CLC505
High Speed, Programmable Supply Current, Monolithic
Op Amp
General Description
The CLC505 is a monolithic, high speed op amp with a
unique combination of high performance, low power con-
sumption, and flexibility of application. The supply current is
programmable over a 10 to 1 continuous range with a single
resistor, R
p
. This feature enables the amplifier to be used in
a wide variety of high performance applications. Typical
performance at any supply current is exceptional:
Parameter
Supply Current (I
CC
)
Units
9mA
3.4mA 1mA
-3dB Bandwidth 150
100
50
MHz
Settling Time
12
14
35
nsec
Slew Rate
1700
1200
800
V/sec
Output Current
45
25
7
mA
The CLC505's combination of high performance, low power
consumption, and large signal performance makes the
CLC505 ideal for a wide variety of remote site equipment
applications, such as battery powered test instrumentation
and communications gear. Some other power applications
are video switching matrices, ATE, and phased-array radar
systems.
The CLC505 has been designed for ease of use and has
been specified to ensure design confidence and final system
predictability. The product performance is specified for 1mA,
3mA ad 9mA supply current. The CLC505 is available in
8-pin Dip SOIC packages offered for the industrial tempera-
ture range.
Enhanced Solutions (Military/Aerospace)
SMD Number: contact factory
Space level versions also available.
For more information, visit http://www.national.com/mil
Features
n
10mW power consumption with 50MHz BW
n
Single resistor programming of supply current
n
3.4mA I
CC
provides 100MHz bandwidth and 14ns
settling (0.05%)
n
Fast disable capability
n
0.04% differential gain at I
CC
= 3.4mA
n
0.06% differential phase at I
CC
= 3.4mA
Applications
n
Low power battery applications
n
Remote site instrumentation
n
Mobile communications gear
n
Video switching matrix
n
Phased-array radar
Connection Diagram
Ordering Information
Package
Temperature Range
Industrial
Part Number
Package
Marking
NSC
Drawing
8-pin plastic DIP
-40C to +85C
CLC505AJP
CLC505AJP
N08E
8-pin plastic SOIC
-40C to +85C
CLC505AJE
CLC505AJE
M08A
Large-Signal Pulse Response
DS012755-37
DS012755-33
Pinout
DIP & SOIC
January 2001
CLC505
High
Speed,
Programmable
Supply
Current,
Monolithic
Op
Amp
2001 National Semiconductor Corporation
DS012755
www.national.com
Absolute Maximum Ratings
(Note 1)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
Supply Voltage (V
CC
)
7V
I
OUT
Output is short circuit protected to
ground, but maximum reliability will
be maintained if I
OUT
does not
exceed...
60mA
Common Mode Input Voltage
V
CC
Differential Input Voltage
10V
Junction Temperature
+150C
Operating Temperature
-40C to +85C
Storage Temperature Range
-65C to +150C
Lead Solder Duration (+300C)
10 sec
ESD rating (human body model)
2000V
Operating Ratings
Thermal Resistance (SOIC)
JC
60C/W
JA
140C/W
Electrical Characteristics
A
V
= +6, V
CC
=
5V, R
f
= 1000
, C
p
= 100pF; unless specified
Symbol
Parameter
Conditions
Typ
Max/Min Ratings (Note 2)
Units
Ambient Temperature
CLC505AJ
