SGS Thomson Microelectronics L2724, L2720, L2722 Datasheet

LOWDROPDUAL POWER OPERATIONALAMPLIFIERS

.OUTPUTCURRENT TO 1A

.OPERATESATLOW VOLTAGES

.SINGLEOR SPLIT SUPPLY

.LARGE COMMON-MODE AND DIFFEREN-

TIALMODERANGE

.LOW INPUT OFFSETVOLTAGE

.GROUNDCOMPATIBLEINPUTS

.LOW SATURATIONVOLTAGE

.THERMAL SHUTDOWN

.CLAMPDIODE

DESCRIP T IO N

The L2720, L2722 and L2724 are monolithic inte­gratedcircuitsin powerdip, minidipandSIP-9pack­ages,intendedforuse as poweroperationalampli­fiersin a widerangeof applicationsincludingservo
amplifiers and power supplies.

Theyare particularlyindicatedfordriving, inductive
loads,as motor and finds applicationsin compact­discVCR automotive,etc.

Thehighgain and highoutputpowercapabilitypro­videsuperior performancewhateveranoperational
amplifier/powerboostercombinationis required.

L2720/2/4

PO W E RDIP

(8+ 8)

MINIDI P

(Plastic)

SIP9

ORDERING NUMBERS : L2720(Powerdip)

L2722(Minidip)
L2724(SIP9)

PI N CO NNECT IONS (top views)

L2720 L2722 L2724

November1996

1/10

L2720/2/4

BLOCK DI AGRAM

L2720 L2722 L2724

SCHEMATIC DIAGRAM (one section)

ABSOLUTE MAXIMUM RATINGS

Symbol Parameter Value Unit

Supply Voltage 28 V

S

Peak Supply Voltage (50ms) 50 V

S

Input Voltage V

V

i

V

Differential Input Voltage

i

I

DC Output Current 1 A

o

Peak Output Current (non repetitive) 1.5 A

I

p

Power Dissipation at T

tot

=80oC (L2720), T

amb

=75oC (L2720)

T

case

=50oC (L2724)

T

case

=50oC (L2722)

amb

s

±V

1
5

10

Storage and Junction Temperature –40 to 150

s

T

2/10

V
V

P

stg,Tj

W

o

C

L2720/2/4

THERMAL DATA

SIP-9 Powerdip Minidip

R

th j-case

R

th j-amb

ELECTRICAL CHARACTERISTICS

= 24V, T

V

s

Symbol Parameter Test Conditions Min. Typ. Max. Unit

CMR Common Mode Rejection f = 1kHz 66 84 dB

V

DROP(HIGH)

V

DROP(LOW) V

Thermal Resistance Junction-case Max. 10oC/W 15oC/W 70oC/W
Thermal Resistance Junction-ambient Max. 70oC/W 70oC/W 100oC/W

= 25oC unless otherwise specified

amb

V

s

V

s

I

s

I

b

V

os

I

os

Single Supply Voltage 4 28 V
Split Supply Voltage

Quiescent Drain Current

V

s

V

=

o

2

V

= 24V

s

V

=8V 9 15

s

± 2 ± 14

10 15

Input Bias Current 0.2 1
Input Offset Voltage 10 mV
Input Offset Current 100 nA

SR Slew Rate 2

B Gain-bandwidth Product 1.2 MHz

R

G

v

e

N

I

N

SVR Supply Voltage Rejection f = 100Hz V

C

s

T

sd

Input Resistance 500

i

O.L. Voltage Gain f = 100Hz

f = 1kHz
Input Noise Voltage
Input Noise Voltage 200 pA

B = 22Hz to 22kHz

R

= 10kΩ Vs= ±12V

G

V

= 0.5V Vs= ±6V

R

= 24V

s

Vs= ±2.5V to ±12V Ip= 100mA

= 500mA

I

p

= ±2.5V to ±12V Ip= 100mA

s

= 500mA

I

p

Channel Separation f = 1KHz Vs= 24V

R

=10Ω Vs=6V

L

= 30dB

G

v

70 80

60
10

70

60

75
80

0.7

0.3

0.5 1
60

60

1 1.5

Thermal Shutdown Junction
Temperature 145

V

mA

µA

V/µs

kΩ
dB

µV

dB

V

V

dB

o

C

Figure1 : QuiescentCurrent vs. Supply Voltage FIgure 2 : Open Loop Gain vs. Frequency

3/10