrupt will
trigger the INT2 interrupt and FIFO_NEAR_UFLO_ST will indicate the interrupt status.
0 - Disable Audio FIFO Near Underflow interrupt on INT2
1 - Enable Audio FIFO Near Underflow interrupt on INT2
DEEP_COLOR_CHNG_MB1
R/W
0x87
00000000
INT1 interrupt mask for Deep Color Mode Changed interrupt. When set the Deep Color Mode Changed interrupt will
trigger the INT1 interrupt and DEEP_COLOR_CHNG_ST will indicate the interrupt status.
VCLK_CHNG_MB1
0x87
00000000
0 - Disable Deep Color Mode Change interrupt on INT1
1 - Enable Deep Color Mode interrupt on INT1
R/W
INT1 interrupt mask for Video Clock Changed interrupt. When set the Video Clock Changed interrupt will trigger the INT1
interrupt and VCLK_CHNG_ST will indicate the interrupt status.
0 - Disable Video Clock Change interrupt on INT1
1 - Enable Video Clock Change interrupt on INT1
AUDIO_MODE_CHNG_MB1
R/W
0x87
00000000
INT1 interrupt mask for Audio Mode Changed interrupt. When set the Audio Mode Changed interrupt will trigger the
INT1 interrupt and AUDIO_MODE_CHNG_ST will indicate the interrupt status.
PARITY_ERROR_MB1
0x87
00000000
0 - Disable Audio Mode Change interrupt on INT1
1 - Enable Audio Mode Change interrupt on INT1
R/W
INT1 interrupt mask for Parity Error interrupt. When set the Parity Error interrupt will trigger the INT1 interrupt and
PARITY_ERROR_ST will indicate the interrupt status.
0 - Disable Parity Error interrupt on INT1
1 - Enable Parity Error interrupt on INT1
NEW_SAMP_RT_MB1
0x87
00000000
AUDIO_FLT_LINE_MB1
0x87
00000000
NEW_TMDS_FRQ_MB1
0x87
00000000
R/W
INT1 interrupt mask for New Sample Rate interrupt. When set the New Sample Rate interrupt will trigger the INT1
interrupt and NEW_SAMP_RT_ST will indicate the interrupt status.
0 - Disable New Sample Rate interrupt on INT1
1 - Enable New Sample Rate interrupt on INT1
R/W
INT1 interrupt mask for Audio Flat Line interrupt. When set the Audio Flat Line interrupt will trigger the INT1 interrupt
and AUDIO_FLT_LINE_ST will indicate the interrupt status.
0 - Disable Audio Flat Line interrupt on INT1
1 - Enable Audio Flat Line interrupt on INT1
R/W
INT1 interrupt mask for New TMDS Frequency interrupt. When set the New TMDS Frequency interrupt will trigger the
INT1 interrupt and NEW_TMDS_FREQ_ST will indicate the interrupt status.
0 - Disable New TMDS Frequency interrupt on INT1
1 - Enable New TMDS Frequency interrupt on INT1
FIFO_NEAR_UFLO_MB1
0x87
00000000
MS_INF_CKS_ERR_RAW
0x88
00000000
R/W
INT1 interrupt mask for Audio FIFO Near Underflow interrupt. When set the Audio FIFO Near Underflow interrupt will
trigger the INT1 interrupt and FIFO_UFLO_ST will indicate the interrupt status.
0 - Disable Audio FIFO Overflow interrupt on INT1
1 - Enable Audio FIFO Overflow interrupt on INT1
R
Status of MPEG Source Infoframe Checksum Error interrupt signal. When set to 1 it indicates that a checksum error has
been detected for an MPEG Source Infoframe. Once set, this bit will remain high until it is cleared via
MS_INF_CKS_ERR_CLR.
0 - No MPEG source infoframe checksum error has occurred
1 - An MPEG source infoframe checksum error has occurred
Rev. 0
61
IO
Reg
Bits
SPD_INF_CKS_ERR_RAW
0x88
00000000
Register Map
Description
R
Status of SPD Infoframe Checksum Error interrupt signal. When set to 1 it indicates that a checksum error has been
detected for an SPD Infoframe. Once set, this bit will remain high until it is cleared via ASPD_INF_CKS_ERR_CLR.
0 - No SPD infoframe checksum error has occurred
1 - An SPD infoframe checksum error has occurred
AUD_INF_CKS_ERR_RAW
R
0x88
00000000
Status of Audio Infoframe Checksum Error interrupt signal. When set to 1 it indicates that a checksum error has been
detected for an Audio Infoframe. Once set, this bit will remain high until it is cleared via AUDIO_INF_CKS_ERR_CLR.
0 - No Audio infoframe checksum error has occurred
1 - An Audio infoframe checksum error has occurred
AVI_INF_CKS_ERR_RAW
0x88
00000000
RI_EXPIRED_A_RAW
0x88
00000000
R
Status of AVI Infoframe Checksum Error interrupt signal. When set to 1 it indicates that a checksum error has been
detected for an AVI InfoFrame. Once set, this bit will remain high until it is cleared via AVI_INF_CKS_ERR_CLR.
0 - No AVI infoframe checksum error has occurred
1 - An AVI infoframe checksum error has occurred
R
Status of Port A Ri expired Interrupt signal. When set to 1 it indicates that HDCP cipher Ri value for Port A expired. Once
set, this bit will remain high until it is cleared via RI_EXPIRED_A_CLR.
0 - No Ri expired on port A
1 - Ri expired on port A
AKSV_UPDATE_A_RAW
0x88
00000000
MS_INF_CKS_ERR_ST
0x89
00000000
R
Status of Port A AKSV Update Interrupt signal. When set to 1 it indicates that transmitter has written its AKSV into HDCP
registers for Port A. Once set, this bit will remain high until it is cleared via AKSV_UPDATE_A_CLR.
0 - No AKSV updates on port A
1 - Detected a write access to the AKSV register on port A
R
Latched status of MPEG Source Infoframe Checksum Error interrupt. Once set this bit will remain high until the interrupt
has been cleared via MS_INF_CKS_ERR_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt
mask bit
0 - No change in MPEG source infoframe checksum error
1 - An MPEG source infoframe checksum error has triggered this interrupt
SPD_INF_CKS_ERR_ST
0x89
00000000
AUD_INF_CKS_ERR_ST
0x89
00000000
AVI_INF_CKS_ERR_ST
0x89
00000000
R
Latched status of SPD Infoframe Checksum Error interrupt. Once set this bit will remain high until the interrupt has been
cleared via SPD_INF_CKS_ERR_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No change in SPD infoframe checksum error
1 - An SPD infoframe checksum error has triggered this interrupt
R
Latched status of Audio Infoframe Checksum Error interrupt. Once set this bit will remain high until the interrupt has
been cleared via AUDIO_INF_CKS_ERR_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt
mask bit
0 - No change in Audio infoframe checksum error
1 - An Audio infoframe checksum error has triggered this interrupt
R
Latched status of AVI Infoframe Checksum Error interrupt. Once set this bit will remain high until the interrupt has been
cleared via AVI_INF_CKS_ERR_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No change in AVI infoframe checksum error
1 - An AVI infoframe checksum error has triggered this interrupt
RI_EXPIRED_A_ST
0x89
00000000
R
Latched status of Port A Ri expired Interrupt. Once set this bit will remain high until the interrupt has been cleared via
RI_EXPIRED_A_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No Ri expired on port A
1 - Ri expired on port A
AKSV_UPDATE_A_ST
0x89
00000000
R
Latched status of Port A AKSV Update Interrupt. Once set this bit will remain high until the interrupt has been cleared via
AKSV_UPDATE_A_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt mask bit
0 - No AKSV updates on port A
1 - Detected a write access to the AKSV register on port A
Rev. 0
62
IO
Reg
Bits
MS_INF_CKS_ERR_CLR
0x8A
00000000
SPD_INF_CKS_ERR_CLR
0x8A
00000000
AUD_INF_CKS_ERR_CLR
0x8A
00000000
AVI_INF_CKS_ERR_CLR
0x8A
00000000
RI_EXPIRED_A_CLR
0x8A
00000000
AKSV_UPDATE_A_CLR
0x8A
00000000
MS_INF_CKS_ERR_MB2
0x8B
00000000
Register Map
Description
SC
Clear bit for the MPEG Source Infoframe Checksum Error Interrupt.
0 - Does not clear MS_INF_CKS_ERR_ST
1 - Clears MS_INF_CKS_ERR_ST
SC
Clear bit for the SPD Infoframe Checksum Error Interrupt.
0 - Does not clear
1 - Clears SPD_INF_CKS_ERR_ST
SC
Clear bit for the Audio Infoframe Checksum Error Interrupt.
0 - Does not clear AUD_INF_CKS_ERR_ST
1 - Clears AUD_INF_CKS_ERR_ST
SC
Clear bit for the AVI Infoframe Checksum Error Interrupt.
0 - Does not clear AVI_INF_CKS_ERR_ST
1 - Clears AVI_INF_CKS_ERR_ST
SC
Clear bit for the Port A Ri expired Interrupt.
0 - Does not clear RI_EXPIRED_A_ST
1 - Clears RI_EXPIRED_A_ST
SC
Clear bit for the Port A AKSV Update Interrupt.
0 - Does not clear
1 - Clears AKSV_UPDATE_A_ST
R/W
INT2 interrupt mask for MPEG Source Infoframe Checksum Error interrupt. When set the MPEG Source Infoframe
Checksum Error interrupt will trigger the INT2 interrupt and MS_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable MPEG Source Infoframe Checksum Error interrupt on INT2
1 - Enable MPEG Source Infoframe Checksum Error interrupt on INT2
SPD_INF_CKS_ERR_MB2
0x8B
00000000
AUD_INF_CKS_ERR_MB2
0x8B
00000000
AVI_INF_CKS_ERR_MB2
0x8B
00000000
R/W
INT2 interrupt mask for SPD Infoframe Checksum Error interrupt. When set the SPD Infoframe Checksum Error interrupt
will trigger the INT2 interrupt and SPD_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable SPD Infoframe Checksum Error interrupt on INT2
1 - Enable SPD Infoframe Checksum Error interrupt on INT2
R/W
INT2 interrupt mask for Audio Infoframe Checksum Error interrupt. When set the Audio Infoframe Checksum Error
interrupt will trigger the INT2 interrupt and AUDIO_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable Audio Infoframe Checksum Error interrupt on INT2
1 - Enable Audio Infoframe Checksum Error interrupt on INT2
R/W
INT2 interrupt mask for AVI Infoframe Checksum Error interrupt. When set the AVI Infoframe Checksum Error interrupt will
trigger the INT2 interrupt and AVI_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable AVI Infoframe Checksum Error interrupt on INT2
1 - Enable AVI Infoframe Checksum Error interrupt on INT2
RI_EXPIRED_A_MB2
0x8B
00000000
AKSV_UPDATE_A_MB2
0x8B
00000000
R/W
INT2 interrupt mask for Port A Ri expired interrupt. When set the Port A Ri expired interrupt will trigger the INT2 interrupt
and RI_EXPIRED_A_ST will indicate the interrupt status.
0 - Disable Port A Ri expired interrupt on INT2
1 - Enable Port A Ri expired interrupt on INT2
R/W
INT2 interrupt mask for Port A AKSV Update interrupt. When set the Port A AKSV Update interrupt will trigger the INT2
interrupt and AKSV_UPDATE_A_ST will indicate the interrupt status.
0 - Disable Port A AKSV Update interrupt on INT2
1 - Enable Port A AKSV Update interrupt on INT2
Rev. 0
63
IO
Reg
Bits
MS_INF_CKS_ERR_MB1
0x8C
00000000
Register Map
Description
R/W
INT1 interrupt mask for MPEG Source Infoframe Checksum Error interrupt. When set the MPEG Source Infoframe
Checksum Error interrupt will trigger the INT1 interrupt and MS_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable SPD Infoframe Checksum Error interrupt on INT1
1 - Enable SPD Infoframe Checksum Error interrupt on INT1
SPD_INF_CKS_ERR_MB1
0x8C
00000000
R/W
INT1 interrupt mask for SPD Infoframe Checksum Error interrupt. When set the SPD Infoframe Checksum Error interrupt
will trigger the INT1 interrupt and SPD_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable SPD Infoframe Checksum Error interrupt on INT1
1 - Enable SPD Infoframe Checksum Error interrupt on INT1
AUD_INF_CKS_ERR_MB1
0x8C
00000000
AVI_INF_CKS_ERR_MB1
0x8C
00000000
R/W
INT1 interrupt mask for Audio Infoframe Checksum Error interrupt. When set the Audio Infoframe Checksum Error
interrupt will trigger the INT1 interrupt and AUDIO_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable Audio Infoframe Checksum Error interrupt on INT1
1 - Enable Audio Infoframe Checksum Error interrupt on INT1
R/W
INT1 interrupt mask for AVI Infoframe Checksum Error interrupt. When set the AVI Infoframe Checksum Error interrupt will
trigger the INT1 interrupt and AVI_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable AVI Infoframe Checksum Error interrupt on INT1
1 - Enable AVI Infoframe Checksum Error interrupt on INT1
RI_EXPIRED_A_MB1
0x8C
00000000
AKSV_UPDATE_A_MB1
0x8C
00000000
R/W
INT1 interrupt mask for Port A Ri expired interrupt. When set the Port A AKSV Update interrupt will trigger the INT1
interrupt and RI_EXPIRED_A_ST will indicate the interrupt status.
0 - Disable Port A Ri expired interrupt on INT1
1 - Enable Port BARi expired interrupt on INT1
R/W
INT1 interrupt mask for Port A AKSV Update interrupt. When set the Port A AKSV Update interrupt will trigger the INT1
interrupt and AKSV_UPDATE_A_ST will indicate the interrupt status.
0 - Disable Port A AKSV Update interrupt on INT1
1 - Enable Port A AKSV Update interrupt on INT1
VS_INF_CKS_ERR_RAW
0x8D
00000000
VS_INF_CKS_ERR_ST
0x8E
00000000
VS_INF_CKS_ERR_CLR
0x8F
00000000
VS_INF_CKS_ERR_MB2
0x90
00000000
R
Status of Vendor Specific Infoframe Checksum Error interrupt signal. When set to 1 it indicates that a checksum error has
been detected for an Vendor Specific Infoframe. Once set, this bit will remain high until it is cleared via
VS_INF_CKS_ERR_CLR.
0 - No VS infoframe checksum error has occurred
1 - A VS infoframe checksum error has occurred
R
Latched status of MPEG Source Infoframe Checksum Error interrupt. Once set this bit will remain high until the interrupt
has been cleared via MS_INF_CKS_ERR_CLR. This bit is only valid if enabled via corresponding the INT1 or INT2 interrupt
mask bit
0 - No change in VS infoframe checksum error
1 - A VS infoframe checksum error has triggered this interrupt
SC
Clear bit for the Vendor Specific Infoframe Checksum Error Interrupt.
0 - Does not clear
1 - Clears VS_INF_CKS_ERR_ST
R/W
INT2 interrupt mask for Vendor Specific Infoframe Checksum Error interrupt. When set the Vendor Specific Infoframe
Checksum Error interrupt will trigger the INT2 interrupt and VS_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable Vendor Specific Infoframe Checksum Error interrupt on INT2
1 - Enable Vendor Specific Infoframe Checksum Error interrupt on INT2
VS_INF_CKS_ERR_MB1
0x91
00000000
R/W
INT1 interrupt mask for Vendor Specific Infoframe Checksum Error interrupt. When set the Vendor Specific Infoframe
Checksum Error interrupt will trigger the INT1 interrupt and VS_INF_CKS_ERR_ST will indicate the interrupt status.
0 - Disable Vendor Specific Checksum Error interrupt on INT1
1 - Enable Vendor Specific Checksum Error interrupt on INT1
Rev. 0
64
IO
Reg
Bits
CEC_RX_RDY2_RAW
0x92
00000000
Register Map
Description
R
Raw status of CEC Receiver Buffer 2 Ready signal. When set to 1 it indicates that a CEC frame has been received and is
waiting to be read in receiver frame buffer 2.
0 - No change
1 - CEC Rx buffer 2 has received a complete message which is ready be read by the host
CEC_RX_RDY1_RAW
0x92
00000000
R
Raw status of CEC Receiver Buffer 1 Ready signal. When set to 1 it indicates that a CEC frame has been received and is
waiting to be read in receiver frame buffer 1.
0 - No change
1 - CEC Rx buffer 1 has received a complete message which is ready be read by the host
CEC_RX_RDY0_RAW
0x92
00000000
R
Raw status of CEC Receiver Buffer 0 Ready signal. When set to 1 it indicates that a CEC frame has been received and is
waiting to be read in receiver frame buffer 0.
0 - No change
1 - CEC Rx buffer 0 has received a complete message which is ready be read by the host
CEC_TX_RETRY_TIMEOUT_RAW
0x92
00000000
Raw status of CEC Transmitter retry timeout signal.
R
0 - No change
1 - CEC TX has retried to send the current message by the no. of times specified in the TX_RETRY_REGISTER but it
was unsuccessful every time
CEC_TX_ARBITRATION_LOST_RAW
R
0x92
00000000
Raw status of CEC Transmitter Arbitration lost signal.
CEC_TX_READY_RAW
0x92
00000000
0 - No change
1 - CEC TX has lost arbitration to another TX
R
Raw status of CEC Transmitter 'message sent' signal. This bit will be go high whenever the TX has successfully sent a
message.
0 - No change
1 - CEC TX has successfully sent the last outgoing message
CEC_RX_RDY2_ST
0x93
00000000
R
Latched status of CEC_RX_RDY2_RAW signal. This bit is only valid if enabled via the corresponding INT1 or INT2 interrupt
mask bit. When a message has been received into buffer 2 this bit is set. Once set this bit will remain high until the
interrupt has been cleared via CEC_RX_RDY0_CLR.
0 - No change
1 - New CEC message received in buffer 2
CEC_RX_RDY1_ST
0x93
00000000
CEC_RX_RDY0_ST
0x93
00000000
R
Latched status of CEC_RX_RDY1_RAW signal. This bit is only valid if enabled via the corresponding INT1 or INT2 interrupt
mask bit. When a message has been received into buffer 1 this bit is set. Once set this bit will remain high until the
interrupt has been cleared via CEC_RX_RDY0_CLR.
0 - No change
1 - New CEC message received in buffer 1
R
Latched status of CEC_RX_RDY0_RAW signal. This bit is only valid if enabled via the corresponding INT1 or INT2 interrupt
mask bit. When a message has been received into buffer 0 this bit is set. Once set this bit will remain high until the
interrupt has been cleared via CEC_RX_RDY0_CLR.
0 - No change
1 - New CEC message received in buffer 0
CEC_TX_RETRY_TIMEOUT_ST
R
0x93
00000000
Latched status of CEC_TX_RETRY_TIMEOUT_RAW signal. This bit is only valid if enabled via the corresponding INT1 or
INT2 interrupt mask bit. If the CEC TX fails to send the current message within the number of retry attempts specified by
CEC_TX_RETRY this bit is set. Once set this bit will remain high until the interrupt has been cleared via
CEC_TX_RETRY_TIMEOUT_CLR.
0 - No change
1 - CEC TX has tried but failed to resend the current message for the number of times specified by CEC_TX_RETRY
Rev. 0
65
IO
Register Map
Reg
Bits
Description
CEC_TX_ARBITRATION_LOST_ST
R
0x93
00000000
Latched status of CEC_TX_ARBITRATION_LOST_RAW signal. This bit is only valid if enabled via the corresponding INT1 or
INT2 interrupt mask bit. If the CEC TX loses arbitration while trying to send a message this bit is set. Once set this bit will
remain high until the interrupt has been cleared via CEC_TX_ARBITRATION_LOST_CLR.
0 - No change
1 - The CEC TX has lost arbitration to another TX
CEC_TX_READY_ST
0x93
00000000
R
Latched status of CEC_TX_READY_RAW signal. This bit is only valid if enabled via the corresponding INT1 or INT2
interrupt mask bit. When the CEC TX successfully sends the current message this bit is set. Once set this bit will remain
high until the interrupt has been cleared via CEC_TX_READY_CLR.
0 - No change
1 - Message transmitted successfully
CEC_RX_RDY2_CLR
0x94
00000000
SC
Clear bit for CEC Receiver Buffer 2 Ready interrupt.
0 - Does not clear CEC_RX_RDY2_ST
1 - Clears CEC_RX_RDY2_ST
CEC_RX_RDY1_CLR
0x94
00000000
SC
Clear bit for CEC Receiver Buffer 1 Ready interrupt.
0 - Does not clear CEC_RX_RDY1_ST
1 - Clears CEC_RX_RDY1_ST
CEC_RX_RDY0_CLR
0x94
00000000
SC
Clear bit for CEC Receiver Buffer 0 Ready interrupt.
0 - Does not clear CEC_RX_RDY0_ST
1 - Clears CEC_RX_RDY0_ST
CEC_TX_RETRY_TIMEOUT_CLR
0x94
00000000
Clear bit for CEC Transmitter Retry Timeout interrupt.
0 - Does not clear CEC_TX_RETRY_TIMEOUT_ST
1 - Clears CEC_TX_RETRY_TIMEOUT_ST
CEC_TX_ARBITRATION_LOST_CLR
0x94
00000000
Clear bit for CEC Transmitter Arbitration Lost interrupt.
SC
SC
0 - Does not clear CEC_TX_ARBITRATION_LOST_ST
1 - Clears CEC_TX_ARBITRATION_LOST_ST
CEC_TX_READY_CLR
0x94
00000000
SC
Clear bit for CEC Transmitter Ready interrupt.
0 - Does not clear CEC_TX_READY_ST
1 - Clears CEC_TX_READY_ST
CEC_RX_RDY2_MB2
0x95
00000000
CEC_RX_RDY1_MB2
0x95
00000000
R/W
INT2 interrupt mask for CEC Receiver Buffer 2 Ready interrupt. When set the CEC Receiver Buffer 2 Ready interrupt will
trigger the INT2 interrupt and CEC_RX_RDY2_ST will indicate the interrupt status.
0 - Disables CEC Receiver Buffer 2 Ready interrupt on INT2
1 - Enables CEC Receiver Buffer 2 Ready interrupt on INT2
R/W
INT2 interrupt mask for CEC Receiver Buffer 2 Ready interrupt. When set the CEC Receiver Buffer 2 Ready interrupt will
trigger the INT2 interrupt and CEC_RX_RDY2_ST will indicate the interrupt status.
0 - Disables CEC Receiver Buffer 1 Ready interrupt on INT2
1 - Enables CEC Receiver Buffer 1 Ready interrupt on INT2
CEC_RX_RDY0_MB2
0x95
00000000
R/W
INT2 interrupt mask for CEC Receiver Buffer 0 Ready interrupt. When set the CEC Receiver Buffer 0 Ready interrupt will
trigger the INT2 interrupt and CEC_RX_RDY0_ST will indicate the interrupt status.
0 - Disables CEC Receiver Buffer 0 Ready interrupt on INT2
1 - Enables CEC Receiver Buffer 0 Ready interrupt on INT2
CEC_TX_RETRY_TIMEOUT_MB2
R/W
0x95
00000000
INT2 interrupt mask for CEC Transmitter Retry Timeout interrupt. When set the CEC Transmitter Retry Timeout interrupt
will trigger the INT2 interrupt and CEC_TX_RETRY_TIMEOUT_ST will indicate the interrupt status.
0 - Disables CEC Receiver Transmitter Timeout Retry interrupt on INT2
1 - Enables CEC Receiver Transmitter Timeout Retry interrupt on INT2
Rev. 0
66
IO
Register Map
Reg
Bits
Description
CEC_TX_ARBITRATION_LOST_MB2
R/W
0x95
00000000
INT2 interrupt mask for CEC Transmitter Arbitration Lost interrupt. When set the CEC Transmitter Arbitration Lost
interrupt will trigger the INT2 interrupt and CEC_TX_ARBIRATION_LOST_ST will indicate the interrupt status.
