ISL59116 Datasheet, PDF(8/10 Page) Intersil Corporation – YC to Composite Video Driver with LPF

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

ISL59116 Datasheet, PDF (8/10 Pages) Intersil Corporation – YC to Composite Video Driver with LPF

◁

ISL59116

Application Information

The ISL59116 is a single-supply rail-to-rail triple (two in,

three out) video amplifier with internal sync tip clamps, a

typical -3dB bandwidth of 9MHz and slew rate of about

40V/Âµs. The Y and C channels are internally mixed to create

a third CVBS (composite) video output. This part is ideally

suited for applications requiring high composite and S-video

performance with very low power consumption. As the

performance characteristics and features illustrate, the

ISL59116 is optimized for portable video applications.

Internal Sync Clamp

Embedded video DACs typically use ground as their most

negative supply. This places the sync tip voltage at a

minimum of 0V. Presenting a 0V input to most single supply

amplifiers will saturate the output stage of the amplifier

resulting in a clipped sync tip and degraded video image.

The ISL59116 features an internal sync clamp and offset

function that level shifts the entire video signal to the optimum

level before it reaches the amplifiersâ input stage. These

features also help avoid saturation of the output stage of the

amplifier by setting the signal closer to the best voltage range.

The simplified block diagram on the front page shows the

basic operation of the ISL59116âs sync clamp. The Y inputâs

AC-coupled video sync signal is pulled negative by a current

source at the input. When the sync tip goes below the

comparator threshold, the comparator output goes high,

pulling up on the Y input through the diode, forcing current

into the coupling capacitor until the voltage at the Y input is

again 0V, and the comparator turns off. This forces the sync

tip clamp to always be 0V, setting the offset for the entire

video signal.

The Sallen Key Low Pass Filter

The Sallen Key is a classic low pass configuration. This

provides a very stable low pass function, and in the case of

the ISL59116, a three-pole roll-off at 9MHz. The three-pole

function is accomplished with an RC low pass network placed

in series with and before the Sallen Key. The first pole is

formed by an RC network, with poles two and three generated

with a Sallen Key, creating a nice three-pole roll-off at 9MHz.

Output Coupling

The ISL59116 can be AC or DC coupled to its output. When

AC coupling, a 220ÂµF coupling capacitor is recommended to

ensure that low frequencies are passed, preventing video

âtiltâ or âdroopâ across a line.

The ISL59116âs internal sync clamp makes it possible to DC

couple the output to a video load, eliminating the need for

any AC coupling capacitors, saving board space, cost, and

eliminating any âtiltâ or offset shift in the output signal. The

trade off is larger supply current draw, since the DC

component of the signal is now dissipated in the load

resistor. Typical load current for AC coupled signals is 5mA

compared to 10mA for DC coupling.

Output Drive Capability

The ISL59116 does not have internal short circuit protection

circuitry. If the output is shorted indefinitely, the power

dissipation could easily overheat the die or the current could

eventually compromise metal integrity. Maximum reliability is

maintained if the output current never exceeds Â±40mA. This

limit is set by the design of the internal metal interconnect.

Note that for transient short circuits, the part is robust.

Short circuit protection can be provided externally with a

back match resistor in series with the output placed close as

possible to the output pin. In video applications this would be

a 75â¦ resistor and will provide adequate short circuit

protection to the device. Care should still be taken not to

stress the device with a short at the output.

Power Dissipation

With the high output drive capability of the ISL59116, it is

possible to exceed the +125Â°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-Î----â-J---A-T----A---M-----A----X--

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

(VS

)

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

for sinking:

PDMAX = VS Ã ISMAX + (VOUT â VS) Ã ILOAD

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

FN6277.0

September 21, 2006

▷