OP284A datasheet, PDF - EEWORLD Datasheet

OP284A

Dual Operational Amplifier

V

CC

OP284A

TP

RB1

R3

R4

QB6

QB5

RB3

RB4

R11

Q11

Q7

Q1

-IN

Q3

Q4

Q2

+IN

Q5

Q9

Q8

Q12

QB9

QB10

Q10

CC2

CFF

R6

Q16

Q17

Flat Pack

JB1

QL1

QL2

OUT

CO

Q6

Q18

QB2

QB3

R7

Q13

QB4

JB2

CC1

QB7

Q14

R9

QB8

R8

R10

Q15

CB1 N+

M P+

RB2

OP284A

QB1

R1

R2

R5

V

EE

Leadless Chip

Carrier (LCC)

Logic Diagram

Memory

F

EATURES

:

• R

AD

-P

AK

® radiation-hardened against natural space

• radiation

• Package:

- 8-pin R

AD

-P

AK

® flat pack

- 16-pin R

AD

-P

AK

® Leadless Chip Carrier (LCC) pack

• Single-Supply Operation

• Wide Bandwidth: 4 MHz

• Low Offset Voltage: 65uV

• Unity-Gain Stable

• High Slew Rate: 4.0 V/us

• Low Noise: 3.9 nV/(Hz)

½

D

ESCRIPTION

:

Maxwell Technologies

’ OP284A is a dual single-supply, 4

MHz bandwidth amplifier featuring rail-to-rail inputs and out-

puts. Using

Maxwell Technologies

’ radiation-hardened R

AD

-

P

AK

® technology, it is guaranteed to operate from +3 to +36

(or ±1.5 to ±18) volts and will function with a single supply as

low as +1.5 volts.

This amplifier is superb for single supply applications requiring

both ac and precision dc performance. The combination of

bandwidth, low noise and precision makes the OP284A useful

in a wide variety of applications, including filters and instru-

mentation. Other applications for this amplifier include porta-

ble telecom equipment, power supply control and protection,

and as an amplifier or buffer for transducers with wide output

ranges.

The ability to swing rail-to-rail at both the input and output

enables designers to build multi-stage filters in single-supply

systems and to maintain high signal-to-noise ratios.

Maxwell Technologies' patented R

AD

-P

AK

® packaging technol-

ogy incorporates radiation shielding in the microcircuit pack-

age. It eliminates the need for box shielding while providing

the required radiation shielding for a lifetime in orbit or space

mission. This product is available with screening up to Class

S.

07.16.09 Rev 2

All data sheets are subject to change without notice

1

(858) 503-3300 - Fax: (858) 503-3301 - www.maxwell.com

Dual Operational Amplifier

T

ABLE

1. F

LAT

P

ACK

P

INOUT

D

ESCRIPTION

P

IN

1, 7

2, 6

3, 5

4

8

S

YMBOL

OUT A, B

-IN A, B

+IN A, B

V-

V+

Outputs

Negative Inputs

Positive Inputs

Ground

Supply Voltage

D

ESCRIPTION

OP284A

T

ABLE

2. L

EADLESS

C

HIP

C

ARRIER

(LCC) P

INOUT

D

ESCRIPTION

P

IN

1, 13

3, 11

5, 9

7

15

S

YMBOL

OUT A, B

-IN A, B

+IN A, B

V-

V+

Outputs

Negative Inputs

Positive Inputs

Ground

Supply Voltage

D

ESCRIPTION

Memory

T

ABLE

3. OP284A A

BSOLUTE

M

AXIMUM

R

ATINGS

P

ARAMETER

Supply Voltage

Input Voltage

Differential Input Voltage

1

Output Short-Circuit Duration to GND

Storage Temperature

Operating Temperature

Junction Temperature

Package Weight

Thermal Impedance

T

S

T

A

T

J

-65

-40

-65

--

S

YMBOL

V

CC

V

I

V

DIF

M

IN

--

Indefinite

+150

+125

+150

0.75

6.48

°C

Grams

°C/W

M

AX

±18

±0.6

U

NIT

V

Θ

JC

1. For input voltages greater than 0.6 volts, the input current should be limited to less 5 mA to prevent degradation or destruction of

the input devices.

T

ABLE

4. D

ELTA

L

IMITS

P

ARAMETER

I

CC

V

ARIATION

±10% of specified value in Table 5

07.16.09 Rev 2

All data sheets are subject to change without notice

2

Dual Operational Amplifier

T

ABLE

5. OP284A E

LECTRICAL

C

HARACTERISTICS

OP284A

(V+ = 15V, V- = -15V, V

OUT

= 0V, R

S

= 50Ω, R

L

= 100

K

Ω,

V

CM

= 0V, T

A

= -40°C

TO

+125°C

UNLESS OTHERWISE SPECIFIED

.)

