LT6402IUD-6#TRPBF Linear Technology, LT6402IUD-6#TRPBF Datasheet - Page 11
LT6402IUD-6#TRPBF
Manufacturer Part Number
LT6402IUD-6#TRPBF
Description
IC DIFF AMP/ADC DVR 6DB 16-QFN
Manufacturer
Linear Technology
Datasheet
1.LT6402IUD-6PBF.pdf
(16 pages)
Specifications of LT6402IUD-6#TRPBF
Amplifier Type
Differential
Number Of Circuits
2
Output Type
Differential
Slew Rate
400 V/µs
-3db Bandwidth
300MHz
Current - Input Bias
5µA
Voltage - Input Offset
1000µV
Current - Supply
30mA
Current - Output / Channel
35mA
Voltage - Supply, Single/dual (±)
4 V ~ 5.5 V, ±2 V ~ 2.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-WQFN Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Gain Bandwidth Product
-
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Price
APPLICATIONS INFORMATION
The LT6402-6 has been designed to minimize the need
for external support components such as transformers or
AC-coupling capacitors. As an ADC driver, the LT6402-6
requires no external components except for power-supply
bypass capacitors. This allows DC-coupled operation for
applications that have frequency ranges including DC.
At the outputs, the common mode voltage is set via the
V
output AC-coupling capacitors or transformers are needed.
At the inputs, signals can be differential or single-ended
with virtually no difference in performance. Furthermore,
DC levels at the inputs can be set independently of the
output common mode voltage. These input characteristics
often eliminate the need for an input transformer and/or
AC-coupling capacitors.
Input Impedance and Matching Networks
Calculation of the input impedance of the LT6402-6 is not
straightforward from examination of the block diagram
because of the internal feedback network. In addition, the
input impedance when driven differentially is different than
when driven single-ended.
For single-ended 50Ω applications, an 80.6Ω shunt
matching resistor to ground will result in the proper input
termination (Figure 1). For differential inputs there are
several termination options. If the input source is 50Ω
differential, then the input matching can be accomplished
by either a 67Ω shunt resistor across the inputs (Figure 3),
or equivalent 33Ω shunt resistors on each of the inputs
to ground (Figure 2).
OCM
pin, allowing the LT6402-6 to drive ADCs directly. No
LT6402-6
Figure 1. Input Termination for Single-Ended
50Ω Input Impedance
IF IN
Z
SINGLE-ENDED
IN
= 50Ω
80.6Ω
0.1μF
DIFFERENTIAL
13
14
15
16
200Ω
–INB
–INA
+INB
+INA
LT6402-6
–OUT
+OUT
8
5
SINGLE-ENDED
64026 F01
133Ω
Single-Ended to Differential Operation
The LT6402-6’s performance with single-ended inputs is
comparable to its performance with differential inputs.
This excellent single-ended performance is largely due
to the internal topology of the LT6402-6. Referring to
the block diagram, if the +INA and +INB pins are driven
with a single-ended signal (while –INA and –INB are tied
to AC ground), then the +OUT and –OUT pins are driven
differentially without any voltage swing needed from
amplifi er C. Single-ended to differential conversion using
more conventional topologies suffers from performance
limitations due to the common mode amplifi er.
Driving ADCs
The LT6402-6 has been specifi cally designed to interface
directly with high speed Analog to Digital Converters
(ADCs). In general, these ADCs have differential inputs, with
an input impedance of 1kΩ or higher. In addition, there is
generally some form of lowpass or bandpass fi ltering just
prior to the ADC to limit input noise at the ADC, thereby
improving system signal to noise ratio. Both the unfi ltered
and fi ltered outputs of the LT6402-6 can easily drive the
Figure 2. Input Termination for Differential 50Ω Input Impedance
Figure 3. Alternate Input Termination for Differential
50Ω Input Impedance
IF IN
IF IN
Z
DIFFERENTIAL
IF IN
IF IN
IN
Z
DIFFERENTIAL
IN
–
+
= 50Ω
–
+
= 50Ω
33Ω
33Ω
67Ω
13
14
15
16
13
14
15
16
–INB
–INA
+INB
+INA
–INB
–INA
+INB
+INA
LT6402-6
LT6402-6
–OUT
+OUT
–OUT
+OUT
8
5
LT6402-6
8
5
64026 F02
64026 F03
11
64026fa
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