Datasheet

9
LT1259/LT1260
V
S
= ±5V
V
IN
= 0.1V
Amplifier Disable Time, A
V
= 10
R
F
= 1k
R
G
= 110
LT1259/LT1260 • AI05
EN
OUTPUT
R
L
= 150
Amplifier Enable/Disable Time, A
V
= 2
V
S
= ±5V
V
IN
= 2VPP at 2MHz
LT1259/LT1260 • AI06
OUTPUT
R
F
= R
G
= 1.6k
R
L
= 100
Differential Input Signal Swing
The differential input swing is limited to about ±6V by an
ESD protection device connected between the inputs. In
normal operation, the differential voltage between the
input pins is small, so this clamp has no effect. In the
disabled mode however, the differential swing can be the
same as the input swing, and the clamp voltage will set the
maximum allowable input voltage.
V
S
= ±5V
V
IN
A
= V
IN 2
= 2VPP at 2MHz
2-Input Video MUX Switching Response
LT1259/LT1260 • TA03
EN A
EN B
R
F
= R
G
= 1.6k
R
L
= 100
2-Input Video MUX Cable Driver
The application on the first page shows a low cost, 2-
input video MUX cable driver. The scope photo displays
the cable output of a 30MHz square wave driving 150.
In this circuit the active amplifier is loaded by R
F
and R
G
of the disabled amplifier, but in this case it only causes a
1.2% gain error. The gain error can be eliminated by
configuring each amplifier as a unity-gain follower. The
switching time between channels is 100ns when both
EN A and EN B are driven.
2-Input RGB MUX Cable Driver Demonstration Board
A complete 2-input RGB MUX has been fabricated on PC
Demo Board #039A. The board incorporates two LT1260s
with outputs summed through 75 back termination
resistors as shown in the schematic. There are several
things to note about Demo Board #039A:
1. The feedback resistors of the disabled LT1260 load
the enabled amplifier and cause a small (1% to 2%)
gain error depending on the values of R
F
and R
G
.
Configure the amplifiers as unity-gain followers to
eliminate this error.
2. The feedback node has minimum trace length connect-
ing R
F
and R
G
to minimize stray capacitance.
3. Ground plane is pulled away from R
F
and R
G
on both
sides of the board to minimize stray capacitance.
EN
APPLICATIO S I FOR ATIO
WUUU
TYPICAL APPLICATIO S
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