ELANT ELH0032G-883B Datasheet
ELH0032G/883/8001301ZX
Fast Operational Amplifier
ELH0032G/883/8001301ZX July 1991 Rev F
Features
# 500 V/ms slew rate
# 70 MHz bandwidth
12
# 10
X input impedance
# 5 mV max. input offset voltage
# FET input
# Offset nulls with single pot
# No compensation required for
gains above 50
# Peak output current to 100 mA
# MIL-STD-883 devices 100%
manufactured in U.S.A.
Ordering Information
Part No. Temp. Range Pkg. Outline
ELH0032G/883Bb55§Ctoa125§C TO-8 MDP0002
8001301ZX is the SMD version of this device.
Connection Diagram
General Description
The ELH0032 is a high slew rate, high input impedance differential operational amplifier suitable for diverse application in
fast signal handling. The high allowable differential input voltage, ease of output clamping, and high output drive capability
make the ELH0032 particularly suitable for comparator applications. It may be used in applications normally reserved for
video amplifiers allowing the use of operational gain setting and
frequency response shaping into the megahertz region.
The ELH0032’s wide bandwidth, high input impedance and
high output drive capability make it an ideal choice for applications such as summing amplifiers in high-speed D to A’s, buffers in data acquisition systems, and sample and hold circuits.
Additional applications include high-speed integrators and video amplifiers. The ELH0032 is guaranteed over the temperature
b
range
Ý
55§Ctoa125§C.
Elantec facilities comply with MIL-I-45208A and other applicable quality specifications. Elantec’s Military devices are 100%
fabricated and assembled in our rigidly controlled, ultra-clean
facilities in Milpitas, California. For additional information on
Elantec’s Quality and Reliability Assurance policy and procedures request brochure QRA-1.
Simplified Schematic
Top View
Case is electrically isolated.
Manufactured under U.S. Patent No. 4,746,877
Note: All information contained in this data sheet has been carefully checked and is believed to be accurate as of the date of publication; however, this data sheet cannot be a ‘‘controlled document’’. Current revisions, if any, to these
specifications are maintained at the factory and are available upon your request. We recommend checking the revision level before finalization of your design documentation.
©
1986 Elantec, Inc.
0032– 1
0032– 2
CMSÝ0032DS
ELH0032G/883/8001301ZX
Fast Operational Amplifier
Absolute Maximum Ratings
V
S
V
IN
P
D
Important Note:
All parameters having Min/Max specifications are guaranteed. The Test Level column indicates the specific device testing actually
performed during production and Quality inspection. Elantec performs most electrical tests using modern high-speed automatic test
equipment, specifically the LTX77 Series system. Unless otherwise noted, all tests are pulsed tests, therefore T
Test Level Test Procedure
Supply Voltage
Input Voltage
Differential Input Voltage
g
Power Dissipation (Note 1)
e
T
25§C 1.5W, derate 100§C/W toa125§C
A
e
T
25§C 2.2W, derate 70§C/W toa125§C
C
I 100% production tested and QA sample tested per QA test plan QCX0002.
II 100% production tested at T
III QA sample tested per QA test plan QCX0002.
IV Parameter is guaranteed (but not tested) by Design and Characterization Data.
V Parameter is typical value at T
T
MAX
and T
MIN
A
per QA test plan QCX0002.
DC Electrical Characteristics
g
g
15 V
30V org2V
e
25§C and QA sample tested at T
e
25§C for information purposes only.