0 - Disables CEC Receiver Transmitter Arbitration Lost interrupt on INT2
1 - Enables CEC Receiver Transmitter Arbitration Lost interrupt on INT2
CEC_TX_READY_MB2
0x95
00000000
R/W
INT2 interrupt mask for CEC Transmitter Ready interrupt. When set the CEC Transmitter Ready interrupt will trigger the
INT2 interrupt and CEC_TX_RDY_ST will indicate the interrupt status.
0 - Disables CEC Receiver Transmitter Ready interrupt on INT2
1 - Enables CEC Receiver Transmitter Ready interrupt on INT2
CEC_RX_RDY2_MB1
0x96
00000000
CEC_RX_RDY1_MB1
0x96
00000000
R/W
INT1 interrupt mask for CEC Receiver Buffer 2 Ready interrupt. When set the CEC Receiver Buffer 2 Ready interrupt will
trigger the INT1 interrupt and CEC_RX_RDY2_ST will indicate the interrupt status.
0 - Disables CEC Receiver Buffer 2 Ready interrupt on INT1
1 - Enables CEC Receiver Buffer 2 Ready interrupt on INT1
R/W
INT1 interrupt mask for CEC Receiver Buffer 2 Ready interrupt. When set the CEC Receiver Buffer 2 Ready interrupt will
trigger the INT1 interrupt and CEC_RX_RDY2_ST will indicate the interrupt status.
0 - Disables CEC Receiver Buffer 1 Ready interrupt on INT1
1 - Enables CEC Receiver Buffer 1 Ready interrupt on INT1
CEC_RX_RDY0_MB1
0x96
00000000
R/W
INT1 interrupt mask for CEC Receiver Buffer 0 Ready interrupt. When set the CEC Receiver Buffer 0 Ready interrupt will
trigger the INT1 interrupt and CEC_RX_RDY0_ST will indicate the interrupt status.
0 - Disables CEC Receiver Buffer 0 Ready interrupt on INT1
1 - Enables CEC Receiver Buffer 0 Ready interrupt on INT1
CEC_TX_RETRY_TIMEOUT_MB1
R/W
0x96
00000000
INT1 interrupt mask for CEC Transmitter Retry Timeout interrupt. When set the CEC Transmitter Retry Timeout interrupt
will trigger the INT1 interrupt and CEC_TX_RETRY_TIMEOUT_ST will indicate the interrupt status.
0 - Disables CEC Receiver Transmitter Timeout Retry interrupt on INT1
1 - Enables CEC Receiver Transmitter Timeout Retry interrupt on INT1
CEC_TX_ARBITRATION_LOST_MB1
R/W
0x96
00000000
INT1 interrupt mask for CEC Transmitter Arbitration Lost interrupt. When set the CEC Transmitter Arbitration Lost
interrupt will trigger the INT1 interrupt and CEC_TX_ARBIRATION_LOST_ST will indicate the interrupt status.
CEC_TX_READY_MB1
0x96
00000000
0 - Disables CEC Receiver Transmitter Arbitration Lost interrupt on INT1
1 - Enables CEC Receiver Transmitter Arbitration Lost interrupt on INT1
R/W
INT1 interrupt mask for CEC Transmitter Ready interrupt. When set the CEC Transmitter Ready interrupt will trigger the
INT1 interrupt and CEC_TX_RDY_ST will indicate the interrupt status.
0 - Disables CEC Receiver Transmitter Ready interrupt on INT1
1 - Enables CEC Receiver Transmitter Ready interrupt on INT1
CEC_INTERRUPT_BYTE[7:0]
0x97
00000000
One of the 8 preprogrammed commands received
00 - No change
01 - opcode 1 received.
02 - opcode 2 received.
04 - opcode 3 received.
08 - opcode 4 received.
10 - opcode 5 received.
20 - opcode 6 received.
40 - opcode 7 received.
80 - opcode 8 received.
CEC_INTERRUPT_BYTE_ST[7:0]
0x98
00000000
0 - No change
1 - one of the 8 opcodes received
CEC_INTERRUPT_BYTE_CLR[7:0]
0x99
00000000
0 - does not clear
1 - clears cec_interrupt_byte_st
Rev. 0
67
R
R
SC
DPLL
Register Map
Reg
Bits
Description
CEC_INTERRUPT_BYTE_MB2[7:0]
0x9A
00000000
0 - masks cec_interrupt_byte_st
1 - unmasks cec_interrupt_byte_st
CEC_INTERRUPT_BYTE_MB1[7:0]
0x9B
00000000
0 - masks cec_interrupt_byte_st
1 - unmasks cec_interrupt_byte_st
PIN_CHECKER_EN
0xD6
00000000
R/W
R/W
R/W
Pseudo boundary scan scheme is implemented on pixel pins P[35:0]. When enabled by setting PIN_CHECKER_EN high,
the 8-bit word in PIN_CHECKER_VAL is mapped to the pixel pins.
0 - Disabled by default
1 - The 8-bit word in PIN_CHECKER_VAL is mapped to the pins outlined in the description
PIN_CHECKER_VAL[7:0]
0xD7
00000000
MAN_OP_CLK_SEL_EN
0xDD
00000000
R/W
A control to set the used for the pin checker feature. PIN_CHECKER_VAL is output on the following pins when
PIN_CHECKER_EN is set: P[7:0] <= PIN_CHECKER_VAL[7:0] P[15:8] <= PIN_CHECKER_VAL[7:0] P[23:16] <=
PIN_CHECKER_VAL[7:0] P[31:24] <= PIN_CHECKER_VAL[7:0] P[35:32] <= PIN_CHECKER_VAL[3:0] FIELD/DE <=
PIN_CHECKER_VAL[6] VS <= PIN_CHECKER_VAL[5] HS <= PIN_CHECKER_VAL[4]
R/W
A control to select between automatic and manual output clock selection.
0 - Automatic output clock selection based on OP_FORMAT_SEL
1 - Manual output clock selection as defined by MAN_OP_CLK_SEL[2:0].
MAN_OP_CLK_SEL[2:0]
0xDD
00000000
RD_INFO[15:0]
0xEA
00000000
0xEB
00000000
R/W
A control to select the manual output clock. MAN_OP_CLK_SEL_EN must be set to 1 for this control to be valid.
000 - 1x Data clk (CP_CLK)
001 - 2x data clk (2x CP_CLK)
010 - 0.5 Data clk (half CP_CLK)
011 - 90 deg phase shifted 1xData clk (ddr_clk)
100 - Reserved. Do not use.
101 - Reserved. Do not use.
110 - Reserved. Do not use.
111 - Reserved. Do not use.
R
Chip revision code
00000000 - ES1
CEC_SLAVE_ADDR[6:0]
0xF4
00000000
R/W
Programmable I2C slave address for CEC map
INFOFRAME_SLAVE_ADDR[6:0]
0xF5
00000000
Programmable I2C slave address for Infoframe map
R/W
KSV_SLAVE_ADDR[6:0]
0xF9
00000000
R/W
Programmable I2C slave address for KSV map
EDID_SLAVE_ADDR[6:0]
0xFA
00000000
Programmable I2C slave address for EDID map
HDMI_SLAVE_ADDR[6:0]
0xFB
00000000
Programmable I2C slave address for HDMI map
CP_SLAVE_ADDR[6:0]
0xFD
00000000
Programmable I2C slave address for CP map
MAIN_RESET
0xFF
00000000
Main reset where everything, all I2C registers will be reset to their default values.
R/W
R/W
R/W
SC
0 - Normal Operation.
1 - Apply Main I2C reset.
Rev. 0
68
DPLL
2.2
Register Map
DPLL
Reg
Bits
CLK_DIVIDE_RATIO[3:0]
0xA0
00000000
MCLK_FS_N[2:0]
0xB5
00000001
Description
R/W
This sets the ratio of reference clock to crystal. F(ref) = F(xtal) * (clock ratio + 2). 0x0 forces automatic mode, in which
F(ref) is kept as close to 324MHz as possible using xtal_freq_sel[1:0] in IO map.
R/W
Selects the multiple of 128fs used for MCLK out.
000 - 128fs
001 - 256fs
010 - 384fs
011 - 512fs
100 - 640fs
101 - 768fs
110 - Not Valid
111 - Not Valid
2.3
HDMI
Reg
Bits
HDCP_A0
0x00
00000000
Description
R/W
A control to set the second LSB of the HDCP port I2C address.
0 - I2C address for HDCP port is 0x74. Used for Single-Link Mode or 1st Receiver in Dual-Link Mode
1 - I2C address for HDCP port is 0x76. Used only for a 2nd receiver Dual-link Mode.
HDMI_PORT_SELECT[2:0]
0x00
00000000
This two bit control is used for HDMI primary port selection.
MUX_DSD_OUT
0x01
00000000
000 - Port A
R/W
R/W
An override control for the DSD output
0 - Override by outputting I2S data
1 - Override by outputting DSD/DST data
OVR_AUTO_MUX_DSD_OUT
R/W
0x01
00000000
DSD/DST override control. In automatic control DSD or I2S interface is selected according to the type of packet received.
DSD/DST interface enabled if part receives DSD or DST audio sample packet. I2S interface is enabled when part receives
audio sample packets or when no packet is received. In manual mode MUX_DSD_OUT selects the output interface.
OVR_MUX_HBR
0x01
00000000
0 - Automatic DSD/DST output control
1 - Override DSD/DST output control
R/W
A control to select automatic or manual configuration for HBR outputs. Automatically, HBR outputs are encoded as SPDIF
streams. In manual mode MUX_HBR_OUT selects the audio output interface.
0 - Automatic HBR output control
1 - Manual HBR output control
MUX_HBR_OUT
0x01
00000000
R/W
A control to manually select the audio output interface for HBR data. Valid when OVR_MUX_HBR is set to 1.
0 - Override by outputting I2S data
1 - Override by outputting SPDIF data
TERM_AUTO
0x01
00000000
I2SOUTMODE[1:0]
0x03
00011000
R/W
This bit allows the user to select automatic or manual control of clock termination. If automatic mode termination is
enabled, then the termination on the port selected via HDMI_PORT_SELECT[1:0] is enabled. The termination is disabled
on all other ports.
0 - Disable Termination automatic control
1 - Enable Termination automatic control
A control to configure the I2S output interface.
00 - I2S Mode
01 - Right Justified
10 - Left Justified
11 - Raw SPDIF (IEC60958) Mode
Rev. 0
69
R/W
HDMI
Reg
Bits
I2SBITWIDTH[4:0]
0x03
00011000
AV_MUTE
0x04
00000000
HDCP_KEYS_READ
0x04
00000000
Register Map
Description
R/W
A control to adjust the bit width for right justified mode on the I2S interface.
00000 - 0 bit
00001 - 1 bit
00010 - 2 bits
- ...
11000 - 24 bits
11110 - 30 bits
11111 - 31 bits
R
Readback of AVMUTE status received in the last General Control packet received.
0 - AVMUTE not set
1 - AVMUTE set
R
A readback to indicate a successful read of the HDCP keys and/or KSV from the internal HDCP Key OTP ROM. A logic high
is returned when the read is successful.
0 - HDCP keys and/or KSV not yet read
1 - HDCP keys and/or KSV HDCP keys read
HDCP_KEY_ERROR
0x04
00000000
HDCP_RI_EXPIRED
0x04
00000000
TMDS_PLL_LOCKED
0x04
00000000
R
A readback to indicate if a checksum error occurred while reading the HDCP and/or KSV from the HDCP Key ROM Returns
1 when HDCP Key master encounters an error while reading the HDCP Key OTP ROM
0 - No error occurred while reading HDCP keys
1 - HDCP keys read error
R
Readback high when a calculated Ri has not been read by the source TX, on the active port. It remains high until next
Aksv update
R
A readback to indicate if the TMDS PLL is locked to the TMDS clock input to the selected HDMI port.
0 - The TMDS PLL is not locked
1 - The TMDS PLL is locked to the TMDS clock input to the selected HDMI port.
AUDIO_PLL_LOCKED
0x04
00000000
R
A readback to indicate the Audio DPLL lock status.
0 - The audio DPLL is not locked
1 - The audio DPLL is locked
HDMI_MODE
0x05
00000000
R
A readback to indicate whether the stream processed by the HDMI core is a DVI or an HDMI stream.
0 - DVI Mode Detected
1 - HDMI Mode Detected
HDMI_CONTENT_ENCRYPTED
0x05
00000000
A readback to indicate the use of HDCP encryption.
R
0 - The input stream processed by the HDMI core is not HDCP encrypted
1 - The input stream processed by the HDMI core is HDCP encrypted
DVI_HSYNC_POLARITY
0x05
00000000
R
A readback to indicate the polarity of the HSync encoded in the input stream
0 - The HSync is active low
1 - The HSync is active high
DVI_VSYNC_POLARITY
0x05
00000000
R
A readback to indicate the polarity of the VSync encoded in the input stream
0 - The VSync is active low
1 - The VSync is active high
Rev. 0
70
HDMI
Register Map
Reg
Bits
Description
HDMI_PIXEL_REPETITION[3:0]
R
0x05
00000000
A readback to provide the current HDMI pixel repetition value decoded from the AVI Infoframe received. The HDMI
receiver automatically discards repeated pixel data and divides the pixel clock frequency appropriately as per the pixel
repetition value.
VERT_FILTER_LOCKED
0x07
00000000
0000 - 1x
0001 - 2x
0010 - 3x
0011 - 4x
0100 - 5x
0101 - 6x
0110 - 7x
0111 - 8x
1000 - 9x
1001 - 10x
1010 - 1111 - Reserved
R
Vertical filter lock status. Indicates whether or not the vertical filter is locked and vertical synchronization parameter
measurements are valid for readback.
0 - Vertical filter has not locked
1 - Vertical filter has locked
AUDIO_CHANNEL_MODE
0x07
00000000
Flags stereo or multichannel audio packets. Note stereo packets may carry compressed multi-channel audio.
R
0 - Stereo Audio (may be compressed multichannel)
1 - Multichannel uncompressed audio detected (3-8 channels).
DE_REGEN_FILTER_LOCKED
R
0x07
00000000
DE regeneration filter lock status. Indicates that the DE regeneration section has locked to the received DE and horizontal
synchronization parameter measurements are valid for readback.
LINE_WIDTH[12:0]
0x07
00000000
0x08
00000000
0 - DE regeneration not locked
1 - DE regeneration locked to incoming DE
R
Line width is a horizontal synchronization measurement. The gives the number of active pixels in a line. This
measurement is only valid when the DE regeneration filter is locked.
00000000000 - Total number of active pixels per line.
xxxxxxxxxxx - Total number of active pixels per line.
FIELD0_HEIGHT[12:0]
0x09
00000000
0x0A
00000000
R
Field 0 Height is a vertical filter measurement. This readback gives the number of active lines in field 0. This measurement
is valid only when the vertical filter has locked.
0000000000000 - The number of active lines in Field 0
xxxxxxxxxxxxx - The number of active lines in Field 0
DEEP_COLOR_MODE[1:0]
0x0B
00000000
A readback of the deep color mode information extracted from the general control packet
HDMI_INTERLACED
0x0B
00000000
FIELD1_HEIGHT[12:0]
0x0B
00000000
0x0C
00000000
00 - 8-bits per channel
01 - 10-bits per channel
10 - 12-bits per channel
11 - 16-bits per channel (not supported)
R
HDMI input Interlace status, a vertical filter measurement.
0 - Progressive Input
1 - Interlaced Input
R
Field 1 height is a vertical filter measurement. This readback gives the number of active lines in field. This measurement is
valid only when the vertical filter has locked. Field 1 measurements are only valid when HDMI_INTERLACED is set to 1.
0000000000000 - The number of active lines in Field 1
xxxxxxxxxxxxx - The number of active lines in Field 1
Rev. 0
R
71
HDMI
Reg
Bits
FREQTOLERANCE[3:0]
0x0D
00000100
Register Map
Description
R/W
Sets the tolerance in MHz for new TMDS frequency detection. This tolerance is used for the audio mute mask
MT_MSK_VCLK_CHNG and the HDMI status bit NEW_TMDS_FRQ_RAW.
0100 - Default tolerance in MHz for new TMDS frequency detection
xxxx - Tolerance in MHz for new TMDS frequency detection
MAN_AUDIO_DL_BYPASS
R/W
0x0F
00011111
Audio Delay Bypass Manual Enable. The audio delay line is automatically active for stereo samples and bypassed for
multichannel samples. By setting MAN_AUDIO_DL_BYPASS to 1 the Audio delay bypass configuration can be set by the
user with the AUDIO_DELAY_LINE_BYPASS control.
0 - Audio delay line is automatically bypassed if multichannel audio is received. The audio delay line is
automatically enabled if stereo audio is received.
1 - Overrides automatic bypass of audio delay line. Audio delay line is applied depending on the
AUDIO_DELAY_LINE_BYPASS control.
AUDIO_DELAY_LINE_BYPASS
0x0F
00011111
Manual bypass control for the audio delay line. Only valid if MAN_AUDIO_DL_BYPASS is set to 1.
0 - Enables the audio delay line.
1 - Bypasses the audio delay line.
AUDIO_MUTE_SPEED[4:0]
0x0F
00011111
Number of samples between each volume change of 1.5dB when muting and unmuting
R/W
R/W
CTS_CHANGE_THRESHOLD[5:0]
R/W
0x10
00100101
Sets the tolerance for change in the CTS value. This tolerance is used for the audio mute mask MT_MSK_NEW_CTS and
the HDMI status bit CTS_PASS_THRSH_RAW and the HDMI interrupt status bit CTS_PASS_THRSH_ST. This register controls
the amounts of LSBs that the CTS can change before an audio mute, status change or interrupt is triggered.
100101 - Tolerance of CTS value for CTS_PASS_THRSH_RAW and MT_MSK_NEW_CTS
xxxxxx - Tolerance of CTS value for CTS_PASS_THRSH_RAW and MT_MSK_NEW_CTS
AUDIO_FIFO_ALMOST_FULL_THRESHOLD[6:0]
R/W
0x11
01111101
Sets the threshold used for FIFO_NEAR_OVRFL_RAW. FIFO_NEAR_OVRFL_ST interrupt is triggered if audio FIFO reaches
this level
AUDIO_FIFO_ALMOST_EMPTY_THRESHOLD[6:0]
R/W
0x12
00000010
Sets the threshold used for FIFO_NEAR_UFLO_RAW. FIFO_NEAR_UFLO_ST interrupt is triggered if audio FIFO goes below
this level
AC_MSK_VCLK_CHNG
0x13
01111111
R/W
Audio Coast Mask for TMDS clock change. When set the audio DPLL coasts if the TMDS clock has any irregular/missing
pulses.
1 - Audio DPLL coasts if TMDS clock any irregular/missing pulses.
0 - Audio DPLL does not coast if TMDS clock any irregular/missing pulses.
AC_MSK_VPLL_UNLOCK
0x13
01111111
R/W
Audio Coast Mask for TMDS PLL Unlock. When set the audio DPLL coasts if the TMDS PLL unlocks.
1 - Audio DPLL coasts if TMDS DPLL unlocks.
0 - Audio DPLL does not coast if TMDS DPLL unlocks.
AC_MSK_NEW_CTS
0x13
01111111
AC_MSK_NEW_N
0x13
01111111
AC_MSK_CHNG_PORT
0x13
01111111
R/W
Audio Coast Mask for a new ACR CTS value. When set the audio DPLL coasts if CTS changes by more than threshold
defined in CTS_CHANG_THRESHOLD[5:0].
1 - Audio DPLL coasts if CTS changes by more than the threshold set in register CTS_CHANGE_THRESHOLD[5:0].
0 - Audio DPLL does not coast if CTS changes by more than the threshold set in register
CTS_CHANGE_THRESHOLD[5:0].
R/W
Audio Coast Mask for a new ACR N value. When set the audio DPLL coasts if N value changes.
1 - Audio DPLL coasts if a change in the N value occurs.
0 - Audio DPLL does not coast if a change in the N value occurs.
Audio Coast Mask for a HDMI port change. When set the audio DPLL coasts if a change in the active port occurs.
1 - Audio DPLL coasts if the active port is changed.
0 - Audio DPLL does not coast if the active port is changed
Rev. 0
72
R/W
HDMI
Reg
Bits
AC_MSK_VCLK_DET
0x13
01111111
Register Map
Description
R/W
Audio Coast Mask for a TMDS clock detection. It sets the audio PLL to coast if no TMDS clock is detected on the active
port.
1 - Audio DPLL coasts if a TMDS clock is not detected on the active port.
0 - Audio DPLL does not coast if a TMDS clock is not detected on the active port.
MT_MSK_COMPRS_AUD
0x14
00111111
R/W
Audio Mute Mask for compressed audio. It sets the audio mutes if the audio received is in a compressed format.
1 - Audio mute occurs if audio is received in compressed format.
MT_MSK_AUD_MODE_CHNG
R/W
0x14
00111111
Audio Mute Mask for audio mode change. It sets audio mutes if audio changes between any of the following PCM, DSD,
HBR or DST formats.
1 - Audio mute occurs if audio changes between any of the following PCM, DSD, HBR or DST formats.
MT_MSK_PARITY_ERR
0x14
00111111
MT_MSK_VCLK_CHNG
0x14
00111111
MT_MSK_APLL_UNLOCK
0x15
11111111
MT_MSK_VPLL_UNLOCK
0x15
11111111
MT_MSK_ACR_NOT_DET
0x15
11111111
MT_MSK_FLATLINE_DET
0x15
11111111
R/W
Audio Mute Mask for a parity error. It sets the audio mutes if an audio sample packet is received with an incorrect parity
bit.
1 - Audio mute occurs if an audio sample packet is received with an incorrect parity bit.
1 - Audio mute occurs if the TMDS clock has irregular/missing pulses.
1 - Audio mute occurs if the Audio PLL unlocks.
R/W
Audio Mute Mask for TMDS PLL Unlock. When set audio mutes if the TMDS PLL unlocks.
1 - Audio mute occurs if the TMDS PLL unlocks.
R/W
Audio Mute Mask for ACR packet. When set the audio mutes if an ACR packet has not been received within one VSync.
1 - Audio mute occurs if an ACR packet has not been received within one VSync.
R/W
Audio Mute Mask for Flatline bit. When set the audio mutes if an audio packet is received with the flatline bit set.
MT_MSK_FIFO_OVERFLOW
0x15
11111111
Audio Mute Mask - FIFO Overflow
R/W
R/W
R/W
Audio Mute Mask for AVMUTE. When set the audio mutes if a general Control packet is received with the SET_AVMUTE bit
set.
1 - Audio mute occurs if AVMUTE is set by a general control packet
MT_MSK_NOT_HDMIMODE
0x16
11111111
Audio Mute Mask for a non HDMI input stream. When set the audio mutes if the HDMI_MODE bit goes low.
MT_MSK_NEW_CTS
0x16
11111111
R/W
Audio Mute Mask for Audio PLL Unlock. It sets the audio mutes if the Audio PLL unlocks.
1 - Audio mute occurs if an audio packet is received with the flatline bit set.
MT_MSK_FIFO_UNDERLFOW
0x15
11111111
Audio Mute Mask - FIFO Underflow
MT_MSK_AVMUTE
0x16
11111111
R/W
Audio Mute Mask for TMDS Clock Change. It sets the audio mutes if the TMDS clock has irregular/missing pulses.
R/W
1 - Audio mute occurs if HDMI mode bit goes low
R/W
Audio Mute Mask for a change of ACR CTS. When set the audio mutes if the CTS changes by more than the specified
threshold. CTS_CHANGE_THRESHOLD register sets this threshold.
1 - Audio mute occurs if CTS changes
MT_MSK_NEW_N
0x16
11111111
R/W
Audio Mute Mask for a New ACR N. If set the audio mutes if there is a change in the N value.
1 - Audio mute occurs if N changes
Rev. 0
73
HDMI
Register Map
Reg
Bits
Description
MT_MSK_CHMODE_CHNG
R/W
0x16
11111111
Audio Mute Mask for a audio channel mode change. When set the audio mutes if the channel mode changes between
stereo and multichannel.
1 - Audio mute occurs if channel mode changes
MT_MSK_APCKT_ECC_ERR
R/W
0x16
11111111
Audio Mute Mask for Audio Packet ECC Error. When set the audio mutes if an uncorrectable error is detected in audio
packet by the ECC block.
