|
LTC6401-20 Datasheet, PDF (10/16 Pages) Linear Technology – 1.3GHz Low Noise, Low Distortion Differential ADC Driver for 140MHz IF | |||
|
◁ |
LTC6401-20
APPLICATIONS INFORMATION
Circuit Operation
The LTC6401-20 is a low noise and low distortion fully
differential op amp/ADC driver with:
⢠Operation from DC to 1.3GHz â3dB bandwidth
impedance
⢠Fixed gain of 10V/V (20dB)
⢠Differential input impedance 200Ω
⢠Differential output impedance 25Ω
⢠Differential impedance of output ï¬lter 100Ω
The LTC6401-20 is composed of a fully differential ampliï¬er
with on chip feedback and output common mode voltage
control circuitry. Differential gain and input impedance are
set by 100Ω/1000Ω resistors in the feedback network.
Small output resistors of 12.5Ω improve the circuit stability
over various load conditions. They also provide a possible
external ï¬ltering option, which is often desirable when the
load is an ADC.
Filter resistors of 50Ω are available for additional ï¬ltering.
Lowpass/bandpass ï¬lters are easily implemented with just
a couple of external components. Moreover, they offer
single-ended 50Ω matching in wideband applications and
no external resistor is needed.
The LTC6401-20 is very ï¬exible in terms of I/O coupling.
It can be AC- or DC-coupled at the inputs, the outputs or
both. Due to the internal connection between input and
output, users are advised to keep input common mode
voltage between 1V and 1.6V for proper operation. If the
inputs are AC-coupled, the input common mode voltage
is automatically biased close to VOCM and thus no external
circuitry is needed for bias. The LTC6401-20 provides an
output common mode voltage set by VOCM, which allows
driving an ADC directly without external components such
as a transformer or AC coupling capacitors. The input
signal can be either single-ended or differential with only
minor differences in distortion performance.
Input Impedance and Matching
The differential input impedance of the LTC6401-20 is
200Ω. If a 200Ω source impedance is unavailable, then
the differential inputs may need to be terminated to a lower
value impedance, e.g. 50Ω, in order to provide an imped-
ance match to the source. Several choices are available.
One approach is to use a differential shunt resistor (Figure
1). Another approach is to employ a wideband transformer
(Figure 2). Both methods provide a wideband match. The
termination resistor or the transformer must be placed
close to the input pins in order to minimize the reï¬ection
due to input mismatch. Alternatively, one could apply a
narrowband impedance match at the inputs of the LTC6401-
20 for frequency selection and/or noise reduction.
Referring to Figure 3, LTC6401-20 can be easily conï¬gured
for single-ended input and differential output without a
balun. The signal is fed to one of the inputs through a
matching network while the other input is connected to
the same matching network and a source resistor. Because
the return ratios of the two feedback paths are equal, the
25Ω
100Ω
13 +IN
1000Ω
â+ VIN
14 +IN
66.5Ω
15 âIN
IN+
OUTâ
INâ
OUT+
LTC6401-20
12.5Ω
+OUT 8
50Ω
+OUTF 7
50Ω 1.7pF
âOUTF 6
25Ω
100Ω
16 âIN
1000Ω
12.5Ω
âOUT 5
640120 F01
Figure 1. Input Termination for Differential 50Ω Input Impedance
Using Shunt Resistor
25Ω
1:4
â+ VIN ⢠â¢
100Ω
13 +IN
IN+
14 +IN
15 âIN
INâ
1000Ω
OUTâ
OUT+
LTC6401-20
12.5Ω
+OUT 8
50Ω
+OUTF 7
50Ω 1.7pF
âOUTF 6
25Ω
100Ω
1000Ω
16 âIN
12.5Ω
âOUT 5
640120 F02
Figure 2. Input Termination for Differential 50Ω Input Impedance
Using a 1:4 Balun
640120f
10
|
▷ |