ADV3000ASTZ Analog Devices Inc, ADV3000ASTZ Datasheet - Page 24

ADV3000ASTZ

Manufacturer Part Number

ADV3000ASTZ

Description

IC HDMI/DVI SWITCH 3.1 80LQFP

Manufacturer

Analog Devices Inc

Datasheet

1.ADV3000ASTZ.pdf (28 pages)

Specifications of ADV3000ASTZ

Function

Switch

Circuit

1 x 3:1

Voltage Supply Source

Single Supply

Voltage - Supply, Single/dual (±)

3 V ~ 3.6 V

Current - Supply

110mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

80-LQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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ADV3000

Auxiliary Control Signals

There are four single-ended control signals associated with each

source or sink in an HDMI/DVI application. These are hot plug

detect (HPD), consumer electronics control (CEC), and two

display data channel (DDC) lines. The two signals on the DDC

bus are SDA and SCL (serial data and serial clock, respectively).

These four signals can be switched through the auxiliary bus of

the ADV3000 and do not need to be routed with the same strict

considerations as the high speed TMDS signals.

In general, it is sufficient to route each auxiliary signal as a

single-ended trace. These signals are not sensitive to impedance

discontinuities, do not require a reference plane, and can be

routed on multiple layers of the PCB. However, it is best to

follow strict layout practices whenever possible to prevent the

PCB design from affecting the overall application. The specific

routing of the HPD, CEC, and DDC lines depends upon the

application in which the ADV3000 is being used.

For example, the maximum speed of signals present on the

auxiliary lines is 100 kHz I

any layout that enables 100 kHz I

bus should suffice. The HDMI 1.3 specification, however, places

a strict 50 pF limit on the amount of capacitance that can be

measured on either SDA or SCL at the HDMI input connector.

This 50 pF limit includes the HDMI connector, the PCB, and

whatever capacitance is seen at the input of the ADV3000, or an

equivalent receiver. There is a similar limit of 100 pF of input

capacitance for the CEC line.

The parasitic capacitance of traces on a PCB increases with

trace length. To help ensure that a design satisfies the HDMI

specification, the length of the CEC and DDC lines on the PCB

should be made as short as possible. Additionally, if there is a

reference plane in the layer adjacent to the auxiliary traces in

the PCB stackup, relieving or clearing out this reference plane

immediately under the auxiliary traces significantly decreases

the amount of parasitic trace capacitance. An example of the

board stackup is shown in Figure 33.

SILKSCREEN

LAYER 1: SIGNAL (MICROSTRIP)

PCB DIELECTRIC

LAYER 2: GND (REFERENCE PLANE)

PCB DIELECTRIC

LAYER 3: PWR (REFERENCE PLANE)

PCB DIELECTRIC

LAYER 4: SIGNAL (MICROSTRIP)

SILKSCREEN

Figure 33. Example Board Stackup

C data on the DDC lines; therefore,

C to be passed over the DDC

RELIEVED UNDERNEATH

REFERENCE LAYER

MICROSTRIP

Rev. 0 | Page 24 of 28

HPD is a dc signal presented by a sink to a source to indicate

that the source EDID is available for reading. The placement

of this signal is not critical, but it should be routed as directly

as possible.

When the ADV3000 is powered up, one set of the auxiliary

inputs is passively routed to the outputs. In this state, the

ADV3000 looks like a 100 Ω resistor between the selected

auxiliary inputs and the corresponding outputs as illustrated in

Figure 27. The ADV3000 does not buffer the auxiliary signals,

therefore, the input traces, output traces, and the connection

through the ADV3000 all must be considered when designing a

PCB to meet HDMI/DVI specifications. The unselected auxiliary

inputs of the ADV3000 are placed into a high impedance mode

when the device is powered up. To ensure that all of the auxiliary

inputs of the ADV3000 are in a high impedance mode when the

device is powered off, it is necessary to power the AMUXVCC

supply as illustrated in Figure 28.

In contrast to the auxiliary signals, the ADV3000 buffers the

TMDS signals, allowing a PCB designer to layout the TMDS

inputs independently of the outputs.

Power Supplies

The ADV3000 has five separate power supplies referenced to

two separate grounds. The supply/ground pairs are:

•

The AVCC/AVEE (3.3 V) and DVCC/DVEE (3.3 V) supplies

power the core of the ADV3000. The VTTI/AVEE supply (3.3 V)

powers the input termination (see Figure 25). Similarly, the

VTTO/AVEE supply (3.3 V) powers the output termination

(see Figure 26). The AMUXVCC/DVEE supply (3.3 V to 5 V)

powers the auxiliary multiplexer core and determines the maxi-

mum allowed voltage on the auxiliary lines. For example, if the

DDC bus is using 5 V I

to +5 V relative to DVEE.

In a typical application, all pins labeled AVEE or DVEE should

be connected directly to ground. All pins labeled AVCC,

DVCC, VTTI, or VTTO should be connected to 3.3 V, and

Pin AMUXVCC tied to 5 V. The supplies can also be powered

individually, but care must be taken to ensure that each stage of

the ADV3000 is powered correctly.

AVCC/AVEE

VTTI/AVEE

VTTO/AVEE

DVCC/DVEE

AMUXVCC/DVEE

C, then AMUXVCC should be connected

ADV3000ASTZ Analog Devices Inc, ADV3000ASTZ Datasheet - Page 24

ADV3000ASTZ

Specifications of ADV3000ASTZ

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