LT1399HV Linear Technology, LT1399HV Datasheet - Page 13

LT1399HV

Manufacturer Part Number

LT1399HV

Description

Low Cost Dual and Triple 300MHz Current Feedback Amplifiers with Shutdown

Manufacturer

Linear Technology

Datasheet

1.LT1399HV.pdf (16 pages)

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The G input also arrives via 75

contribution to the Y signal via a 549 resistor R9, which

is tied to the inverting input of amplifier A2. There is also

an 86.6 termination resistor R12, which yields a 75

termination when considered in parallel with R9. Using

superposition, it is straightforward to determine the

output of amplifier A2. Although inverted, it sums the R,

G and B signals in the standard proportions of 0.3R,

0.59G and 0.11B that are used to create the Y signal.

Amplifier B1 then inverts and amplifies the signal by 2,

resulting in the Y output.

Buffered Color-Difference to RGB Matrix

The LT1399 can be used to create buffered RGB outputs

from color-difference signals (Figure 9). The R output is

a back-terminated 75 signal created using resistor R5

and LT1399 amplifier A1 configured for a gain of +2 via

324

amplifier A1 is connected via 1k resistors R1 and R2 to

the Y and R-Y inputs respectively, resulting in cancella-

tion of the Y signal at the amplifier input. The remaining

R signal is then amplified by A1.

The B output is also a back-terminated 75

created using resistor R16 and amplifier A3 configured

for a gain of +2 via 324 resistors R14 and R15. The

noninverting input of amplifier A3 is connected via 1k

resistors R12 and R13 to the Y and B-Y inputs respec-

tively, resulting in cancellation of the Y signal at the

amplifier input. The remaining B signal is then amplified

by A3.

The G output is the most complicated of the three. It is a

weighted sum of the Y, R-Y and B-Y inputs. The Y input

is attenuated via resistors R6 and R7 such that amplifier

A2’s noninverting input sees 0.83Y. Using superposition,

we can calculate the positive gain of A2 by assuming that

R8 and R9 are grounded. This results in a gain of 2.41 and

a contribution at the output of A2 of 2Y. The R-Y input is

amplified by A2 with the gain set by resistors R8 and R10,

giving an amplification of –1.02. This results in a contri-

bution at the output of A2 of 1.02Y – 1.02R. The B-Y input

is amplified by A2 with the gain set by resistors R9 and

PPLICATI

resistors R3 and R4. The noninverting input of

I FOR ATIO

coax and adds its

signal

R10, giving an amplification of – 0.37. This results in a

contribution at the output of A2 of 0.37Y – 0.37B.

If we now sum the three contributions at the output of A2,

we get:

It is important to remember though that Y is a weighted

sum of R, G and B such that:

If we substitute for Y at the output of A2 we then get:

The back-termination resistor R11 then halves the output

of A2 resulting in the G output.

R-Y

B-Y

Y = 0.3R + 0.59G + 0.11B

ALL RESISTORS 1%

OUT

= 5V

Figure 9. Buffered Color-Difference to RGB Matrix

= 3.40Y – 1.02R – 0.37B

= (1.02R – 1.02R) + 2G + (0.37B – 0.37B)

= 2G

LT1398/LT1399/LT1399HV

205

316

845

R12

R13

1/3 LT1399

–

1/3 LT1399

–

324

R10

324

R14

324

R15

324

1398/99 F09

R11

R16

LT1399HV Linear Technology, LT1399HV Datasheet - Page 13

LT1399HV

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