+25C
-40C
+25C
+85C
Frequency Domain Response
SSBW
-3dB Bandwidth
V
OUT
<
2V
PP
150
>
115
>
115
>
100
MHz
LSBW
-3dB Large Signal
V
OUT
<
5V
PP
135
>
95
>
95
>
80
MHz
Gain Flatness
V
OUT
<
2V
PP
GFPL
Peaking
<
25/20/10MHz (Note 7)
0
<
0.4
<
0.3
<
0.4
dB
GFPH
Peaking
>
25/20/10MHz (Note 7)
0
<
0.6
<
0.5
<
0.6
dB
GFR
Rolloff
<
50/40/20MHz (Note 7)
0.2
<
1.0
<
1.0
<
1.3
dB
LPD
Linear Phase Deviation
DC to 50/40/20MHz (Note 7)
0.6
<
1.0
<
1.0
<
1.2
deg
Time Domain Response
TRS
Rise and Fall Time
2V Step
2.3
<
3.0
<
3.0
<
3.5
ns
TRL
5V Step
2.6
<
3.7
<
3.7
<
4.4
ns
TSP
Settling time to 0.1/0.05/0.05%
(Note 7)
2V Step
12
<
16
<
16
<
16
ns
OS
Overshoot
2V Step
5
<
15
<
12
<
15
%
SR
Slew Rate (A
V
+2)
1700
>
1000
>
1200
>
1200
V/s
Distortion And Noise Response
HD2
2nd Harmonic Distortion
2V
PP
,20/10/5MHz (Note 7)
-50
<
-40
<
-45
<
-45
dBc
HD3
3rd Harmonic Distortion
2V
PP
,20/10/5MHz (Note 7)
-65
<
-55
<
-55
<
-55
dBc
Equivalent Input Noise
SNF
Noise Floor
>
1MHz
-156
<
-154
<
-154
<
-153
dBm
(1Hz)
INV
Integrated Noise
1MHz to 200/200/100MHz
(Note 7)
50
<
65
<
65
<
70
V
DG
Differential Gain (Note 6)
0.04
-
-
-
%
DP
Differential Phase (Note 6)
0.06
-
-
-
deg
Static, DC Performance
VIO
Input Offset Voltage (Note 3)
2
<
12.8
<
8.0
<
14
mV
DVIO
Average Temperature
Coefficient
30
<
50
-
<
50
V/C
IBN
Input Bias Current (Note 3)
Non Inverting
8
<
36
<
18
<
18
A
DIBN
Average Temperature
Coefficient
80
<
225
-
<
100
nA/C
IBI
Input Bias Current (Note 3)
Inverting
10
<
60
<
38
<
40
A
DIBI
Average Temperature
Coefficient
80
<
275
-
<
125
nA/C
PSRR
Power Supply Rejection Ratio
50
>
45
>
48
>
45
dB
CMRR
Common Mode Rejection Ratio
50
>
45
>
48
>
45
dB
CLC505
www.national.com
2
Electrical Characteristics
(Continued)
A
V
= +6, V
CC
=
5V, R
f
= 1000
, C
p
= 100pF; unless specified
Symbol
Parameter
Conditions
Typ
Max/Min Ratings (Note 2)
Units
Static, DC Performance
ICC
Supply Current (Note 3)
No Load, Quiescent
9
<
11
<
11
<
12
mA
Miscellaneous Performance
RIN
Non-Inverting Input
Resistance
1200
>
400
>
800
>
1600
k
CIN
Capacitance
1
<
2
<
2
<
2
pF
RO
Output Impedence
At DC
0.2
<
1.2
<
0.3
<
0.2
ohm
VO
Output Voltage Range
No Load
3.3
>
2.8
>
3.0
>
3.0
V
CMIR
Common Mode Input Range
For Rated Performance
2.2
>
1.5
>
1.8
>
2.0
V
IO
Output Current
-40C to +85C
45
>
20
>
36
>
36
mA
Electrical Characteristics
A
V
= +6, V
CC
=
5V, R
f
= 1000
, C
P
= 100pF; unless specified
SUPPLY CURRENT I
CC
(TYP) = 3.4mA
R
p
=100k
, R
L
= 500
SUPPLY CURRENT I
CC
(TYP) = 1mA
R
p
= 300k
, R
L
=1000
Symbol
Typ
Max & Min Ratings
Typ
Max & Min Ratings
Units
+25C
-40C
+25C
+85C
+25C
-40C
+25C
+85C
SSBW
100
>
80
>
80
>
65
50
>
30
>
35
>
30
MHz
LSBW
80
>
50
>
50
>
40
33
1
>
20
>
18
MHz
GFPL
0
<
0.3
<
0.2
<
0.3
0
<
0.2
<
0.1
<
0.2
dB
GFPH
0
<
0.5
<
0.4
<
0.5
0
<
0.3
<
0.2
<
0.3
dB
GFR
0.2
<
1.0
<
1.0
<
1.3
0.5
<
1.0
<
1.0
<
1.3
dB
LPD
0.5
<
1.0
<
1.0
<
1.2
0.2
<
0.5
<
0.5
<
1.0
deg
TRS
3.5
<
4.4
<
4.4
<
5.4
7
<
12
<
10
<
12
ns
TRL
4.4
<
7.0
<
7.0
<
8.8
9
1
<
18
<
20
ns
TSP
14
<
22
<
22
<
22
35
<
70
<
60
<
60
ns
OS
2
<
12
<
10
<
12
0
<
8
<
5
<
8
%
