V6204651 VID

REVISIONS
LTR
DESCRIPTION
A
Correct the maximum supply voltage, VDD, from
16 V to 8 V in the recommended operating
conditions paragraph. Update boilerplate to
current revision. - CFS
DATE
APPROVED
06-09-25
Thomas M. Hess
Prepared in accordance with ASME Y14.24
Vendor item drawing
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PMIC N/A
PREPARED BY
RICK OFFICER
Original date of drawing
CHECKED BY
TOM HESS
YY MM DD
DEFENSE SUPPLY CENTER, COLUMBUS
COLUMBUS, OHIO 43218-3990
TITLE
MICROCIRCUIT, LINEAR, DUAL/QUAD, RAIL TO
RAIL, LOW POWER, OPERATIONAL AMPLIFIER
MONOLITHIC SILICON
APPROVED BY
RAYMOND MONNIN
04-02-17
SIZE
A
REV
AMSC N/A
CODE IDENT. NO.
DWG NO.
V62/04651
16236
A
PAGE
1
OF
26
5962-V128-06
1. SCOPE
1.1 Scope. This drawing documents the general requirements of a high performance rail to rail, low power, operational amplifier,
microcircuit, with an operating temperature range of -40°C to +125°C.
1.2 Vendor Item Drawing Administrative Control Number. The manufacturers PIN is the item of identification. The vendor item
drawing establishes an administrative control number for identifying the item on the engineering documentation:
V62/04651
-
Drawing
number
01
X
E
Device type
(See 1.2.1)
Case outline
(See 1.2.2)
Lead finish
(See 1.2.3)
1.2.1 Device type(s).
Device type
Generic
01
02
TLV2252
TLV2252A
03
04
TLV2254
TLV2254A
Circuit function
Dual, rail to rail, low power, operational amplifier
Dual, rail to rail, low power, operational amplifier
with enhanced VIO
Quad, rail to rail, low power, operational amplifier
Quad, rail to rail, low power, operational amplifier
with enhanced VIO
1.2.2 Case outline(s). The case outlines are as specified herein.
Outline letter
Number of pins
U
X
Y
Z
8
14
8
14
JEDEC PUB 95
Package style
MS-012
MS-012
MS-153
MS-153
Plastic small outline
Plastic small outline
Plastic small outline
Plastic small outline
(D-8)
(D-14)
(PW-8)
(PW-14)
1.2.3 Lead finishes. The lead finishes are as specified below or other lead finishes as provided by the device manufacturer:
Finish designator
A
B
C
D
E
Z
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Material
Hot solder dip
Tin-lead plate
Gold plate
Palladium
Gold flash palladium
Other
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1.3 Absolute maximum ratings.
1/
Supply voltage range (VDD) ....................................................................................... 16 V 2/
Differential input voltage (VID) .................................................................................... ±VDD
3/
Input voltage range (VI) (any input) ............................................................................ -VDD –0.3 V to +VDD 2/
Input current (II) (each input) ...................................................................................... ±5 mA
Output current (IO) ..................................................................................................... ±50 mA
Total current into +VDD .............................................................................................. ±50 mA
Total current into -VDD ............................................................................................... ±50 mA
Duration of short-circuit current (at or below) 25°C .................................................... Unlimited 4/
Continuous total power dissipation (PD) ..................................................................... See dissipation rating table
Operating free-air temperature range (TA) ................................................................. -40°C to +125°C
Storage temperature range (TSTG) .............................................................................. -65°C to +150°C
Lead temperature, 1.6 mm (1/16 inch) from case for 10 seconds:
(D and PW packages) ............................................................................................ +260°C
1.4 Recommended operating conditions. 5/
Supply voltage (VDD) ................................................................................................. 2.7 V minimum to 8 V maximum 2/
Input voltage range (VI) .............................................................................................. -VDD minimum to +VDD –1.3 maximum
Common mode input voltage (VIC) ............................................................................ -VDD minimum to +VDD –1.3 maximum
Operating free-air temperature range (TA) ................................................................. -40°C to +125°C
Dissipation rating table
1/
2/
3/
4/
5/
Package
TA ≤ 25°C
power rating
D-8
D-14
PW-8
PW-14
725 mW
950 mW
525 mW
700 mW
Derating factor
above TA = 25°C
5.8 mW/°C
7.6 mW/°C
4.2 mW/°C
5.6 mW/°C
TA = 85°C
power rating
TA = 125°C
power rating
377 mW
494 mW
273 mW
364 mW
145 mW
190 mW
105 mW
140 mW
Stresses beyond those listed under “absolute maximum rating” may cause permanent damage to the device. These are stress
ratings only, and functional operation of the device at these or any other conditions beyond those indicated under
“recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may
affect device reliability.
