clc1003 Cadeka Microcircuits LLC., clc1003 Datasheet - Page 13

no-image

clc1003

Manufacturer Part Number
clc1003
Description
Low Distortion, Low Offset, Rrio Amplifer
Manufacturer
Cadeka Microcircuits LLC.
Datasheet
1.CLC1003.pdf (16 pages)

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Data Sheet
Driving Capacitive Loads
Increased phase delay at the output due to capacitive load-
ing can cause ringing, peaking in the frequency response,
and possible unstable behavior. Use a series resistance,
R
stability and settling performance. Refer to Figure 4.
The CLC1003 family of amplifiers is capable of driving up to
300pF directly, with no series resistance. Directly driving
500pF causes over 4dB of frequency peaking, as shown in
the plot on page 6. Table 1 provides the recommended R
for various capacitive loads. The recommended R
result in <=1dB peaking in the frequency response. The
Frequency Response vs. C
the response of the CLCx003.
©2004-2008 CADEKA Microcircuits LLC
S
Input
, between the amplifier and the load to help improve
2.5
1.5
0.5
C
2
1
0
1000
3000
L
500
-40
(pF)
R
g
SOT23-6
Figure 3. Maximum Power Derating
Figure 4. Addition of R
+
Table 1: Recommended R
-
-20
R
f
R
SOIC-8
Capacitive Loads
Ambient Temperature (°C)
S
7.5
0
10
4
(Ω)
R
s
L
20
plots, on page 6, illustrates
C
L
-3dB BW (MHz)
S
40
for Driving
R
L
S
27
20
15
vs. C
Output
60
L
S
80
values
S
For a given load capacitance, adjust R
tradeoff between settling time and bandwidth. In general,
reducing R
ditional overshoot and ringing.
Overdrive Recovery
An overdrive condition is defined as the point when ei-
ther one of the inputs or the output exceed their specified
voltage range. Overdrive recovery is the time needed for
the amplifier to return to its normal or linear operating
point. The recovery time varies, based on whether the
input or output is overdriven and by how much the range
is exceeded. The CLCx003 will typically recover in less
than 20ns from an overdrive condition. Figure 5 shows the
CLC1003 in an overdriven condition.
Considerations for Offset and Noise Performance
Offset Analysis
There are three sources of offset contribution to consider;
input bias current, input bias current mismatch, and input
offset voltage. The input bias currents are assumed to
be equal with and additional offset current in one of the
inputs to account for mismatch. The bias currents will not
affect the offset as long as the parallel combination of R
and R
-1
-2
-3
3
2
1
0
0
g
matches R
Input
0.25
Figure 6: Circuit for Evaluating Offset
S
will increase bandwidth at the expense of ad-
IN
Figure 5. Overdrive Recovery
0.5
R
g
t
R
. Refer to Figure 6.
t
0.75
Output
Time (us)
+
CLC1003
R
f
1
1.25
1.5
V
G = 5
S
www.cadeka.com
IN
= .8V
R
1.75
to optimize the
L
+V
-V
s
s
pp
2
2
2
1
1
0
-1
-1
-2
-2
13
f

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