File Number

3624.2

CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.

HS-2700RH

Low Power, High Performance Radiation
Hardened Operational Amplifier

HS-2700RH is radiation hardened internally compensated
operational amplifiers which employ dielectric isolation to
achieve excellent DC and dynamic performance with very
low quiescent power consumption.

DC performance of the amplifier input is characterized by
high CMRR (106dB), low offset voltage (0.5mV), along with
low bias and offset current (5.0nA and 2.5nA respectively).
These input specifications, in conjunction with offset null
capability and open-loop gain of 300,000V/V, enable
HS-2700RH to provide accurate, high-gain signal
amplification. Gain bandwidth 1MHz and slew rate of 20V/

allow for processing of fast, wideband signals. Input and
output signal amplitudes of at least

11V can be

accommodated while providing output drive capability of
10mA. For maximum reliability, the output is protected in the
event of short circuits to ground.

The amplifier operates from a wide range of supplies (

5.5V

20V) with a maximum quiescent supply drain of only

150

A. HS-2700RH is therefore, ideally suited to low-power

instrumentation and filtering applications that require fast,
accurate response over a wide range of signal frequency.

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 5962-95670. A "hot-link" is provided
on our homepage for downloading.
www.intersil.com/spacedefense/space.asp

Features

· Electrically Screened to SMD # 5962-95670

· QML Qualified per MIL-PRF-38535 Requirements

· Low Power Supply Current . . . . . . . . . . . . . . 150

A (Max)

A (Typ)

· High CMRR . . . . . . . . . . . . . . . . . . . . . . . . . . . 86dB (Min)

106dB (Typ)

· Low Input Bias Current . . . . . . . . . . . . . . . . . . . 20nA (Min)

5nA (Typ)

· Low Offset Current . . . . . . . . . . . . . . . . . . . . . . 10nA (Min)

2.5nA (Typ)

· Total Dose . . . . . . . . . . . . . . . . . . . . . . . . 1 x 10

RAD(Si)

Applications

· High Gain Amplifier

· Instrumentation Amplifiers

· Active Filters

· Telemetry Systems

· Battery-Powered Equipment

Ordering Information

ORDERING NUMBER

INTERNAL

MKT. NUMBER

TEMP. RANGE

(

5962D9567002VCA

HS1-2700RH-Q

-55 to 125

5962D9567002VCC

HS1B-2700RH-Q

-55 to 125

5962D9567002VGA

HS2-2700RH-Q

-55 to 125

Pinouts

HS1-2700RH (CERDIP) GDIP1-T14

HS1B-2700RH (SBDIP) CDIP2-T14

TOP VIEW

HS2-2700RH (CAN) MACY1-X8

TOP VIEW

BAL

GUARD

IN-

IN+

GUARD

V-

BAL

V+

OUTPUT

BAL

OUT

IN-

V-

BAL

IN+

V+

Data Sheet

August 1999

Test Circuit

NOTE: Includes stray capacitances.

Timing Waveforms

FIGURE 1. SIMPLIFIED TEST CIRCUIT

FIGURE 2. SLEW RATE WAVEFORM

FIGURE 3. TRANSIENT RESPONSE WAVEFORM

NOTE: Measured on both positive and negative transitions. Capacitance at Compensation pin should be minimized.

S5A

100

+VCC

S5B

OPEN 1

-VEE

OPEN

75pF (NOTE)

ACOUT

OUT

50K

10K

-1

50K

DUT

S3B

OPEN

0.1

500K

BUFFER

FOR LOOP STABILITY,
USE MIN VALUE CAPACITOR
TO PREVENT OSCILLATION

OPEN 2

10K

S3A

0.1

400

1.6K

1 OPEN

ALL RESISTORS =

1% (

)

ALL CAPACITORS =

10% (

-1/10

VAC

VIN

VOUT

1.6K

75pF

400

+1.0V

INPUT

-4V

+2.5V

OUTPUT

-2.5V

SLEW

RATE

-1.0V

+4V

+40mV

INPUT

OVERSHOOT

90%

OUTPUT

10%

RISE TIME

-40mV

+160mV

HS-2700RH

Typical Performance Curves

= 25

C, VSUPPLY =

15V, Unless Otherwise Specified

FIGURE 4. OFFSET VOLTAGE AS A FUNCTION OF

TEMPERATURE

FIGURE 5. INPUT BIAS CURRENT AND OFFSET CURRENT

AS A FUNCTION OF TEMPERATURE

FIGURE 6. BIAS CURRENT AS A FUNCTION OF COMMON

MODE VOLTAGE

FIGURE 7. BIAS CURRENT AS A FUNCTION OF

DIFFERENTIAL INPUT VOLTAGE

FIGURE 8. POWER SUPPLY CURRENT AS A FUNCTION OF

DIFFERENTIAL INPUT VOLTAGE

FIGURE 9. POWER SUPPLY CURRENT AS A FUNCTION OF

TEMPERATURE

-1

-2

-3

-4

-5

GE (mV)

-55

-25

100

125

TEMPERATURE (

-10

-20

CURRENT (mA)

-55

-25

100

125

TEMPERATURE (

OFFSET CURRENT

BIAS CURRENT

500

400

300

200

100

-100

-200

-300

-400

-500

BIAS CURRENT (nA)

-20

-15

-10

-5

COMMON MODE VOLTAGE (V)

VS =

15.0V

= 25

BIAS CURRENT (

DIFFERENTIAL INPUT VOLTAGE (V)

VS =

15.0V

= 25

1000

900

800

700

600

500

400

300

200

100

WER SUPPL

Y CURRENT (

100

200

300

400

DIFFERENTIAL INPUT VOLTAGE (mV)

500

VS =

15.0V

= 25

150

120

WER SUPPL

Y CURRENT (

-55

-25

TEMPERATURE (

125

100

VS =

20.0V

VS =

15.0V

VS =

10.0V

VS =

5.5V

HS-2700RH

FIGURE 10. VOLTAGE GAIN AS A FUNCTION OF TEMPERATURE

NOTE: Open loop (comparator) applications are not recommended, because of the above characteristic.

Typical Performance Curves

= 25

C, VSUPPLY =

15V, Unless Otherwise Specified (Continued)

130

120

110

100

GAIN (dB)

-55

-25

TEMPERATURE (

100

125

VS =

20.0V

VS =

15.0V

VS =

10.0V

VS =

5.5V

Burn-In Circuits

HS1-2700RH CERDIP

NOTES:

1. R1 = 1M

5%, 1/4W (Min)

2. C1 = C2 = 0.01

F/Socket (Min) or 0.1

F/Row (Min)

3. D1 = D2 = 1N4002 or equivalent (per board)

4. |(V+) - (V-)| = 31V

HS2-2700RH METAL CAN

NOTES:

5. R1 = 1M

5%, 1/4W (Min)

6. C1 = 0.01

F/Socket (Min)

7. C2 = C3 = 0.01

F/Socket (Min) or 0.1

F/Row (Min)

8. D1 = D2 = 1N4002 or equivalent (per board)

9. |(V+) - (V-)| = 31V

10. Insulated scope probe must be used during board check-out.

V-

V+

V-

HS-2700RH

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