All voltage values, except differential voltages, are with respect to –VDD.
Differential voltages are at the noninverting input with respect to the inverting input. Excessive current flows when input
is brought below –VDD –0.3 V.
The output may be shorted to either supply. Temperature and/or supply voltages must be limited to ensure that the
maximum dissipation rating is not exceeded.
Use of this product beyond the manufacturers design rules or stated parameters is done at the user’s risk. The manufacturer
and/or distributor maintain no responsibility or liability for product used beyond the stated limits.
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2. APPLICABLE DOCUMENTS
JEDEC PUB 95
–
Registered and Standard Outlines for Semiconductor Devices
(Applications for copies should be addressed to the Electronic Industries Alliance, 2500 Wilson Boulevard, Arlington, VA
22201-3834 or online at http://www.jedec.org)
3. REQUIREMENTS
3.1 Marking. Parts shall be permanently and legibly marked with the manufacturer’s part number as shown in 6.3 herein and as
follows:
A.
B.
C.
Manufacturer’s name, CAGE code, or logo
Pin 1 identifier
ESDS identification (optional)
3.2 Unit container. The unit container shall be marked with the manufacturer’s part number and with items A and C (if applicable)
above.
3.3 Electrical characteristics. The maximum and recommended operating conditions and electrical performance characteristics are
as specified in 1.3, 1.4, and table I herein.
3.4 Design, construction, and physical dimension. The design, construction, and physical dimensions are as specified herein.
3.5 Diagrams.
3.5.1 Case outlines. The case outlines shall be as shown in 1.2.2 and figure 1.
3.5.2 Terminal connections. The terminal connections shall be as shown in figure 2.
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TABLE I. Electrical performance characteristics.
Test
Symbol
Input offset voltage
VIO
Conditions
VDD = 3 V,
unless otherwise specified
1/
Temperature, 2/
TA
Min
±VDD = ±1.5 V, VIC = 0,
25°C
VO = 0, RS = 50 Ω
-40°C to +125°C
αVIO
Temperature
coefficient of input
offset voltage
Input offset voltage
long term drift
Input offset current
±VDD = ±1.5 V, VIC = 0,
3/
±VDD = ±1.5 V, VIC = 0,
01
1500
02
850
01
1750
02
1000
IIO
±VDD = ±1.5 V, VIC = 0,
IIB
01,02
0.5 typical
µV /
°C
25°C
01,02
0.003 typical
µV /
mo
25°C
01,02
60
pA
VICR
1000
+125°C
±VDD = ±1.5 V, VIC = 0,
01,02
25°C
60
Low level output
voltage
VOH
VOL
01,02
25°C
0 to 2
V
0 to
1.7
01,02
2.98 typical
IOH = -20 µA
25°C
IOH = -75 µA
25°C
2.9
-40°C to +125°C
2.8
IOH = -150 µA
25°C
2.8
VIC = 1.5 V, IOL = 50 µA
25°C
VIC = 1.5 V, IOL = 500 µA
25°C
150
-40°C to +125°C
165
25°C
300
-40°C to +125°C
300
VIC = 1.5 V, IOL = 1 mA
pA
1000
+125°C
|VIO| ≤ 5 mV, RS = 50 Ω
µV
25°C to +85°C
-40°C to +125°C
High level output
voltage
Max
VO = 0, RS = 50 Ω
VO = 0, RS = 50 Ω
Common mode input
voltage range
Unit
VO = 0, RS = 50 Ω
VO = 0, RS = 50 Ω
Input bias current
Limits
Device
type
01,02
10 typical
V
mV
See footnotes at end of table.
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TABLE I. Electrical performance characteristics – continued.
