Datasheet MSK155, MSK155E, MSK155H Datasheet (MSK)

ISO-9001 CERTIFIED BY DSCC

HIGH POWER DUAL

OPERATIONAL AMPLIFIER

155

M.S.KENNEDY CORP.

4707 Dey Road Liverpool, N.Y. 13088 (315) 701-6751

FEATURES:

Available to DSCC SMD #5962-02509HX

Space Efficient Dual Power Amplifier

Low Cost

High Voltage Operation: Up to 80V

Low Quiescent Current: 40mA Typ. Total

High Output Current: 5A Min. Per Amp

High Speed: 10V/µS Typ.

Monolithic Technology

Replaces obsolete MSK 154 up to 80V

MIL-PRF-38534 QUALIFIED

DESCRIPTION:

The MSK 155 is a high power dual monolithic operational amplifier ideally suited for high power amplification and

magnetic deflection applications. With a total supply voltage rating of 80 volts and 5A of available output current per

amplifier, the MSK 155 is also an excellent low cost choice for motor drive circuits. With both amplifiers in the same

package, thermally induced output offset voltages are eliminated. Power dissipation is kept to a minimum with a total

quiescent current rating of only 40mA. The MSK 155 is packaged in a hermetically sealed 14 pin power dip with heat

sink bolt down tabs.

EQUIVALENT SCHEMATIC

TYPICAL APPLICATIONS

PA Audio

Magnetic Deflection

Motor Drive

Noise Cancellation

High Power Bridge Amplifier

PIN-OUT INFORMATION

1

-Vcc1

2

Output Drive 1B

3

Output Drive 1A

4

+Vcc1

5

Current Sense 2

6

Inverting Input 2

7

Non Inverting Input 2

1

14

Non Inverting Input 1

13

Inverting Input 1

12

Current Sense1

11

+Vcc 2

10

Output Drive 2A

9

Output Drive 2B

8

-Vcc 2

Rev. A 12/01

ABSOLUTE MAXIMUM RATINGS

VCC

±IOUT

VIND

VIN

TJ

Total Supply Voltage

Output Current (within S.O.A.)

Input Voltage (Differential)

Input Voltage (Common Mode)

Junction Temperature

ELECTRICAL SPECIFICATIONS

Parameter

STATIC

Supply Voltage Range

Quiescent Current

INPUT

Offset Voltage

Offset Voltage Drift

Offset Voltage vs ±Vcc

Input Bias Current

Input Impedance

Input Capacitance

Common Mode Rejection

Noise

2

OUTPUT

Output Voltage Swing

Output Voltage Swing

Power Bandwidth

Settling Time to 0.1%

Capacitive Load

TRANSFER CHARACTERISTICS

Slew Rate

4

Open Loop Voltage Gain

4

4

2

4

2

2

4

2

4

4

RL = 10Ω VOUT=20VRMS

2

3

VOUT = ±10V RL = 10Ω

4

○○○○○○○○○○○

○○○○○

○○○○○○○

○○○○○

○○○○○○○○○

150°C

Test Conditions

Each Amp

VIN=0V

VIN=0V

VIN=0V

VIN=0V

VCM=0V

(DC)

VCM=±22VDC

F = 10Hz to 1KHz

RL=10K

IOUT=5A Pk

2V Step

AV=+10V/V

F=10Hz RL = 10KΩ

80V

±5A

±Vcc

±Vcc

1

TST

Storage Temperature

TLD

Lead Temperature

TC

Case Operating Temperature

(MSK155H/E)

(MSK155)

RTH

Thermal Resistance (DC)

○○○○○○○○○○

○○○○○○○○○○○○

Junction to Case

Group A

Subgroup

-

1

2

3

1

2,3

2,3

-

1

2, 3

-

-

4

-

-

4

4

-

-

4

4

MSK155H/E

Min.

±10

-

-

-

-

-

-

-

-

-

-

-

95

-

-

±29

45

-

10

6

95

Typ.

±35

±20

±20

±20

±0.1

±2

±10

±5

±20

-

10

5

110

10

±33.5

±30

55

2

-

10

100

○○○○○

○○○○○○○○○○○○○○

-65°C to +150°C

-55°C to +125°C

-40°C to +85°C

○○○○○○○○○○○○○

MSK155

90

40

10

90

Typ.

±35

±20

-

-

-

-

-

-

-

-

-

-

-

-

-

±0.1

-

±10

±5

±20

-

10

5

110

10

-

±33.5

-

±30

55

-

2

-

10

6

100

12

Max.

±40

±30

±30

±30

±2

±10

±50

-

±100

±10

-

-

-

-

-

-

-

-

-

-

-

Min.

±10

±29

12

2.0°C/W

5

Max.

