HS-2510RH
Data Sheet August 1999
Radiation Hardened High Slew Rate
Operational Amplifier
The HS-2510RH is a radiation hardened high performance
operational amplifier which set the standard for maximum
slew rate and wide bandwidth operation in moderately
powered, internally compensated, monolithic devices. In
addition to excellent dynamic characteristics, this
dielectrically isolated amplifier also offers low offset current
and high input impedance.
The ±50V/ms minimum slew rateandfastsettlingtimeofthe
HS-2510RH are ideally suited for high speed D/A, A/D, and
pulse amplification designs. The HS-2510RH superior
bandwidth and 750kHz minimum full power bandwidth are
extremely useful in RF and video applications. To insure
compliance with slew rate and transient response
specifications, all devices are 100% tested for AC
performance characteristics over full temperature limits. To
improve signal conditioning accuracy, the HS-2510RH
provides a maximum offset current of 25nA and a minimum
input impedance of 50MΩ, both at 25
voltage trim capability.
Specifications for Rad Hard QML devices are controlled
by the Defense Supply Center in Columbus (DSCC). The
SMD numbers listed here must be used when ordering.
Detailed Electrical Specifications for these devices are
contained in SMD 5962-95686. A “hot-link” is provided
on our homepage for downloading.
www.intersil.com/spacedefense/space.asp
o
C, as well as offset
File Number
3592.2
Features
• Electrically Screened to SMD # 5962-95686
• QML Qualified per MIL-PRF-38535 Requirements
• High Slew Rate. . . . . . . . . . . . 50V/µs (Min), 65V/µs (Typ)
• Wide Power Bandwidth . . . . . . . . . . . . . . . . 750kHz (Min)
• Low Offset Current. . . . . . . . . . . . 25nA (Min), 10nA (Typ)
• High Input Impedance . . . . . . .50MΩ (Min), 100MΩ (Typ)
• Wide Small Signal Bandwidth . . . . . . . . . . . .12MHz (Typ)
• Fast Settling Time (0.1% of 10V Step). . . . . . 250ns (Typ)
• Low Quiescent Supply Current. . . . . . . . . . . . . 6mA (Max)
• Internally Compensated For Unity Gain Stability
• Total Gamma Dose. . . . . . . . . . . . . . . . . . . . . 10kRAD(Si)
Applications
• Data Acquisition Systems
• RF Amplifiers
• Video Amplifiers
• Signal Generators
• Pulse Amplification
Ordering Information
INTERNAL
ORDERING NUMBER
5962D9568601VPA HS7-2510RH-Q -55 to 125
5962D9568601VPC HS7B-2510RH-Q -55 to 125
5962D9568601VXC HS9-2510RH-Q -55 to 125
MKT. NUMBER
TEMP. RANGE
(oC)
Pinouts
HS-2510RH GDIP1-T8 (CERDIP)
OR
HS-2510RH CDIP2-T8 (SBDIP)
TOP VIEW
BAL
IN-
IN+
1
2
-
+
3
4
V-
8
7
6
5
COMP
V+
OUT
BAL
1
HS-2510RH
CDFP3-F14 (FLATPACK)
TOP VIEW
NC
1
2
COMP
BAL
3
IN-
4
-
IN+
NC
NC
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
www.intersil.com or 407-727-9207 | Copyright © Intersil Corporation 1999
+
5
6
7
NC
14
13
V+
OUT
12
BAL
11
V-
10
NC
9
NC
8
Test Circuit
HS-2510RH
100K
OPEN 2
OPEN 2
100K
100
100
OPEN
5K
50K
NOTE:
1. Includes stray capacitances.
+VCC
0.1
1
1 OPEN
2
S3A
1K
2
S5A
1
S6
1
2
S1
1
1
S2
2
S3B
1
VAC
2
S4
1
-
DUT
+
10.1
S7
3
BAL
ADJ
-VEE
OPEN
2
S5B
OPEN
1
2K
2
1
1
2K 10K
S8
OPEN
3
2
50pF (NOTE 1)
500K
S9
2
1
V2
ALL RESISTORS = ±1% (Ω)
ALL CAPACITORS = ±10% (µF)
-1/10
USE MIN VALUE CAPACITOR
TO PREVENT OSCILLATION
50K
-1
-
+
ACOUT
V1
FOR LOOP STABILITY,
-
+
BUFFER
EOUT
x2
FIGURE 1. SIMPLIFIED TEST CIRCUIT
Test Circuit and Waveforms
INPUT
1K
FIGURE 2. SIMPLIFIED TEST CIRCUIT
+5V
INPUT
-5V
+5V
90%
∆T
∆V
SLEW
RATE
= ∆V/∆T
OUTPUT
10%
-5V
NOTE: Measured on both positive and negative transitions.
Capacitance at Compensation pin should be minimized.
FIGURE 3. SLEW RATE WAVEFORM
+15V
+
-
-15V
OUTPUT
2K
50pF
+200mV
INPUT
0V
OVERSHOOT
90%
OUTPUT
10%
RISE TIME
0V
-200mV
NOTE: Measured on both positive and negative transitions.
Capacitance at Compensation pin should be minimized.
FIGURE 4. TRANSIENT RESPONSE WAVEFORM
2
HS-2510RH
Typical Performance Curves
100
80
60
40
20
CURRENT (nA)
0
-20
-50 -25 0 25 50 75 100 125
TEMPERATURE (oC)
Unless Otherwise Specified: TA = 25oC, VSUPPLY = ±15V
BIAS CURRENT
OFFSET CURRENT
FIGURE 5. INPUT BIAS AND OFFSET CURRENT vs
TEMPERATURE
100
10K SOURCE RESISTANCE
10
0 SOURCE RESISTANCE
90
85
VS = ±20V
GAIN (dB)
80
75
-55
-50
-25 0 25 50 75 100 125
TEMPERATURE (
VS = ±15
VS = ±10
o
C)
FIGURE 6. OPEN LOOP VOLTAGE GAIN vs TEMPERATURE
1.1
SLEW RATE
1.0
BANDWIDTH
BANDWIDTH
1.0
EQUIVALENT INPUT NOISE (µV)
0.1
100Hz 1kHz 10kHz 100kHz 1MHz
UPPER 3dB FREQUENCY LOWER 3dB FREQUENCY (10Hz)
THERMAL NOISE OF 10K RESISTOR
0.9
NORMALIZED PARAMETERS
REFERRED TO VALUES AT ±15V
0.8
±10V ±15V
FIGURE 7. EQUIVALENT INPUT NOISE vs BANDWIDTH FIGURE 8. NORMALIZED ACPARAMETERS vs SUPPLY
1.1
C
ο
1.0
0.9
NORMALIZED PARAMETERS
REFERRED TO VALUES AT ±25
0.8
SLEW RATE
-50
-55
BANDWIDTH
SLEW RATE
BANDWIDTH
-25 0 25 50 75 100 125
o
TEMPERATURE (
C)
35
30
25
20
15
10
5
PEAK-TO-PEAK VOLTAGE SWING
0
10K 100K 1MEG 10MEG
SLEW RATE
VOLTAGE AT 25
VS = ±20
VS = ±15
VS = ±10
SUPPLY VOLTAGE
o
C
FREQUENCY (Hz)
±20V
FIGURE 9. NORMALIZEDACPARAMETERS vs
TEMPERATURE
3
FIGURE 10. OUTPUT VOLTAGE SWING vs FREQUENCY
AT 25oC