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TLC277IP

Part # TLC277IP
Description LINCMOS DUAL OP AMPS/LINEAR -Rail/Tube
Category IC
Availability In Stock
Qty 39
Qty Price
1 - 8 $2.78450
9 - 16 $2.21494
17 - 24 $2.08838
25 - 32 $1.94071
33 + $1.72977
Manufacturer Available Qty
Texas Instruments
Date Code: 8918
  • Shipping Freelance Stock: 39
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Technical Document


DISCLAIMER: The information provided herein is solely for informational purposes. Customers must be aware of the suitability of this product for their application, and consider that variable factors such as Manufacturer, Product Category, Date Codes, Pictures and Descriptions may differ from available inventory.

TLC272, TLC272A, TLC272B, TLC272Y, TLC277
LinCMOS PRECISION DUAL OPERATIONAL AMPLIFIERS
SLOS091B – OCTOBER 1987 – REVISED AUGUST 1994
19
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS
Table of Graphs
FIGURE
V
IO
Input offset voltage Distribution 6, 7
α
VIO
Temperature coefficient of input offset voltage Distribution 8, 9
vs Hi
g
h-level output current 10
,
11
V
OH
High-level output voltage
vs
High level
out ut
current
vs Supply voltage
10,
11
12
OH
gg
yg
vs Free-air temperature 13
vs Common
-
mode in
p
ut voltage
14, 15
V
OL
Low level out
p
ut voltage
vs
Common mode
in ut
voltage
vs Differential input volta
g
e
14
,
15
16
V
OL
Lo
w-
le
v
el
o
u
tp
u
t
v
oltage
g
vs Free-air temperature 17
vs Low-level output current 18, 19
vs Suppl
y
volta
g
e 20
A
VD
Large-signal differential voltage amplification
vs
Su ly
voltage
vs Free-air temperature
20
21
VD
gg g
vs Frequency 32, 33
I
IB
Input bias current vs Free-air temperature 22
I
IO
Input offset current vs Free-air temperature 22
V
IC
Common-mode input voltage vs Supply voltage 23
I
DD
Su
pp
ly current
vs Supply voltage 24
I
DD
S
u
ppl
y
c
u
rrent
yg
vs Free-air temperature 25
SR
Slew rate
vs Supply voltage 26
SR
Sle
w
rate
yg
vs Free-air temperature 27
Normalized slew rate vs Free-air temperature 28
V
O(PP)
Maximum peak-to-peak output voltage vs Frequency 29
B
1
Unity gain bandwidth
vs Free-air temperature 30
B
1
Unit
y-
gain
band
w
idth
vs Supply voltage 31
vs Suppl
y
volta
g
e 34
φ
m
Phase margin
vs
Su ly
voltage
vs Free-air temperature
34
35
φ
m
g
vs Load capacitance 36
V
n
Equivalent input noise voltage vs Frequency 37
Phase shift vs Frequency 32, 33
TLC272, TLC272A, TLC272B, TLC272Y, TLC277
LinCMOS PRECISION DUAL OPERATIONAL AMPLIFIERS
SLOS091B – OCTOBER 1987 – REVISED AUGUST 1994
20
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS
Figure 6
–5
0
Percentage of Units – %
V
IO
– Input Offset Voltage – mV
5
60
–4 –3 –2 –1 0 1 2 34
10
20
30
40
50
753 Amplifiers Tested From 6 Wafer Lots
V
DD
= 5 V
T
A
= 25°C
P Package
DISTRIBUTION OF TLC272
INPUT OFFSET VOLTAGE
Figure 7
50
40
30
20
10
43210–1–2–3–4
60
5
V
IO
– Input Offset Voltage – mV
Percentage of Units – %
0
–5
DISTRIBUTION OF TLC272
INPUT OFFSET VOLTAGE
753 Amplifiers Tested From 6 Wafer Lots
V
DD
= 10 V
T
A
= 25°C
P Package
Figure 8
324 Amplifiers Tested From 8 Wafer Lots
V
DD
= 5 V
T
A
= 25°C to 125°C
P Package
Outliers:
(1) 20.5 µV/°C
50
40
30
20
10
864
20–2–4–6–8
60
10
Percentage of Units – %
0
–10
αV
IO
– Temperature Coefficient – µV/°C
DISTRIBUTION OF TLC272 AND TLC277
INPUT OFFSET VOLTAGE
TEMPERATURE COEFFICIENT
Figure 9
324 Amplifiers Tested From 8 Wafer Lots
V
DD
= 5 V
T
A
= 25°C to 125°C
P Package
Outliers:
(1) 21.2 µV/°C
–10
0
Percentage of Units – %
10
60
–8 –6 –4 –2 0 2 4 6 8
10
20
30
40
50
αV
IO
– Temperature Coefficient – µV/°C
DISTRIBUTION OF TLC272 AND TLC277
INPUT OFFSET VOLTAGE
TEMPERATURE COEFFICIENT
TLC272, TLC272A, TLC272B, TLC272Y, TLC277
LinCMOS PRECISION DUAL OPERATIONAL AMPLIFIERS
SLOS091B – OCTOBER 1987 – REVISED AUGUST 1994
21
POST OFFICE BOX 655303 DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS
Figure 10
V
DD
= 3 V
V
DD
= 4 V
V
DD
= 5 V
V
ID
= 100 mV
T
A
= 25°C
See Note A
4
3
2
1
–8–6–4–2
5
–10
I
OH
– High-Level Output Current – mA
VOH – High-Level Output Voltage – V
0
0
HIGH-LEVEL OUTPUT VOLTAGE
vs
HIGH-LEVEL OUTPUT CURRENT
V
OH
NOTE A: The 3-V curve only applies to the C version.
Figure 11
T
A
= 25°C
V
ID
= 100 mV
V
DD
= 10 V
V
DD
= 16 V
14
12
10
8
6
4
2
–30–20–10
16
–40
I
OH
– High-Level Output Current – mA
VOH – High-Level Output Voltage – V
0
0
HIGH-LEVEL OUTPUT VOLTAGE
vs
HIGH-LEVEL OUTPUT CURRENT
V
OH
–5 –15 –20 –25 –35
Figure 12
T
A
= 25°C
R
L
= 10 k
V
ID
= 100 mV
0
16
2
4
6
8
10
12
14
1412108642 16
V
DD
– Supply Voltage – V
0
HIGH-LEVEL OUTPUT VOLTAGE
vs
SUPPLY VOLTAGE
VOH – High-Level Output Voltage – V
V
OH
Figure 13
V
DD
= 10 V
V
DD
= 5 V
V
ID
= 100 mA
I
OH
= –5 mA
–75
T
A
– Free-Air Temperature – °C
125
V
DD
1.6
–50 –25 0 20 50 75 100
V
DD
–1.8
HIGH-LEVEL OUTPUT VOLTAGE
vs
FREE-AIR TEMPERATURE
V
DD
1.7
V
DD
1.9
V
DD
–2.1
V
DD
–2
V
DD
–2.3
V
DD
2.2
V
DD
–2.4
VOH – High-Level Output Voltage – V
V
OH
Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
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