Particularly economic and versatile op amps. Owing to their excellent performance
qualities they are well suited for a wide scope of applications, as in control engineering,
automotive electronics, AF circuits, analog computers, etc.
Type
Ordering Code
Package
TAA 762 A
Q67000-A2271
P-DIP-6-1
TAA 762 G
Q67000-A2273
P-DSO-6-1 (SMD)
TAA 765 A
Q67000-A524
P-DIP-6-1
TAA 765 G
Q67000-A599-G403
P-DSO-6-1 (SMD)
Single Operational Amplifiers
Bipolar IC
P-DIP-6-1
P-DSO-6-1
Features
q
Wide common-mode range
q
Large supply voltage range
q
Large control range
q
Wide temperature range (TAA 762)
q
High output frequency compensation
q
Open collector output
Applications
q
Amplifier
q
Comparator
q
Level converter
q
Driver
Semiconductor Group
1
09.94
TAA 762
TAA 765
TAA 762
TAA 765
Semiconductor Group
2
Pin Configurations
(top view)
Circuit Diagram
TAA 762 G
TAA 765 G
TAA 762 A
TAA 765 A
TAA 762
TAA 765
Semiconductor Group
3
Connection Diagram
Absolute Maximum Ratings (TAA 762)
Parameter
Symbol
Limit Values
Unit
Supply voltage
V
S
18
V
Output current
I
Q
70
mA
Differential input voltage
V
ID
V
S
V
Junction temperature
Storage temperature range
T
j
T
stg
150
55 to 125
C
C
Thermal resistance
system - air
TAA 762 A
TAA 762 G
R
th SA
R
th SA
115
200
K/W
K/W
Operating Range (TAA 762)
Supply voltage
V
S
1.5 to
18
V
Ambient temperature
T
A
55 to 125
C
C
C
= output frequency compensation;
R
L
= load resistance (collector resistance)
TAA 762
TAA 765
Semiconductor Group
4
Characteristics (TAA 762)
V
S
=
5 V to
15 V;
R
L
= 2 k
,
unless otherwise specified
Parameter
Symbol
Limit Values
T
A
= 25
C
Limit Values
T
A
= 55
to 125
C
Unit
min.
typ.
max.
min.
max.
Open-loop supply
current consumption
I
S
1.5
2.5
2.5
mA
Input offset voltage
R
G
= 50
V
IO
4
4
6
6
mV
Input offset current
Input current
I
IO
I
I
100
50
0.3
100
0.7
300
300
1.0
nA
A
Control range
V
S
=
15 V
R
L
= 620
,
V
S
=
15 V
V
S
=
15 V,
f
= 100 kHz
V
Q pp
V
Q pp
V
Q pp
14.9
14.9
10
14
12.5
14.8
14.8
14
12
V
V
V
Input impedance
f
= 1 kHz
Z
I
200
k
Open-loop voltage gain
f
= 1 kHz
R
L
= 10 k
,
f
= 1 kHz
f
= 1 MHz
G
V0
G
V0
G
V0
85
87
92
43
80
dB
dB
dB
Output reverse current
I
QR
1
5
A
Common-mode
input voltage range
V
IC
V
S
+ 2
V
S
2
V
S
+ 3
V
S
3
V
Common-mode
rejection
k
CMR
80
85
75
dB
Supply voltage
rejection
G
V
= 100
k
SVR
25
200
200
V/V
TAA 762
TAA 765
Semiconductor Group
5
Temperature coefficient of
V
lO
R
G
= 50
Temperature coefficient of
I
IO
R
G
= 50
VIO
IIO
6
0.3
25
1.5
25
1.5
V/K
nA/K
Slew rate of
V
Q
for
non-inverting operation
(test circuit 1)
Slew rate of
V
Q
for
inverting operation
(test circuit 2)
SR
SR
9
18
V/
s
V/
s
Noise voltage
(in acc. with DIN 45 405;
referred to input;
R
S
= 2.5 k
)
V
n
3
V
Characteristics (TAA 762)
V
S
=
2 V;
R
L
= 2 k
Input offset voltage
R
G
= 50
V
IO
4
4
6
6
mV
Input offset current
Input current
I
IO
I
I
70
0.2
70
0.5
200
200
0.8
nA
A
Open-loop voltage gain
f
= 1 kHz
G
V0
80
75
dB
Characteristics (TAA 762) (cont'd)
V
S
=
5 V to
15 V;
R
L
= 2 k
,
unless otherwise specified
Parameter
Symbol
Limit Values
T
A
= 25
C
Limit Values
T
A
= 55
to 125
C
Unit
min.
typ.
max.
min.
max.
