ISL59830A Datasheet, PDF(13/15 Page) Intersil Corporation – True Single Supply Video Driver With Power Down

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ISL59830A Datasheet, PDF (13/15 Pages) Intersil Corporation – True Single Supply Video Driver With Power Down

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ISL59830A

standard encodes sync on the Y channel and it is a negative-

going signal; easily handled by the ISL59830A without the need

of an additional supply as the ISL59830A generates a negative

rail placed at negative 1/2 the positive supply. Additionally, the

Pb and Pr are bipolar analog signals and the video signals are

negative-going; and again easily handled by the ISL59830A.

Driving Capacitive Loads and Cables

The ISL59830A, internally-compensated to drive 75â¦ cables,

will drive 10pF loads in parallel with 1kâ¦ with less than 5dB of

peaking. If less peaking is required, a small series resistor,

usually between 5â¦ to 50â¦, can be placed in series with the

output. This will reduce peaking at the expense of a slight

closed loop gain reduction. When used as a cable driver,

double termination is always recommended for reflection-free

performance. For those applications, a back-termination series

resistor at the amplifier's output will isolate the amplifier from

the cable and allow extensive capacitive drive. However, other

applications may have high capacitive loads without a back-

termination resistor. Again, a small series resistor at the output

can help to reduce peaking. The ISL59830A is a triple amplifier

designed to drive three channels; simply deal with each

channel separately as described in this section.

DC-Restore

When the ISL59830A is AC-coupled it becomes necessary

to restore the DC reference for the signal. This is

accomplished with a DC-restore system applied between the

capacitive "AC" coupling and the input of the device. Refer to

Application Circuit for reference DC-restore solution.

Disable/Power-Down

The ISL59830A can be disabled and its output placed in a

high impedance state. The turn-off time is around 25ns and

the turn-on time is around 200ns. When disabled, the

amplifier's supply current is reduced to 0.9mA typically,

thereby effectively eliminating the power consumption. The

amplifier's power-down can be controlled by standard TTL or

CMOS signal levels at the EN and PD pins. The applied

logic signal is relative to VS- pin. Letting the EN and PD pins

float or applying a signal that is less than 0.8V above VS- will

enable the amplifier. The amplifier will be disabled when the

signal at EN pin is 2V above VS-. The amplifier must be

disabled (EN pin is high) whenever the charge pump is

disabled (PD pin is high). EN and PD pins should be

connected together to allow amplifier and charge pump

to enable/disable simultaneously.

Output Drive Capability

The ISL59830A does not have internal short-circuit

protection circuitry. A short-circuit current of 80mA sourcing

and 150mA sinking for the output is connected to half way

between the rails with a 10â¦ resistor. If the output is shorted

indefinitely, the power dissipation could easily increase such

that the part will be destroyed. Maximum reliability is

maintained if the output current never exceeds Â±40mA, after

which the electro-migration limit of the process will be

exceeded and the part will be damaged. This limit is set by

the design of the internal metal interconnections.

Power Dissipation

With the high output drive capability of the ISL59830A, it is

possible to exceed the +150Â°C absolute maximum junction

temperature under certain load current conditions.

Therefore, it is important to calculate the maximum junction

temperature for an application to determine if load conditions

or package types need to be modified to assure operation of

the amplifier in a safe operating area.

The maximum power dissipation allowed in a package is

determined according to:

PDMAX

T----J---M-----A----X-----â-----T----A---M-----A----X--

ÎJA

Where:

TJMAX = Maximum junction temperature

TAMAX = Maximum ambient temperature

ÎJA = Thermal resistance of the package

The maximum power dissipation actually produced by an IC

is the total quiescent supply current times the total power

supply voltage, plus the power in the IC due to the load, or:

for sourcing:

PDMAX

ISMAX

(VS

VOUTi)

-V----O----U----T----i

RLi

for sinking:

PDMAX = VS Ã ISMAX + (VOUTi â VS) Ã ILOADi

Where:

VS = Supply voltage

ISMAX = Maximum quiescent supply current

VOUT = Maximum output voltage of the application

RLOAD = Load resistance tied to ground

ILOAD = Load current

i = Number of output channels

By setting the two PDMAX equations equal to each other, we

can solve the output current and RLOAD to avoid the device

overheat.

FN6233.3

September 26, 2006

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