1 - Audio mute occurs if an uncorrectable error is detected in the audio packet by the ECC block
MT_MSK_CHNG_PORT
0x16
11111111
R/W
Audio Mute Mask for HDMI Port Change. When set the audio mutes if HDMI port selection is changed.
1 - Audio mute occurs if HDMI port selection is changed
MT_MSK_VCLK_DET
0x16
11111111
R/W
Audio Mute Mask for TMDS Clock. When set the audio mutes if a TMDS clock is not detected.
1 - Audio mute occurs if TMDS is not detected
HBR_AUDIO_PCKT_DET
0x18
00000000
R
HBR Packet detection bit. This bit resets to zero on the 11th HSync leading edge following an HBR packet if a subsequent
HBR packet has not been detected. It also resets if an Audio, DSD or DST packet sample packet has been received and
after an HDMI reset condition.
0 - No HBR audio packet received within the last 10 HSync.
1 - HBR audio packet received within the last 10 HSync.
DST_AUDIO_PCKT_DET
0x18
00000000
DSD_PACKET_DET
0x18
00000000
R
DST Audio Packet Detection bit. This bit resets to zero on the 11th HSync leading edge following an DST packet if a
subsequent DST has not been received. Or if an Audio, DSD or HBR packet sample packet has been received or after an
HDMI reset condition.
0 - No DST packet received within the last 10 HSync.
1 - DST packet received within the last 10 HSync.
R
DSD Audio Packet Detection bit. This bit resets to zero on the 11th HSync leading edge following a DSD packet or if an
Audio, DST or HBR packet sample packet has been received or after an HDMI reset condition.
0 - No DSD packet received within the last 10 HSync.
1 - DSD packet received within the last 10 HSync.
AUDIO_SAMPLE_PCKT_DET
R
0x18
00000000
Audio Sample Packet Detection bit. This bit resets to zero on the 11th HSync leading edge following an Audio packet if a
subsequent audio sample packet has not been received or if a DSD, DST or HBR Audio packet sample packet has been
received.
0 - No L_PCM or IEC 61937 compressed audio sample packet received within the last 10 HSync.
1 - L_PCM or IEC 61937 compressed audio sample packet received within the last 10 HSyncs.
DST_DOUBLE
0x19
00000000
R
A flag to indicate when DST audio is double data rate.
0 - No DST double data rate audio detected
1 - DST double data rate audio detected
IGNORE_PARITY_ERR
0x1A
10000000
R/W
A control to select the processing of audio samples even when they have a parity error.
0 - Discard audio sample packet that have an invalid parity bit.
1 - Process audio sample packets that have an invalid parity bit.
MUTE_AUDIO
0x1A
10000000
R/W
A control to force an internal mute independently of the mute mask conditions
0 - Audio in normal operation
1 - Force audio mute
Rev. 0
74
HDMI
Reg
Bits
WAIT_UNMUTE[2:0]
0x1A
10000000
Register Map
Description
R/W
A control to delay audio unmute. Once all mute conditions are inactive WAIT_UNMUTE[2:0] can specify a further delay
time before unmuting. NOT_AUTO_UNMUTE must be set to 0 for this control to be effective.
000 - Disables/cancels delayed unmute. Audio unmutes directly after all mute conditions become inactive
001 - Unmutes 250 ms after all mute conditions become inactive
010 - Unmutes 500 ms after all mute conditions become inactive
011 - Unmutes 750 ms after all mute conditions become inactive
100 - Unmutes 1 s after all
NOT_AUTO_UNMUTE
0x1A
10000000
R/W
A control to disable the auto unmute feature. When set to 1 audio can be unmuted manually if all mute conditions are
inactive by setting NOT_AUTO_UNMUTE to 0 and then back to 1.
0 - Audio unmutes following a delay set by WAIT_UNMUTE after all mute conditions have become inactive.
1 - Prevents audio from unmuting automatically
DCFIFO_RESET_ON_LOCK
0x1B
00011000
Enables the reset/re-centering of video FIFO on video PLL unlock
R/W
0 - Do not reset on video PLL lock
1 - Reset FIFO on video PLL lock
DCFIFO_KILL_NOT_LOCKED
R/W
0x1B
00011000
DCFIFO_KILL_NOT_LOCKED controls whether or not the output of the Video FIFO is set to zero when the video PLL is
unlocked.
0 - FIFO data is output regardless of video PLL lock status
1 - FIFO output is zeroed if video PLL is unlocked
DCFIFO_KILL_DIS
0x1B
00011000
R/W
The Video FIFO output is zeroed if there is more than one resynchronization of the pointers within 2 FIFO cycles. This
behavior can be disabled with this bit.
0 - FIFO output set to zero if more than one resynchronization is necessary during two FIFO cycles
1 - FIFO output never set to zero regardless of how many resynchronizations occur
DCFIFO_LOCKED
0x1C
00000000
R
A readback to indicates if Video FIFO is locked.
0 - Video FIFO is not locked. Video FIFO had to resynchronize between previous two Vsyncs
1 - Video FIFO is locked. Video FIFO did not have to resynchronize between previous two Vsyncs
DCFIFO_LEVEL[2:0]
0x1C
00000000
R
A readback that indicates the distance between the read and write pointers. Overflow/underflow would read as level 0.
Ideal centered functionality would read as 0b100.
000 - FIFO has underflowed or overflowed
001 - FIFO is about to overflow
010 - FIFO has some margin.
011 - FIFO has some margin.
100 - FIFO perfectly balanced
101 - FIFO has some margin.
110 - FIFO has some margin.
111 - FIFO is about to underflow
UP_CONVERSION_MODE
R/W
0x1D
00000000
A control to select linear or interpolated 4:2:2 to 4:4:4 conversion. A 4:2:2 incoming stream is upconverted to a 4:4:4
stream before being sent to the CP.
0 - Cr and Cb samples are repeated in their respective channel.
1 - Interpolate Cr and Cb values.
TOTAL_LINE_WIDTH[13:0]
0x1E
00000000
Total line width is a horizontal synchronization measurement. This gives the total number of pixels per line. This
0x1F
00000000
measurement is valid only when the DE regeneration filter has locked.
R
xxxxxxxxxxxxx - Total number of pixels per line.
HSYNC_FRONT_PORCH[12:0]
R
0x20
00000000
HSync front porch width is a horizontal synchronization measurement. The unit of this measurement is unique pixels.
0x21
00000000
This measurement is valid only when the DE regeneration filter has locked.
xxxxxxxxxxx - Total number of pixels in the front porch.
Rev. 0
75
HDMI
Register Map
Reg
Bits
Description
HSYNC_PULSE_WIDTH[12:0]
R
0x22
00000000
HSync pulse width is a horizontal synchronization measurement. The unit of this measurement is unique pixels. This
0x23
00000000
measurement is valid only when the DE regeneration filter has locked.
xxxxxxxxxxx - Total number of pixels in the hsync pulse.
HSYNC_BACK_PORCH[12:0]
R
0x24
00000000
HSync Back Porch width is a horizontal synchronization measurement. The unit of this measurement is unique pixels. This
0x25
00000000
measurement is valid only when the DE regeneration filter has locked.
xxxxxxxxxxx - Total number of pixels in the back porch.
FIELD0_TOTAL_HEIGHT[13:0]
R
0x26
00000000
Field 0 total height is a vertical synchronization measurement. This readback gives the total number of half lines in Field
0x27
00000000
0. This measurement is valid only when the vertical filter has locked.
00000000000000 - The total number of half lines in Field 0. (Divide readback by 2 to get number of lines)
xxxxxxxxxxxxxx - The total number of half lines in Field 0. (Divide readback by 2 to get number of lines)
FIELD1_TOTAL_HEIGHT[13:0]
R
0x28
00000000
Field 1 total height is a vertical synchronization measurement. This readback gives the total number of half lines in Field
0x29
00000000
1. This measurement is valid only when the vertical filter has locked. Field 1 measurements are valid when
HDMI_INTERLACED is set to 1.
00000000000000 - The total number of half lines in Field 1. (Divide readback by 2 to get number of lines)
xxxxxxxxxxxxxx - The total number of half lines in Field 1. (Divide readback by 2 to get number of lines)
FIELD0_VS_FRONT_PORCH[13:0]
R
0x2A
00000000
Field 0 VSync front porch width is a vertical synchronization measurement. The unit of this measurement is half lines. This
0x2B
00000000
measurement is valid only when the vertical filter has locked.
00000000000000 - The total number of half lines in the VSync Front Porch of Field 0. (Divide readback by 2 to get
number of lines)
xxxxxxxxxxxxxx - The total number of half lines in the VSync Front Porch of Field 0. (Divide readback by 2 to get
number of lines)
FIELD1_VS_FRONT_PORCH[13:0]
R
0x2C
00000000
Field 1 VSync front porch width is a vertical synchronization measurement. The unit of this measurement is half lines. This
0x2D
00000000
measurement is valid only when the vertical filter has locked. Field 1 measurements are valid when HDMI_INTERLACED is
set to 1
00000000000000 - The total number of half lines in the VSync Front Porch of Field 1. (Divide readback by 2 to get
number of lines)
xxxxxxxxxxxxxx - The total number of half lines in the VSync Front Porch of Field 1. (Divide readback by 2 to get
number of lines)
FIELD0_VS_PULSE_WIDTH[13:0]
R
0x2E
00000000
Field 0 VSync width is a vertical synchronization measurement. The unit for this measurement is half lines. This
0x2F
00000000
measurement is valid only when the vertical filter has locked.
0000000000000 - The total number of half lines in the VSync Pulse of Field 0. (Divide readback by 2 to get number
of lines)
xxxxxxxxxxxxxx - The total number of half lines in the VSync Pulse of Field 0. (Divide readback by 2 to get number
of lines)
FIELD1_VS_PULSE_WIDTH[13:0]
R
0x30
00000000
Field 1 VSync width is a vertical synchronization measurement. The unit for this measurement is half lines. This
0x31
00000000
measurement is valid only when the vertical filter has locked. Field 1 measurements are valid when HDMI_INTERLACED is
set to 1
00000000000000 - The number of half lines in the VSync Pulse of Field 1. (Divide readback by 2 to get number of
lines)
xxxxxxxxxxxxxx - The total number of half lines in the VSync Pulse of Field 1. (Divide readback by 2 to get number
of lines)
FIELD0_VS_BACK_PORCH[13:0]
R
0x32
00000000
Field 0 VSync back porch width is a vertical synchronization measurement. The unit for this measurement is half lines.
0x33
00000000
00000000000000 - The total number of half lines in the VSync Back Porch of Field 0. (Divide readback by 2 to get
number of lines)
xxxxxxxxxxxxxx - The total number of half lines in the VSync Back Porch of Field 0. (Divide readback by 2 to get
number of lines)
Rev. 0
76
HDMI
Register Map
Reg
Bits
Description
FIELD1_VS_BACK_PORCH[13:0]
R
0x34
00000000
Field 1 VSync back porch width is a vertical synchronization measurement. The unit for this measurement is half lines.
0x35
00000000
This measurement is valid only when the vertical filter has locked. Field 1 measurements are valid when
HDMI_INTERLACED is set to 1.
CS_DATA[39:0]
0x36
00000000
0x37
00000000
0x38
00000000
0x39
00000000
00000000
0x3A
00000000000000 - The number of half lines in the VSync Back Porch of Field 1. (Divide readback by 2 to get
number of lines)
xxxxxxxxxxxxx - The number of half lines in the VSync Back Porch of Field 1. (Divide readback by 2 to get number
of lines)
R
Readback registers for the Channel Status data bits collected from audio channel 0. Refer to the Hardware Manual for
more details on the Channel Status data readbacks.
BYPASS_AUDIO_PASSTHRU
0x3C
00000010
Enable/Disable for audio passthru mode.
R/W
OVERRIDE_DEEP_COLOR_MODE
0x40
00000000
A control to override the Deep Color mode.
R/W
0 - The HDMI section unpacks the video data according to the deep-color information extracted from the General
Control packets. (Normal operation)
1 - Override the deep color mode extracted from the General Control Packet. The HDMI section unpacks the video
data according to the Deep Color mode set in DEEP_COLOR_MODE_USER[1:0].
DEEP_COLOR_MODE_USER[1:0]
R/W
0x40
00000000
A control to manually set the Deep Color mode. The value set in this register is effective when
OVERRIDE_DEEP_COLOR_MODE is set to 1.
DEREP_N_OVERRIDE
0x41
01000000
00 - 8 bits per channel
01 - 10 bits per channel
10 - 12 bits per channel
11 - 16 bits per channel (not supported)
R/W
This control allows the user to override the pixel repetition factor. The ADV7844 then uses DEREP_N instead of
HDMI_PIXEL_REPETITION[3:0] to discard video pixel data from the incoming HDMI stream.
0 - Automatic detection and processing of procession of pixel repeated modes using the AVI infoframe
information.
1 - Enables manual setting of the pixel repetition factor as per DEREP_N[3:0].
DEREP_N[3:0]
0x41
01000000
R/W
Sets the derepetition value if derepetition is overridden by setting DEREP_N_OVERRIDE.
0000 - DEREP_N+1 indicates the pixel and clock discard factor
xxxx - DEREP_N+1 indicates the pixel and clock discard factor
QZERO_ITC_DIS
0x47
00000000
QZERO_RGB_FULL
0x47
00000000
ALWAYS_STORE_INF
0x47
00000000
R/W
A control to select manual control of the RGB colorimetry when the AVI infoframe field Q[1:0]=00. To be used in
conjunction with QZERO_RGB_FULL
0 - AVI InfoFrame ITC bit decides RGB-full or limited range in case Q[1:0]=00
1 - Manual RGB range as per QZERO_RGB_FULL.
R/W
A control to manually select the HDMI colorimetry when AVI infoframe field Q[1:0]=00. Valid only when QZERO_ITC_DIS
is set to 1.
0 - RGB-limited range when Q[1:0]=00
1 - RGB-full when Q[1:0]=00
A control to force InfoFrames with checksum errors to be stored.
0 - Stores data from received InfoFrames only if their checksum is correct
1 - Always store the data from received InfoFrame regardless of their checksum
Rev. 0
77
R/W
HDMI
Reg
Bits
DIS_CABLE_DET_RST
0x48
00000000
Register Map
Description
R/W
This control disables the reset effects of cable detection. DIS_CABLE_DET_RST should be set to 1 if the +5 V pins are
unused and left unconnected.
0 - Resets the HDMI section if the 5 V input pin corresponding to the selected HDMI port (e.g. RXA_5V for port A) is
inactive
1 - Do not use the 5 V input pins as reset signal for the HDMI section
GAMUT_IRQ_NEXT_FIELD
R/W
0x50
00000000
A control set the NEW_GAMUT_MDATA_RAW interrupt to detect when the new contents are applicable to next field or to
indicate that the Gamut packet is new. This is done using header information of the gamut packet.
0 - Interrupt flag indicates that Gamut packet is new
1 - Interrupt flag indicates that Gamut packet is to be applied next field
CS_COPYRIGHT_MANUAL
R/W
0x50
00000000
A control to select automatic or manual setting of the copyright value of the channel status bit that is passed to the
SPDIF output. Manual control is set with the CS_COPYRIGHT_VALUE bit.
CS_COPYRIGHT_VALUE
0x50
00000000
0 - Automatic CS copyright control
1 - Manual CS copyright control. Manual value is set by CS_COPYRIGHT_VALUE
R/W
A control to set the CS Copyright value when in manual configuration of the CS Copyright bit that is passed to the SPDIF
output.
0 - Copyright value of channel status bit is 0. Valid only if CS_COPYRIGHT_MANUAL is set to 1
1 - Copyright value of channel status bit is 1. Valid only if CS_COPYRIGHT_MANUAL is set to 1
TMDSFREQ[8:0]
0x51
00000000
0x52
00000000
R
This register provides a full precision integer TMDS frequency measurement
000000000 - Outputs 9-bit TMDS frequency measurement in MHz
xxxxxxxxx - Outputs 9-bit TMDS frequency measurement in MHz
TMDSFREQ_FRAC[6:0]
0x52
00000000
R
A readback to indicate the fractional bits of measured frequency of PLL recovered TMDS clock. The unit is 1/128 MHz.
0000000 - Outputs 7-bit TMDS fractional frequency measurement in 1/128MHz
xxxxxxx - Outputs 7-bit TMDS fractional frequency measurement in 1/128MHz
HDMI_COLORSPACE[3:0]
0x53
00000000
FILT_5V_DET_DIS
0x56
01011000
R
A readback of the HDMI input colorspace decoded from several fields in the AVI infoframe.
0000 - RGB_LIMITED
0001 - RGB_FULL
0010 - YUV_601
0011 - YUV_709
0100 - XVYCC_601
0101 - XVYCC_709
0110 - YUV_601_FULL
0111 - YUV_709_FULL
1000 - sYCC 601
1001 - Adobe YCC 601
1010 - Adobe RGB
R/W
This bit is a control to disable the digital glitch filter on the HDMI 5V detect signals. The filtered signals are used as
interrupt flags, and also used to reset the HDMI section. The filter works from an internal ring oscillator clock and is
therefore available in power-down mode. The clock frequency of the ring oscillator is 42MHz +/-10%. Note: If the 5 V
pins are not used and left unconnected, the 5 V detect circuitry should be disconnected from the HDMI reset signal by
setting DIS_CABLE_DET_RST to 1. This avoids holding the HDMI section in reset.
0 - Enabled
1 - Disabled
FILT_5V_DET_TIMER[6:0]
0x56
01011000
R/W
This bit is a control to set the timer for the digital glitch filter on the HDMI +5 V detect inputs. The unit of this parameter is
2 clock cycles of the ring oscillator (~ 47ns). The input must be constantly high for the duration of the timer, otherwise
the filter output remains low. The output of the filter returns low as soon as any change in the +5 V power signal is
detected.
1011000 - Approximately 4.2us
xxxxxxx - Time duration of +5 V deglitch filter. The unit of this parameter is 2 clock cycles of the ring oscillator (~
47ns)
Rev. 0
78
HDMI
Register Map
Reg
Bits
Description
HDCP_REPT_EDID_RESET
0x5A
00000000
A reset control for the E-EDID/Repeater controller. When asserted it resets the E-EDID/Repeater controller.
DCFIFO_RECENTER
0x5A
00000000
FORCE_N_UPDATE
0x5A
00000000
CTS[19:0]
0x5B
00000000
0x5C
00000000
0x5D
00000000
N[19:0]
0x5D
0x5E
0x5F
0 - Normal operation
1 - Resets the E-EDID/Repeater controller.
SC
SC
A reset to recenter the Video FIFO. This is a self clearing bit.
0 - Video FIFO normal operation.
1 - Video FIFO to re-centre.
SC
A control to force an N and CTS value update to the audio DPLL. The audio DPLL regenerates the audio clock.
0 - No effect
1 - Forces an update on the N and CTS values for audio clock regeneration
R
A readback for the CTS value received in the HDMI datastream.
00000000000000000000 - Default CTS value readback from HDMI stream
xxxxxxxxxxxxxxxxxxxx - CTS value readback from HDMI stream
R
00000000
00000000
00000000
HPA_DELAY_SEL[3:0]
0x6C
10100010
A readback for the N value received in the HDMI datastream
00000000000000000000 - Default N value readback from HDMI stream
xxxxxxxxxxxxxxxxxxxx - N value readback from HDMI stream
R/W
Sets a delay between +5 V detection and hot plug assertion on the HPA output pins, in increments of 100ms per bit.
0000 - No Delay
0001 - 100 ms Delay
0010 - 200 ms Delay
1010 - 1 s Delay
1111 - 1.5 s Delay
HPA_OVR_TERM
0x6C
10100010
R/W
A control to set termination control to be overridden by the HPA setting. When this bit is set, termination on a specific
port will be set according to the HPA status of that port.
0 - Automatic or manual I2C control of port termination.
1 - Termination controls disabled and overridden by HPA controls.
HPA_AUTO_INT_EDID[1:0]
R/W
0x6C
10100010
Selects the type of automatic control on the HPA output pins. This bit has no effect when HPA_MANUAL is set to 1
HPA_MANUAL
0x6C
10100010
00 - The HPA of an HDMI port is asserted high immediately after the internal EDID has been activated for that port.
The HPA of a specific HDMI port is de-asserted low immediately after the internal E-EDID is de-activated for that
port.
01 - The HPA of an HDMI port is asserted high following a programmable delay after the part detects an HDMI
cable plug on that port. The HPA of an HDMI port is immediately de-asserted after the part detects a cable
disconnect on that HDMI port.
10 - The HPA of an HDMI port is asserted high after two conditions have been met. The conditions are detailed as
follows. 1. The internal EDID is active for that port. 2. The delayed version of the cable detect signal
CABLE_DET_X_RAW for that port is high. The HPA of an HDMI port is immediately de-asserted after any of the
following two conditions have been met 1. The internal EDID is de-activated for that port 2. The cable detect signal
CABLE_DET_X_RAW for that port is low.
11 - The HPA of an HDMI port is asserted high after three conditions have been met. The conditions are detailed as
follows. 1. The internal EDID is active for that port. 2. The delayed version of the cable detect signal
CABLE_DET_X_RAW for that port is high. 3. The user has set the manual HPA control for that port to 1 via the
HPA_MAN_VALUE_X controls. The HPA of an HDMI port is immediately de-asserted after any of the following three
conditions have been met 1.The internal EDID is de-activated for that port 2.The cable detect signal
CABLE_DET_X_RAW for that port, is low. 3.The user sets the manual HPD control for that port to 0 via the
HPA_MAN_VALUE_X controls
R/W
Manual control enable for the Hot Plug Assert output pins. By setting this bit any automatic control of these pins is
disabled. Manual control is determined by the HPA_MAN_VALUE_X (where X = A, B, C, D & E)
0 - HPA takes its value based on HPA_AUTO_INT_EDID
1 - HPA takes its value from HPA_MAN_VALUE_X
Rev. 0
79
HDMI
Reg
Bits
I2S_MODE_ENABLE
0x6D
00000000
Register Map
Description
R/W
Enables I2S output mode, where all 4 stereo pairs come out through I2S[0] pin. This mode can only be used in multi
channel modes. Only the following FS ratios for MCLKOUT are valid: 1, 2 or 4.
0 - Disable I2S mode, each stereo pair will come out in an APx pin.
1 - Enable I2S mode, all 4 stereo pairs will be time multiplexed into AP1/I2S pin
I2S_SPDIF_MAP_INV
0x6D
00000000
R/W
A control to invert the arrangement of the I2S/SPDIF interface on the audio output port pins. Note the arrangement of
the I2S/SPDIF interface on the audio output port pins is determined by I2S_SPDIF_MAP_ROT.
0 - Do not invert arrangement of I2S/SPDIF channels in audio output port pins
1 - Invert arrangement of I2S/SPDIF channels in audio output port pins
I2S_SPDIF_MAP_ROT[1:0]
0x6D
00000000
A control to select the arrangement of the I2S/SPDIF interface on the audio output port pins.
DSD_MAP_INV
0x6D
00000000
DSD_MAP_ROT[2:0]
0x6D
00000000
R/W
00 - [I2S0/SPDIF0 ]
01 - [I2S3/SPDIF3 ]
10 - [I2S2/SPDIF2 ]
11 - [I2S1/SPDIF1 ]
R/W
A control to invert the arrangement of the DSD interface on the audio output port pins. Note the arrangement of the
DSD interface on the audio output port pins is determined by DSD_MAP_ROT.
0 - Do not invert arrangement of the DSD channels on the audio output port pins
1 - Invert arrangement of the DSD channels on the audio output port pins
R/W
A control to select the arrangement of the DSD interface on the audio output port pins.
000 - [DSD0B ]
001 - [DSD0A ]
010 - [DSD2B ]
011 - [DSD2A ]
100 - [DSD1B ]
101 - [DSD1A ]
110 - Reserved 111 = Reserved
DST_MAP_ROT[2:0]
0x6E
00000100
R/W
A control to select the arrangement of the DST interface on the audio output port pins.
