EL4453C Datasheet, PDF(9/12 Page) Elantec Semiconductor

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EL4453C Datasheet, PDF (9/12 Pages) Elantec Semiconductor – Video Fader

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EL4453C

Video Fader

Applications Information Contd

The gain of the feedback dividers are HA and

HB and 0 s H s 1 The transfer function of the

part is

VOUTeAOc ((VINAa) â HAcVOUT)

c(1a(VFADEa)b(VFADEb)) 2

a((VINBa) â HBcVOUT)c(1b(VFADEa)

a(VFADEb)) 2a(Suma) â (Sumb))

with b1 s (VFADEa) â (VFADEb) s a1 nu-

merically

AO is the open-loop gain of the amplifier and is

about 600 The large value of AO drives

((VINAa) â HAcVOUT)c(1 a (VFADEa)

â (VFADEb)) 2 a ((VINBa) â HBcVOUT)

c(1b (VFADEa)a(VFADEb)) 2

x a(Suma)â(Sumb)) 0

Rearranging and substituting

VOUT

VINA

aF c VINB a

HA a F c HB

Sum

Where F e (1 a (VFADEa) â (VFADEb)) 2

Fe(1b(VFADEa)a (VFADEb)) 2 and

Sume(Suma) â (Sumb)

In the above equations F represents the fade

amount with F e 1 giving 100% gain on VINA

but 0% for VINB F e 0 giving 0% gain for

VINA but 100% to VINB F is 1 b F the comple-

ment of the fade gain When F e 1

VOUT

VINA a

Sum

and the amplifier passes VINA and Sum with a

gain of 1 HA Similarly for F e 0

VOUT

VINB a

Sum

and the gains vary linearly between fade ex-

tremes

The EL4453C is stable for a direct connection be-

tween VOUT and VINAb or VINBb yielding a

gain of a1 The feedback divider may be used for

higher output gain although with the traditional

loss of bandwidth It is important to keep the

feedback dividersâ impedances low so that stray

capacitance does not diminish the feedback loopâs

phase margin The pole caused by the parallel im-

pedance of the feedback resistors and stray ca-

pacitance should be at least 150 MHz typical

strays of 3 pF thus require a feedback impedance

of 360X or less Alternatively a small capacitor

across RF can be used to create more of a fre-

quency-compensated divider The value of the ca-

pacitor should scale with the parasitic capaci-

tance at the FB input It is also practical to place

small capacitors across both the feedback resis-

tors (whose values maintain the desired gain) to

swamp out parasitics For instance two 10 pF

capacitors across equal divider resistors for a gain

of two will dominate parasitic effects and allow a

higher divider resistance Either input channel

can be set up for inverting gain using traditional

feedback resistor connections

At 100% gain an input stage operates just like

an op-ampâs input and the gain error is very low

around b0 2% Furthermore nonlinearities are

vastly improved since the gain core sees only

small error signals not full inputs Unfortunate-

ly distortions increase at lower fade gains for a

given input channel

The Sum pins can be used to inject an additional

input signal but it is not as linear as the VIN

paths The gain error is also not as good as the

main inputs being about 1% Both sum pins

should be grounded if they are not to be used

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