Texas Instruments TVP5147M1PFP VBI Fifo and Ancillary Data in Video Stream, Byte Description, Lsb

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Functional Description

2.7.1 VBI FIFO and Ancillary Data in Video Stream

Sliced VBI data can be output as ancillary data in the video stream in ITU-R BT.656 mode. VBI data is output on the Y[9:2] terminals during the horizontal blanking period. Table 2−7 shows the header format and sequence of the ancillary data inserted into the video stream. This format is also used to store any VBI data into the FIFO. The size of the FIFO is 512 bytes. Therefore, the FIFO can store up to 11 lines of teletext data with the NTSC NABTS standard.

Table 2−7. Ancillary Data Format and Sequence

BYTE

D7

D6

D5

D4

 

D3

D2

D1

D0

 

DESCRIPTION

NO.

(MSB)

 

 

 

 

 

 

 

(LSB)

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

0

0

0

0

0

 

0

0

0

0

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1

1

1

1

1

 

1

1

1

1

Ancillary data preamble

2

1

1

1

1

 

1

1

1

1

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

3

NEP

EP

0

1

 

0

DID2

DID1

DID0

Data ID (DID)

 

 

 

 

 

 

 

 

 

 

 

 

 

 

4

NEP

EP

F5

F4

 

F3

F2

F1

F0

Secondary data ID (SDID)

 

 

 

 

 

 

 

 

 

 

 

 

5

NEP

EP

N5

N4

 

N3

N2

N1

N0

Number of 32-bit data (NN)

 

 

 

 

 

 

 

 

 

 

 

6

 

 

 

Video line # [7:0]

 

 

 

Internal data ID0 (IDID0)

 

 

 

 

 

 

 

 

 

 

 

 

7

0

0

0

Data

 

Match

Match

Video line # [9:8]

Internal data ID1 (IDID1)

 

 

 

 

error

 

#1

#2

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

8

 

 

 

1. Data

 

 

 

Data byte

 

1st word

9

 

 

 

2. Data

 

 

 

Data byte

 

 

 

 

 

 

 

 

 

 

 

 

 

10

 

 

 

3. Data

 

 

 

Data byte

 

 

 

 

 

 

 

 

 

 

 

 

 

11

 

 

 

4. Data

 

 

 

Data byte

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

:

 

 

 

 

:

 

 

 

 

:

 

:

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

m. Data

 

 

 

Data byte

 

Nth word

 

 

 

 

CS[7:0]

 

 

 

Check sum

 

 

 

 

 

 

 

 

 

 

 

 

 

 

4N+7

0

0

0

0

 

0

0

0

0

Fill byte

 

 

NOTE: The number of bytes (m) varies depending on the VBI data service.

 

 

 

 

EP:

Even parity for D0−D5, NEP: Negated even parity

DID:

91h: Sliced data of VBI lines of first field

 

53h: Sliced data of line 24 to end of first field

 

55h: Sliced data of VBI lines of second field

 

97h: Sliced data of line 24 to end of second field

SDID:

This field holds the data format taken from the line mode register bits [2:0] of the corresponding line.

NN:Number of Dwords beginning with byte 8 through 4N+7. Note this value is the number of Dwords where each Dword is 4 bytes.

IDID0:

Transaction video line number [7:0]

IDID1:

Bit 0/1 = Transaction video line number [9:8]

 

Bit 2

= Match 2 flag

 

Bit 3

= Match 1 flag

 

Bit 4

= 1 if an error was detected in the EDC block. 0 if no error was detected.

CS:

Sum of D0−D7 of first data through last data byte.

Fill byte:

Fill bytes make a multiple of 4 bytes from byte 0 to last fill byte. For teletext modes, byte 8 is the sync

 

pattern byte. Byte 9 is the first data byte.

 

 

 