SR
1200
>
700
>
800
>
800
800
>
500
>
600
>
600
V/s
HD2
-55
<
-40
<
-45
<
-45
-55
<
-40
<
-45
<
-45
dBc
HD3
-65
<
-55
<
-55
<
-55
-65
<
-55
<
-55
<
-55
dBc
SNF
-155
<
-153
<
-153
<
-152
-152
<
-150
<
-150
<
-149
dBm
(1Hz)
INV
56
<
70
<
70
<
80
55
<
70
<
70
<
80
V
DG
0.04
0.1
%
DP
0.06
0.1
deg
VIO
3
<
11.8
<
7.0
<
13
3
<
13.0
<
7.0
<
14.5
mV
DVIO
40
<
60
<
60
50
<
75
<
75
V/C
IBN
2
<
12
<
6
<
6
1
<
5.0
<
2.5
<
2.5
A
DIBN
30
<
75
<
50
10
<
32
<
30
nA/C
IBI
4
<
22
<
14
<
15
2
<
10.0
<
7.0
<
8.0
A
DIBI
40
<
100
<
60
20
<
38
<
35
nA/C
PSRR
50
>
45
>
48
>
45
50
>
45
>
48
>
45
dB
CMRR
50
>
45
>
48
>
45
50
>
45
>
48
>
45
dB
ICC
3.4
<
3.8
<
3.8
<
4.2
1.0
<
1.4
<
1.3
<
1.4
mA
RIN
3000
>
1000
>
2000
>
4000
7500
>
2500
>
5000
>
10000
k
CIN
1
<
2
<
2
<
2
1
<
2
<
2
<
2
pF
RO
0.2
<
1.6
<
0.5
<
0.2
0.5
<
3.0
<
1.0
<
0.5
VO
3.3
>
2.8
>
2.7
>
3.0
3.3
>
2.5
>
3.0
>
3.0
V
CMIR
2.2
>
1.5
>
1.8
>
2.0
2.2
>
1.5
>
1.8
>
2.0
V
CLC505
www.national.com
3
Electrical Characteristics
(Continued)
A
V
= +6, V
CC
=
5V, R
f
= 1000
, C
P
= 100pF; unless specified
SUPPLY CURRENT I
CC
(TYP) = 3.4mA
R
p
=100k
, R
L
= 500
SUPPLY CURRENT I
CC
(TYP) = 1mA
R
p
= 300k
, R
L
=1000
IO
25
>
10
>
18
>
18
7
>
3.0
>
5
>
5
mA
IO
25
>
9
>
18
>
18
7
>
2.5
>
5
>
5
mA
Note 1: "Absolute Maximum Ratings" are those values beyond which the safety of the device cannot be guaranteed. They are not meant to imply that the devices
should be operated at these limits. The table of "Electrical Characteristics" specifies conditions of device operation.
Note 2: Max/min ratings are based on product characterization and simulation. Individual parameters are tested as noted. Outgoing quality levels are determined
from tested parameters.
Note 3: AJ-level: spec. is 100% tested at +25C = 3.4mA & parameter is 100%
@
25C in die form
@
I
CC
= 1mA, 3.4mA and 9mA.
Note 4: Not applicable due to output current limitations.
Note 5: See Text on the back page of data sheet.
Note 6: Differential gain and phase is characterized with a 1V
PP
equivalent video signal, 0-100 IRE
PP
, 40IRE
pp
, and 0IRE = 0V at the load resistor and 3.58 MHz.
Note 7: xx/yy/zz MHz indicates that the CLC505 is specified at xxMHz for I
CC
= 9mA, yyMHz for I
cc
= 3.4mA, and zzMHz for I
cc
= 1 mA.
Conditions are different for the three supply currents:
I
CC
R
L
R
OUT
A
V
9mA
75
75
+2
3.4mA
500
0
+6
1mA
1000
0
+6
Typical Performance Characteristics
(T
A
= 25C, A
V
= +6, V
CC
=
5V, R
f
= 1000
, V
H
= +3V, C
p
=
100pF)
I
CC
9mA, R
L
250
Non-Inverting Gain Circuit
DS012755-1
I
CC
3.4mA, R
L
500
Non-Inverting Gain Circuit
DS012755-2
CLC505
www.national.com
4
Typical Performance Characteristics
(T
A
= 25C, A
V
= +6, V
CC
=
5V, R
f
= 1000
, V
H
= +3V, C
p
= 100pF)) (Continued)
I
CC
1mA, R
L
1000
Non-Inverting Gain Circuit
DS012755-3
Inverting Frequency Response
DS012755-4
Inverting Frequency Response
DS012755-5
Inverting Frequency Response
DS012755-6
Large Signal Frequency Response
DS012755-7
Large Signal Frequency Response
DS012755-8
CLC505
www.national.com
5
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