ADV7342_15 Datasheet, PDF(48/108 Page) Analog Devices – Multiformat Video Encoder Six, 11-Bit, 297 MHz DACs

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ADV7342_15 Datasheet, PDF (48/108 Pages) Analog Devices – Multiformat Video Encoder Six, 11-Bit, 297 MHz DACs

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ADV7342/ADV7343

INPUT CONFIGURATION

The ADV7342/ADV7343 support a number of different input

modes. The desired input mode is selected using Subaddress

0x01, Bits[6:4]. The ADV7342/ADV7343 default to standard

definition only (SD only) on power-up. Table 36 provides an

overview of all possible input configurations. Each input mode

is described in detail in the following sections.

STANDARD DEFINITION ONLY

Subaddress 0x01, Bits[6:4] = 000

Standard definition (SD) YCrCb data can be input in 4:2:2 format.

Standard definition (SD) RGB data can be input in 4:4:4 format.

A 27 MHz clock signal must be provided on the CLKIN_A pin.

Input synchronization signals are provided on the S_HSYNC

and S_VSYNC pins.

8-Bit 4:2:2 YCrCb Mode

Subaddress 0x87, Bit 7 = 0; Subaddress 0x88, Bit 3 = 0

In 8-bit 4:2:2 YCrCb input mode, the interleaved pixel data is

input on Pin S7 to Pin S0 (or Pin Y7 to Pin Y0, depending on

Subaddress 0x01, Bit 7), with Pin S0/Y0 being the LSB. The

ITU-R BT.601/656 input standard is supported. Embedded

EAV/SAV timing codes are also supported.

Data Sheet

16-Bit 4:2:2 YCrCb Mode

Subaddress 0x87, Bit 7 = 0; Subaddress 0x88, Bit 3 = 1

In 16-bit 4:2:2 YCrCb input mode, the Y pixel data is input on

Pin S7 to Pin S0 (or Pin Y7 to Pin Y0, depending on Subaddress

0x01, Bit 7), with Pin S0/Y0 being the LSB.

The CrCb pixel data is input on Pin Y7 to Pin Y0 (or Pin C7 to

Pin C0, depending on Subaddress 0x01, Bit 7), with Pin Y0/C0

being the LSB. Embedded EAV/SAV timing codes are not

supported, so an external synchronization is needed in this mode.

24-Bit 4:4:4 RGB Mode

Subaddress 0x87, Bit 7 = 1

In 24-bit 4:4:4 RGB input mode, the red pixel data is input on

Pin S7 to Pin S0, the green pixel data is input on Pin Y7 to

Pin Y0, and the blue pixel data is input on Pin C7 to Pin C0.

The S0, Y0, and C0 pins are the respective bus LSBs.

Embedded EAV/SAV timing codes are not supported with SD

RGB mode. In addition, master timing mode is not supported

for SD RGB input mode; therefore, external synchronization

must be used.

Table 36. Input Configuration

Input Mode1

000 SD only

8-bit YCrCb2

16-bit YCrCb2, 3

8-bit YCrCb2

16-bit YCrCb2, 3

24-bit RGB3

001 ED/HD-SDR only4, 5

16-bit YCrCb

24-bit YCrCb

24-bit RGB3

010 ED/HD-DDR only (8-bit)5

011 SD and ED/HD-SDR (24-bit)5

100 SD and ED/HD-DDR (16-bit)5

111 ED only (54 MHz) (8-bit)5

765432107654321076543210

Y/C/S bus swap (Subaddress 0x01[7]) = 0

YCrCb

CrCb

Y/C/S bus swap (Subaddress 0x01[7]) = 1

YCrCb

CrCb

SD RGB input enable (Subaddress 0x87[7]) = 1

ED/HD RGB input enable (Subaddress 0x35[1]) = 0

CrCb

ED/HD RGB input enable (Subaddress 0x35[1]) = 1

YCrCb

YCrCb (SD)

Y (ED/HD)

CrCb (ED/HD)

YCrCb (SD)

YCrCb (ED/HD)

YCrCb

1 The input mode is determined by Subaddress 0x01, Bits[6:4].

2 In SD only (YCrCb) mode, the format of the input data is determined by Subaddress 0x88, Bits[4:3]. See Table 29 for more information.

3 External synchronization signals must be used in this input mode. Embedded EAV/SAV timing codes are not supported.

4 In ED/HD-SDR only (YCrCb) mode, the format of the input data is determined by Subaddress 0x33, Bit 6. See Table 22 for more information.

5 ED = enhanced definition = 525p and 625p.

Rev.D | Page 48 of 108

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