000 - Reserved
001 - [DST_S ] [DST_FF on LRCLK]
01x - Reserved
1xx - Reserved
DDC_PWRDN[7:0]
0x73
00000000
R/W
Powerdown control for DDC pads.
0 - power up ddc
1 - powerdown ddc pads
CLOCK_TERMA_DISABLE
0x83
11111111
R/W
Disable clock termination on port A. Can be used when TERM_AUTO set to 0
0 - Enable Termination port A
1 - Disable Termination port A
EQ_DYN_FREQ2[3:0]
0x8C
10100011
EQ_DYN_FREQ1[3:0]
0x8C
10100011
R/W
A control to set the upper limit, limit 2, for the HDMI Equalizer Dynamic Control Frequency range. The frequency must be
specified in MHz divided by 16.
0000 - Reserved. Do not use.
1010 - Default dynamic equalizer frequency limit 2. The default value corresponds to 160 MHz.
xxxx - Frequency for limit 2.
R/W
A control to set the lower limit, limit 1, for the HDMI equalizer dynamic control frequency range. The frequency must be
specified in MHz divided by 16.
0000 - Reserved. Do not use.
0011 - Default dynamic equalizer frequency limit 1. The default value corresponds to 48 MHz.
xxxx - Frequency for limit 1
Rev. 0
80
HDMI
Reg
Bits
EQ_DYN1_LF[7:0]
0x8D
00001011
EQ_DYN1_HF[7:0]
0x8E
00100000
EQ_DYN2_LF[7:0]
0x90
00001011
EQ_DYN2_HF[7:0]
0x91
00100000
EQ_DYN3_LF[7:0]
0x93
00001011
EQ_DYN3_HF[7:0]
0x94
00100000
EQ_DYN_EN
0x96
00000000
Register Map
Description
R/W
HDMI Equalizer Dynamic Control LF for frequencies below limit1, i.e. range1
00011000 - Default LF gain equalizer settings for dynamic mode range 1
xxxxxxxx - LF gain equalizer settings for dynamic mode range 1
00110100 - Default HF gain equalizer settings for dynamic mode range 1
xxxxxxxx - HF gain equalizer settings for dynamic mode range 1
R/W
HDMI Equalizer Dynamic Control LF for frequencies below limit2 and above limit1, i.e. range2
10100000 - Default LF gain equalizer settings for dynamic mode range 2
xxxxxxxx - LF gain equalizer settings for dynamic mode range 2
R/W
HDMI Equalizer Dynamic Control HF for frequencies below limit2 and above limit1, i.e. range2
00110000 - Default HF gain equalizer settings for dynamic mode range 2
xxxxxxxx - HF gain equalizer settings for dynamic mode range 2
R/W
HDMI Equalizer Dynamic Control LF for frequencies above limit2, i.e. range3
10001000 - Default LF gain equalizer settings for dynamic mode range 3
xxxxxxxx - LF gain equalizer settings for dynamic mode range 3
R/W
HDMI Equalizer Dynamic Control HF for frequencies above limit2, i.e. range3
00101110 - Default HF gain equalizer settings for dynamic mode range 3
xxxxxxxx - HF gain equalizer settings for dynamic mode range 3
Enable for HDMI Equalizer Dynamic Control
0 - Disables equalizer dynamic mode. The equalizer is configured in static mode. This configuration is not
recommended.
1 - Enables equalizer dynamic mode. This configuration is recommended.
Rev. 0
R/W
HDMI Equalizer Dynamic Control HF for frequencies below limit1, i.e. range1
81
R/W
Repeater
2.4
Register Map
REPEATER
Reg
Bits
BKSV[39:0]
0x00
00000000
0x01
00000000
0x02
00000000
0x03
00000000
0x04
00000000
Description
R
The receiver Key Selection Vector (BKSV) can be read back once the part has successfully accessed the HDCP ROM. The
following registers contain the BKSV read from the EEPROM.
0x00[7:0] - BKSV[7:0]
0x01[7:0] - BKSV[15:8]
0x02[7:0 ] - BKSV[23:16]
0x03[7:0] - BKSV[31:24]
0x04[7:0] - BKSV[39:32]
RI[15:0]
0x08
0x09
00000000
00000000
Ri generated by HDCP core
R
PJ[7:0]
0x0A
00000000
Pj generated by HDCP core
R
AKSV[39:0]
0x10
00000000
0x11
00000000
0x12
00000000
0x13
00000000
0x14
00000000
AINFO[7:0]
0x15
00000000
AN[63:0]
0x18
0x19
0x1A
0x1B
0x1C
0x1D
0x1E
0x1F
R/W
The AKSV of the transmitter attached to the active HDMI port can be read back after an AKSV update. The following
registers contain the AKSV written by the Tx.
0x10[7:0] - AKSV[7:0]
0x11[7:0] - AKSV[15:8]
0x12[7:0] - AKSV[23:16]
0x13[7:0] - AKSV[31:24]
0x14[7:0] - AKSV[39:32]
R/W
AINFO written by Tx
R/W
00000000
00000000
00000000
00000000
00000000
00000000
00000000
00000000
SHA_A[31:0]
0x20
00000000
0x21
00000000
00000000
0x22
00000000
0x23
BCAPS[7:0]
0x40
10000011
BSTATUS[15:0]
0x41
00000000
0x42
00000000
AN written by Tx
0x10[7 - 0] AKSV[7:0]
R/W
SHA Hash Part A generated by inchip micro
0x11[7 - 0] AKSV[15:8]
R/W
This is the BCAPS register presented to the Tx attached to the active HDMI port.
10000011 - Default BCAPS register value presented to the Tx
xxxxxxxx - BCAPS register value presented to the Tx
R/W
These registers contain the BSTATUS information presented to the Tx attached to the active HDMI port. Bits [11:0] must
be set by the system software acting as a repeater.
xxxxxxxxxxxxxxxx - BSTATUS register presented to Tx
0000000000000000 - Reset value. BSTATUS register is reset only after power up.
0x41[7:0] - BSTATUS[7:0]
0x42[7:0] - BSTATUS[15:8]
KSV_LIST_READY
0x71
00000000
R/W
The system sets this bit in order to indicate that the KSV list has been read from the Tx IC(s) and written into the Repeater
Map. The system must also set bits [11:0] of Bstatus before setting this bit.
0 - Not Ready
1 - Ready
Rev. 0
82
Repeater
Reg
Bits
SPA_STORAGE_MODE
0x71
00000000
SPA_LOCATION_MSB
0x71
00000000
EDID_A_ENABLE
0x74
00000000
Register Map
Description
R/W
Selects how SPA must be stored in the non volatile EEPROM
0 - Store only SPA for port A
1 - Store Spa for port A plus upper nibble of SPA for rest of ports
R/W
Additional MSB of SPA_location (i.e. spa_location[8]) needed to point to SPAs stored in second segment.
R/W
Enables I2C access to internal EDID ram from DDC port A
0 - E-EDID for port A disabled
1 - E-EDID for port A enabled
EDID_A_ENABLE_CPU
0x76
00000000
R
Flags internal EDID enabling on port A
0 - Disabled
1 - Enabled
KSV_LIST_READY_CLR_A
0x78
00000000
KSV_MAP_SELECT[2:0]
0x79
00001000
SC
Clear BCAPS KSV list ready bit in port A
R/W
Selects which 128 bytes of KSV list will be accessed when reading or writing to addresses 0x80 to 0xFF in this map. Values
from 5 and upwards are not valid
AUTO_HDCP_MAP_ENABLE
R/W
0x79
00001000
Selects which port will be accessed for HDCP addresses: the HDMI active port (selected by HDMI_PORT_SELECT, HDMI
map) or the one selected in HDCP_MAP_SELECT
0 - HDCP data read from port given by HDCP_MAP_SELECT
1 - HDCP data read from the active HDMI port
HDCP_MAP_SELECT[2:0]
0x79
00001000
DISABLE_AUTO_EDID
0x7A
00000100
R/W
Selects which port will be accessed for HDCP addresses (0x00 to 0x42 in Repeater map). This only takes effect when AUTO
HDCP MAN ENABLE is 0
000 - Select port A
R/W
Disables all automatic enables for internal E-EDID
0 - Automatic enable of internal E-EDID on HDMI ports when the part comes out of powerdown mode 0
1 - Disable automatic enable of internal E-EDID on HDMI ports when the part comes out of powerdown mode 0
EDID_SEGMENT_POINTER
R/W
0x7A
00000100
Segment pointer for internal EDID in main i2c
KSV_BYTE_0[7:0]
0x80
00000000
KSV_BYTE_1[7:0]
0x81
00000000
KSV_BYTE_2[7:0]
0x82
00000000
KSV_BYTE_3[7:0]
0x83
00000000
KSV_BYTE_4[7:0]
0x84
00000000
Rev. 0
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
83
Repeater
Reg
Bits
KSV_BYTE_5[7:0]
0x85
00000000
KSV_BYTE_6[7:0]
0x86
00000000
KSV_BYTE_7[7:0]
0x87
00000000
KSV_BYTE_8[7:0]
0x88
00000000
KSV_BYTE_9[7:0]
0x89
00000000
KSV_BYTE_10[7:0]
0x8A
00000000
KSV_BYTE_11[7:0]
0x8B
00000000
KSV_BYTE_12[7:0]
0x8C
00000000
KSV_BYTE_13[7:0]
0x8D
00000000
KSV_BYTE_14[7:0]
0x8E
00000000
KSV_BYTE_15[7:0]
0x8F
00000000
KSV_BYTE_16[7:0]
0x90
00000000
KSV_BYTE_17[7:0]
0x91
00000000
KSV_BYTE_18[7:0]
0x92
00000000
KSV_BYTE_19[7:0]
0x93
00000000
KSV_BYTE_20[7:0]
0x94
00000000
KSV_BYTE_21[7:0]
0x95
00000000
Rev. 0
Register Map
Description
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
84
Repeater
Reg
Bits
KSV_BYTE_22[7:0]
0x96
00000000
KSV_BYTE_23[7:0]
0x97
00000000
KSV_BYTE_24[7:0]
0x98
00000000
KSV_BYTE_25[7:0]
0x99
00000000
KSV_BYTE_26[7:0]
0x9A
00000000
KSV_BYTE_27[7:0]
0x9B
00000000
KSV_BYTE_28[7:0]
0x9C
00000000
KSV_BYTE_29[7:0]
0x9D
00000000
KSV_BYTE_30[7:0]
0x9E
00000000
KSV_BYTE_31[7:0]
0x9F
00000000
KSV_BYTE_32[7:0]
0xA0
00000000
KSV_BYTE_33[7:0]
0xA1
00000000
KSV_BYTE_34[7:0]
0xA2
00000000
KSV_BYTE_35[7:0]
0xA3
00000000
KSV_BYTE_36[7:0]
0xA4
00000000
KSV_BYTE_37[7:0]
0xA5
00000000
KSV_BYTE_38[7:0]
0xA6
00000000
Rev. 0
Register Map
Description
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
85
Repeater
Reg
Bits
KSV_BYTE_39[7:0]
0xA7
00000000
KSV_BYTE_40[7:0]
0xA8
00000000
KSV_BYTE_41[7:0]
0xA9
00000000
KSV_BYTE_42[7:0]
0xAA
00000000
KSV_BYTE_43[7:0]
0xAB
00000000
KSV_BYTE_44[7:0]
0xAC
00000000
KSV_BYTE_45[7:0]
0xAD
00000000
KSV_BYTE_46[7:0]
0xAE
00000000
KSV_BYTE_47[7:0]
0xAF
00000000
KSV_BYTE_48[7:0]
0xB0
00000000
KSV_BYTE_49[7:0]
0xB1
00000000
KSV_BYTE_50[7:0]
0xB2
00000000
KSV_BYTE_51[7:0]
0xB3
00000000
KSV_BYTE_52[7:0]
0xB4
00000000
KSV_BYTE_53[7:0]
0xB5
00000000
KSV_BYTE_54[7:0]
0xB6
00000000
KSV_BYTE_55[7:0]
0xB7
00000000
Rev. 0
Register Map
Description
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
86
Repeater
Reg
Bits
KSV_BYTE_56[7:0]
0xB8
00000000
KSV_BYTE_57[7:0]
0xB9
00000000
KSV_BYTE_58[7:0]
0xBA
00000000
KSV_BYTE_59[7:0]
0xBB
00000000
KSV_BYTE_60[7:0]
0xBC
00000000
KSV_BYTE_61[7:0]
0xBD
00000000
KSV_BYTE_62[7:0]
0xBE
00000000
KSV_BYTE_63[7:0]
0xBF
00000000
KSV_BYTE_64[7:0]
0xC0
00000000
KSV_BYTE_65[7:0]
0xC1
00000000
KSV_BYTE_66[7:0]
0xC2
00000000
KSV_BYTE_67[7:0]
0xC3
00000000
KSV_BYTE_68[7:0]
0xC4
00000000
KSV_BYTE_69[7:0]
0xC5
00000000
KSV_BYTE_70[7:0]
0xC6
00000000
KSV_BYTE_71[7:0]
0xC7
00000000
KSV_BYTE_72[7:0]
0xC8
00000000
Rev. 0
Register Map
Description
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
87
Repeater
Reg
Bits
KSV_BYTE_73[7:0]
0xC9
00000000
KSV_BYTE_74[7:0]
0xCA
00000000
KSV_BYTE_75[7:0]
0xCB
00000000
KSV_BYTE_76[7:0]
0xCC
00000000
KSV_BYTE_77[7:0]
0xCD
00000000
KSV_BYTE_78[7:0]
0xCE
00000000
KSV_BYTE_79[7:0]
0xCF
00000000
KSV_BYTE_80[7:0]
0xD0
00000000
KSV_BYTE_81[7:0]
0xD1
00000000
KSV_BYTE_82[7:0]
0xD2
00000000
KSV_BYTE_83[7:0]
0xD3
00000000
KSV_BYTE_84[7:0]
0xD4
00000000
KSV_BYTE_85[7:0]
0xD5
00000000
KSV_BYTE_86[7:0]
0xD6
00000000
KSV_BYTE_87[7:0]
0xD7
00000000
KSV_BYTE_88[7:0]
0xD8
00000000
KSV_BYTE_89[7:0]
0xD9
00000000
Rev. 0
Register Map
Description
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
88
Repeater
Reg
Bits
KSV_BYTE_90[7:0]
0xDA
00000000
KSV_BYTE_91[7:0]
0xDB
00000000
KSV_BYTE_92[7:0]
0xDC
00000000
KSV_BYTE_93[7:0]
0xDD
00000000
KSV_BYTE_94[7:0]
0xDE
00000000
KSV_BYTE_95[7:0]
0xDF
00000000
KSV_BYTE_96[7:0]
0xE0
00000000
KSV_BYTE_97[7:0]
0xE1
00000000
KSV_BYTE_98[7:0]
0xE2
00000000
KSV_BYTE_99[7:0]
0xE3
00000000
KSV_BYTE_100[7:0]
0xE4
00000000
KSV_BYTE_101[7:0]
0xE5
00000000
KSV_BYTE_102[7:0]
0xE6
00000000
KSV_BYTE_103[7:0]
0xE7
00000000
KSV_BYTE_104[7:0]
0xE8
00000000
KSV_BYTE_105[7:0]
0xE9
00000000
KSV_BYTE_106[7:0]
0xEA
00000000
Rev. 0
Register Map
Description
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
89
Repeater
Reg
Bits
KSV_BYTE_107[7:0]
0xEB
00000000
KSV_BYTE_108[7:0]
0xEC
00000000
KSV_BYTE_109[7:0]
0xED
00000000
KSV_BYTE_110[7:0]
0xEE
00000000
KSV_BYTE_111[7:0]
0xEF
00000000
KSV_BYTE_112[7:0]
0xF0
00000000
KSV_BYTE_113[7:0]
0xF1
00000000
KSV_BYTE_114[7:0]
0xF2
00000000
KSV_BYTE_115[7:0]
0xF3
00000000
KSV_BYTE_116[7:0]
0xF4
00000000
KSV_BYTE_117[7:0]
0xF5
00000000
KSV_BYTE_118[7:0]
0xF6
00000000
KSV_BYTE_119[7:0]
0xF7
00000000
KSV_BYTE_120[7:0]
0xF8
00000000
KSV_BYTE_121[7:0]
0xF9
00000000
KSV_BYTE_122[7:0]
0xFA
00000000
KSV_BYTE_123[7:0]
0xFB
00000000
Rev. 0
Register Map
Description
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
90
Repeater
Reg
Bits
KSV_BYTE_124[7:0]
0xFC
00000000
KSV_BYTE_125[7:0]
0xFD
00000000
KSV_BYTE_126[7:0]
0xFE
00000000
KSV_BYTE_127[7:0]
0xFF
00000000
Rev. 0
Register Map
Description
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
R/W
This is a byte in the KSV list used for the HDCP repeater protocol. This may come from any of 5 128 byte segments,
controlled by KSV_MAP_SELECT
91
Infoframe
2.5
INFOFRAME
Reg
Bits
AVI_INF_PB[223:0]
0x00
00000000
0x01
00000000
0x02
00000000
0x03
00000000
0x04
00000000
0x05
00000000
00000000
0x06
0x07
00000000
00000000
0x08
0x09
00000000
00000000
0x0A
00000000
0x0B
00000000
0x0C
00000000
0x0D
00000000
0x0E
00000000
0x0F
00000000
0x10
00000000
0x11
00000000
0x12
00000000
0x13
00000000
0x14
00000000
0x15
00000000
0x16
00000000
0x17
00000000
0x18
00000000
0x19
00000000
0x1A
00000000
0x1B
AUD_INF_PB[111:0]
0x1C
00000000
0x1D
00000000
0x1E
00000000
0x1F
00000000
00000000
0x20
0x21
00000000
00000000
0x22
0x23
00000000
00000000
0x24
00000000
0x25
00000000
0x26
00000000
0x27
00000000
0x28
00000000
0x29
Rev. 0
Register Map
Description
R
AVI infoframe data
R
Audio infoframe data
92
Infoframe
Reg
Bits
SPD_INF_PB[223:0]
0x2A
00000000
0x2B
00000000
0x2C
00000000
0x2D
00000000
00000000
0x2E
0x2F
00000000
00000000
0x30
0x31
00000000
00000000
0x32
00000000
0x33
00000000
0x34
00000000
0x35
00000000
0x36
00000000
0x37
00000000
0x38
00000000
0x39
00000000
0x3A
00000000
0x3B
00000000
0x3C
00000000
0x3D
00000000
0x3E
00000000
0x3F
00000000
0x40
00000000
0x41
00000000
0x42
00000000
0x43
00000000
0x44
00000000
0x45
MS_INF_PB[111:0]
0x46
00000000
0x47
00000000
00000000
0x48
0x49
00000000
00000000
0x4A
0x4B
00000000
00000000
0x4C
00000000
0x4D
00000000
0x4E
00000000
0x4F
00000000
0x50
00000000
0x51
00000000
0x52
00000000
0x53
Rev. 0
Register Map
Description
R
Source Prod infoframe data
R
MPEG Source infoframe data
93
Infoframe
Reg
Bits
VS_INF_PB[223:0]
0x54
00000000
0x55
00000000
0x56
00000000
0x57
00000000
00000000
0x58
0x59
00000000
00000000
0x5A
0x5B
00000000
00000000
0x5C
00000000
0x5D
00000000
0x5E
00000000
0x5F
00000000
0x60
00000000
0x61
00000000
0x62
00000000
0x63
00000000
0x64
00000000
0x65
00000000
0x66
00000000
0x67
00000000
0x68
00000000
0x69
00000000
0x6A
00000000
0x6B
00000000
0x6C
00000000
0x6D
00000000
0x6E
00000000
0x6F
ACP_PB[223:0]
0x70
00000000
0x71
00000000
00000000
0x72
0x73
00000000
00000000
0x74
0x75
00000000
00000000
0x76
00000000
0x77
00000000
0x78
00000000
0x79
00000000
0x7A
00000000
0x7B
00000000
0x7C
00000000
0x7D
00000000
0x7E
00000000
0x7F
00000000
0x80
00000000
0x81
00000000
0x82
00000000
0x83
00000000
0x84
00000000
0x85
00000000
0x86
00000000
0x87
00000000
0x88
00000000
0x89
00000000
0x8A
00000000
0x8B
Rev. 0
Register Map
Description
R
Vendor Specific infoframe data
R
ACP infoframe data
94
Infoframe
Reg
Bits
ISRC1_PB[223:0]
0x8C
00000000
0x8D
00000000
0x8E
00000000
0x8F
00000000
00000000
0x90
0x91
00000000
00000000
0x92
0x93
00000000
00000000
0x94
00000000
0x95
00000000
0x96
00000000
0x97
00000000
0x98
00000000
0x99
00000000
0x9A
00000000
0x9B
00000000
0x9C
00000000
0x9D
00000000
0x9E
00000000
0x9F
00000000
0xA0
00000000
0xA1
00000000
0xA2
00000000
0xA3
00000000
0xA4
00000000
0xA5
00000000
0xA6
00000000
0xA7
ISRC2_PB[223:0]
0xA8
00000000
0xA9
00000000
00000000
0xAA
0xAB
00000000
00000000
0xAC
0xAD
00000000
00000000
0xAE
00000000
0xAF
00000000
0xB0
00000000
0xB1
00000000
0xB2
00000000
0xB3
00000000
0xB4
00000000
0xB5
00000000
0xB6
00000000
0xB7
00000000
0xB8
00000000
0xB9
00000000
0xBA
00000000
0xBB
00000000
0xBC
00000000
0xBD
00000000
0xBE
00000000
0xBF
00000000
0xC0
00000000
0xC1
00000000
0xC2
00000000
0xC3
Rev. 0
Register Map
Description
R
ISRC 1 infoframe data
R
ISRC 2 infoframe data
95
Infoframe
Reg
Bits
GBD[223:0]
0xC4
00000000
0xC5
00000000
0xC6
00000000
0xC7
00000000
00000000
0xC8
0xC9
00000000
00000000
0xCA
0xCB
00000000
00000000
0xCC
00000000
0xCD
00000000
0xCE
00000000
0xCF
00000000
0xD0
00000000
0xD1
00000000
0xD2
00000000
0xD3
00000000
0xD4
00000000
0xD5
00000000
0xD6
00000000
0xD7
00000000
0xD8
00000000
0xD9
00000000
0xDA
00000000
0xDB
00000000
0xDC
00000000
0xDD
00000000
0xDE
00000000
0xDF
AVI_PACKET_ID[7:0]
0xE0
10000010
Register Map
Description
R
Gamut infoframe data
R/W
AVI infoframe ID
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0x00 to 0x1B
1xxxxxxx - Packet type value of InfoFrame stored in InfoFrame Map, Address 0x00 to 0x1B
AVI_INF_VERS[7:0]
0xE1
00000000
AVI infoframe version
AVI_INF_LEN[7:0]
0xE2
00000000
AVI infoframe length
AUD_PACKET_ID[7:0]
0xE3
10000100
Audio infoframe ID
AUD_INF_VERS[7:0]
0xE4
00000000
R
R
R/W
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0x1C to 0x29
1xxxxxxx - Packet type value of InfoFrame stored in InfoFrame Map, Address 0x1C to 0x29
AUD_INF_LEN[7:0]
0xE5
00000000
Audio infoframe length
SPD_PACKET_ID[7:0]
0xE6
10000011
Source Prod infoframe ID
SPD_INF_VERS[7:0]
0xE7
00000000
SPD_INF_LEN[7:0]
0xE8
00000000
Rev. 0
R
Audio infoframe version
R
R/W
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0x2A to 0x45
1xxxxxxx - Packet type value of InfoFrame stored in InfoFrame Map, Address 0x2A to 0x45
R
Source Prod infoframe version
R
Source Prod infoframe length
96
Infoframe
Reg
Bits
MS_PACKET_ID[7:0]
0xE9
10000101
MS_INF_VERS[7:0]
0xEA
00000000
Register Map
Description
R/W
MPEG Source infoframe ID
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0x46 to 0x53
1xxxxxxx - Packet type value of InfoFrame stored in InfoFrame Map, Address 0x46 to 0x53
MS_INF_LEN[7:0]
0xEB
00000000
MPEG Source infoframe length
VS_PACKET_ID[7:0]
0xEC
10000001
Vendor Specific infoframe ID
VS_INF_VERS[7:0]
0xED
00000000
R
R/W
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0x54 to 0x6F
1xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0x54 to 0x6F
Vendor Specific infoframe length
ACP_PACKET_ID[7:0]
0xEF
00000100
ACP infoframe ID
R
R/W
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0x70 to 0x8B
1xxxxxxx - Packet type value of InfoFrame stored in InfoFrame Map, Address 0x70 to 0x8B
ACP infoframe length
ISRC1_PACKET_ID[7:0]
0xF2
00000101
ISRC1 infoframe ID
R
R/W
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0x8C to 0xA7
1xxxxxxx - Packet type value of InfoFrame stored in InfoFrame Map, Address 0x8C to 0xA7
ISRC1 infoframe length
ISRC2_PACKET_ID[7:0]
0xF5
00000110
ISRC2 infoframe ID
R
R/W
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0xA8 to 0xC3
1xxxxxxx - Packet type value of InfoFrame stored in InfoFrame Map, Address 0xA8 to 0xC3
R
ISRC2 infoframe version
ISRC2_HEADER2[7:0]
0xF7
00000000
ISRC2 infoframe length
GAMUT_PACKET_ID[7:0]
0xF8
00001010
Gamut infoframe ID
R
R/W
0xxxxxxx - Packet type value of packet stored in InfoFrame Map, Address 0xC4 to 0xDF
1xxxxxxx - Packet type value of InfoFrame stored in InfoFrame Map, Address 0xC4 to 0xDF
Rev. 0
R
ISRC1 infoframe version
ISRC1_HEADER2[7:0]
0xF4
00000000
ISRC2_HEADER1[7:0]
0xF6
00000000
R
ACP infoframe version
ACP_HEADER2[7:0]
0xF1
00000000
ISRC1_HEADER1[7:0]
0xF3
00000000
R
Vendor Specific infoframe version
VS_INF_LEN[7:0]
0xEE
00000000
ACP_TYPE[7:0]
0xF0
00000000
R
MPEG Source infoframe version
97
CP
Register Map
Reg
Bits
GAMUT_HEADER1[7:0]
0xF9
00000000
GAMUT_HEADER2[7:0]
0xFA
00000000
2.6
Description
R
Gamut infoframe version
R
Gamut infoframe length
CP
Reg
Bits
CP_START_VBI_R[11:0]
0x2A
00000000
0x2B
00000000
Description
CP_END_VBI_R[11:0]
0x2B
00000000
0x2C
00000000
R/W
Manual value for end of VBI position of the extra blank region preceding the odd R field in 3D TV field alternative packing
format through HDMI.Normally not required to program since this parameter is calculated automatically from input.
