ADV202BBCZ-150 Analog Devices Inc, ADV202BBCZ-150 Datasheet - Page 27

IC,Compression/Decompression Processor,BGA,144PIN,PLASTIC

ADV202BBCZ-150

Manufacturer Part Number

ADV202BBCZ-150

Description

IC,Compression/Decompression Processor,BGA,144PIN,PLASTIC

Manufacturer

Analog Devices Inc

Type

JPEG2000 Video Codecr

Datasheet

1.ADV202BBCZRL-115.pdf (40 pages)

Specifications of ADV202BBCZ-150

Resolution (bits)

16 b

Sigma Delta

Voltage - Supply, Analog

1.5V, 3.3V

Voltage - Supply, Digital

1.5V, 3.3V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

144-CSPBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Current page: 27 of 40
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ADV202 INTERFACE

There are several possible modes to interface to the ADV202 using

the VDATA bus and the HDATA bus or the HDATA bus alone.

VIDEO INTERFACE (VDATA BUS)

The video interface can be used in applications in which

uncompressed pixel data is on a separate bus from compressed

data. For example, it is possible to use the VDATA bus to input

uncompressed video while using the HDATA bus to output the

compressed data. This interface is ideal for applications

requiring very high throughput such as live video capture.

Optionally, the ADV202 can compress ITU.R-BT656 resolution

video on a field-by-field basis or on a two-fields-combined

basis, which yields significantly more efficient compression

performance. Additionally, high definition digital video such as

SMPTE274M (1080i) is supported using two or more ADV202

devices.

The video interface can support video data or still image data

input/output, 8-, 10-, and 12-bit single or multiplexed

components. The VDATA interface supports digital video in

YCbCr format or single component format. YCbCr data must

be in 4:2:2 format.

Video data can be input/output in several different modes on

the VDATA bus, as described in Table 18. In all these modes,

the pixel clock must be input on the VCLK pin.

Table 18. Video Input/Output Modes

Mode

EAV/SAV

HVF

Raw

Video

HOST INTERFACE (HDATA BUS)

The ADV202 can connect directly to a wide variety of host

processors and ASICs using an asynchronous SRAM-style

interface, DMA accesses, or streaming mode (JDATA) interface.

The ADV202 supports 16- and 32-bit buses for control and

8-, 16-, and 32-bit buses for data transfer.

The control and data channel bus widths can be specified

independently, which allows the ADV202 to support applica-

tions that require control and data buses of different widths.

Description

Accepts video with embedded EAV/SAV codes, where

the YCbCr data is interleaved onto a single bus.

Accepts video data accompanied with separate H, V,

and F signals where YCbCr data is interleaved onto a

single bus.

Used for still picture data and nonstandard video.

VFRM, VSTRB, and VRDY are used to program the

dimensions of the image.

Rev. C | Page 27 of 40

The host interface is used for configuration, control, and status

functions, as well as for transferring compressed data streams. It

can be used for uncompressed data transfers in certain modes.

The host interface can be shared by as many as four concurrent

data streams in addition to control and status communications.

The data streams are

•

The ADV202 uses big endian byte alignment for 16- and 32-bit

transfers. All data is left-justified (MSB).

Pixel Input on the Host Interface

Pixel input on the host interface supports 8-, 10-, 12-, 14-, and

16-bit raw pixel data formats. It can be used for pixel (still

image) input/output or compressed video output. Because there

are no timing codes or sync signals associated with the input

data on the host interface, dimension registers and internal

counters are used and must be programmed to indicate the start

and end of the frame. See the

mode

Host Bus Configuration

For maximum flexibility, the host interface provides several

configurations to meet particular system requirements. The

default bus mode uses the same pins to transfer control, status,

and data to and from the ADV202. In this mode, the ADV202

can support 16- and 32-bit control transfers and 8-, 16-, and

32-bit data transfers. The size of these buses can be selected

independently, allowing, for example, a 16-bit microcontroller

to configure and control the ADV202 while still providing

32-bit data transfers to an ASIC or external memory system.

DIRECT AND INDIRECT REGISTERS

To minimize pin count and cost, the number of address pins has

been limited to four, which yields a total direct address space of

16 locations. These locations are most commonly used by the

external controller and are, therefore, accessible directly. All

other registers in the ADV202 can be accessed indirectly

through the IADDR and IDATA registers.

CONTROL ACCESS REGISTERS

With the exception of the indirect address and data registers

(IADDR and IDATA), all control/status registers in the ADV202

are 16 bits wide and are half-word (16-bit) addressable only.

When 32-bit host mode is enabled, the upper 16 bits of the

HDATA bus are ignored on writes and return all 0s on reads of

16-bit registers.

Uncompressed tile data (for example, still image data)

Fully encoded JPEG2000 code stream (or unpackaged code

blocks)

Code-block attributes

for details on how to use the ADV202 in this mode.

technical note on using HIPI

ADV202

ADV202BBCZ-150 Analog Devices Inc, ADV202BBCZ-150 Datasheet - Page 27

ADV202BBCZ-150

Specifications of ADV202BBCZ-150

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