ISL59446IRZ-T7 Intersil, ISL59446IRZ-T7 Datasheet - Page 10
ISL59446IRZ-T7
Manufacturer Part Number
ISL59446IRZ-T7
Description
IC AMP MUX 4:1 500MHZ 32-QFN
Manufacturer
Intersil
Datasheet
1.ISL59446IRZ-T7.pdf
(13 pages)
Specifications of ISL59446IRZ-T7
Applications
4:1 Multiplexer-Amplifier
Number Of Circuits
3
-3db Bandwidth
620MHz
Slew Rate
1600 V/µs
Current - Supply
44mA
Current - Output / Channel
135mA
Mounting Type
Surface Mount
Package / Case
32-VQFN Exposed Pad, 32-HVQFN, 32-SQFN, 32-DHVQFN
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
ISL59446IRZ-T7
AC Test Circuits
AC Test Circuits
Figures 29C and 29D illustrate the optimum output load for
testing AC performance at 500Ω and 150Ω loads.
Figure 29E illustrates the optimum output load for 50Ω and
75Ω cable-driving.
FIGURE 29E. BACKLOADED TEST CIRCUIT FOR 75Ω VIDEO
FIGURE 29A. TEST CIRCUIT WITH OPTIMAL OUTPUT LOAD
V
50Ω,or
75Ω
V
V
V
IN
IN
IN
50Ω
75Ω
IN
50Ω
50Ω
75Ω
or
or
FIGURE 29B. INTER-STAGE APPLICATION CIRCUIT
FIGURE 29C. 500Ω TEST CIRCUIT WITH 50Ω LOAD
FIGURE 29D. 150
*C
ISL59446
*C
*C
ISL59446
ISL59446
ISL59446
V
L
L
IN
L
50Ω
75Ω
Includes PCB trace capacitance
x2
Includes PCB trace capacitance
or
x2
x2
Includes PCB trace capacitance
x2
CABLE APPLICATION
*C
L
L
L
L
ISL59446
L
Includes PCB trace capacitance
CRIT
CRIT
CRIT
CRIT
C
*C
2.1pF
x2
*C
2.1pF
L
50Ω or 75Ω
*C
1.1pF
L
L
Ω
475Ω
118Ω
L
R
R
R
R
TEST CIRCUIT WITH 50Ω LOAD
S
S
S
S
*C
1.1pF
10
L
C
56.2Ω
86.6Ω
L
S
CRIT
500Ω, or
150Ω
R
L
EQUIPMENT
EQUIPMENT
EQUIPMENT
50Ω
50Ω or 75Ω
50Ω
V
TEST
TEST
TEST
500Ω, or
75Ω
OUT
R
L
ISL59446
Application Information
General
Key features of the ISL59446 include a fixed gain of 2,
buffered high impedance analog inputs and excellent AC
performance at output loads down to 150Ω for video
cable-driving. The current feedback output amplifiers are
stable operating into capacitive loads.
For the best isolation and crosstalk rejection, all GND pins
and NIC pins must connect to the GND plane.
AC Design Considerations
High speed current-feed amplifiers are sensitive to
capacitance at the inverting input and output terminals. The
ISL59446 has an internally set gain of 2, so the inverting
input is not accessible. Capacitance at the output terminal
increases gain peaking (Figure 1) and pulse overshoot
(Figures 19 and 20). The AC response of the ISL59446 is
optimized for a total output capacitance of up to 2.1pF over
the load range of 150Ω to 500Ω. When PCB trace
capacitance and component capacitance exceed 2pF, pulse
overshoot becomes strongly dependent on the input pulse
amplitude and slew rate. This effect is shown in Figures 19
and 20, which show approximate pulse overshoot as a
function of input slew rate and output capacitance. Fast
pulse rise and fall times (<150ns) at input amplitudes above
0.2V, cause the input pulse slew rate to exceed the
1600V/µs output slew rate of the ISL59446. At 125ps rise
time, pulse input amplitudes >0.2V cause slew rate limit
operation. Increasing levels of output capacitance reduce
stability resulting in increased overshoot, and settling time.
PC board trace length should be kept to a minimum in order
to minimize output capacitance and prevent the need for
controlled impedance lines. At 500MHz trace lengths
approaching 1” begin exhibiting transmission line behavior
and may cause excessive ringing if controlled impedance
traces are not used. Figure 29A shows the optimum
inter-stage circuit when the total output trace length is less
than the critical length of the highest signal frequency.
For applications where pulse response is critical and where
inter-stage distances exceed L
Figure 29B is recommended. Resistor R
capacitance seen by the amplifier output to the trace
capacitance from the output pin to the resistor. Therefore,
R
possible. For inter-stage distances much greater than L
the back-loaded circuit shown in Figure 29E should be used
with controlled impedance PCB lines, with R
to the controlled impedance.
For applications where inter-stage distances are long, but
pulse response is not critical, capacitor C
low values of R
overshoot. This approach avoids the need for the large gain
correction required by the -6dB attenuation of the
S
should be placed as close to the ISL59446 output pin as
S
to form a low-pass filter to dampen pulse
CRIT,
the circuit shown in
S
S
constrains the
can be added to
S
and R
August 26, 2010
L
FN6261.1
equal
CRIT,
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