R/W
Manual value for start of VBI position of the extra blank region preceding the odd R field in 3D TV field alternative
packing format through HDMI.Normally not required to program since this parameter is calculated automatically from
input.
CP_START_VBI_EVEN_R[11:0]
R/W
0x2D
00000000
Manual value for start of VBI position of the extra blank region preceding the even R field in 3D TV field alternative
0x2E
00000000
packing format through HDMI.Normally not required to program since this parameter is calculated automatically from
input.
CP_END_VBI_EVEN_R[11:0]
R/W
0x2E
00000000
Manual value for end of VBI position of the extra blank region preceding the even R field in 3D TV field alternative
0x2F
00000000
packing format through HDMI.Normally not required to program since this parameter is calculated automatically from
input.
DE_V_START_R[3:0]
0x30
00000000
DE_V_END_R[3:0]
0x30
00000000
R/W
A control to vary the position of the start of the extra VBI region between L and R fieds during odd field in field
alternative packing in 3D TV video format. This register stores a signed value represented in a 2's complement format. The
unit of DE_V_END_EVEN[9:0] is one pixel clock.
Range - -8 to +7 lines
R/W
A control to vary the position of the end of the extra VBI region between L and R fieds during odd field in field alternative
packing in 3D TV video format. This register stores a signed value represented in a 2's complement format. The unit of
DE_V_END_EVEN[9:0] is one pixel clock.
Range - -8 to +7 lines
DE_V_START_EVEN_R[3:0]
R/W
0x31
00000000
A control to vary the position of the start of the extra VBI region between L and R fieds during even field in field
alternative packing in 3D TV video format through HDMI. This register stores a signed value represented in a 2's
complement format. The unit of DE_V_END_EVEN[9:0] is one pixel clock.
Range - -8 to +7 lines
DE_V_END_EVEN_R[3:0]
0x31
00000000
R/W
A control to vary the position of the end of the extra VBI region between L and R fieds during even field in field
alternative packing in 3D TV video format through HDMI. This register stores a signed value represented in a 2's
complement format. The unit of DE_V_END_EVEN[9:0] is one pixel clock.
Range - -8 to +7 lines
TEN_TO_EIGHT_CONV
0x36
00000000
R/W
A control to indicate if the precision of the data to be rounded and truncated to 8-bit has 10 bit precision. This control is
for HDMI use only.
0 - If the input data has got 12 bit precision - then the output data will have 12-, 10- or 8-bits per channel. If the
input data has got 10 bit precision - then the output data will have 10-bits per channel. If the input data has got 8
bit precision - then the output data will have 8-bits per channel.
1 - If The input data has got 10 bit precision, the output data will be 8 bits per channel.
Rev. 0
98
CP
Reg
Bits
CP_CONTRAST[7:0]
0x3A
10000000
CP_SATURATION[7:0]
0x3B
10000000
Register Map
Description
R/W
A control to set the contrast. This field is a unsigned value represented in a 1.7 binary format. The MSB represents the
integer part of the contrast value which is either 0 or 1. The seven LSBs represents the fractional part of the contrast
value. The fractional part has the range [0 to 0.99]. This control is functional if VID_ADJ_EN is set to 1.
00000000 - Contrast set to minimum
10000000 - Default
11111111 - Contrast set to maximum
R/W
A control to set the saturation. This field is a unsigned value represented in a 1.7 binary format. The MSB represents the
integer part of the contrast value which is either 0 or 1. The seven LSBs represent the fractional part of the saturation
value. The fractional part has a [0 to 0.99] range. This control is functional if VID_ADJ_EN is set to 1.
00000000 - Saturation set to minimum
10000000 - Default
11111111 - Saturation set to maximum
CP_BRIGHTNESS[7:0]
0x3C
00000000
R/W
A control to set the brightness. This field is a signed value. The effective brightness value applied to the Luma is obtained
by multiplying the programmed value CP_BRIGHTNESS with a gain of 4. The brightness applied to the Luma has a range
of [-512 to 508]. This control is functional if VID_ADJ_EN is set to 1.
00000000 - The offset applied to the Luma is 0 .
01111111 - The offset applied to the Luma is 508d. This value corresponds to the brightness setting.
11111111 - The offset applied to the Luma is -512d. This value corresponds to the darkest setting.
CP_HUE[7:0]
0x3D
00000000
VID_ADJ_EN
0x3E
00000000
CP_UV_ALIGN_SEL[1:0]
0x3E
00000000
R/W
A control to set the hue. This register a represent an unsigned value which provides hue adjustment. The effective hue
applied to the Chroma is [(CP_HUE[7:0] * 180)/256 - 90]. The range of the effective hue applied to the Chroma is [-90° to
90°]. This control is functional if VID_ADJ_EN is set to 1.
00000000 - A hue of -90° is applied to the Chroma
00001111 - A hue of 0° is applied to the Chroma
11111111 - A hue of 90° is applied to the Chroma
R/W
Video Adjustment Enable. This control selects whether or not the color controls feature is enabled. The color controls
feature is configured via the parameters CP_CONTRAST[7:0], CP_SATURATION[7:0], CP_BRIGHTNESS[7:0] and
CP_HUE[7:0]. The CP CSC must also be enabled for the color controls to be effective.
0 - Disable color controls.
1 - Enable color controls.
R/W
Alignment of uv_data_valid internal signal generated by the CP core. The uv_data_valid signal is used to map U and V
pixels data into one single signal when the part is configured to output a 4:2:2 digital video stream.
00 - The uv_data_signal is synchronized with the Start of Active Video (SAV)
01 - The uv_data_signal is synchronized with the leading edge of the HSync
10 - uv_data_signal is synchronized with the leading edge of the DE
11 - The uv_data_signal is synchronized with the Start of Active Video (SAV)
CP_UV_DVAL_INV
0x3E
00000000
R/W
This controls the polarity of the uv_data_valid signal generated by the CP. The uv_data_valid signal is used to map U and
V pixels data into one single signal when the part is configured to output a 4:2:2 digital video stream.
0 - No change to data_valid signal
1 - Invert uv_data_valid signal
CP_MODE_GAIN_ADJ_EN
0x3E
00000000
A control to enable pregain
ALT_SAT_UV_MAN
0x3E
00000000
0 - The pregain block is bypassed
1 - The pregain block is enabled
U and V Saturation Range Control
0 - The range of the saturator on the Cr and the Cb channels are determined by OP_656_RANGE and
ALT_DATA_SAT.
1 - The range of the saturator on the Cr and the Cb channels are determined by ALT_SAT_UV if either
OP_656_RANGE or ALT_DATA_SAT is set to 0.
Rev. 0
99
R/W
R/W
CP
Reg
Bits
ALT_SAT_UV
0x3E
00000000
Register Map
Description
R/W
Cr and Cb Saturation Range. Refer to ALT_SAT_UV_MAN for additional detail.
0 - The range of the saturators on channels Cr and Cb is 15-to-235.
1 - The range of the saturators on channels Cr and Cb is 16-to-240.
CP_MODE_GAIN_ADJ[7:0]
R/W
0x40
01011100
Pregain adjustment to compensate for the gain of the Analog Front End. This register stores a value in a 1.7 binary format.
CSC_SCALE[1:0]
0x52
01000000
A4[12:0]
0x52
01000000
0x53
00000000
0xxxxxxx - Gain of (0 + (xxxxxxx / 128))
10000000 - Default pregain (pregain of 1.0)
1xxxxxxx - Gain of (1 + (xxxxxxx / 128))
R/W
A control to set the CSC coefficient scalar.
00 - CSC scalar set to 1
01 - CSC scalar set to 2
10 - Reserved. Do not use
11 - Reserved. Do not use
R/W
CSC Coefficient A4. Contains 13-bit A4 coefficient for the A channel.
0x0000 - Default value
A3[12:0]
0x54
00000000
0x55
00000000
R/W
CSC Coefficient A3. Contains 13-bit A3 coefficient for the A channel.
0x0000 - Default value
A2[12:0]
0x55
00000000
0x56
00000000
0x57
00001000
A1[12:0]
0x57
00001000
0x58
00000000
R/W
CSC Coefficient A2. Contains 13-bit A2 coefficient for the A channel.
0x0000 - Default value
R/W
CSC Coefficient A1. Contains 13-bit A1 coefficient for the A channel.
0x0800 - Default value
B4[12:0]
0x59
00000000
0x5A
00000000
R/W
CSC Coefficient B4. Contains 13-bitB4 coefficient for the B channel.
0x0000 - Default value
B3[12:0]
0x5B
00000000
0x5C
00000001
R/W
CSC Coefficient B3. Contains 13-bit B3 coefficient for the B channel.
0x0000 - Default value
B2[12:0]
0x5C
00000001
0x5D
00000000
0x5E
00000000
B1[12:0]
0x5E
00000000
0x5F
00000000
R/W
CSC Coefficient B2. Contains 13-bit B2 coefficient for the B channel.
0x0800 - Default value
R/W
CSC Coefficient B1. Contains 13-bit B1 coefficient for the B channel.
0x0000 - Default value
C4[12:0]
0x60
00000000
0x61
00000000
R/W
CSC Coefficient C4. Contains 13-bit C4 coefficient for the C channel.
0x0000 - Default value
C3[12:0]
0x62
00100000
0x63
00000000
R/W
CSC Coefficient C3. Contains 13-bit C3 coefficient for the C channel.
0x0800 - Default value
Rev. 0
100
CP
Reg
C2[12:0]
0x63
0x64
0x65
Register Map
Bits
Description
00000000
00000000
00000000
CSC Coefficient C2. Contains 13-bit C2 coefficient for the C channel.
R/W
C1[12:0]
0x65
00000000
0x66
00000000
0x0000 - Default value
R/W
CSC Coefficient C1. Contains 13-bit C1 coefficient for the C channel.
0x0000 - Default value
CSC_COEFF_SEL[3:0]
0x68
11110000
MAN_CP_CSC_EN
0x69
00000100
CP_PREC[1:0]
0x77
11111111
AV_INV_F
0x7B
00000101
AV_INV_V
0x7B
00000101
AV_POS_SEL
0x7B
00000101
DE_WITH_AVCODE
0x7B
00000101
CP_INV_HS
0x7C
11000000
R/W
A control to select the mode the CP CSC operates in.
0000 - CP CSC configuration in manual mode
1111 - CP CSC configured in automatic mode
xxxx - Reserved
R/W
A control to manually enable the CP CSC. By default the CP CSC will be automatically enabled in the case that either a
color-space conversion or video-adjustments (Hue, Saturation, Contrast, Brightness) is determined to be required due to
other I2C settings. If MAN_CP_CSC_EN is set to one the CP CSC is forced into the enabled state.
0 - CP CSC will be automatically enabled if required. For example if either a color-space conversion or videoadjustments (Hue, Saturation, Contrast, Brightness) is determined to be required due to other I2C settings.
1 - Manual override to force CP-CSC to be enabled
R/W
A control to set the precision of the data output by the CP core for channels A, B and C.
00 - Rounds and truncates data in channels A, B and C to 10-bit precision
01 - Rounds and truncates data in channels A, B and C to 12-bit precision
10 - Rounds and truncates data in channels A, B and C to 8 bit precision
11 - Rounds and truncates data in channels A, B, and C to the precision set in OP_FORMAT_SEL[6:0]
R/W
A control to invert the F bit in the AV codes.
0 - Inserts the F bit with default polarity,
1 - Inverts the F bit before inserting it into the AV code
R/W
A control to invert V bit in AV codes.
0 - Do not invert V bit polarity before inserting it into the AV code,
1 - Invert V bit polarity before inserting it into the AV code
R/W
A control to select AV codes position
0 - SAV code at HS falling edge and EAV code at HS rising edge.
1 - Uses predetermined (default) positions for AV codes.
R/W
A control to insert AV codes in relation to the DE output signal
0 - AV codes locked to default values. DE position can be moved independently of AV codes.
1 - Inserted AV codes moves in relation to DE position change.
R/W
A control to set the polarity of the HSync output by the CP core. This control is not recommended for use. INV_HS_POL in
IO Map, Register 0x06 [1] should be used instead.
0 - The CP outputs a HSync with negative polarity
1 - The CP outputs a HSync with positive polarity
CP_INV_VS
0x7C
11000000
R/W
A control to set the polarity of the VSync output by the CP core. This control is not recommended for use. INV_VS_POL in
IO Map, Register 0x06 [2] should be used instead.
0 - The CP outputs a VSync with negative polarity
1 - The CP outputs a VSync with positive polarity
Rev. 0
101
CP
Reg
Bits
CP_INV_DE
0x7C
11000000
Register Map
Description
R/W
A control to set the polarity of the FIELD/DE output by the CP core. This control is not recommended for use. INV_F_POL
in IO Map, Register 0x06 [3] should be used instead.
0 - The CP outputs FIELD/DE with negative polarity
1 - The CP outputs FIELD/DE with positive polarity
START_HS[9:0]
0x7C
11000000
0x7E
00000000
R/W
A control to shift the position of the leading edge of the HSync output by the CP core. This register stores a signed value
in a 2's complement format. START_HS[9:0] is the number of pixel clocks by which the leading edge of the HSync is
shifted (e.g. 0x3FF corresponds to a shift of 1 pixel clock away form the active video, 0x005 corresponds to a shift of 5
pixel clocks toward the active video).
0x000 - Default value.
0x000 to 0x1FF - The leading edge of the HSync is shifted toward the active video.
0x200 to 0x3FF - The leading edge of the HSync is shifted away from the active video.
END_HS[9:0]
0x7C
11000000
0x7D
00000000
START_VS[3:0]
0x7F
00000000
END_VS[3:0]
0x7F
00000000
START_FE[3:0]
0x80
00000000
START_FO[3:0]
0x80
00000000
R/W
A control to shift the position of the trailing edge of the HSync output by the CP core. This register stores a signed value
in a 2's complement format. HS_END[9:0] is the number of pixel clock by which the leading edge of the HSync is shifted
(e.g. 0x3FF corresponds to a shift of 1 pixel clock away form the active video, 0x005 corresponds to a shift of 5 pixel clocks
toward the active video).
0x000 - Default value.
0x000 to 0x1FF - The trailing edge of the HSync is shifted toward the active video.
0x200 to 0x3FF - The trailing edge of the HSync is shifted away from the active video.
R/W
A control to shift the position of the leading edge of the VSync output by the CP core. This register stores a signed value
in a 2's complement format. START_VS[3:0] is the number of lines by which the leading edge of the VSync is shifted (e.g.
0x0F corresponds to a shift by 1 line toward the active video, 0x01 corresponds to a shift of 1 line away from the active
video).
0x0 - Default value.
0x0 to 0x7 - The leading edge of the VSync is shifted toward the active video.
0x8 to 0xF - The leading edge of the VSync is shifted away from the active video.
R/W
A control to shift the position of the trailing edge of the VSync output by the CP core. This register stores a signed value in
a 2's complement format. SEND_VS[3:0] is the number of lines by which the trailing edge of the VSync is shifted (e.g. 0x0F
corresponds to a shift of 1 line toward the active video, 0x01 corresponds to a shift of 1 line away from the active video).
0x0 - Default value.
0x0 to 0x7 - The trailing edge of the VSync is shifted toward the active video.
0x8 to 0xF - The trailing edge of the VSync is shifted away from the active video.
R/W
A control to shift the position of the start of even field edge of the FIELD signal output by the CP core This register stores
a signed value in a 2's complement format. START_FE[3:0] the number of lines by which the start of the even fields edge
of the FIELD signal is shifted (e.g. 0x0D corresponds to a shift of 3 lines toward the active video, 0x05 corresponds to a
shift of 5 line away from the active video).
0x0 - Default value.
0x0 to 0x7 - The edge of the FIELD signal corresponding to the start of the even field is shifted toward the active
video.
0x8 to 0xF - The trailing of the FIELD signal corresponding to the start of the even field is shifted away from the
active video.
R/W
A control to shift the position of the start of odd field edge of the FIELD signal output by the CP core This register stores a
signed value in a 2's complement format. START_FO[3:0] the number of lines by which the start of the odd fields edge of
the FIELD signal is shifted (e.g. 0x0D corresponds to a shift of 3 lines toward the active video, 0x05 corresponds to a shift
of 5 line away from the active video).
0x0 - Default value.
0x0 to 0x7 - The edge of the FIELD signal corresponding to the start of the odd field is shifted toward the active
video.
0x8 to 0xF - The trailing of the FIELD signal corresponding to the start of the odd field is shifted away from the
active video.
Rev. 0
102
CP
Reg
Bits
CH1_TRIG_STDI
0x86
00001011
Register Map
Description
R/W
Trigger synchronization source and polarity detector for sync channel 1 STDI. A 0 to 1 transition in this bit restarts the
auto-sync detection algorithm. This is not a self-clearing bit and must be set to 0 to prepare for next trigger.
0 - Default value - transition 0 to 1 restarts auto-sync detection algorithm
1 - Transition 0 to 1 restarts auto-sync detection algorithm
CH1_STDI_CONT
0x86
00001011
R/W
A control to set the synchronization source polarity detection mode for sync channel 1 STDI.
0 - sync channel 1 STDI works in one-shot mode (triggered by a 0 to 1 transition on the CH1_TRIG_STDI bit)
1 - sync channel 1 STDI works in continuous mode
DE_V_START_EVEN[3:0]
0x88
00000000
R/W
A control to vary the start position of the VBI region in even field. This register stores a signed value represented in a 2's
complement format. The unit of DE_V_START_EVEN[9:0] is one pixel clock.
Range - -8 to +7 lines
DE_V_END_EVEN[3:0]
0x88
00000000
START_VS_EVEN[3:0]
0x89
00000000
END_VS_EVEN[3:0]
0x89
00000000
R/W
A control to vary the position of the end of the VBI region in even field. This register stores a signed value represented in a
2's complement format. The unit of DE_V_END_EVEN[9:0] is one pixel clock.
Range - -8 to +7 lines
R/W
A control to shift the position of the leading edge of the Vsync output by the CP core. This register stores a signed value
in a 2's complement format. START_VS_EVEN[3:0] is the number of lines by which the leading edge of the Vsync is shifted
(e.g. 0x0F corresponds to a shift by 1 line toward the active video, 0x01 corresponds to a shift of 1 line away from the
active video).
0x0 to 0x7 - The leading edge of the even Vsync is shifted toward the active video.
0x8 to 0xF - The leading edge of the even Vsync is shifted away from the active video.
R/W
A control to shift the position of the trailing edge of the Vsync output by the CP core. This register stores a signed value in
a 2's complement format. SEND_VS_EVEN[3:0] is the number of lines by which the trailing edge of the Vsync is shifted
(e.g. 0x0F corresponds to a shift of 1 line toward the active video, 0x01 corresponds to a shift of 1 line away from the
active video).
0x0 to 0x7 - The trailing edge of the even Vsync is shifted toward the active video.
0x8 to 0xF - The trailing edge of the even Vsync is shifted away from the active video.
DE_H_START[9:0]
0x8B
01000000
0x8D
00000000
DE_H_END[9:0]
0x8B
01000000
0x8C
00000000
R/W
A control to vary the leading edge position of the DE signal output by the CP core. This register stores a signed value in a
2's complement format. The unit of DE_H_START[9:0] is one pixel clock.
0x200 - -512 pixels of shift
0x3FF - -1 pixel of shift
0x000 - Default value (no shift)
0x001 - +1 pixel of shift
0x1FF - +511 pixels
R/W
A control to vary the trailing edge position of the DE signal output by the CP core. This register stores a signed value in a
2's complement format. The unit of DE_H_END[9:0] is one pixel clock.
0x200 - -512 pixels of shift
0x3FF - -1 pixel of shift
0x000 - Default value (no shift)
0x001 - +1 pixel of shift
0x1FF - +511 pixels
DE_V_START[3:0]
0x8E
00000000
R/W
A control to vary the start position of the VBI region. This register stores a signed value represented in a 2's complement
format. The unit of DE_V_START[9:0] is one line.
1000 - -8 lines of shift
1111 - -1 line of shift
0000 - Default
0001 - +1 line of shift
0111 - +7 lines of shift
Rev. 0
103
CP
Reg
Bits
DE_V_END[3:0]
0x8E
00000000
Register Map
Description
R/W
A control to vary the position of the end of the VBI region. This register stores a signed value represented in a 2's
complement format. The unit of DE_V_START[9:0] is one line.
1000 - -8 lines of shift
1111 - -1 line of shift
0000 - Default
0001 - +1 line of shift
0111 - +7 lines of shift
CH1_FR_LL[10:0]
0x8F
01000000
0x90
00000000
INTERLACED
0x91
01000000
CH1_LCF[11:0]
0xA3
00000000
0xA4
00000000
CP_LCOUNT_MAX[11:0]
0xAB
00000000
0xAC
00000000
CH1_STDI_DVALID
0xB1
00000000
R/W
Free run line length in number of crystal clock cycles in one line of video for sync channel 1 STDI. This register should only
be programmed video standards that are not supported by PRIM_MODE[3:0] and VID_STD[5:0].
0x000 - Internal free run line length is decoded from PRIM_MODE[3:0] and VID_STD[5:0].
All other values - Number of crystal clocks in the ideal line length. Used to enter or exit free run mode.
R/W
Sets the interlaced/progressive mode of the incoming video processed in CP mode.