Test
Large signal differential
voltage amplification
Symbol
AVD
Conditions
VDD = 3 V,
unless otherwise specified
Temperature, 2/
TA
1/
Limits
Device
type
Min
01,02
25°C
VIC = 1.5 V, VO = 1 V to 2 V,
100
V/mV
800 typical
25°C
VIC = 1.5 V, VO = 1 V to 2 V,
Max
10
-40°C to +125°C
RL = 100 kΩ referenced to 1.5 V
Unit
RL = 1 MΩ referenced to 1.5 V
12
typical
Ω
typical
Ω
Differential input
resistance
ri(d)
25°C
01,02
10
Common mode input
resistance
ri(c)
25°C
01,02
10
Common mode input
capacitance
ci(c)
f = 10 kHz
25°C
01,02
8 typical
pF
Closed loop output
impedance
zo
f = 25 kHz, AV = 10
25°C
01,02
220 typical
Ω
Common mode
rejection ratio
CMRR
VIC = 0 V to 1.7 V, VO = 1.5 V,
25°C
01,02
RS = 50 Ω
Supply voltage
rejection ratio
kSVR
( ∆VDD / ∆VIO )
Supply current
80
dB
01,02
25°C
VO = 1.5 V, no load
dB
80
-40°C to +125°C
VIC = VDD / 2
IDD
01,02
25°C
65
60
-40°C to +125°C
VDD = 2.7 V to 8 V, no load,
12
150
-40°C to +125°C
Slew rate at unity gain
SR
01,02
25°C
VO = 0.8 V to 1.4 V,
µA
125
0.07
V/µs
RL = 100 kΩ referenced to 1.5 V,
Equivalent input
noise voltage
Vn
0.05
-40°C to +125°C
CL = 100 pF referenced to 1.5 V
f = 10 Hz
25°C
01,02
nV /
Hz
f = 1 kHz
Peak to peak
equivalent input
35 typical
VN(PP)
noise voltage
19 typical
f = 0.1 Hz to 1 Hz
25°C
01,02
f = 0.1 Hz to 10 Hz
µV
0.6 typical
1.1 typical
See footnotes at end of table.
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TABLE I. Electrical performance characteristics – continued.
Test
Equivalent input noise
current
Symbol
Conditions
VDD = 3 V,
unless otherwise specified
Temperature, 2/
TA
1/
Limits
Device
type
Min
25°C
In
01,02
Unit
Max
0.6 typical
fA /
Hz
Gain bandwidth
product
f = 1 kHz,
RL = 50 kΩ referenced to 1.5 V,
25°C
01,02
0.187 typical
MHz
25°C
01,02
60 typical
kHz
25°C
01,02
63° typical
25°C
01,02
15 typical
CL = 100 pF referenced to 1.5 V
Maximum output
swing bandwidth
BOM
VO(PP) = 1 V, AV = 1,
RL = 50 kΩ referenced to 1.5 V,
CL = 100 pF referenced to 1.5 V
Phase margin at
unity gain
Gain margin
φm
RL = 50 kΩ referenced to 1.5 V,
CL = 100 pF referenced to 1.5 V
RL = 50 kΩ referenced to 1.5 V,
dB
CL = 100 pF referenced to 1.5 V
1/
Testing and other quality control techniques are used to the extent deemed necessary to assure product performance over the
specified temperature range. Product may not necessarily be tested across the full temperature range and all parameters may not
necessarily be tested. In the absence of specific parametric testing, product performance is assured by characterization and/or
design.
2/
Full range is –40°C to +125°C for Q suffix parts.
3/
Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C
extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV.
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TABLE I. Electrical performance characteristics – continued.
Test
Symbol
Input offset voltage
VIO
Conditions
VDD = 5 V,
unless otherwise specified
Temperature, 2/
TA
1/
Min
±VDD = ±2.5 V, VIC = 0,
25°C
VO = 0, RS = 50 Ω
-40°C to +125°C
αVIO
Temperature
coefficient of input
offset voltage
Input offset voltage
long term drift
Input offset current
±VDD = ±2.5 V, VIC = 0,
3/
±VDD = ±2.5 V, VIC = 0,
01
1500
02
850
01
1750
02
1000
IIO
±VDD = ±2.5 V, VIC = 0,
IIB
01,02
0.5 typical
µV /
°C
25°C
01,02
0.003 typical
µV /
mo
25°C
01,02
60
pA
VICR
1000
+125°C
±VDD = ±2.5 V, VIC = 0,
01,02
25°C
60
Low level output
voltage
VOH
VOL
01,02
25°C
0 to 4
V
0 to
3.5
01,02
4.98 typical
IOH = -20 µA
25°C
IOH = -75 µA
25°C
4.9
-40°C to +125°C
4.8
IOH = -150 µA
25°C
4.8
VIC = 2.5 V, IOL = 50 µA
25°C
VIC = 2.5 V, IOL = 500 µA
25°C
0.15
-40°C to +125°C
0.15
25°C
0.3
-40°C to +125°C
0.3
VIC = 2.5 V, IOL = 1 mA
pA
1000
+125°C
|VIO| ≤ 5 mV, RS = 50 Ω
µV
25°C to +85°C
-40°C to +125°C
High level output
voltage
Max
VO = 0, RS = 50 Ω
VO = 0, RS = 50 Ω
Common mode input
voltage range
Unit
VO = 0, RS = 50 Ω
VO = 0, RS = 50 Ω
Input bias current
Limits
Device
type
01,02
V
0.01 typical
V
See footnotes at end of table.
