LT1739CUE#PBF Linear Technology, LT1739CUE#PBF Datasheet - Page 13
LT1739CUE#PBF
Manufacturer Part Number
LT1739CUE#PBF
Description
Manufacturer
Linear Technology
Datasheet
1.LT1739CUEPBF.pdf
(20 pages)
Specifications of LT1739CUE#PBF
Power Supply Requirement
Dual
Slew Rate
200V/us
Pin Count
12
Lead Free Status / RoHS Status
Compliant
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APPLICATIO S I FOR ATIO
In differential driver applications, as shown on the first
page of this data sheet, it is recommended that the gain
setting resistor be comprised of two equal value resistors
connected to a good AC ground at high frequencies. This
ensures that the feedback factor of each amplifier remains
less than 0.1 at any frequency. The midpoint of the
resistors can be directly connected to ground, with the
resulting DC gain to the V
bypassed to ground with a 1000pF or larger capacitor.
Line Driving Back-Termination
The standard method of cable or line back-termination is
shown in Figure 13. The cable/line is terminated in its
characteristic impedance (50 , 75 , 100 , 135 , etc.).
A back-termination resistor also equal to the chararacteristic
impedance should be used for maximum pulse fidelity of
outgoing signals, and to terminate the line for incoming
signals in a full-duplex application. There are three main
drawbacks to this approach. First, the power dissipated in
the load and back-termination resistors is equal so half of
the power delivered by the amplifier is wasted in the
termination resistor. Second, the signal is halved so the
gain of the amplifer must be doubled to have the same
overall gain to the load. The increase in gain increases
noise and decreases bandwidth (which can also increase
distortion). Third, the output swing of the amplifier is
doubled which can limit the power it can deliver to the load
for a given power supply voltage.
An alternate method of back-termination is shown in
Figure 14. Positive feedback increases the effective back-
termination resistance so R
of n. To analyze this circuit, first ground the input. As R
R
L
/n, and assuming R
R
V
BT
V
V
A
P
O
by n.
= V
= V
= V
O
O
P
(1 – 1/n)/(1 + R
(1 + R
(1 – 1/n) to increase the effective value of
U
P2
P2
/R
>>R
P1
U
)
BT
OS
L
we require that:
F
can be reduced by a factor
/R
of the amplifiers, or just
G
)
W
U
BT
=
Eliminating V
For example, reducing R
amplifer gain of (1 + R
= 12.3.
Note that the overall gain is increased:
(1 + R
V
V
O
I
Figure 14. Back Termination Using Postive Feedback
Figure 13. Standard Cable/Line Back Termination
R
V
G
V
P2
I
I
1 1
/R
R
+
–
P1
P1
R
P
/ /
G
) = (1 + R
, we get the following:
n
V
R
P
F
+
–
1
R
V
FOR R
V
1 +
F
O
P
I
BT
/R
R R
2
R
=
F
F
F
R
R
/R
CHARACTERISTIC IMPEDANCE R
by a factor of n = 4, and with an
G
BT
/
G
/
F
R
) = 10 requires that R
R
1 +
1 + 1/n
G
=
BT
R
R
P2
G
)/(1 – 1/n)
R
P1
R
R
V
V
n
P
CABLE OR LINE WITH
R
L
P2
R
BT
O
R
I
2
+ R
G
F
P1
=
/(R
= R
V
1
2
P2
P2
–
A
L
R
(1 + R
R
R
+ R
= 1 –
P2
R
P
P
R
BT
1
P1
+ R
P1
1
F
/
/R
)
R
1
n
P1
R
G
L
)
R
V
P
L
O
2
LT1739
1739 F14
1739 F13
1739fas, sn1739
R
L
V
O
P
13
1
P2
/R
P1
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