TAA 762
TAA 765
Semiconductor Group
6
Absolute Maximum Ratings (TAA 765)
Parameter
Symbol
Limit Values
Unit
Supply voltage
V
S
18
V
Output current
I
Q
70
mA
Differential input voltage
V
ID
V
S
V
Junction temperature
Storage temperature range
T
j
T
stg
150
55 to 125
C
C
Thermal resistance
system - air
TAA 765 A
TAA 765 G
R
th SA
R
th SA
115
200
K/W
K/W
Operating Range (TAA 765)
Supply voltage
V
S
1.5 to
18
V
Ambient temperature
T
A
25 to 85
C
TAA 762
TAA 765
Semiconductor Group
7
Characteristics (TAA 765)
V
S
=
5 V to
15 V;
R
L
= 2 k
,
unless otherwise specified
Parameter
Symbol
Limit Values
T
A
= 25
C
Limit Values
T
A
= 25
to 85
C
Unit
min.
typ.
max.
min.
max.
Open-loop supply
current consumption
I
S
1.5
2.5
2.5
mA
Input offset voltage
R
G
= 50
V
IO
5.5
5.5
7
7
mV
Input offset current
Input current
I
IO
I
I
200
80
0.5
200
0.8
300
300
1.0
nA
A
Control range
V
S
=
15 V
R
L
= 620
,
V
S
=
15 V
V
S
=
15 V,
f
= 100 kHz
V
Q pp
V
Q pp
V
Q pp
14.9
14.9
10
14
12.5
14.8
14.8
14
12
V
V
V
Input impedance
f
= 1 kHz
Z
I
200
k
Open-loop voltage gain
f
= 1 kHz
R
L
= 10 k
,
f
= 1 kHz
f
= 1 MHz
G
V0
G
V0
G
V0
80
85
90
43
80
dB
dB
dB
Output reverse current
I
QR
10
20
A
Common-mode
input voltage range
V
IC
V
S
+ 2
V
S
2
V
S
+ 3
V
S
3
V
Common-mode
rejection
k
CMR
75
83
75
dB
Supply voltage
rejection
G
V
= 100
k
SVR
25
200
200
V/V
TAA 762
TAA 765
Semiconductor Group
8
Temperature coefficient of
V
lO
R
G
= 50
Temperature coefficient of
I
IO
R
G
= 50
VIO
VIO
6
0.3
25
1.5
25
1.5
V/K
nA/K
Slew rate of
V
Q
for
non-inverting operation
(test circuit 1)
Slew rate of
V
Q
for
inverting operation
(test circuit 2)
SR
SR
9
18
V/
s
V/
s
Noise voltage
(in acc. with DIN 45 405;
referred to input;
R
S
= 2.5 k
)
V
n
3
V
Characteristics (TAA 765)
V
S
=
2 V;
R
L
= 2 k
Input offset voltage
R
G
= 30
V
IO
6
6
7.5
7.5
mV
Input offset current
Input current
I
IO
I
I
150
0.2
150
0.6
200
200
0.8
nA
A
Open-loop voltage gain
f
= 1 kHz
G
V0
75
75
dB
Characteristics (TAA 765) (cont'd)
V
S
=
5 V to
15 V;
R
L
= 2 k
,
unless otherwise specified
Parameter
Symbol
Limit Values
T
A
= 25
C
Limit Values
T
A
= 25
to 85
C
Unit
min.
typ.
max.
min.
max.
TAA 762
TAA 765
Semiconductor Group
9
Test Circuit 1 for Slew Rate (non-inverting operation)
Test Circuit 2 for Slew Rate (inverting operation)
C
1
for min. overshoot (approx. 22 pF)
C
2
causes a frequency-dependent compensation to reduce rise times (approx. 390 pF)
C
1
for min. overshoot (approx. 3.9 pF)
Semiconductor Group
10
TAA 762
TAA 765
Transfer Characteristic
Output Voltage versus Input Voltage
V
S
= parameter,
R
L
= 2 k
Open-Loop Voltage Gain and
Phase versus Frequency
V
S
=
15 V;
R
L
= 2 k
Saturation Voltage versus
Output Current
T
A
= 25
C
Frequency Dependence of Large
Signal Modulation Output Voltage
versus Frequency
Semiconductor Group
11
TAA 762
TAA 765
Transfer Characteristic
Output Voltage versus Input Voltage
V
S
=
15 V;
R
L
= parameter
Common-Mode Voltage Range
Common-Mode Input
Voltage versus Supply Voltage
Semiconductor Group
12
TAA 762
TAA 765
Open-Loop Voltage Gain versus
Supply Voltage
T
A
= 25
C,
R
L
= 2 k
Open-Loop Voltage Gain versus
Load Resistance
T
A
= 25
C
Input Current versus
Supply Voltage
Input Offset Voltage versus
Load Resistance
V
S
=
15 V
Semiconductor Group
13
TAA 762
TAA 765
Input Offset Voltage versus
Ambient Temperature
R
L
= 2 k
;
V
S
=
15 V
Input Current versus
Ambient Temperature
R
L
= 2 k
Input Offset Current versus
Ambient Temperature
R
L
= 2 k
;
V
S
=
15 V
Open-Loop Voltage Gain versus
Ambient Temperature
R
L
= 2 k
;
f
= 1 kHz
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