AD8197ASTZ-RL Analog Devices Inc, AD8197ASTZ-RL Datasheet - Page 26

IC,Telecom Switching Circuit,QFP,100PIN,PLASTIC

AD8197ASTZ-RL

Manufacturer Part Number

AD8197ASTZ-RL

Description

IC,Telecom Switching Circuit,QFP,100PIN,PLASTIC

Manufacturer

Analog Devices Inc

Datasheet

1.AD8197ASTZ-RL.pdf (32 pages)

Specifications of AD8197ASTZ-RL

Function

Switch

Circuit

1 x 4:1

On-state Resistance

50 Ohm

Voltage Supply Source

Single Supply

Voltage - Supply, Single/dual (±)

3 V ~ 3.6 V

Current - Supply

40mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

100-LQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

AD8197ASTZ-RL

Manufacturer:

Analog Devices Inc

Quantity:

10 000

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AD8197

The length of cable that can be used in a typical HDMI/DVI

application depends on a large number of factors, including:

•

As such, specific cable types and lengths are not recommended

for use with a particular equalizer setting. In nearly all applica-

tions, the AD8197 equalization level can be set to high, or 12 dB,

for all input cable configurations at all data rates, without

degrading the signal integrity.

PCB LAYOUT GUIDELINES

The AD8197 is used to switch two distinctly different types of

signals, both of which are required for HDMI and DVI video.

These signal groups require different treatment when laying out

a PC board.

The first group of signals carries the audiovisual (AV) data.

HDMI/DVI video signals are differential, unidirectional, and

high speed (up to 2.25 Gbps). The channels that carry the video

data must be controlled impedance, terminated at the receiver,

and capable of operating at the maximum specified system data

rate. It is especially important to note that the differential traces

that carry the TMDS signals should be designed with a controlled

differential impedance of 100 Ω. The AD8197 provides single-

ended, 50 Ω terminations on-chip for both its inputs and

outputs, and both the input and output terminations can be

enabled or disabled through the serial control interface. The

output terminations can also be enabled or disabled through the

parallel control interface. Transmitter termination is not required

by the HDMI 1.3 standard, but its inclusion improves the overall

system signal integrity.

The audiovisual (AV) data carried on these high speed channels

is encoded by a technique called transmission minimized differ-

ential signaling (TMDS) and in the case of HDMI, is also encrypted

according to the high bandwidth digital copy protection (HDCP)

standard.

The second group of signals consists of low speed auxiliary

control signals used for communication between a source and a

sink. Depending upon the application, these signals can include

the DDC bus (this is an I

and HDCP encryption keys between the source and the sink),

the consumer electronics control (CEC) line, and the hot plug

detect (HPD) line. These auxiliary signals are bidirectional, low

speed, and transferred over a single-ended transmission line

that does not need to have controlled impedance. The primary

concern with laying out the auxiliary lines is ensuring that they

Cable quality: the quality of the cable in terms of conductor

wire gauge and shielding. Thicker conductors have lower

signal degradation per unit length.

Data rate: the data rate being sent over the cable. The signal

degradation of HDMI cables increases with data rate.

Edge rates: the edge rates of the source input. Slower input

edges result in more significant data eye closure at the end

of a cable.

Receiver sensitivity: the sensitivity of the terminating

receiver.

C bus used to send EDID information

Rev. 0 | Page 26 of 32

conform to the I

capacitive loading.

TMDS Signals

In the HDMI/DVI standard, four differential pairs carry the

TMDS signals. In DVI, three of these pairs are dedicated to

carrying RGB video and sync data. For HDMI, audio data is

interleaved with the video data; the DVI standard does not

incorporate audio information. The fourth high speed differ-

ential pair is used for the AV data-word clock, and runs at

one-tenth the speed of the TMDS data channels.

The four high speed channels of the AD8197 are identical.

No concession was made to lower the bandwidth of the fourth

channel for the pixel clock, so any channel can be used for any

TMDS signal. The user chooses which signal is routed over

which channel. Additionally, the TMDS channels are symmetrical;

therefore, the p and n of a given differential pair are interchange-

able, provided the inversion is consistent across all inputs and

outputs of the AD8197. However, the routing between inputs

and outputs through the AD8197 is fixed. For example, in quad

mode, Output Channel 0 always switches between Input A0,

Input B0, Input C0, Input D0, and so forth.

The AD8197 buffers the TMDS signals and the input traces can

be considered electrically independent of the output traces. In

most applications, the quality of the signal on the input TMDS

traces is more sensitive to the PCB layout. Regardless of the data

being carried on a specific TMDS channel, or whether the

TMDS line is at the input or the output of the AD8197, all four

high speed signals should be routed on a PCB in accordance

with the same RF layout guidelines.

Layout for the TMDS Signals

The TMDS differential pairs can be either microstrip traces,

routed on the outer layer of a board, or stripline traces, routed

on an internal layer of the board. If microstrip traces are used,

there should be a continuous reference plane on the PCB layer

directly below the traces. If stripline traces are used, they must

be sandwiched between two continuous reference planes in the

PCB stack-up. Additionally, the p and n of each differential pair

must have a controlled differential impedance of 100 Ω. The

characteristic impedance of a differential pair is a function of

several variables including the trace width, the distance separating

the two traces, the spacing between the traces and the reference

plane, and the dielectric constant of the PC board binder material.

Interlayer vias introduce impedance discontinuities that can

cause reflections and jitter on the signal path, therefore, it is

preferable to route the TMDS lines exclusively on one layer of the

board, particularly for the input traces. In some applications, such

as using multiple AD8197s to construct large input arrays, the use

of interlayer vias becomes unavoidable. In these situations, the

input termination feature of the AD8197 improves system signal

integrity by absorbing reflections. Take care to use vias minimally

and to place vias symmetrically for each side of a given differential

pair. Furthermore, to prevent unwanted signal coupling and

C bus standard and do not have excessive

AD8197ASTZ-RL Analog Devices Inc, AD8197ASTZ-RL Datasheet - Page 26

AD8197ASTZ-RL

Specifications of AD8197ASTZ-RL

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