0 - The CP core expects video mode is progressive
1 - the CP core expects video mode is interlaced
R
A readback for the sync channel 1 Line Count in a Field Number of lines between two VSyncs measured on sync channel
1. The readback from this field is valid if CH1_STDI_DVALID is high.
xxxxxxxxxxx - Readback value
R/W
Manual value for total number of lines in a frame expected by the CP core. CP_LCOUNT_MAX[11:0] is an unsigned value.
This register is used for manual configuration of the free run feature. The value programmed in this register is used for
sync channel 1. The value programmed in this register is used also for sync channel 2 if CH2_FR_FIELD_LENGTH[10:0] set
to 0x000.
0x000 - Ideal number of lines per frame is decoded from PRIM_MODE[3:0] and VID_STD[5:0] for sync channel 1.
All other values - Use the programmed value as ideal number of lines per frame in free run decision for sync
channel 1.
R
This bit is set when the measurements performed by sync channel 1 STDI are completed. High level signals validity for
CH1_BL, CH1_LCF, CH1_LCVS, CH1_FCL, and CH1_STDI_INTLCD parameters. To prevent false readouts, especially during
signal acquisition, CH1_SDTI_DVALID only goes high after four fields with same length are recorded. As a result, STDI
measurements can take up to five fields to finish.
0 - Sync channel 1 STDI measurement are not valid
1 - Sync channel 1 STDI measurement are valid
CH1_STDI_INTLCD
0xB1
00000000
CH1_BL[13:0]
0xB1
00000000
0xB2
00000000
R
Interlaced vs. progressive mode detected by sync channel 1 STDI. The readback from this register is valid if
CH1_STDI_DVALID is high.
0 - Indicates a video signal on sync channel 1 with non interlaced timing.
1 - Indicates a signal on sync channel 1 with interlaced timing.
R
A readback for the Block Length for sync channel 1. Number of crystal cycle cycles in a block of eight lines of incoming
video. This readback is valid if CH1_STDI_DVALID is high.
xxxxxxxxxxxxxx - Readback value
CH1_LCVS[4:0]
0xB3
00000000
R
A readback for the sync channel 1 Line Count in a VSync. Number of lines in a VSync period measured on sync channel 1.
The readback from this field is valid if CH1_STDI_DVALID is high.
xxxxx - Readback value
CH1_FCL[12:0]
0xB8
00000000
0xB9
00000000
R
A readback for the sync channel 1 Field Count Length Number of crystal clock cycles between successive VSyncs
measured by sync channel 1 STDI or in 1/256th of a field. The readback from this field is valid if CH1_STDI_DVALID is high.
xxxxxxxxxxxxx - Readback value
Rev. 0
104
CP
Register Map
Reg
Bits
HDMI_FRUN_MODE
0xBA
00000001
HDMI_FRUN_EN
0xBA
00000001
DLY_A
0xBE
DLY_B
0xBE
DLY_C
0xBE
Description
R/W
A control to configure the free run feature in HDMI mode.
0 - HDMI free run mode 0. The part free runs when the TMDS clock is not detected on the selected HDMI port
1 - HDMI free run mode 1. The CP core free runs when the TMDS clock is not detected on the selected HDMI port
or it the video resolution of HDMI stream processed by the part does not match the video resolution programmed
in PRIM_MODE[3:0] and VID_STD[5:0].
R/W
A control to enable free run in HDMI mode.
0 - Disable the free run feature in HDMI mode
1 - Enable the free run feature in HDMI mode
00000000
1 - Delay the data of channel A by 1 pixel clock cycle
0 - Do not delay the data of channel A
00000000
R/W
A control to delay the data on channel B by one pixel clock cycle.
1 - Delay the data of channel B by 1 pixel clock cycle
0 - Do not delay the data of channel B
00000000
R/W
A control to delay the data on channel A by one pixel clock cycle.
R/W
A control to delay the data on channel C by one pixel clock cycle.
1 - Delay the data of channel C by 1 pixel clock cycle
0 - Do not delay the data of channel C
HCOUNT_ALIGN_ADJ[4:0]
R/W
0xBE
00000000
Manual adjustment for internally generated hcount offset . This register allows an adjustment of 15 pixels to the left or to
0xBF
00010010
the right. The MSB sets the direction (left or right) and the 4 LSBs set the number of pixels to move. This is an unsigned
control.
CP_DEF_COL_MAN_VAL
0xBF
00010010
CP_DEF_COL_AUTO
0xBF
00010010
CP_FORCE_FREERUN
0xBF
00010010
DEF_COL_CHA[7:0]
0xC0
00000000
DEF_COL_CHB[7:0]
0xC1
00000000
DEF_COL_CHC[7:0]
0xC2
00000000
SWAP_SPLIT_AV
0xC9
00101100
00000 - Default value
R/W
A control to enable manual selection of the color used when the CP core free runs.
0 - Uses default color blue
1 - Outputs default colors as given in CP_DEF_COL_CHA, CP_DEF_COL_B and CP_DEF_COL_C
0 - Disable automatic insertion of default color
1 - Output default colors when the CP free runs
R/W
A control to force the CP to free run.
0 - Do not force the CP core free run.
1 - Force the CP core to free run.
R/W
A control the set the default color for channel A. To be used if CP_DEF_COL_MAN_VAL is 1.
0x00 - Default value
R/W
A control to set the default color for channel B. To be used if CP_DEF_COL_MAN_VAL is 1
0x00 - Default value
R/W
A control to set the default color for channel C. To be used if CP_DEF_COL_MAN_VAL is 1
0x00 - Default value
R/W
A control to swap the Luma and Chroma AV codes in DDR modes
0 - Swap the Luma and Chroma AV codes in DDR mode
1 - Do not swap the Luma and Chroma AV codes in DDR mode
Rev. 0
R/W
A control to enable the insertion of default color when the CP free runs.
105
CP
Register Map
Reg
Bits
Description
DIS_AUTO_PARAM_BUFF
0xC9
00101100
A control to disable the buffering of the timing parameters used for free run in HDMI mode.
R/W
0 - Buffer the last measured parameters in HDMI mode used to determine video resolution the part free runs into.
1 - Disable the buffering of measured parameters in HDMI mode. Free run standard determined by
PRIM_MODE[3:0], VID_STD[5:0] and V_FREQ[2:0]
HDMI_CP_LOCK_THRESHOLD[1:0]
R/W
0xCB
01100000
Locking time of filter used for buffering of timing parameters in HDMI mode.
00 - Slowest locking time
01 - Medium locking time
10 - Fastest locking time
11 - Fixed step size of 0.5 pixel
HDMI_CP_AUTOPARM_LOCKED
0xE0
00000000
A readback to report the lock status of the parameter buffering in HDMI mode
0 - The parameter buffering block has not lock to the synchronization signal from the HDMI core.
1 - The parameter buffering block has lock to the synchronization signal from the HDMI core.
HDMI_AUTOPARM_STS[1:0]
0xE0
00000000
CP status for HDMI mode
CRC_ENABLE
0xF2
00000100
R
R
00 - The CP is free running with according to timing parameters programmed in PRIM_MODE and VID_STD
01 - The timing buffer filter has locked to the HDMI input
10 - The CP is free running according to the HDMI buffered parameters
11 - Reserved
R/W
A control to configure the CSC check for CGMS data validation. The CRC checksum can be used validate the CGMS-A
sequence.
1 - Enable CRC checking. CGMSD bit goes high to indicate a valid checksum. ADI recommended setting.
0 - Disable CRC checking. CGMSD bit goes high if the rising edge of the start bit is detected within a time window.
CH1_FL_FR_THRESHOLD[2:0]
R/W
0xF3
11010100
Threshold for difference between input video field length and internally stored standard to enter and exit freerun.
CH1_F_RUN_THR[2:0]
0xF3
11010100
000 - Minimum difference to switch into free run is 36 lines. Maximum difference to switch out of free run is 31
lines.
001 - Minimum difference to switch into free run is 18 lines. Maximum difference to switch out of free run is 15
lines.
010 - Minimum difference to switch into free run is 10 lines. Maximum difference to switch out of free run is 7 lines.
011 - Minimum difference to switch into free run is 4 lines. Maximum difference to switch out of free run is 3 lines.
100 - Minimum difference to switch into free run is 51 lines. Maximum difference to switch out of free run is 46
lines.
101 - Minimum difference to switch into free run is 69 lines. Maximum difference to switch out of free run is 63
lines.
110 - Minimum difference to switch into free run is 134 lines. Maximum difference to switch out of free run is 127
lines.
111 - Minimum difference to switch into free run is 263 lines. Maximum difference to switch out of free run is 255
lines.
R/W
Free run threshold select for sync channel 1. Determines the horizontal conditions under which free run mode is entered
or left. The length of the incoming video line is measured based on the crystal clock and compared to an internally stored
parameter. The magnitude of the difference decides whether or not sync channel 1 will enter free run mode.
000 - Minimum difference to switch into free run is 2. Maximum difference to switch out of free run is 1.
001 - Minimum difference to switch into free run is 256. Maximum difference to switch out of free run is 200.
010 - Minimum difference to switch into free run is 128. Maximum difference to switch out of free run is 112.
011 - Minimum difference to switch into free run is 64. Maximum difference to switch out of free run is 48.
100 - Minimum difference to switch into free run is 32. Maximum difference to switch out of free run is 24.
101 - Minimum difference to switch into free run is 16. Maximum difference to switch out of free run is 12.
110 - Minimum difference to switch into free run is 8. Maximum difference to switch out of free run is 6.
111 - Minimum difference to switch into free run is 4. Maximum difference to switch out of free run is 3.
Rev. 0
106
CP
Reg
Bits
CSC_COEFF_SEL_RB[3:0]
0xF4
00000000
Register Map
Description
R
Readback of the CP CSC conversion when configured in automatic mode
0000 - CSC is bypassed
0001 - YPbPr 601 to RGB
0011 - YPbPr 709 to RGB
0101 - RGB to YPbPr 601
0111 - RGB to YPbPr 709
1001 - YPbPr 709 to YPbPr 601
1010 - YPbPr 601 to YPbPr 709
1111 - CSC in manual mode
xxxx - Reserved
BYPASS_STDI1_LOCKING
0xF5
00000000
Bypass STDI locking for sync channel 1
R/W
CP_FREE_RUN
0xFF
00000000
0 - Update CH1_BL, CH1_LCF and CH1_LCVS only the sync channel 1 STDI locks and CH1_STDI_DVALID is set to 1
1 - Update CH1_BL, CH1_LCF,CH1_LCVS from the sync channel 1 STDI as they are measured
R
Component processor freerun status
0 - The CP is not free running
1 - The CP is free running
Rev. 0
107
CEC
2.7
Register Map
CEC
Reg
Bits
Description
CEC_TX_FRAME_HEADER[7:0]
0x00
00000000
Header block in the transmitted frame
R/W
CEC_TX_FRAME_DATA0[7:0]
0x01
00000000
Opcode block in the transmitted frame
R/W
CEC_TX_FRAME_DATA1[7:0]
0x02
00000000
Operand 1 in the transmitted frame
R/W
CEC_TX_FRAME_DATA2[7:0]
0x03
00000000
Operand 2 in the transmitted frame
R/W
CEC_TX_FRAME_DATA3[7:0]
0x04
00000000
Operand 3 in the transmitted frame
R/W
CEC_TX_FRAME_DATA4[7:0]
0x05
00000000
Operand 4 in the transmitted frame
R/W
CEC_TX_FRAME_DATA5[7:0]
0x06
00000000
Operand 5 in the transmitted frame
R/W
CEC_TX_FRAME_DATA6[7:0]
0x07
00000000
Operand 6 in the transmitted frame
R/W
CEC_TX_FRAME_DATA7[7:0]
0x08
00000000
Operand 7 in the transmitted frame
R/W
CEC_TX_FRAME_DATA8[7:0]
0x09
00000000
Operand 8 in the transmitted frame
R/W
CEC_TX_FRAME_DATA9[7:0]
0x0A
00000000
Operand 9 in the transmitted frame
R/W
CEC_TX_FRAME_DATA10[7:0]
0x0B
00000000
Operand 10 in the transmitted frame
R/W
CEC_TX_FRAME_DATA11[7:0]
0x0C
00000000
Operand 11 in the transmitted frame
R/W
CEC_TX_FRAME_DATA12[7:0]
0x0D
00000000
Operand 12 in the transmitted frame
R/W
CEC_TX_FRAME_DATA13[7:0]
0x0E
00000000
Operand 13 in the transmitted frame
R/W
CEC_TX_FRAME_DATA14[7:0]
0x0F
00000000
Operand 14 in the transmitted frame
R/W
CEC_TX_FRAME_LENGTH[4:0]
R/W
0x10
00000000
Message size of the transmitted frame. This is the number of byte in the outgoing message including the header.
xxxxx - Total number of bytes (including header byte) to be sent
Rev. 0
108
CEC
Reg
Bits
CEC_TX_ENABLE
0x11
00000000
CEC_TX_RETRY[2:0]
0x12
00010011
CEC_RETRY_SFT[3:0]
0x12
00010011
Register Map
Description
R/W
This bit enables the TX section. When set to 1 it initiates the start of transmission of the message in the outgoing
message buffer. When the message transmission is completed this bit is automatically reset to 0. If it is manually set to 0
during a message transmission it may terminate the transmission depending on what stage of the transmission process
has been reached. If the message transmission is sill in the 'signal free time' stage the message transmission will be
terminated. If data transmission has begun then the transmission will continue until the message is fully sent, or until an
error condition occurs.
0 - Transmission mode disabled
1 - Transmission mode enabled and message transmission started
R/W
The number of times the CEC TX should try to retransmit the message if an error condition is encountered. Per the CEC
spec this value should not be set to a value greater than 5.
001 - Try to retransmit the message 1 time if an error occurs
xxx - Try to retransmit the message xxx times if an error occurs
R/W
Signal Free Time of periods for retransmission retry. This parameter should be set to a value equal to or greater than 3
and strictly less than 5.
CEC_TX_SFT[3:0]
0x13
01010111
R/W
Signal Free Time if the device is a new initiator. This parameter should be set to a value equal to or greater than 5 and
strictly less than 7.
CEC_TX_SFT[3:0]
0x13
01010111
R/W
Signal Free Time if the device transmits a next frame immediately after its previous frame. This parameter should be set to
a value equal to or greater than 7 and strictly less than 10.
CEC_TX_LOWDRIVE_COUNTER[3:0]
R
0x14
00000000
The number of times that the LOWDRIVE error condition was encountered while trying to send the current message. This
register is reset to 0b0000 when CEC_TX_ENABLE is set to 1.
0000 - No error condition
XXXX - The number of times the LOWDRIVE error condition was encountered
CEC_TX_NACK_COUNTER[3:0]
R
0x14
00000000
The number of times that the NACK error condition was encountered while trying to send the current message. This
register is reset to 0b0000 when CEC_TX_ENABLE is set to 1.
0000 - No error condition
XXXX - The number of times the NACK error condition was encountered
CEC_BUF0_RX_FRAME_HEADER[7:0]
0x15
00000000
Header block of the received frame stored in receiver frame buffer 0.
R
CEC_BUF0_RX_FRAME_DATA0[7:0]
0x16
00000000
Opcode block of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA1[7:0]
0x17
00000000
Operand 1 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA2[7:0]
0x18
00000000
Operand 2 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA3[7:0]
0x19
00000000
Operand 3 of the received frame in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA4[7:0]
0x1A
00000000
Operand 4 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA5[7:0]
0x1B
00000000
Operand 5 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA6[7:0]
0x1C
00000000
Operand 6 of the received frame stored in receiver frame buffer 0
R
Rev. 0
109
CEC
Register Map
Reg
Bits
Description
CEC_BUF0_RX_FRAME_DATA7[7:0]
0x1D
00000000
Operand 7 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA8[7:0]
0x1E
00000000
Operand 8 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA9[7:0]
0x1F
00000000
Operand 9 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA10[7:0]
0x20
00000000
Operand 10 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA11[7:0]
0x21
00000000
Operand 11 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA12[7:0]
0x22
00000000
Operand 12 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA13[7:0]
0x23
00000000
Operand 13 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_DATA14[7:0]
0x24
00000000
Operand 14 of the received frame stored in receiver frame buffer 0
R
CEC_BUF0_RX_FRAME_LENGTH[4:0]
0x25
00000000
xxxxx - The total number of bytes (including header byte) that were received into buffer 0
R
CEC_LOGICAL_ADDRESS_MASK[2:0]
R/W
0x27
00010000
Logical Address mask of the CEC logical devices. Up to 3 logical devices are supported. When the mask bits are set for a
particular logical device, the logical device is enabled and messages whose destination address matches that of the
selected logical address will be accepted.
[4] - mask bit for logical device 0
[5] - mask bit for logical device 1
[6] - mask bit for logical device 2
CEC_ERROR_REPORT_MODE
0x27
00010000
Error report mode
R/W
0 - Only report short bit period errors
1 - Report both short and long bit period errors
CEC_ERROR_DET_MODE
0x27
00010000
Error detection mode
R/W
CEC_FORCE_NACK
0x27
00010000
0 - If any short bit period error, except for start bit, is detected, the CEC controller immediately drives the CEC line
low for 3.6ms
1 - If a short bit period is detected in the data block where the destination is the CEC section or a target CEC
device, the CEC controller immediately drives the CEC line low for 3.6ms
R/W
Force NO-ACK Control Setting this bit forces the CEC controller not acknowledge any received messages.
0 - Acknowledge received messages
1 - Do not acknowledge received messages
CEC_FORCE_IGNORE
0x27
00010000
R/W
Force Ignore Control. Setting this bit forces the CEC controller to ignore any directly addressed messages. Normal
operation should be kept for the broadcast message
0 - Do not ignore directly address messages
1 - Ignore any directly addressed message
CEC_LOGICAL_ADDRESS1[3:0]
0x28
11111111
Logical address 1 - this address must be enabled by setting CEC_LOGICAL_ADDRESS_MASK[1] to 1
1111 - Default value
xxxx - User specified logical address
Rev. 0
110
R/W
CEC
Register Map
Reg
Bits
Description
CEC_LOGICAL_ADDRESS0[3:0]
0x28
11111111
Logical address 0 - this address must be enabled by setting CEC_LOGICAL_ADDRESS_MASK[0] to 1
1111 - Default value
xxxx - User specified logical address
CEC_LOGICAL_ADDRESS2[3:0]
0x29
00001111
Logical address 2 - this address must be enabled by setting CEC_LOGICAL_ADDRESS_MASK[2] to 1
CEC_POWER_UP
0x2A
00111110
1111 - Default value
xxxx - User specified logical address
R/W
R/W
R/W
Power Mode of CEC module
0 - Power down the CEC module
1 - Power up the CEC module
CEC_GLITCH_FILTER_CTRL[5:0]
R/W
0x2B
00000111
The CEC input signal is sampled by the input clock (XTAL clock). CEC_GLITCH_FILTER_CTRL specifies the minimum pulse
width requirement in input clock cycles. Pulses of widths less than the minimum specified width are considered glitches
and will be removed by the filter.
CEC_CLR_RX_RDY2
0x2C
00000000
CEC_CLR_RX_RDY1
0x2C
00000000
CEC_CLR_RX_RDY0
0x2C
00000000
CEC_SOFT_RESET
0x2C
00000000
CEC_DIS_AUTO_MODE
0x4C
00000000
000000 - Disable the glitch filter
000001 - Filter out pulses with width less than 1 clock cycle
000010 - Filter out pulses with width less than 2 clock cycles
- ...
000111 - Filter out pulses with width less than 7 clock cycles
- ...
111111 - Filter out pulses with width less than 63 clock cycles
SC
Clear control for CEC_RX_RDY2
0 - Retain the value of the CEC_RX_RDY2 flag
1 - Clear the value of the CEC_RX_RDY2 flag
SC
Clear control for CEC_RX_RDY1
0 - Retain the value of the CEC_ RX_RDY1 flag
1 - Clear the value of the CEC_RX_RDY1 flag
SC
Clear control for CEC_RX_RDY0
0 - Retain the value of the CEC_RX_RDY0 flag
1 - Clear the value of the CEC_RX_RDY0 flag
SC
CEC module software reset.
0 - No function
1 - Reset the CEC module
R/W
A control to disable the automatic CEC power up feature when in chip powerdown mode.
0 - Automatic power up feature enabled
1 - Automatic power up feature disabled
CEC_BUF2_TIMESTAMP[1:0]
R
0x53
00000000
Time stamp for frame stored in receiver frame buffer 2. This can be used to determine which frame should be read next
from the receiver frame buffers.
00 - Invalid timestamp, no frame is available in this frame buffer
01 - Of the frames currently buffered, this frame was the first to be received
10 - Of the frames currently buffered, this frame was the second to be received
11 - Of the frames currently buffered, this frame was the third to be received
CEC_BUF1_TIMESTAMP[1:0]
R
0x53
00000000
Time stamp for frame stored in receiver frame buffer 1. This can be used to determine which frame should be read next
from the receiver frame buffers.
Rev. 0
00 - Invalid timestamp, no frame is available in this frame buffer
01 - Of the frames currently buffered, this frame was the first to be received
10 - Of the frames currently buffered, this frame was the second to be received
11 - Of the frames currently buffered, this frame was the third to be received
111
CEC
Register Map
Reg
Bits
Description
CEC_BUF0_TIMESTAMP[1:0]
R
0x53
00000000
Time stamp for frame stored in receiver frame buffer 0. This can be used to determine which frame should be read next
from the receiver frame buffers.
00 - Invalid timestamp, no frame is available in this frame buffer
01 - Of the frames currently buffered, this frame was the first to be received
10 - Of the frames currently buffered, this frame was the second to be received
11 - Of the frames currently buffered, this frame was the third to be received
CEC_BUF1_RX_FRAME_HEADER[7:0]
0x54
00000000
Header block of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA0[7:0]
0x55
00000000
Opcode block of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA1[7:0]
0x56
00000000
Operand 1 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA2[7:0]
0x57
00000000
Operand 2 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA3[7:0]
0x58
00000000
Operand 3 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA4[7:0]
0x59
00000000
Operand 4 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA5[7:0]
0x5A
00000000
Operand 5 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA6[7:0]
0x5B
00000000
Operand 6 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA7[7:0]
0x5C
00000000
Operand 7 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA8[7:0]
0x5D
00000000
Operand 8 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA9[7:0]
0x5E
00000000
Operand 9 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA10[7:0]
0x5F
00000000
Operand 10 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA11[7:0]
0x60
00000000
Operand 11 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA12[7:0]
0x61
00000000
Operand 12 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA13[7:0]
0x62
00000000
Operand 13 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_DATA14[7:0]
0x63
00000000
Operand 14 of the received frame in receiver frame buffer 1
R
CEC_BUF1_RX_FRAME_LENGTH[4:0]
0x64
00000000
xxxxx - The total number of bytes (including header byte) that were received into buffer 1
R
Rev. 0
112
CEC
Register Map
Reg
Bits
Description
CEC_BUF2_RX_FRAME_HEADER[7:0]
0x65
00000000
Header block of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA0[7:0]
0x66
00000000
Opcode block of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA1[7:0]
0x67
00000000
Operand 1 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA2[7:0]
0x68
00000000
Operand 2 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA3[7:0]
0x69
00000000
Operand 3 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA4[7:0]
0x6A
00000000
Operand 4 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA5[7:0]
0x6B
00000000
Operand 5 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA6[7:0]
0x6C
00000000
Operand 6 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA7[7:0]
0x6D
00000000
Operand 7 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA8[7:0]
0x6E
00000000
Operand 8 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA9[7:0]
0x6F
00000000
Operand 9 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA10[7:0]
0x70
00000000
Operand 10 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA11[7:0]
0x71
00000000
Operand 11 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA12[7:0]
0x72
00000000
Operand 12 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA13[7:0]
0x73
00000000
Operand 13 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_DATA14[7:0]
0x74
00000000
Operand 14 of the received frame in receiver frame buffer 2
R
CEC_BUF2_RX_FRAME_LENGTH[4:0]
0x75
00000000
xxxxx - The total number of bytes (including header byte) that were received into buffer 2
R
CEC_RX_RDY2
0x76
00000000
R
CEC_RX_RDY2 flags that a CEC frame has been received and is waiting to be read in receiver frame buffer 2. This flag must
be cleared via CEC_CLR_RX_RDY2 before another message can be received in receiver frame buffer 2.
