EVAL-ADV7179EBZ Analog Devices Inc, EVAL-ADV7179EBZ Datasheet - Page 40

EVAL-ADV7179EBZ

Manufacturer Part Number

EVAL-ADV7179EBZ

Description

EVALUATION BOARD

Manufacturer

Analog Devices Inc

Datasheet

1.ADV7179KCPZ.pdf (52 pages)

Specifications of EVAL-ADV7179EBZ

Main Purpose

Video, Video Processing

Embedded

Utilized Ic / Part

ADV7179

Primary Attributes

NTSC/PAL Digital Video Encoder

Secondary Attributes

I²C Interface

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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ADV7174/ADV7179

SUPPLY DECOUPLING

For optimum performance, bypass capacitors should be in-

stalled using the shortest leads possible, consistent with reliable

operation, to reduce the lead inductance. Best performance is

obtained with 0.1 μF ceramic capacitor decoupling. Each group

of V

0.1 μF decoupling capacitor to GND. These capacitors should

be placed as close to the device as possible.

It is important to note that while the ADV7174/ADV7179

contains circuitry to reject power supply noise, this rejection

decreases with frequency. If a high frequency switching power

supply is used, the designer should pay close attention to

reducing power supply noise and consider using a 3-terminal

voltage regulator for supplying power to the analog power

plane.

DIGITAL SIGNAL INTERCONNECT

The digital inputs to the ADV7174/ADV7179 should be

isolated as much as possible from the analog outputs and other

analog circuitry. Also, these input signals should not overlay the

analog power plane.

Due to the high clock rates involved, long clock lines to the

ADV7174/ADV7179 should be avoided to reduce noise pickup.

Any active termination resistors for the digital inputs should be

connected to the regular PCB power plane (V

analog power plane.

pins on the ADV7174/ADV7179 must have at least one

HSYNC

CLOCK

) and not to the

Figure 55. Circuit to Generate 13.5 MHz

Rev. B | Page 40 of 52

ANALOG SIGNAL INTERCONNECT

The ADV7174/ADV7179 should be located as close to the

output connectors as possible to minimize noise pickup and

reflections due to impedance mismatch.

The video output signals should overlay the ground plane, not

the analog power plane, to maximize the high frequency power

supply rejection.

Digital inputs, especially pixel data inputs and clocking signals,

should never overlay any of the analog signal circuitry and

should be kept as far away as possible.

For best performance, the outputs should each have a 75 Ω load

resistor connected to GND. These resistors should be placed as

close as possible to the ADV7174/ADV7179 to minimize

reflections.

The ADV7174/ADV7179 should have no inputs left floating.

Any inputs that are not required should be tied to ground.

The circuit in Figure 55 can be used to generate a 13.5 MHz

waveform using the 27 MHz clock and the HSYNC pulse. This

waveform is guaranteed to produce the 13.5 MHz clock in

synchronization with the 27 MHz clock. This 13.5 MHz clock

can be used if the 13.5 MHz clock is required by the MPEG

decoder. This guarantees that the Cr and Cb pixel information

is input to the ADV7174/ADV7179 in the correct sequence.

Note that the exposed metal paddle on the bottom side of the

LFCSP package must be soldered to PCB ground for proper

heat dissipation and also for electrical noise and mechanical

strength benefits.

13.5MHz

EVAL-ADV7179EBZ Analog Devices Inc, EVAL-ADV7179EBZ Datasheet - Page 40

EVAL-ADV7179EBZ

Specifications of EVAL-ADV7179EBZ

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