SLES140A—March 2007

TVP5147M1PFP

25

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Contents Data Manual Important Notice Contents Section 11.11 Section 11.59 Example List of Illustrations List of Tables Introduction Detailed Functionality Related Products TVP5147M1 ApplicationsOrdering Information Packaged DevicesFunctional Block Diagram PFP Package TOP View Terminal AssignmentsTerminal Functions Miscellaneous Signals−1. Terminal Functions Terminal Description Name NumberVS/VBLK/GPIO Sync SignalsIntroduction Analog Processing and A/D Converters Video Input Switch ControlPGA ADCAutomatic Gain Control Analog Input ClampingAnalog Video Output 5 A/D ConvertersDigital Video Processing 1 2⋅ Decimation FilterComposite Processor CVBS/C NTSC/PAL−30 −40 −10 − dB −20−50 −60 −70 −10Luminance Processing Color Transient ImprovementOUT Clock Circuits Real-Time Control RTCOutput Formatter −1. Output Format Separate SyncsTerminal Name NumberLine 525 First Field Video VS Start FID VblkVblk Start Vblk Start 23 24 Vblk Stop 336 337 622 623 624 625 First Field Video VS StartAvid Stop Dataclk = 2⋅ Pixel Clock Mode Horizontal Blanking Cb0 Cr0 HS Start HS StopAvid Start Avid Stop Dataclk = 1⋅ Pixel Clock Mode −15. Horizontal Synchronization Signals for 20-Bit 422 ModeI2C Host Interface Embedded Syncs−3. EAV and SAV Sequence D9 MSBVbus Access Reset and I2C Bus Address Selection2 I2C Operation −4. I 2C Host Interface Terminal DescriptionI2C HostVbus WSS VitcVBI Data Processor −6. Supported VBI SystemVBI System Standard Line Number Number of Bytes −7. Ancillary Data Format and Sequence VBI Fifo and Ancillary Data in Video StreamByte Description LSB−9. Reset Sequence Reset and InitializationVBI Raw Data Output −8. VBI Raw Data Output FormatRegister Name 2C Subaddress Default Adjusting External SyncsInternal Control Registers −10. I 2C Register SummaryVblk start line V bit control 75h 12h VCR trick mode control 76h −11. Vbus Register Summary Mode Inputs Selected Input Select Output HEX −12. Analog Channel and Video Mode SelectionRegister Definitions Input Select RegisterAFE Gain Control Register Video Standard RegisterCvbs and S-Video Component Video Operation Mode Register Autoswitch Mask RegisterSubaddress 03h Default 00h Luminance Processing Control 1 Register Color Killer RegisterLuminance Processing Control 2 Register Subaddress 08h Default 02h Reserved Trap filter selectLuminance Processing Control 3 Register Luminance Brightness RegisterChrominance Saturation Register Luminance Contrast RegisterChroma Hue Register Chrominance Processing Control 1 RegisterChrominance Processing Control 2 Register Subaddress 0Eh DefaultAvid Start Pixel Register WCFHsync Start Pixel Register Avid Stop Pixel RegisterHsync Stop Pixel Register Vsync Start Line RegisterVsync Stop Line Register CTI Delay RegisterVblk Start Line Register Vblk Stop Line RegisterSubaddress 2Eh Default 00h CTI coring CTI gain CTI Control RegisterSync Control Register Output Formatter 1 Register Subaddress 33h Default 40hOutput Formatter 2 Register CbCr code ReservedOutput Formatter 3 Register Output Formatter 4 Register Output Formatter 5 Register Subaddress 39h Default 00h Output Formatter 6 RegisterClear Lost Lock Detect Register Read only Status 1 RegisterAGC Gain Status Register Status 2 RegisterColor killed Subaddress 3Ch Fine gain 3Dh Coarse gainGpio Input 1 Register Video Standard Status RegisterGlco FID Gpio Input 2 RegisterSubaddress 47h Default 20h Cgain 2 Reserved Subaddress 46h Default 20h Cgain 1 ReservedAFE Coarse Gain for CH 1 Register AFE Coarse Gain for CH 2 RegisterSubaddress 49h Default 20h Cgain 4 Reserved Subaddress 48h Default 20h Cgain 3 ReservedAFE Coarse Gain for CH 3 Register AFE Coarse Gain for CH 4 RegisterAFE Fine Gain for Pb Register AFE Fine Gain for YChroma RegisterAFE Fine Gain for Pr Register AFE Fine Gain for CVBSLuma Register Subaddress 57h Default 00hField ID Control Register FID controlBit mode Subaddress 69h Default 00hReg 69h Reg 75h Mode Standard LPF Nonstandard LPF Bit Bit and V-bit Control 1 RegisterBack-End AGC Control Register AGC Decrement Speed Control RegisterROM Version Register Subaddress 74h Default 00h Luma peak a AGC White Peak Processing RegisterLuma peak B Composite peak Lines per frame Bit V Bit Control RegisterAGC Increment Delay Register VCR Trick Mode Control RegisterHorizontal Shake Increment Register AGC Increment Speed RegisterChip ID MSB Register Analog Output Control 1 RegisterChip ID LSB Register Cpll Speed Control RegisterAGC Decrement Delay Register Status Request RegisterVertical Line Count Register VDP TTX Filter And Mask Registers VDP TTX Filter Control Register Nibble VDP Fifo Word Count RegisterFilter PassVDP Fifo Interrupt Threshold Register VDP Fifo Reset RegisterVDP Fifo Output Control Register VDP Line Number Interrupt RegisterVDP Pixel Alignment Register VDP Global Line Mode RegisterVDP Line Start Register VDP Line Stop RegisterVDP Full Field Mode Register VDP Full Field Enable RegisterVbus Data Access With No Vbus Address Increment Register Vbus Data Access With Vbus Address Increment RegisterFifo Read Data Register Vbus Address Access RegisterInterrupt Raw Status 0 Register Fifo Thrs TTX WSS VPS Vitc CC F2 CC F1Interrupt Status 0 Register Interrupt Raw Status 1 RegisterReserved Lock Fifo fullInterrupt Status 1 Register Interrupt Mask 0 Register Subaddress F5h Default 00h Interrupt Mask 1 RegisterInterrupt Clear 0 Register Interrupt Clear 1 Register Subaddress F7h Default 00hVDP Closed Caption Data Register Vbus Register DefinitionsVDP WSS Data Register Subaddress ByteVDP Vitc Data Register VDP V-Chip TV Rating Block 1 RegisterVDP V-Chip TV Rating Block 2 Register VDP V-CHIP Mpaa Rating Data Register VDP V-Chip TV Rating Block 3 RegisterNone TV-PGDefault line mode = FFh, address = 00h VDP General Line Mode and Line Address RegisterVPS Read only VDP VPS/Gemstar Data RegisterAnalog Output Control 2 Register Interrupt Configuration RegisterCrystal Specifications MIN NOM MAX Unit Crystal SpecificationsAbsolute Maximum Ratings† Recommended Operating ConditionsDC Electrical Characteristics see Note Electrical CharacteristicsAnalog Processing and A/D Converters Parameter Test Conditions MIN TYP MAX UnitDataclk AVID, VS, HS, FID TimingVOH VOL VC1 SDA VC0 SCLElectrical Specifications Recommended Settings ExampleAssumptions Assumptions Example Register Settings Example Register Settings −1. Example Application Circuit Application ExampleDesigning With PowerPADt Devices Orderable Device Status Package Pins Package Eco Plan MSL Peak TempQty Page

