MAX7469UTP Maxim Integrated, MAX7469UTP Datasheet - Page 15

MAX7469UTP

Manufacturer Part Number

MAX7469UTP

Description

Video ICs

Manufacturer

Maxim Integrated

Datasheet

1.MAX7469UTP.pdf (17 pages)

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The MAX7469/MAX7470 are compatible with existing

tions. The general call address is ignored, and CBUS

formats are not supported. The device’s address is

compatible with 7-bit I

bit address formats are not supported.

Use 0.1µF ceramic capacitors to AC-couple the inputs.

The inputs cannot be DC-coupled. The internal clamp

circuit stores a DC voltage across the input capacitors

to obtain the appropriate output DC voltage level.

Increasing the value of these capacitors to improve line-

time distortion is not necessary due to the extremely low

input leakage current yielding a very low line-time dis-

tortion performance.

The MAX7469/MAX7470 provide a high input imped-

ance to allow a nonzero source impedance to be used,

such as when the input is connected directly to a back-

matched video cable, ensuring the external resistance

determines the termination impedance.

The MAX7469/MAX7470 outputs can be DC- or AC-

coupled. The MAX7470, with its +6dB gain, is typically

connected to a 75Ω series back-match resistor fol-

lowed by the video cable. Because of the inherent

divide-by-two of this configuration, the blanking level of

the video signal is always less than 1V, which complies

with digital TV requirements.

The MAX7469, with its 0dB gain, is typically connected

to an ADC or video decoder. This can be a DC or AC

connection. If a DC connection is used, ensure that the

DC input requirements of the ADC or video decoder

are compatible.

If an AC connection is used, choose an AC-coupling

capacitor value that ensures that the lowest frequency

content in the video signal is passed and the line-time

distortion is kept within desired limits. The selection of

this value is a function of the input impedance and,

more importantly, the input leakage of the circuit being

driven. Use a video clamp to reestablish the DC level, if

not already included in the subsequent circuit.

The outputs of the MAX7469/MAX7470 are fully protected

against a short-circuit condition either to ground or the

positive supply of the device.

C systems supporting standard I

Applications Information

______________________________________________________________________________________

C addressing protocol only; 10-

Output Considerations

Input Considerations

C 8-bit communica-

C Compatibility

HDTV Continuously Variable

The MAX7469/MAX7470 operate from a single +5V ana-

log supply and a +3.3V digital supply. Bypass AV

GND with a 0.1µF capacitor and an additional 1µF

capacitor in parallel for additional low-frequency decou-

pling. Determine the proper power-supply bypassing

necessary by taking into account the desired distur-

bance level tolerable on the output, the power-supply

rejection of the MAX7469/MAX7470, and the amplitude

and frequency of the disturbance signals present in the

vicinity of the MAX7469/MAX7470. Use an extensive

ground plane to ensure optimum performance. The three

channels can be connected together and bypassed as

one, provided the components are close to the pins.

Bypass DV

ground pins (GND) must be connected to a low imped-

ance ground plane as close as possible to the device.

Place the input termination resistors as close as possi-

ble to the device. Alternatively, the terminations can be

placed further from the device if the PC board traces

are designed to be a controlled impedance of 75Ω.

Minimize parasitic capacitance as much as possible to

avoid performance degradation in the upper frequency

range possible with the MAX7469/MAX7470.

Refer to the MAX7469/MAX7470 evaluation kit for a

proven PC board layout.

The MAX7469/MAX7470 TQFN package has an

exposed pad on its bottom. This pad is electrically con-

nected, internal to the device, to GND. Do not route any

PC board traces under the package.

The MAX7469/MAX7470 typically dissipate 900mW of

power, therefore, pay careful attention to heat disper-

sion. The use of at least a two-layer board with a good

ground plane is recommended. To maximize heat dis-

persion, place copper directly under the MAX7469/

MAX7470 package so that it matches the outline of the

plastic encapsulated area. Do the same thing on the

bottom ground plane layer and then place as many

vias as possible connecting the top and bottom layers

to thermally connect it to the ground plane.

Maxim has evaluated a four-layer board using FR-4

material and 1oz copper with equal areas of metal on

the top and bottom side coincident with the plastic

encapsulated area of the 20-pin TQFN package. The

two middle layers are used as power and ground

pins (pins 7, 9, and 11) that supply the individual

Anti-Aliasing Filters

Power-Supply Bypassing and Layout

Exposed Pad and Heat Dissipation

to DGND with a 0.1µF capacitor. All

Considerations

MAX7469UTP Maxim Integrated, MAX7469UTP Datasheet - Page 15

MAX7469UTP

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