0 - No CEC frame available in buffer 2
1 - A CEC frame is available in buffer 2
Rev. 0
113
CEC
Reg
Bits
CEC_RX_RDY1
0x76
00000000
Register Map
Description
R
CEC_RX_RDY1 flags that a CEC frame has been received and is waiting to be read in receiver frame buffer 2. This flag must
be cleared via CEC_CLR_RX_RDY1 before another message can be received in receiver frame buffer 1.
0 - No CEC frame available in buffer 1
1 - A CEC frame is available in buffer 1
CEC_RX_RDY0
0x76
00000000
R
CEC_RX_RDY0 flags that a CEC frame has been received and is waiting to be read in receiver frame buffer 2. This flag must
be cleared via CEC_CLR_RX_RDY0 before another message can be received in receiver frame buffer 0.
0 - No CEC frame available in buffer 0
1 - A CEC frame is available in buffer 0
CEC_USE_ALL_BUFS
0x77
00000000
R/W
Control to enable supplementary receiver frame buffers.
0 - Use only buffer 0 to store CEC frames
1 - Use all 3 buffers to stores the CEC frames
CEC_WAKE_OPCODE0[7:0]
R/W
0x78
01101101
CEC_WAKE_OPCODE0 This value can be set to a CEC opcode that requires a response. On receipt of this opcode the Rx
generates an interrupt that can be used to alert the system that a CEC opcode of interest has been received and requires
a response.
01101101 - POWER ON
xxxxxxxx - User specified OPCODE to respond to
CEC_WAKE_OPCODE1[7:0]
R/W
0x79
10001111
CEC_WAKE_OPCODE1 This value can be set to a CEC opcode that requires a response. On receipt of this opcode the Rx
generates an interrupt that can be used to alert the system that a CEC opcode of interest has been received and requires
a response.
10001111 - GIVE POWER STATUS
xxxxxxxx - User specified OPCODE to respond to
CEC_WAKE_OPCODE2[7:0]
R/W
0x7A
10000010
CEC_WAKE_OPCODE2 This value can be set to a CEC opcode that requires a response. On receipt of this opcode the Rx
generates an interrupt that can be used to alert the system that a CEC opcode of interest has been received and requires
a response.
10000010 - ACTIVE SOURCE
xxxxxxxx - User specified OPCODE to respond to
CEC_WAKE_OPCODE3[7:0]
R/W
0x7B
00000100
CEC_WAKE_OPCODE3 This value can be set to a CEC opcode that requires a response. On receipt of this opcode the Rx
generates an interrupt that can be used to alert the system that a CEC opcode of interest has been received and requires
a response.
00000100 - IMAGE VIEW ON
xxxxxxxx - User specified OPCODE to respond to
CEC_WAKE_OPCODE4[7:0]
R/W
0x7C
00001101
CEC_WAKE_OPCODE4 This value can be set to a CEC opcode that requires a response. On receipt of this opcode the Rx
generates an interrupt that can be used to alert the system that a CEC opcode of interest has been received and requires
a response.
00001101 - TEXT VIEW ON
xxxxxxxx - User specified OPCODE to respond to
CEC_WAKE_OPCODE5[7:0]
R/W
0x7D
01110000
CEC_WAKE_OPCODE5 This value can be set to a CEC opcode that requires a response. On receipt of this opcode the Rx
generates an interrupt that can be used to alert the system that a CEC opcode of interest has been received and requires
a response.
01110000 - SYSTEM AUDIO MODE REQUEST
xxxxxxxx - User specified OPCODE to respond to
CEC_WAKE_OPCODE6[7:0]
R/W
0x7E
01000010
CEC_WAKE_OPCODE6 This value can be set to a CEC opcode that requires a response. On receipt of this opcode the Rx
generates an interrupt that can be used to alert the system that a CEC opcode of interest has been received and requires
a response.
01000010 - DECK CONTROL
xxxxxxxx - User specified OPCODE to respond to
Rev. 0
114
CEC
Register Map
Reg
Bits
Description
CEC_WAKE_OPCODE7[7:0]
R/W
0x7F
01000001
CEC_WAKE_OPCODE7 This value can be set to a CEC opcode that requires a response. On receipt of this opcode the Rx
generates an interrupt that can be used to alert the system that a CEC opcode of interest has been received and requires
a response.
01000001 - PLAY
xxxxxxxx - User specified OPCODE to respond to
Rev. 0
115
Index
Register Map
3 INDEX
A1[12-0], 99
A2[12-0], 99
A3[12-0], 99
A4[12-0], 99
AC_MSK_CHNG_PORT, 71
AC_MSK_NEW_CTS, 71
AC_MSK_NEW_N, 71
AC_MSK_VCLK_CHNG, 71
AC_MSK_VCLK_DET, 72
AC_MSK_VPLL_UNLOCK, 71
ACP_HEADER2[7-0], 96
ACP_PACKET_ID[7-0], 96
ACP_PB[223-0], 93
ACP_PCKT_CLR, 41
ACP_PCKT_MB1, 42
ACP_PCKT_MB2, 42
ACP_PCKT_RAW, 39
ACP_PCKT_ST, 40
ACP_TYPE[7-0], 96
AINFO[7-0], 81
AKSV[39-0], 81
AKSV_UPDATE_A_CLR, 62
AKSV_UPDATE_A_MB1, 63
AKSV_UPDATE_A_MB2, 62
AKSV_UPDATE_A_RAW, 61
AKSV_UPDATE_A_ST, 61
ALT_DATA_SAT, 32
ALT_GAMMA, 31
ALT_SAT_UV, 99
ALT_SAT_UV_MAN, 98
ALWAYS_STORE_INF, 76
AN[63-0], 81
AUD_INF_CKS_ERR_CLR, 62
AUD_INF_CKS_ERR_MB1, 63
AUD_INF_CKS_ERR_MB2, 62
AUD_INF_CKS_ERR_RAW, 61
AUD_INF_CKS_ERR_ST, 61
Rev. 0
AUD_INF_LEN[7-0], 95
AUD_INF_PB[111-0], 91
AUD_INF_VERS[7-0], 95
AUD_PACKET_ID[7-0], 95
AUDIO_C_PCKT_CLR, 45
AUDIO_C_PCKT_MB1, 46
AUDIO_C_PCKT_MB2, 45
AUDIO_C_PCKT_RAW, 43
AUDIO_C_PCKT_ST, 44
AUDIO_CH_MD_CLR, 45
AUDIO_CH_MD_MB1, 46
AUDIO_CH_MD_MB2, 45
AUDIO_CH_MD_RAW, 43
AUDIO_CH_MD_ST, 44
AUDIO_CHANNEL_MODE, 70
AUDIO_DELAY_LINE_BYPASS, 71
AUDIO_FIFO_ALMOST_EMPTY_THRE
SHOLD[6-0], 71
AUDIO_FIFO_ALMOST_FULL_THRES
HOLD[6-0], 71
AUDIO_FLT_LINE_CLR, 59
AUDIO_FLT_LINE_MB1, 60
AUDIO_FLT_LINE_MB2, 59
AUDIO_FLT_LINE_RAW, 57
AUDIO_FLT_LINE_ST, 58
AUDIO_INFO_CLR, 41
AUDIO_INFO_MB1, 43
AUDIO_INFO_MB2, 42
AUDIO_INFO_RAW, 40
AUDIO_INFO_ST, 41
AUDIO_MODE_CHNG_CLR, 59
AUDIO_MODE_CHNG_MB1, 60
AUDIO_MODE_CHNG_MB2, 59
AUDIO_MODE_CHNG_RAW, 57
AUDIO_MODE_CHNG_ST, 58
AUDIO_MUTE_SPEED[4-0], 71
AUDIO_PCKT_ERR_CLR, 55
116
Index
Register Map
AUDIO_PCKT_ERR_MB1, 57
AUDIO_PCKT_ERR_MB2, 56
AUDIO_PCKT_ERR_RAW, 54
AUDIO_PCKT_ERR_ST, 55
AUDIO_PLL_LOCKED, 69
AUDIO_SAMPLE_PCKT_DET, 73
AUTO_HDCP_MAP_ENABLE, 82
AV_INV_F, 100
AV_INV_V, 100
AV_MUTE, 69
AV_MUTE_CLR, 44
AV_MUTE_MB1, 46
AV_MUTE_MB2, 45
AV_MUTE_RAW, 43
AV_MUTE_ST, 44
AV_POS_SEL, 100
AVCODE_INSERT_EN, 33
AVI_INF_CKS_ERR_CLR, 62
AVI_INF_CKS_ERR_MB1, 63
AVI_INF_CKS_ERR_MB2, 62
AVI_INF_CKS_ERR_RAW, 61
AVI_INF_CKS_ERR_ST, 61
AVI_INF_LEN[7-0], 95
AVI_INF_PB[223-0], 91
AVI_INF_VERS[7-0], 95
AVI_INFO_CLR, 41
AVI_INFO_MB1, 43
AVI_INFO_MB2, 42
AVI_INFO_RAW, 40
AVI_INFO_ST, 41
AVI_PACKET_ID[7-0], 95
B1[12-0], 99
B2[12-0], 99
B3[12-0], 99
B4[12-0], 99
BCAPS[7-0], 81
BKSV[39-0], 81
BSTATUS[15-0], 81
BYPASS_AUDIO_PASSTHRU, 76
BYPASS_STDI1_LOCKING, 106
C1[12-0], 100
C2[12-0], 100
C3[12-0], 99
Rev. 0
C4[12-0], 99
CABLE_DET_A_CLR, 49
CABLE_DET_A_MB1, 49
CABLE_DET_A_MB2, 49
CABLE_DET_A_RAW, 49
CABLE_DET_A_ST, 49
CEC_BUF0_RX_FRAME_DATA0[7-0],
108
CEC_BUF0_RX_FRAME_DATA1[7-0],
108
CEC_BUF0_RX_FRAME_DATA10[7-0],
109
CEC_BUF0_RX_FRAME_DATA11[7-0],
109
CEC_BUF0_RX_FRAME_DATA12[7-0],
109
CEC_BUF0_RX_FRAME_DATA13[7-0],
109
CEC_BUF0_RX_FRAME_DATA14[7-0],
109
CEC_BUF0_RX_FRAME_DATA2[7-0],
108
CEC_BUF0_RX_FRAME_DATA3[7-0],
108
CEC_BUF0_RX_FRAME_DATA4[7-0],
108
CEC_BUF0_RX_FRAME_DATA5[7-0],
108
CEC_BUF0_RX_FRAME_DATA6[7-0],
108
CEC_BUF0_RX_FRAME_DATA7[7-0],
109
CEC_BUF0_RX_FRAME_DATA8[7-0],
109
CEC_BUF0_RX_FRAME_DATA9[7-0],
109
CEC_BUF0_RX_FRAME_HEADER[7-0],
108
CEC_BUF0_RX_FRAME_LENGTH[4-0],
109
CEC_BUF0_TIMESTAMP[1-0], 111
CEC_BUF1_RX_FRAME_DATA0[7-0],
111
117
Index
Register Map
CEC_BUF1_RX_FRAME_DATA1[7-0],
111
CEC_BUF1_RX_FRAME_DATA10[7-0],
111
CEC_BUF1_RX_FRAME_DATA11[7-0],
111
CEC_BUF1_RX_FRAME_DATA12[7-0],
111
CEC_BUF1_RX_FRAME_DATA13[7-0],
111
CEC_BUF1_RX_FRAME_DATA14[7-0],
111
CEC_BUF1_RX_FRAME_DATA2[7-0],
111
CEC_BUF1_RX_FRAME_DATA3[7-0],
111
CEC_BUF1_RX_FRAME_DATA4[7-0],
111
CEC_BUF1_RX_FRAME_DATA5[7-0],
111
CEC_BUF1_RX_FRAME_DATA6[7-0],
111
CEC_BUF1_RX_FRAME_DATA7[7-0],
111
CEC_BUF1_RX_FRAME_DATA8[7-0],
111
CEC_BUF1_RX_FRAME_DATA9[7-0],
111
CEC_BUF1_RX_FRAME_HEADER[7-0],
111
CEC_BUF1_RX_FRAME_LENGTH[4-0],
111
CEC_BUF1_TIMESTAMP[1-0], 110
CEC_BUF2_RX_FRAME_DATA0[7-0],
112
CEC_BUF2_RX_FRAME_DATA1[7-0],
112
CEC_BUF2_RX_FRAME_DATA10[7-0],
112
CEC_BUF2_RX_FRAME_DATA11[7-0],
112
CEC_BUF2_RX_FRAME_DATA12[7-0],
112
Rev. 0
CEC_BUF2_RX_FRAME_DATA13[7-0],
112
CEC_BUF2_RX_FRAME_DATA14[7-0],
112
CEC_BUF2_RX_FRAME_DATA2[7-0],
112
CEC_BUF2_RX_FRAME_DATA3[7-0],
112
CEC_BUF2_RX_FRAME_DATA4[7-0],
112
CEC_BUF2_RX_FRAME_DATA5[7-0],
112
CEC_BUF2_RX_FRAME_DATA6[7-0],
112
CEC_BUF2_RX_FRAME_DATA7[7-0],
112
CEC_BUF2_RX_FRAME_DATA8[7-0],
112
CEC_BUF2_RX_FRAME_DATA9[7-0],
112
CEC_BUF2_RX_FRAME_HEADER[7-0],
112
CEC_BUF2_RX_FRAME_LENGTH[4-0],
112
CEC_BUF2_TIMESTAMP[1-0], 110
CEC_CLR_RX_RDY0, 110
CEC_CLR_RX_RDY1, 110
CEC_CLR_RX_RDY2, 110
CEC_DIS_AUTO_MODE, 110
CEC_ERROR_DET_MODE, 109
CEC_ERROR_REPORT_MODE, 109
CEC_FORCE_IGNORE, 109
CEC_FORCE_NACK, 109
CEC_GLITCH_FILTER_CTRL[5-0], 110
CEC_INTERRUPT_BYTE[7-0], 66
CEC_INTERRUPT_BYTE_CLR[7-0], 66
CEC_INTERRUPT_BYTE_MB1[7-0], 67
CEC_INTERRUPT_BYTE_MB2[7-0], 67
CEC_INTERRUPT_BYTE_ST[7-0], 66
CEC_LOGICAL_ADDRESS_MASK[2-0],
109
CEC_LOGICAL_ADDRESS0[3-0], 110
CEC_LOGICAL_ADDRESS1[3-0], 109
118
Index
Register Map
CEC_LOGICAL_ADDRESS2[3-0], 110
CEC_POWER_UP, 110
CEC_RETRY_SFT[3-0], 108
CEC_RX_RDY0, 113
CEC_RX_RDY0_CLR, 65
CEC_RX_RDY0_MB1, 66
CEC_RX_RDY0_MB2, 65
CEC_RX_RDY0_RAW, 64
CEC_RX_RDY0_ST, 64
CEC_RX_RDY1, 113
CEC_RX_RDY1_CLR, 65
CEC_RX_RDY1_MB1, 66
CEC_RX_RDY1_MB2, 65
CEC_RX_RDY1_RAW, 64
CEC_RX_RDY1_ST, 64
CEC_RX_RDY2, 112
CEC_RX_RDY2_CLR, 65
CEC_RX_RDY2_MB1, 66
CEC_RX_RDY2_MB2, 65
CEC_RX_RDY2_RAW, 64
CEC_RX_RDY2_ST, 64
CEC_SLAVE_ADDR[6-0], 67
CEC_SOFT_RESET, 110
CEC_TX_ARBITRATION_LOST_CLR,
65
CEC_TX_ARBITRATION_LOST_MB1,
66
CEC_TX_ARBITRATION_LOST_MB2,
66
CEC_TX_ARBITRATION_LOST_RAW,
64
CEC_TX_ARBITRATION_LOST_ST, 65
CEC_TX_ENABLE, 108
CEC_TX_FRAME_DATA0[7-0], 107
CEC_TX_FRAME_DATA1[7-0], 107
CEC_TX_FRAME_DATA10[7-0], 107
CEC_TX_FRAME_DATA11[7-0], 107
CEC_TX_FRAME_DATA12[7-0], 107
CEC_TX_FRAME_DATA13[7-0], 107
CEC_TX_FRAME_DATA14[7-0], 107
CEC_TX_FRAME_DATA2[7-0], 107
CEC_TX_FRAME_DATA3[7-0], 107
CEC_TX_FRAME_DATA4[7-0], 107
Rev. 0
CEC_TX_FRAME_DATA5[7-0], 107
CEC_TX_FRAME_DATA6[7-0], 107
CEC_TX_FRAME_DATA7[7-0], 107
CEC_TX_FRAME_DATA8[7-0], 107
CEC_TX_FRAME_DATA9[7-0], 107
CEC_TX_FRAME_HEADER[7-0], 107
CEC_TX_FRAME_LENGTH[4-0], 107
CEC_TX_LOWDRIVE_COUNTER[3-0],
108
CEC_TX_NACK_COUNTER[3-0], 108
CEC_TX_READY_CLR, 65
CEC_TX_READY_MB1, 66
CEC_TX_READY_MB2, 66
CEC_TX_READY_RAW, 64
CEC_TX_READY_ST, 65
CEC_TX_RETRY[2-0], 108
CEC_TX_RETRY_TIMEOUT_CLR, 65
CEC_TX_RETRY_TIMEOUT_MB1, 66
CEC_TX_RETRY_TIMEOUT_MB2, 65
CEC_TX_RETRY_TIMEOUT_RAW, 64
CEC_TX_RETRY_TIMEOUT_ST, 64
CEC_TX_SFT[3-0], 108
CEC_USE_ALL_BUFS, 113
CEC_WAKE_OPCODE0[7-0], 113
CEC_WAKE_OPCODE1[7-0], 113
CEC_WAKE_OPCODE2[7-0], 113
CEC_WAKE_OPCODE3[7-0], 113
CEC_WAKE_OPCODE4[7-0], 113
CEC_WAKE_OPCODE5[7-0], 113
CEC_WAKE_OPCODE6[7-0], 113
CEC_WAKE_OPCODE7[7-0], 114
CH1_BL[13-0], 103
CH1_F_RUN_THR[2-0], 105
CH1_FCL[12-0], 103
CH1_FL_FR_THRESHOLD[2-0], 105
CH1_FR_LL[10-0], 103
CH1_LCF[11-0], 103
CH1_LCVS[4-0], 103
CH1_STDI_CONT, 102
CH1_STDI_DVALID, 103
CH1_STDI_INTLCD, 103
CH1_TRIG_STDI, 102
CHANGE_N_CLR, 55
119
Index
Register Map
CHANGE_N_MB1, 56
CHANGE_N_MB2, 56
CHANGE_N_RAW, 54
CHANGE_N_ST, 54
CLK_DIVIDE_RATIO[3-0], 68
CLOCK_TERMA_DISABLE, 79
CORE_PDN, 33
CP_BRIGHTNESS[7-0], 98
CP_CONTRAST[7-0], 98
CP_DEF_COL_AUTO, 104
CP_DEF_COL_MAN_VAL, 104
CP_END_VBI_EVEN_R[11-0], 97
CP_END_VBI_R[11-0], 97
CP_FORCE_FREERUN, 104
CP_FORCE_INTERLACED, 34
CP_FREE_RUN, 106
CP_HUE[7-0], 98
CP_INTERLACED, 34
CP_INV_DE, 101
CP_INV_HS, 100
CP_INV_VS, 100
CP_LCOUNT_MAX[11-0], 103
CP_LOCK_CH1_CLR, 39
CP_LOCK_CH1_MB1, 39
CP_LOCK_CH1_MB2, 39
CP_LOCK_CH1_RAW, 38
CP_LOCK_CH1_ST, 38
CP_LOCK_CLR, 37
CP_LOCK_MB1, 38
CP_LOCK_MB2, 38
CP_LOCK_RAW, 37
CP_LOCK_ST, 37
CP_LOCK_UNLOCK_EDGE_SEL, 36
CP_MODE_GAIN_ADJ[7-0], 99
CP_MODE_GAIN_ADJ_EN, 98
CP_PREC[1-0], 100
CP_PROG_PARM_FOR_INT, 34
CP_PWRDN, 34
CP_SATURATION[7-0], 98
CP_SLAVE_ADDR[6-0], 67
CP_START_VBI_EVEN_R[11-0], 97
CP_START_VBI_R[11-0], 97
CP_STDI_INTERLACED, 34
Rev. 0
CP_UNLOCK_CH1_CLR, 39
CP_UNLOCK_CH1_MB1, 39
CP_UNLOCK_CH1_MB2, 39
CP_UNLOCK_CH1_RAW, 38
CP_UNLOCK_CH1_ST, 39
CP_UNLOCK_CLR, 37
CP_UNLOCK_MB1, 38
CP_UNLOCK_MB2, 37
CP_UNLOCK_RAW, 37
CP_UNLOCK_ST, 37
CP_UV_ALIGN_SEL[1-0], 98
CP_UV_DVAL_INV, 98
CRC_ENABLE, 105
CS_COPYRIGHT_MANUAL, 77
CS_COPYRIGHT_VALUE, 77
CS_DATA[39-0], 76
CS_DATA_VALID_CLR, 44
CS_DATA_VALID_MB1, 46
CS_DATA_VALID_MB2, 45
CS_DATA_VALID_RAW, 43
CS_DATA_VALID_ST, 44
CSC_COEFF_SEL[3-0], 100
CSC_COEFF_SEL_RB[3-0], 106
CSC_SCALE[1-0], 99
CTS[19-0], 78
CTS_CHANGE_THRESHOLD[5-0], 71
CTS_PASS_THRSH_CLR, 55
CTS_PASS_THRSH_MB1, 56
CTS_PASS_THRSH_MB2, 56
CTS_PASS_THRSH_RAW, 53
CTS_PASS_THRSH_ST, 54
DATA_BLANK_EN, 33
DCFIFO_KILL_DIS, 74
DCFIFO_KILL_NOT_LOCKED, 74
DCFIFO_LEVEL[2-0], 74
DCFIFO_LOCKED, 74
DCFIFO_RECENTER, 78
DCFIFO_RESET_ON_LOCK, 74
DDC_PWRDN[7-0], 79
DE_H_END[9-0], 102
DE_H_START[9-0], 102