TVP5147M1PFP specifications

The Texas Instruments TVP5147M1PFP is a versatile video decoder that stands out in the realm of analog video processing. This device is particularly designed for high-quality video applications, making it an excellent choice for a variety of consumer and professional electronics that require reliable video decoding capabilities.

One of the main features of the TVP5147 is its ability to decode multiple video formats, including NTSC, PAL, and SECAM. This flexibility allows the decoder to seamlessly interface with various video sources from different geographic regions, providing a global solution for video applications. The TVP5147 includes advanced synchronization features, ensuring it can effectively handle video signals that may vary in timing and quality.

The device is equipped with a sophisticated 10-bit analog-to-digital converter (ADC), which enhances the precision and clarity of the digital video output. This high-resolution capability allows for improved color accuracy and detail, leading to a more lifelike video representation. Additionally, the TVP5147 utilizes advanced digital processing technologies, including noise reduction and image enhancement features, contributing to outstanding image quality even in less than ideal input conditions.

Another notable characteristic of the TVP5147M1PFP is its support for various output formats, including ITU-R BT.601 and 656, which facilitates easy integration into different systems. The device can also provide various output resolutions, catering to the needs of diverse applications ranging from standard definition to high definition displays.

In terms of connectivity, the TVP5147 offers multiple input options, including composite video, S-video, and component video interfaces. This versatility ensures that it can accommodate a wide range of video sources, from traditional VHS players to modern digital cameras. Furthermore, the integrated video control features allow for easy adjustment of parameters such as brightness, contrast, and saturation.

The power consumption of the TVP5147M1PFP is optimized for low-energy applications while maintaining high performance, making it suitable for battery-powered devices and energy-efficient designs. Overall, the Texas Instruments TVP5147M1PFP is an exceptional video decoder that blends flexibility, high quality, and advanced technology, making it a preferred choice for video processing in numerous consumer and industrial applications. Its combination of features ensures reliable performance and high-quality output, fulfilling the demands of modern multimedia environments.