±40

±35

-

-

±10

-

-

-

±200

-

-

-

-

-

-

-

-

-

-

-

-

300°C

Units

V

mA

mA

mA

mV

mV

µV/°C

µV/V

pA

nA

Ω

pF

dB

µVRMS

V

V

KHz

µS

nF

V/µS

dB

NOTES:

1

Unless otherwise noted ±VCC= ±35VDC, RCL = 0Ω and specifications apply to each amplifier.

2

Typical parameters are for reference only.

3

AV=-1V/V measured in false summing junction circuit.

4

Devices shall be capable of meeting the parameter, but need not be tested.

5

Industrial grade and 'E' suffix devices shall be tested to subgroups 1 and 4 unless otherwise requested.

6

Military grade devices ('H' suffix) shall be 100% tested to subgroups 1,2,3 and 4.

7

Subgroup 5 and 6 testing available upon request.

8

Subgroup 1,4 TC=+25°C

Subgroup 2,5 TC=+125°C

Subgroup 3,6 TA=-55°C

2

Rev. A 12/01

APPLICATION NOTES

CURRENT LIMIT (SEE TYPICAL CONNECTION DIAGRAM)

A value of current limit resistance can be calculated as fol-

lows:

RCL=(0.809V/ICL) - 0.057Ω

Where:

RCL is the current limit resistor value.

ICL is the current limit desired.

0.057Ω is the drop in the current limit path across internal

impedances other than the actual current limit resistor.

0.809Ω volts is the voltage drop that must be developed

across the current limit connections to activate the current

limit circuit at 25°C.

It is recommended the user limit output current to a value as

close to the required output current as possible, without clip-

ping output voltage swing. Current limit will vary with case

temperature. Refer to the typical performance curves to pre-

dict current limit drift. If current limit is not required replace the

STABILITY

It is recommended that the parallel sum of the input and feed-

back resistor be 1000 ohms or less to minimize phase shift

caused by the R-C network formed by the input resistor, feed-

back resistor and input capacitance. An effective method of

checking amplifier stability is to apply the worst case capaci-

tive load to the output of the amplifier and drive a small signal

square wave across it. If overshoot is less than 25%, the

system will typically be stable.

SAFE OPERATING AREA (SOA)

The output stage of this power operational amplifier has three

distinct limitations:

1. The current handling capability of the die metallization.

2. The junction temperature of the output device's.

3. Secondary breakdown.

All applications should be checked against the SOA curves.

NOTE: The output stage is protected against transient flyback.

However, for protection against sustained, high energy flyback,

external fast-recovery reverse biased diodes should be connected

from the output to ground.

INPUT PROTECTION

Input protection circuitry within the MSK 155 will clip differ-

ential input voltages greater than VCC. The inputs are also

protected against common mode voltages up to the supply rails

as well as static discharge. There are current limiting resistors

in series with each input. These resistors may become dam-

aged in the event the input overload is capable of driving cur-

rents above 1mA. If severe overload conditions are expected,

external input current limiting resistors are recommended.

POWER SUPPLY DECOUPLING

A 0.1 microfarad ceramic disc and low ESR capacitor with a

value of 10 microfarads per amp of output current should be

placed in parallel from each power supply pin to ground. These

capacitors must be rated for the full power supply voltage. Since

the MSK 155 is commonly used in circuits where the loop gain

is greater than 10 V/V, high frequency noise that enters the op-

amp through the power supply lines will be amplified and could

cause the amplifier to break into oscillation. In addition, with-

out supply bypassing, the inductance of the power supply lines

interacts with capacitive loads to form an oscillatory LC tank

circuit. The power supply decoupling capacitors will minimize

this effect and keep the circuit stable.

TYPICAL CONNECTION DIAGRAM

3 Rev. A 12/01

TYPICAL PERFORMANCE CURVES

4 Rev. A 12/01

MECHANICAL SPECIFICATIONS

MSK155

ALL DIMENSIONS ARE ±0.010 INCHES UNLESS OTHERWISE LABELED.

ESD TRIANGLE INDICATES PIN 1.

ORDERING INFORMATION

Part

Number

MSK155

MSK155E

MSK155H

MSK155H

5962-02509HX DSCC SMD

M.S. Kennedy Corp.

4707 Dey Road, Liverpool, New York 13088

Phone (315) 701-6751

FAX (315) 701-6752

www.mskennedy.com

The information contained herein is believed to be accurate at the time of printing. MSK reserves the right to make

changes to its products or specifications without notice, however, and assumes no liability for the use of its products.

Please visit our website for the most recent revision of this datasheet.

Screening Level

Industrial

Extended Reliability

Mil-PRF-38534

5 Rev. A 12/01