P

ARAMETER

Input offset voltage

Average offset voltage drift

1

Offset voltage match

1

Input bias current

Input offset current

Input bias current drift

1

Input voltage range

Common mode rejection

ratio

Output current

S

YMBOL

V

IO

+25°C

-40 to +125°C

V

IO

TC R

L

=2kΩ

T

EST

C

ONDITIONS

S

UBGROUPS

1

2, 3

1, 2, 3

1

2, 3

1

2, 3

1

2, 3

1, 2, 3

4,5,6

4

1

2, 3

1

2, 3

1

2, 3

1

2, 3

1, 2, 3

1

1, 2, 3

4

5,6

4

5,6

--

-1.80

2.25

90

--

V

CM

= -15V to +15V, T

A

=25°C

+I

O

-I

O

Quiescent power supply

current per amplifier

+I

CC

-I

CC

V

OUT

= -10V, 1ms pulse, T

A

=25°C

V

OUT

= -10V, 1ms pulse

V

OUT

= +10V, 1ms pulse, T

A

=25°C

V

OUT

= -10V, 1ms pulse

I

OUT

= 0mA V

S

=±18V, T

A

=25°C

I

OUT

= 0mA V

S

=±18V

I

OUT

= 0mA V

S

=±18V, T

A

=25°C

I

OUT

= 0mA V

S

=±18V

Power supply rejection ratio +PSRR V

S

=±2V to ±18V

-PSRR V

S

=±2V to ±18V

Low frequency, peak-to-

peak noise

1

Input noise voltage density

1

Input noise current density

1

Power consumption

1,2

Large signal voltage gain

E

np-p

E

n

I

n

P

C

0.1Hz to 10Hz, R

L

=2kΩ,

C

L

=50pF, T

A

=+25°C

R

S

=20Ω, f

O

=1kHz, R

L

=2kΩ,

C

L

=50pF, T

A

=+25°C

R

S

=20MΩ, f

O

=1kHz, R

L

=2kΩ,

C

L

=50pF, T

A

=+25°C

+10V, I

OUT

=0mA, R

L

=2kΩ

+10V, R

L

=2.0kΩ

-A

VOL

-10V, R

L

=2.0kΩ,T

A

=25°C

-10V, R

L

=2.0kΩ

-15

86

80

10

5

M

IN

-100

-200

--

-

-350

-575

-35

-50

T

YP

--

0.30

3.9

0.4

M

AX

100

200

2

100

200

350

575

35

50

200

15

--

-10

-5

1.80

2.25

--

81

150

75

150

75

V/mV

dB

µ V

p-p

nV/

(Hz)

½

pA/

(Hz)

½

mW

V/mV

mA

nA

pA/°C

V

dB

mA

µ V/°C

µV

U

NIT

µV

∆

V

IO

|V

IO

(max) - V

IO

(min)|, +25°C

|V

IO

(max) - V

IO

(min)|, -40 to +125°C

I

B

I

OS

I

IBTC

I

VR

CMRR V

CM

= -14V to +14V

R

S

= 50Ω, +25°C

R

S

= 50Ω, -40 to +125°C

R

S

=50Ω, +25°C

R

S

= 50Ω, -40 to +125°C

R

S

= 50Ω

Memory

+A

VOL

+10V, R

L

=2.0kΩ,T

A

=25°C

07.16.09 Rev 2

All data sheets are subject to change without notice

3

Dual Operational Amplifier

T

ABLE

5. OP284A E

LECTRICAL

C

HARACTERISTICS

OP284A

S

UBGROUPS

4,5,6

4

9

4

4,5,6

M

IN

14.8

--

2.4

T

YP

--

4.25

35

--

4.0

M

AX

--

-14.8

--

5

50

--

U

NIT

V

MHz

kHz

µs

Degrees

V/µ s

(V+ = 15V, V- = -15V, V

OUT

= 0V, R

S

= 50Ω, R

L

= 100

K

Ω,

V

CM

= 0V, T

A

= -40°C

TO

+125°C

UNLESS OTHERWISE SPECIFIED

.)

P

ARAMETER

Output voltage swing

Gain bandwidth product

1

Full power bandwidth

1,3

Settling time

Phase margin

Slew rate

S

YMBOL

+V

OUT1

I

L

=1.0mA

-V

OUT1

I

L

=1.0mA

GBWP V

O

=200mV, R

L

=2.0kΩ,

C

L

=50pF, T

A

=+25°C

FPBW V

PEAK

=29vp-p, R

L

=2.0kΩ,

C

L

=50pF, T

A

=+25°C, 1% distortion

t

S

F

O

+SR

-SR

1. Guaranteed by design.

2. Power consumption is based upon quiescent supply current maximum test limit. No load on outputs.

3. Full power bandwidth is based on slew rate measurement using FBBW = slew rate/(2

P

V

PEAK

).

A

V

=+1.0, C

L

=50pF, R

L

=2.0kΩ

To 0.01%, 10V step

AV=1.0, C

L

=50pF,

R

L

=2.0kΩ, T

A

=+25°C

C

L

=50pF, R

L

=2.0kΩ

C

L

=50pF, R

L

=2.0kΩ

T

EST

C

ONDITIONS

Memory

07.16.09 Rev 2

All data sheets are subject to change without notice

4

Dual Operational Amplifier

F

IGURE

1. I

NPUT

O

FFSET

V

OLTAGE

D

ISTRIBUTION

OP284A

F

IGURE

4. I

NPUT

O

FFSET

V

OLTAGE

D

RIFT

D

ISTRIBUTION

F

IGURE

2. I

NPUT

O

FFSET

V

OLTAGE

D

ISTRIBUTION

F

IGURE

5. I

NPUT

O

FFSET

V

OLTAGE

D

RIFT

D

ISTRIBUTION

Memory

F

IGURE

3. I

NPUT

O

FFSET

V

OLTAGE

D

ISTRIBUTION

F

IGURE

6. B

IAS

C

URRENT VS

. T

EMPERATURE

07.16.09 Rev 2

All data sheets are subject to change without notice

5

OP284A

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