SGS Thomson Microelectronics LM348N, LM348D, LM348, LM248D, LM248 Datasheet

...
QUAD BIPOLAR OPERATIONAL AMPLIFIERS
.LOWSUPPLYCURRENT:0.53mA/AMPLIFIER
.CLASS AB OUTPUT STAGE : NO CROSS-
OVERDISTORTION
.PINCOMPATIBLEWITH LM124
.LOW INPUTOFFSETVOLTAGE:1mV
.LOW INPUTOFFSETCURRENT : 2nA
.LOW INPUTBIASCURRENT : 30nA
.GAINBANDWIDTHPRODUCT : 1.3MHz
AMPLIFIERS: 120dB
.OVERLOADPROTECTIONFORINPUTSAND
OUTPUTS
LM24 8 - LM34 8
N
DIP14
(PlasticPackage)
ORDER CODES
LM148
FOURUA741
D
SO14
(PlasticMicropackage)
DESC RIP TI ON
The LM148consistsof four independent,high gain internally compensated, low power operational amplifiers which have been designed to provide functionalcharacteristicsidenticaltothoseofthefa­miliar UA741 operational amplifier. In addition the total supplycurrent forall fouramplifiersis compa­rable to the supply current of a singleUA741type op amp. Other featuresincludeinput offsetcurrent and input bias current which are much less than thoseof a standardUA741.Also,excellentisolation between amplifiers has been achieved by inde­pendentlybiasing each amplifier and using layout techniqueswhichminimize thermal coupling.
The LM148can beusedanywheremultipleUA741 type amplifiers are being used and in applications whereamplifier matchingor highpackingdensityis required.
Part Num-
ber
LM148 –55 LM248 –40 LM348 0
Example : LM348D
PIN CONNECTIONS (top view)
Outpu t 1
Inve rt ing i npu t 1
Non-inver ting i nput 1
V
CC
Non-inv ert ing input 2
Inve rting input 2
Out put 2
1
2
3
+
4
5
6
7
Temperature
Range
o
C, +125oC ••
o
C, +105oC ••
o
C, +70oC ••
Package
ND
Output 4
14
Inverti ng i npu t 4
13
N on-in ver ting i nput 4
12
-
V
11
CC
10
N on-in ver ting i nput 3
9
Inverting input3
8
Output 3
November 1997
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LM148 - LM248 - L M348
SCHE MATIC DIAGRAM
Non-inverting input
Inverting
Input
350k
V
CC
25
12k
Output
V
60k
7.4pF
2.5k
CC
V
CC
60k
340
36k
25
V
CC
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter LM148 LM248 LM348 Unit
V
CC
V
V
P
T
oper
T
stg
Notes : 1. For supply voltage less than maximum value, t he absolute maximum input volt age i s equal to the supply
Supply Voltage ± 22 ± 22 ± 22 V Differential Input Voltage ±44 ± 44 ± 44 V
id
Input Voltage (note 1) ± 22 ± 22 ± 22 V
i
Power Dissipation 500 500 500 mW
tot
Output Short-circuit Duration (note 2) Infinite Operating Free-air Temperature Range –55, +125 –40, +105 0, +70 Storage Temperature Range –65, +150 –65, +150 –65, +150
voltage.
2. Any of the amplifi er outputs can be shorted to ground indefinitely ; however, more than one s hould not be simultaneously shorted as the maximum junction temperature will be exceeded.
o
C
o
C
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ELECTRICAL CHARACTERISTICS
= ±15V, T
V
CC
Symbol Parameter
V
io
I
io
I
ib
A
vd
SVR Supply Voltage Rejection Ratio (R
I
CC
V
icm
CMR Common Mode Rejection Ratio (R
I
OS
± V
opp
SR Slew Rate (V
t
r
K
OV
R
I
GBP Gain Bandwidth Product (V
THD Total Harmonic Distortion (f = 1kHz, A
e
n
V
o1/Vo2
= 25oC (unless otherwise specified)
amb
Input OffsetVoltage (RS≤ 10k)
=25oC
T
amb
T
min
. T
amb
T
max.
Input OffsetCurrent
=25oC
T
amb
T
min
. T
amb
T
max.
Input Bias Current
=25oC
T
amb
T
min
. T
amb
T
max.
Large Signal Voltage Gain (Vo= ±10V, RL=2kΩ)
=25oC
T
amb
T
T T
min
amb min
. T
. T
amb
=25oC
amb
T
T
max.
max.
Supply Current, all Amp, no Load
=25oC
T
amb
T
min
. T
amb
T
max.
Input Common Mode Voltage Range
=25oC
T
amb
T
T T
min
amb min
. T
. T
amb
=25oC
amb
T
T
max.
max.
Output Short-circuit Current
=25oC 102535
T
amb
Output Voltage Swing
=25oCR
T
amb
. T
T
min
unity Gain) 0.25 0.5
T
amb
max.
= ±10V, RL= 10k,CL= 100pF,
I
Rise Time (VI= ±10V, RL= 10k,CL= 100pF, unity Gain) 0.3
Overshoot (VI= ±10V, RL= 10k,CL= 100pF, unity Gain) 5
Input Resistance 0.8 2.5 M
= 100pF, f = 100kHz) 0.7 1.3
C
L
= 10k
Ω,
R
L
CL= 100pF, Vo=2Vpp) 0.08
I
Equivalent Input Noise Voltage (f = 1kHz, R
= 100Ω)40
s
Channel Separation 120 dB
10k)
S
10k)
S
= 10k
L
=2k
R
L
RL= 10k
=2k
R
L
= 10 mV, RL= 10k,
= 20dB,
v
LM148 - LM248 - LM348
LM148 - LM248 - LM348
Min. Typ. Max.
50 25
77 77
±12 ±12
70 70
12 10 12 10
15
225
30 100
160
100
2.1 3.6
110
13 12
6
75
300
4.8
Unit
mV
nA
nA
V/mV
dB
mA
V
dB
mA
V
V/µs
µs
%
MHz
%
nV
Hz
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