SGS Thomson Microelectronics TSH150IN, TSH150ID, TSH150I, TSH150C Datasheet

TSH150
WIDE BANDWIDTHAND BIPOLAR INPUTS
SINGLE OPERATIONAL AMPLIFIER
June 1998
ORDERCODES
Part
Temperature
Range
Package
ND
TSH150C 0
o
C, 70oC ••
TSH150I -40
o
C, 125oC ••
150-01.TBL
1 2 3 4
8
6 5
7
Inverting Input
Non-inverting Input
Output
Offset Null 2Offset Null1
N.C.
V
CC
V
CC
+
150-01.EPS
PINCONNECTIONS (topview)
.LOW DISTORTION
.GAIN BANDWIDTH PRODUCT : 150MHz
.UNITY GAINSTABLE
.SLEWRATE : 190V/µs
.VERY FAST SETTLING TIME: 20ns(0.1%)
N
DIP8
(Plastic Package)
D
SO8
(Plastic Micropackage)
DESCRIPTION:
The TSH150is a wideband monolithic operational amplifier, internally compensated for unity-gain stability.
Low noiseand low distortion, widebandwidthand high linearitymakethisamplifiersuitablefor RFand video applications. Short circuit protection is pro­vided by an internalcurrent-limitingcircuit.
The TSH150 has internal electrostatic discharge (ESD)protection circuits andfulfillsMILSTD883C­Class2.
1/7
3
non inverting
input
2
inverting
input
1
8
Offset N1
Offset N2
7V
CC
+
C
c
6
output
V
CC
-
4
V
Internal
ref
150-02.EPS
SCHEMATICDIAGRAM
ABSOLUTEMAXIMUMRATINGS
Symbol Parameter Value Unit
V
CC
Supply Voltage ±7V
V
id
Differential Input Voltage ±5V
V
i
Input Voltage Range ±5V
I
in
Current On Inputs Current On Offset Null Pins
±50 ±20
mA
T
oper
Operating Free-AirTemperature Range TSH150C
TSH150I
0 to +70
-40 to +125
o
C
T
stg
Storage Temperature Range -65to 150
o
C
150-02.TBL
N1
N2
TSH150
100k
V
CC
150-03.EPS
INPUT OFFSET VOLTAGE NULL CIRCUIT
OPERATINGCONDITIONS
Symbol Parameter Value Unit
V
CC
Supply Voltage ±3to±6V
V
ic
Common Mode Input VoltageRange V
CC
-
+2 to V
CC
+
-1 V
150-03.TBL
TSH150
2/7
ELECTRICALCHARACTERISTICS
V
CC
= ± 5V, T
amb
=25oC (unlessotherwisespecified)
Symbol Parameter
TSH150C, I
Unit
Min. Typ. Max.
V
io
Input Offset Voltage
T
min
T
amb
T
max.
0.3 5 7
mV
DV
io
Input Offset Voltage Drift
T
min
T
amb
T
max.
10
µV/
o
C
I
ib
Input Bias Current 5 30 µA
I
io
Input Offset Current 0.1 2 µA
I
CC
Supply Current, no load
V
CC
= ± 5V
V
CC
= ± 3V
V
CC
= ±6V
T
min
T
amb
T
max.
VCC= ± 5V
23 21 25
30 28 40 32
mA
A
vd
Large Signal Voltage Gain
V
o
= ±2.5V
R
L
=
R
L
= 100
R
L
=50
800 300 200
1300
850 650
V/V
V
icm
Input Common Mode VoltageRange -3 to +4 -3.5 to +4.5 V
CMR Common Mode Rejection Ratio V
ic=Vicm min.
60 100 dB
SVR Supply Voltage Rejection Ratio
V
CC
= ± 5V to ± 3V 50 70
dB
V
o
Output Voltage RL= 100
R
L
=50
T
min
T
amb
T
max.
RL= 100 R
L
=50
±3 ±2.8 ± 2.9
± 2.7
+3.5
-3.7
+3.3
-3.5
V
I
o
Output Short Circuit Current
V
id
= ±1V, Vo=0V ±50 ±100
mA
GBP Gain Bandwidth Product
A
VCL
= 100, RL= 100,CL= 15pF,f = 7.5MHz 150
MHz
SR Slew Rate
V
in
= ± 2V,A
VCL
=1,RL= 100,CL= 15pF 100 190
V/µs
e
n
Equivalent Input Voltage Noise
R
S
=50
fo = 1kHz fo = 10kHz fo = 100kHz fo = 1MHz
7
6.5
6.2
5.5
nV
Hz
K
ov
Overshoot
V
in
= ± 2V,A
VCL
=1,RL= 100,CL= 15pF 5
%
t
s
Settling Time 0.1% - (note1)
V
in
= ± 1V,A
VCL
=-1 20
ns
t
r,tf
Rise and FallTime - (note1)
V
in
= ±100mV, A
VCL
= 2 3.5
ns
t
d
Delay Time - (note 1)
V
in
= ±100mV, A
VCL
= 2 2.5
ns
m Phase Margin
A
VM
=1,RL= 100,CL= 15pF 50
Degrees
THD TotalHarmonic Distortion
A
VCL
= 10, f = 1KHz, Vo= ± 2.5V,no load 0.02
%
FPB Full Power Bandwidth - (note 2)
V
o
= 5Vpp, RL= 100
V
o
= 2Vpp, RL= 100
12 30
MHz
Note 1 : See test waveform figure Note 2 : Full power bandwidth =
SR
Π V
opp
150-04.TBL
TSH150
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