A
e
V
S
Parameter Description Test Conditions
V
OS
Input Offset Voltage T
e
25§C (Note 2) 2 5 I mV
J
DVOS/DT Average Offset
Voltage Drift
I
I
V
OS
B
INCM
Input Offset Current T
Input Bias Current T
Input Voltage Range
CMRR Common-Mode V
Rejection Ratio
A
VOL
Open-Loop V
Voltage Gain
e
25§C (Note 2) 25 I pA
J
e
T
25§C (Note 3) 250 IV pA
A
e
T
Max 25 I nA
J
e
25§C (Note 2) 100 I pA
J
e
T
25§C (Note 3) 1 IV nA
A
e
T
T
J
MAX
e
g
10V
IN
e
g
10V, R
O
e
g
V
10V, R
O
e
g
V
10V, fe1 kHz,
O
e
R
1kX,T
L
e
V
O
J
g
10V, fe1 kHz, R
T
18V
S
S
Operating Temperature Range:
A
ELH0032
T
Operating Junction Temperature 175§C
J
T
Storage Temperature
ST
Lead Temperature
b
b
(Soldering, 10 seconds) 300
e
T
J
C
e
25§C,
A
s
g
15V, T
MIN
s
T
T
A
MAX
,V
e
0V
IN
ELH0032
Min Typ Max
Test
Level
10 I mV
25 150 I mV/
50 I nA
g
g
10
12 I V
50 60 I dB
e
L
e
L
e
25§C
e
1kX,T
25§C48 60 I dB
J
1kX 45 I dB
60 70 I dB
e
1kX 57 I dB
L
55§Ctoa125§C
65§Ctoa150§C
e
TA.
Units
C
§
§
C
TDis 0.7inTDis 3.7in
2
ELH0032G/883/8001301ZX
e
DC Electrical Characteristics
Parameter Description Test Conditions
V
O
I
S
Output Voltage Swing R
Power Supply Current T
PSRR Power Supply
Rejection Ratio
e
L
e
J
e
T
A
g
5VsV
a
5VsVS(a)
V
(b)eb15V
S
b
5VtVS(b)
V
(a)ea15V
S
g
V
15V, T
S
1kX
e
25§C, I
25§C, I
0mA 21 23 I mA
O
e
O
s
15V 50 60 I dB
S
s
t
Fast Operational Amplifier
s
s
T
A
T
MAX,VIN
MIN
Min Typ Max
g
10
0 mA (Note 3) 18 20 IV mA
a
20V,
b
20V,
50 I dB
50 I dB
e
0V Ð Contd.
ELH0032
Test
Level
g
13.5 I V
Units
TDis 1.9inTDis 1.3in
e
AC Electrical Characteristics
g
V
S
Parameter Description Test Conditions Min Typ Max
SR Slew Rate A
t
S
t
S
t
R
t
D
Note 1: In order to limit maximum junction temperature toa175§C, it may be necessary to operate with V
exceeds specific values depending on the PDwithin the device package. Total PDis the sum of quiescent and load-related
dissipation.
Note 2: Specification is at 25
temperature will exceed the value at T
may rise 40
and IOSwill change significantly during warm-up. Refer to IBand IOSvs temperature graph for expected values.
Settling Time to 1% of Final Value A
Settling Time to 0.1% of Final Value A
Small Signal Rise Time A
Small Signal Delay Time A
C junction temperature due to requirements of high-speed automatic testing. Actual values at operating
§
C–60§C above ambient and more under load conditions. Accordingly, VOSmay change one to several mV, and I
§
e
J
V
V
V
V
V
25§C. When supply voltage areg15V, no-load operating junction temperature
15V, R
ea
eb
eb
ea
ea
L
1, DV
1, DV
1, DV
1, DV
1, DV
e
IN
IN
IN
IN
IN
e
1kX,T
e
e
e
e
e
25§C
J
20V 350 500 I V/ms
20V 100 500 IV ns
20V 300 V ns
1V 8 20 I ns
1V 10 25 I ns
k
g
S
Level
15V when TAor T
Note 3: Measured in still air 7 minutes after application of power.
Test
Units
C
B
3
ELH0032G/883/8001301ZX
Fast Operational Amplifier
Typical Performance Curves
Maximum Power
Dissipation
Bode Plot
(Uncompensated)
Supply Current vs
Supply Voltage
Bode Plot (Unity
Gain Compensation)
Input Voltage Range
and Output Voltage
vs Supply Voltage
Large Signal
Frequency Response
0032– 3
4
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