DE_REGEN_FILTER_LOCKED, 70
DE_REGEN_LCK_CLR, 48
120
Index
Register Map
DE_REGEN_LCK_MB1, 48
DE_REGEN_LCK_MB2, 48
DE_REGEN_LCK_RAW, 47
DE_REGEN_LCK_ST, 47
DE_V_END[3-0], 103
DE_V_END_EVEN[3-0], 102
DE_V_END_EVEN_R[3-0], 97
DE_V_END_R[3-0], 97
DE_V_START[3-0], 102
DE_V_START_EVEN[3-0], 102
DE_V_START_EVEN_R[3-0], 97
DE_V_START_R[3-0], 97
DE_WITH_AVCODE, 100
DEEP_COLOR_CHNG_CLR, 58
DEEP_COLOR_CHNG_MB1, 60
DEEP_COLOR_CHNG_MB2, 59
DEEP_COLOR_CHNG_RAW, 57
DEEP_COLOR_CHNG_ST, 58
DEEP_COLOR_MODE[1-0], 70
DEEP_COLOR_MODE_USER[1-0], 76
DEF_COL_CHA[7-0], 104
DEF_COL_CHB[7-0], 104
DEF_COL_CHC[7-0], 104
DEREP_N[3-0], 76
DEREP_N_OVERRIDE, 76
DIS_AUTO_PARAM_BUFF, 105
DIS_CABLE_DET_RST, 77
DISABLE_AUTO_EDID, 82
DLY_A, 104
DLY_B, 104
DLY_C, 104
DR_STR[1-0], 34
DR_STR_CLK[1-0], 34
DR_STR_SYNC[1-0], 34
DSD_MAP_INV, 79
DSD_MAP_ROT[2-0], 79
DSD_PACKET_DET, 73
DST_AUDIO_PCKT_DET, 73
DST_DOUBLE, 73
DST_MAP_ROT[2-0], 79
DVI_HSYNC_POLARITY, 69
DVI_VSYNC_POLARITY, 69
EDID_A_ENABLE, 82
Rev. 0
EDID_A_ENABLE_CPU, 82
EDID_SEGMENT_POINTER, 82
EDID_SLAVE_ADDR[6-0], 67
EN_UMASK_RAW_INTRQ, 36
EN_UMASK_RAW_INTRQ2, 36
END_HS[9-0], 101
END_VS[3-0], 101
END_VS_EVEN[3-0], 102
EQ_DYN_EN, 80
EQ_DYN_FREQ1[3-0], 79
EQ_DYN_FREQ2[3-0], 79
EQ_DYN1_HF[7-0], 80
EQ_DYN1_LF[7-0], 80
EQ_DYN2_HF[7-0], 80
EQ_DYN2_LF[7-0], 80
EQ_DYN3_HF[7-0], 80
EQ_DYN3_LF[7-0], 80
F_OUT_SEL, 32
FIELD0_HEIGHT[12-0], 70
FIELD0_TOTAL_HEIGHT[13-0], 75
FIELD0_VS_BACK_PORCH[13-0], 75
FIELD0_VS_FRONT_PORCH[13-0], 75
FIELD0_VS_PULSE_WIDTH[13-0], 75
FIELD1_HEIGHT[12-0], 70
FIELD1_TOTAL_HEIGHT[13-0], 75
FIELD1_VS_BACK_PORCH[13-0], 76
FIELD1_VS_FRONT_PORCH[13-0], 75
FIELD1_VS_PULSE_WIDTH[13-0], 75
FIFO_NEAR_OVFL_CLR, 55
FIFO_NEAR_OVFL_MB1, 56
FIFO_NEAR_OVFL_MB2, 55
FIFO_NEAR_OVFL_RAW, 53
FIFO_NEAR_OVFL_ST, 54
FIFO_NEAR_UFLO_CLR, 59
FIFO_NEAR_UFLO_MB1, 60
FIFO_NEAR_UFLO_MB2, 60
FIFO_NEAR_UFLO_RAW, 58
FIFO_NEAR_UFLO_ST, 58
FIFO_OVERFLO_CLR, 55
FIFO_OVERFLO_MB1, 56
FIFO_OVERFLO_MB2, 56
FIFO_OVERFLO_RAW, 53
FIFO_OVERFLO_ST, 54
121
Index
Register Map
FIFO_UNDERFLO_CLR, 55
FIFO_UNDERFLO_MB1, 56
FIFO_UNDERFLO_MB2, 55
FIFO_UNDERFLO_RAW, 53
FIFO_UNDERFLO_ST, 54
FILT_5V_DET_DIS, 77
FILT_5V_DET_TIMER[6-0], 77
FORCE_N_UPDATE, 78
FREQTOLERANCE[3-0], 71
GAMUT_HEADER1[7-0], 97
GAMUT_HEADER2[7-0], 97
GAMUT_IRQ_NEXT_FIELD, 77
GAMUT_MDATA_CLR, 45
GAMUT_MDATA_MB1, 46
GAMUT_MDATA_MB2, 46
GAMUT_MDATA_RAW, 43
GAMUT_MDATA_ST, 44
GAMUT_PACKET_ID[7-0], 96
GBD[223-0], 95
GEN_CTL_PCKT_CLR, 45
GEN_CTL_PCKT_MB1, 46
GEN_CTL_PCKT_MB2, 45
GEN_CTL_PCKT_RAW, 43
GEN_CTL_PCKT_ST, 44
HBR_AUDIO_PCKT_DET, 73
HCOUNT_ALIGN_ADJ[4-0], 104
HDCP_A0, 68
HDCP_KEY_ERROR, 69
HDCP_KEYS_READ, 69
HDCP_MAP_SELECT[2-0], 82
HDCP_REPT_EDID_RESET, 78
HDCP_RI_EXPIRED, 69
HDMI_AUTOPARM_STS[1-0], 105
HDMI_COLORSPACE[3-0], 77
HDMI_CONTENT_ENCRYPTED, 69
HDMI_CP_AUTOPARM_LOCKED, 105
HDMI_CP_LOCK_THRESHOLD[1-0],
105
HDMI_ENCRPT_A_CLR, 49
HDMI_ENCRPT_A_MB1, 49
HDMI_ENCRPT_A_MB2, 49
HDMI_ENCRPT_A_RAW, 49
HDMI_ENCRPT_A_ST, 49
Rev. 0
HDMI_FRUN_EN, 104
HDMI_FRUN_MODE, 104
HDMI_INTERLACED, 70
HDMI_MODE, 69
HDMI_MODE_CLR, 45
HDMI_MODE_MB1, 46
HDMI_MODE_MB2, 45
HDMI_MODE_RAW, 43
HDMI_MODE_ST, 44
HDMI_PIXEL_REPETITION[3-0], 70
HDMI_PORT_SELECT[2-0], 68
HDMI_SLAVE_ADDR[6-0], 67
HPA_AUTO_INT_EDID[1-0], 78
HPA_DELAY_SEL[3-0], 78
HPA_MAN_VALUE_A, 35
HPA_MANUAL, 78
HPA_OVR_TERM, 78
HPA_STATUS_PORT_A, 35
HPA_TRISTATE_A, 35
HSYNC_BACK_PORCH[12-0], 75
HSYNC_FRONT_PORCH[12-0], 74
HSYNC_PULSE_WIDTH[12-0], 75
I2S_SPDIF_MAP_INV, 79
I2S_SPDIF_MAP_ROT[1-0], 79
I2S_MODE_ENABLE, 79
I2SBITWIDTH[4-0], 69
I2SOUTMODE[1-0], 68
IGNORE_PARITY_ERR, 73
INFOFRAME_SLAVE_ADDR[6-0], 67
INP_COLOR_SPACE[3-0], 31
INT2_POL, 36
INTERLACED, 103
INTERNAL_MUTE_CLR, 44
INTERNAL_MUTE_MB1, 46
INTERNAL_MUTE_MB2, 45
INTERNAL_MUTE_RAW, 43
INTERNAL_MUTE_ST, 44
INTRQ_DUR_SEL[1-0], 35
INTRQ_OP_SEL[1-0], 36
INTRQ_RAW, 35
INTRQ2_DUR_SEL[1-0], 36
INTRQ2_MUX_SEL[1-0], 36
INTRQ2_RAW, 35
122
Index
Register Map
INV_F_POL, 33
INV_HS_POL, 33
INV_LLC_POL, 33
INV_VS_POL, 33
ISRC1_HEADER1[7-0], 96
ISRC1_HEADER2[7-0], 96
ISRC1_PACKET_ID[7-0], 96
ISRC1_PB[223-0], 94
ISRC1_PCKT_CLR, 41
ISRC1_PCKT_MB1, 42
ISRC1_PCKT_MB2, 42
ISRC1_PCKT_RAW, 39
ISRC1_PCKT_ST, 40
ISRC2_HEADER1[7-0], 96
ISRC2_HEADER2[7-0], 96
ISRC2_PACKET_ID[7-0], 96
ISRC2_PB[223-0], 94
ISRC2_PCKT_CLR, 41
ISRC2_PCKT_MB1, 42
ISRC2_PCKT_MB2, 41
ISRC2_PCKT_RAW, 39
ISRC2_PCKT_ST, 40
KSV_BYTE_0[7-0], 82
KSV_BYTE_1[7-0], 82
KSV_BYTE_10[7-0], 83
KSV_BYTE_100[7-0], 88
KSV_BYTE_101[7-0], 88
KSV_BYTE_102[7-0], 88
KSV_BYTE_103[7-0], 88
KSV_BYTE_104[7-0], 88
KSV_BYTE_105[7-0], 88
KSV_BYTE_106[7-0], 88
KSV_BYTE_107[7-0], 89
KSV_BYTE_108[7-0], 89
KSV_BYTE_109[7-0], 89
KSV_BYTE_11[7-0], 83
KSV_BYTE_110[7-0], 89
KSV_BYTE_111[7-0], 89
KSV_BYTE_112[7-0], 89
KSV_BYTE_113[7-0], 89
KSV_BYTE_114[7-0], 89
KSV_BYTE_115[7-0], 89
KSV_BYTE_116[7-0], 89
Rev. 0
KSV_BYTE_117[7-0], 89
KSV_BYTE_118[7-0], 89
KSV_BYTE_119[7-0], 89
KSV_BYTE_12[7-0], 83
KSV_BYTE_120[7-0], 89
KSV_BYTE_121[7-0], 89
KSV_BYTE_122[7-0], 89
KSV_BYTE_123[7-0], 89
KSV_BYTE_124[7-0], 90
KSV_BYTE_125[7-0], 90
KSV_BYTE_126[7-0], 90
KSV_BYTE_127[7-0], 90
KSV_BYTE_13[7-0], 83
KSV_BYTE_14[7-0], 83
KSV_BYTE_15[7-0], 83
KSV_BYTE_16[7-0], 83
KSV_BYTE_17[7-0], 83
KSV_BYTE_18[7-0], 83
KSV_BYTE_19[7-0], 83
KSV_BYTE_2[7-0], 82
KSV_BYTE_20[7-0], 83
KSV_BYTE_21[7-0], 83
KSV_BYTE_22[7-0], 84
KSV_BYTE_23[7-0], 84
KSV_BYTE_24[7-0], 84
KSV_BYTE_25[7-0], 84
KSV_BYTE_26[7-0], 84
KSV_BYTE_27[7-0], 84
KSV_BYTE_28[7-0], 84
KSV_BYTE_29[7-0], 84
KSV_BYTE_3[7-0], 82
KSV_BYTE_30[7-0], 84
KSV_BYTE_31[7-0], 84
KSV_BYTE_32[7-0], 84
KSV_BYTE_33[7-0], 84
KSV_BYTE_34[7-0], 84
KSV_BYTE_35[7-0], 84
KSV_BYTE_36[7-0], 84
KSV_BYTE_37[7-0], 84
KSV_BYTE_38[7-0], 84
KSV_BYTE_39[7-0], 85
KSV_BYTE_4[7-0], 82
KSV_BYTE_40[7-0], 85
123
Index
Register Map
KSV_BYTE_41[7-0], 85
KSV_BYTE_42[7-0], 85
KSV_BYTE_43[7-0], 85
KSV_BYTE_44[7-0], 85
KSV_BYTE_45[7-0], 85
KSV_BYTE_46[7-0], 85
KSV_BYTE_47[7-0], 85
KSV_BYTE_48[7-0], 85
KSV_BYTE_49[7-0], 85
KSV_BYTE_5[7-0], 83
KSV_BYTE_50[7-0], 85
KSV_BYTE_51[7-0], 85
KSV_BYTE_52[7-0], 85
KSV_BYTE_53[7-0], 85
KSV_BYTE_54[7-0], 85
KSV_BYTE_55[7-0], 85
KSV_BYTE_56[7-0], 86
KSV_BYTE_57[7-0], 86
KSV_BYTE_58[7-0], 86
KSV_BYTE_59[7-0], 86
KSV_BYTE_6[7-0], 83
KSV_BYTE_60[7-0], 86
KSV_BYTE_61[7-0], 86
KSV_BYTE_62[7-0], 86
KSV_BYTE_63[7-0], 86
KSV_BYTE_64[7-0], 86
KSV_BYTE_65[7-0], 86
KSV_BYTE_66[7-0], 86
KSV_BYTE_67[7-0], 86
KSV_BYTE_68[7-0], 86
KSV_BYTE_69[7-0], 86
KSV_BYTE_7[7-0], 83
KSV_BYTE_70[7-0], 86
KSV_BYTE_71[7-0], 86
KSV_BYTE_72[7-0], 86
KSV_BYTE_73[7-0], 87
KSV_BYTE_74[7-0], 87
KSV_BYTE_75[7-0], 87
KSV_BYTE_76[7-0], 87
KSV_BYTE_77[7-0], 87
KSV_BYTE_78[7-0], 87
KSV_BYTE_79[7-0], 87
KSV_BYTE_8[7-0], 83
Rev. 0
KSV_BYTE_80[7-0], 87
KSV_BYTE_81[7-0], 87
KSV_BYTE_82[7-0], 87
KSV_BYTE_83[7-0], 87
KSV_BYTE_84[7-0], 87
KSV_BYTE_85[7-0], 87
KSV_BYTE_86[7-0], 87
KSV_BYTE_87[7-0], 87
KSV_BYTE_88[7-0], 87
KSV_BYTE_89[7-0], 87
KSV_BYTE_9[7-0], 83
KSV_BYTE_90[7-0], 88
KSV_BYTE_91[7-0], 88
KSV_BYTE_92[7-0], 88
KSV_BYTE_93[7-0], 88
KSV_BYTE_94[7-0], 88
KSV_BYTE_95[7-0], 88
KSV_BYTE_96[7-0], 88
KSV_BYTE_97[7-0], 88
KSV_BYTE_98[7-0], 88
KSV_BYTE_99[7-0], 88
KSV_LIST_READY, 81
KSV_LIST_READY_CLR_A, 82
KSV_MAP_SELECT[2-0], 82
KSV_SLAVE_ADDR[6-0], 67
LINE_WIDTH[12-0], 70
LLC_DLL_EN, 35
LLC_DLL_MUX, 35
LLC_DLL_PHASE[4-0], 35
MAIN_RESET, 67
MAN_AUDIO_DL_BYPASS, 71
MAN_CP_CSC_EN, 100
MAN_OP_CLK_SEL[2-0], 67
MAN_OP_CLK_SEL_EN, 67
MCLK_FS_N[2-0], 68
MPU_STIM_INTRQ, 36
MPU_STIM_INTRQ_CLR, 38
MPU_STIM_INTRQ_MB1, 38
MPU_STIM_INTRQ_MB2, 38
MPU_STIM_INTRQ_RAW, 38
MPU_STIM_INTRQ_ST, 38
MS_INF_CKS_ERR_CLR, 62
MS_INF_CKS_ERR_MB1, 63
124
Index
Register Map
MS_INF_CKS_ERR_MB2, 62
MS_INF_CKS_ERR_RAW, 60
MS_INF_CKS_ERR_ST, 61
MS_INF_LEN[7-0], 96
MS_INF_PB[111-0], 92
MS_INF_VERS[7-0], 96
MS_INFO_CLR, 41
MS_INFO_MB1, 43
MS_INFO_MB2, 42
MS_INFO_RAW, 40
MS_INFO_ST, 40
MS_PACKET_ID[7-0], 96
MT_MSK_ACR_NOT_DET, 72
MT_MSK_APCKT_ECC_ERR, 73
MT_MSK_APLL_UNLOCK, 72
MT_MSK_AUD_MODE_CHNG, 72
MT_MSK_AVMUTE, 72
MT_MSK_CHMODE_CHNG, 73
MT_MSK_CHNG_PORT, 73
MT_MSK_COMPRS_AUD, 72
MT_MSK_FIFO_OVERFLOW, 72
MT_MSK_FIFO_UNDERLFOW, 72
MT_MSK_FLATLINE_DET, 72
MT_MSK_NEW_CTS, 72
MT_MSK_NEW_N, 72
MT_MSK_NOT_HDMIMODE, 72
MT_MSK_PARITY_ERR, 72
MT_MSK_VCLK_CHNG, 72
MT_MSK_VCLK_DET, 73
MT_MSK_VPLL_UNLOCK, 72
MUTE_AUDIO, 73
MUX_DSD_OUT, 68
MUX_HBR_OUT, 68
N[19-0], 78
NEW_ACP_PCKT_CLR, 51
NEW_ACP_PCKT_MB1, 53
NEW_ACP_PCKT_MB2, 52
NEW_ACP_PCKT_RAW, 50
NEW_ACP_PCKT_ST, 50
NEW_AUDIO_INFO_CLR, 51
NEW_AUDIO_INFO_MB1, 53
NEW_AUDIO_INFO_MB2, 52
NEW_AUDIO_INFO_RAW, 50
Rev. 0
NEW_AUDIO_INFO_ST, 51
NEW_AVI_INFO_CLR, 52
NEW_AVI_INFO_MB1, 53
NEW_AVI_INFO_MB2, 52
NEW_AVI_INFO_RAW, 50
NEW_AVI_INFO_ST, 51
NEW_GAMUT_MDATA_CLR, 55
NEW_GAMUT_MDATA_MB1, 57
NEW_GAMUT_MDATA_MB2, 56
NEW_GAMUT_MDATA_RAW, 54
NEW_GAMUT_MDATA_ST, 55
NEW_ISRC1_PCKT_CLR, 51
NEW_ISRC1_PCKT_MB1, 52
NEW_ISRC1_PCKT_MB2, 52
NEW_ISRC1_PCKT_RAW, 50
NEW_ISRC1_PCKT_ST, 50
NEW_ISRC2_PCKT_CLR, 51
NEW_ISRC2_PCKT_MB1, 52
NEW_ISRC2_PCKT_MB2, 52
NEW_ISRC2_PCKT_RAW, 49
NEW_ISRC2_PCKT_ST, 50
NEW_MS_INFO_CLR, 51
NEW_MS_INFO_MB1, 53
NEW_MS_INFO_MB2, 52
NEW_MS_INFO_RAW, 50
NEW_MS_INFO_ST, 51
NEW_SAMP_RT_CLR, 59
NEW_SAMP_RT_MB1, 60
NEW_SAMP_RT_MB2, 59
NEW_SAMP_RT_RAW, 57
NEW_SAMP_RT_ST, 58
NEW_SPD_INFO_CLR, 51
NEW_SPD_INFO_MB1, 53
NEW_SPD_INFO_MB2, 52
NEW_SPD_INFO_RAW, 50
NEW_SPD_INFO_ST, 51
NEW_TMDS_FRQ_CLR, 59
NEW_TMDS_FRQ_MB1, 60
NEW_TMDS_FRQ_MB2, 60
NEW_TMDS_FRQ_RAW, 57
NEW_TMDS_FRQ_ST, 58
NEW_VS_INFO_CLR, 51
NEW_VS_INFO_MB1, 53
125
Index
Register Map
NEW_VS_INFO_MB2, 52
NEW_VS_INFO_RAW, 50
NEW_VS_INFO_ST, 51
NOT_AUTO_UNMUTE, 74
OP_656_RANGE, 31
OP_CH_SEL[2-0], 32
OP_FORMAT_SEL[7-0], 32
OP_SWAP_CB_CR, 33
OVERRIDE_DEEP_COLOR_MODE, 76
OVR_AUTO_MUX_DSD_OUT, 68
OVR_MUX_HBR, 68
PACKET_ERROR_CLR, 55
PACKET_ERROR_MB1, 57
PACKET_ERROR_MB2, 56
PACKET_ERROR_RAW, 54
PACKET_ERROR_ST, 54
PADS_PDN, 34
PARITY_ERROR_CLR, 59
PARITY_ERROR_MB1, 60
PARITY_ERROR_MB2, 59
PARITY_ERROR_RAW, 57
PARITY_ERROR_ST, 58
PIN_CHECKER_EN, 67
PIN_CHECKER_VAL[7-0], 67
PJ[7-0], 81
POWER_DOWN, 33
PRIM_MODE[3-0], 31
PWR_SAVE_MODE, 33
QZERO_ITC_DIS, 76
QZERO_RGB_FULL, 76
RD_INFO[15-0], 67
REPL_AV_CODE, 33
RGB_OUT, 31
RI[15-0], 81
RI_EXPIRED_A_CLR, 62
RI_EXPIRED_A_MB1, 63
RI_EXPIRED_A_MB2, 62
RI_EXPIRED_A_RAW, 61
RI_EXPIRED_A_ST, 61
SAMPLE_ALSB, 35
SHA_A[31-0], 81
SPA_LOCATION_MSB, 82
SPA_STORAGE_MODE, 82
Rev. 0
SPD_INF_CKS_ERR_CLR, 62
SPD_INF_CKS_ERR_MB1, 63
SPD_INF_CKS_ERR_MB2, 62
SPD_INF_CKS_ERR_RAW, 61
SPD_INF_CKS_ERR_ST, 61
SPD_INF_LEN[7-0], 95
SPD_INF_PB[223-0], 92
SPD_INF_VERS[7-0], 95
SPD_INFO_CLR, 41
SPD_INFO_MB1, 43
SPD_INFO_MB2, 42
SPD_INFO_RAW, 40
SPD_INFO_ST, 41
SPD_PACKET_ID[7-0], 95
START_FE[3-0], 101
START_FO[3-0], 101
START_HS[9-0], 101
START_VS[3-0], 101
START_VS_EVEN[3-0], 102
STDI_DATA_VALID_CLR, 37
STDI_DATA_VALID_EDGE_SEL, 36
STDI_DATA_VALID_MB1, 38
STDI_DATA_VALID_MB2, 37
STDI_DATA_VALID_RAW, 37
STDI_DATA_VALID_ST, 37
STDI_DVALID_CH1_CLR, 39
STDI_DVALID_CH1_MB1, 39
STDI_DVALID_CH1_MB2, 39
STDI_DVALID_CH1_RAW, 38
STDI_DVALID_CH1_ST, 39
STORE_UNMASKED_IRQS, 36
SWAP_SPLIT_AV, 104
TEN_TO_EIGHT_CONV, 97
TERM_AUTO, 68
TMDS_CLK_A_CLR, 47
TMDS_CLK_A_MB1, 48
TMDS_CLK_A_MB2, 48
TMDS_CLK_A_RAW, 46
TMDS_CLK_A_ST, 47
TMDS_PLL_LOCKED, 69
TMDSFREQ[8-0], 77
TMDSFREQ_FRAC[6-0], 77
TMDSPLL_LCK_A_CLR, 47
126
Index
Register Map
TMDSPLL_LCK_A_MB1, 48
TMDSPLL_LCK_A_MB2, 48
TMDSPLL_LCK_A_RAW, 46
TMDSPLL_LCK_A_ST, 47
TOTAL_LINE_WIDTH[13-0], 74
TRI_AUDIO, 34
TRI_LLC, 35
TRI_PIX, 35
TRI_SYNCS, 34
UP_CONVERSION_MODE, 74
V_FREQ[2-0], 31
V_LOCKED_CLR, 47
V_LOCKED_MB1, 48
V_LOCKED_MB2, 48
V_LOCKED_RAW, 47
V_LOCKED_ST, 47
VCLK_CHNG_CLR, 58
VCLK_CHNG_MB1, 60
VCLK_CHNG_MB2, 59
VCLK_CHNG_RAW, 57
VCLK_CHNG_ST, 58
VERT_FILTER_LOCKED, 70
VID_ADJ_EN, 98
VID_STD[5-0], 31
Rev. 0
VIDEO_3D_CLR, 47
VIDEO_3D_MB1, 48
VIDEO_3D_MB2, 48
VIDEO_3D_RAW, 47
VIDEO_3D_ST, 47
VS_INF_CKS_ERR_CLR, 63
VS_INF_CKS_ERR_MB1, 63
VS_INF_CKS_ERR_MB2, 63
VS_INF_CKS_ERR_RAW, 63
VS_INF_CKS_ERR_ST, 63
VS_INF_LEN[7-0], 96
VS_INF_PB[223-0], 93
VS_INF_VERS[7-0], 96
VS_INFO_CLR, 41
VS_INFO_MB1, 42
VS_INFO_MB2, 42
VS_INFO_RAW, 40
VS_INFO_ST, 40
VS_OUT_SEL, 33
VS_PACKET_ID[7-0], 96
WAIT_UNMUTE[2-0], 74
XTAL_FREQ_SEL[1-0], 32
XTAL_PDN, 33
127
Revision History
Register Map
REVISION HISTORY
04/13 – Revision 0 : Initial Version
Rev. 0
128
Register Map
NOTES
I2C refers to a communications protocol originally developed by Philips Semiconductors (now NXP Semiconductors).
HDMI, the HDMI Logo, and High-Definition Multimedia Interface are trademarks or registered trademarks of HDMI Licensing LLC in the United
States and other countries.
© 2013 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
Rev. 0
129