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8
TABLE I. Electrical performance characteristics – continued.
Test
Large signal differential
voltage amplification
Symbol
AVD
Conditions
VDD = 5 V,
unless otherwise specified
Temperature, 2/
TA
1/
Limits
Device
type
Min
01,02
25°C
VIC = 2.5 V, VO = 1 V to 4 V,
100
V/mV
1700 typical
25°C
VIC = 2.5 V, VO = 1 V to 4 V,
Max
10
-40°C to +125°C
RL = 100 kΩ referenced to 2.5 V
Unit
RL = 1 MΩ referenced to 2.5 V
12
typical
Ω
typical
Ω
Differential input
resistance
ri(d)
25°C
01,02
10
Common mode input
resistance
ri(c)
25°C
01,02
10
Common mode input
capacitance
ci(c)
f = 10 kHz
25°C
01,02
8 typical
pF
Closed loop output
impedance
zo
f = 25 kHz, AV = 10
25°C
01,02
200 typical
Ω
Common mode
rejection ratio
CMRR
VIC = 0 V to 2.7 V, VO = 2.5 V,
25°C
01,02
RS = 50 Ω
Supply voltage
rejection ratio
kSVR
( ∆VDD / ∆VIO )
Supply current
80
dB
01,02
25°C
VO = 2.5 V, no load
dB
80
-40°C to +125°C
VIC = VDD / 2
IDD
01,02
25°C
70
70
-40°C to +125°C
VDD = 4.4 V to 8 V, no load,
12
150
-40°C to +125°C
Slew rate at unity gain
SR
01,02
25°C
VO = 1.25 V to 2.75 V,
µA
125
0.07
V/µs
RL = 100 kΩ referenced to 2.5 V,
Equivalent input
noise voltage
Vn
0.05
-40°C to +125°C
CL = 100 pF referenced to 2.5 V
f = 10 Hz
25°C
01,02
nV /
Hz
f = 1 kHz
Peak to peak
equivalent input
36 typical
VN(PP)
noise voltage
19 typical
f = 0.1 Hz to 1 Hz
25°C
01,02
f = 0.1 Hz to 10 Hz
µV
0.7 typical
1.1 typical
See footnotes at end of table.
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TABLE I. Electrical performance characteristics – continued.
Test
Symbol
Equivalent input noise
current
In
Total harmonic
distortion plus noise
THD+N
Conditions
VDD = 5 V,
unless otherwise specified
Temperature, 2/
TA
1/
Limits
Device
type
Min
25°C
01,02
Unit
Max
0.6 typical
fA /
Hz
25°C
AV = 1, VO = 0.5 V to 2.5 V,
f = 20 kHz,
RL = 50 kΩ referenced to 2.5 V
01,02
1 % typical
AV = 10, VO = 0.5 V to 2.5 V,
f = 20 kHz,
RL = 50 kΩ referenced to 2.5 V
Gain bandwidth
product
0.2 % typical
f = 50 kHz,
RL = 50 kΩ referenced to 2.5 V,
25°C
01,02
0.2 typical
MHz
25°C
01,02
30 typical
kHz
25°C
01,02
63° typical
25°C
01,02
15 typical
CL = 100 pF referenced to 2.5 V
Maximum output
swing bandwidth
BOM
VO(PP) = 2 V, AV = 1,
RL = 50 kΩ referenced to 2.5 V,
CL = 100 pF referenced to 2.5 V
Phase margin at
unity gain
Gain margin
φm
RL = 50 kΩ referenced to 2.5 V,
CL = 100 pF referenced to 2.5 V
RL = 50 kΩ referenced to 2.5 V,
dB
CL = 100 pF referenced to 2.5 V
1/
Testing and other quality control techniques are used to the extent deemed necessary to assure product performance over the
specified temperature range. Product may not necessarily be tested across the full temperature range and all parameters may not
necessarily be tested. In the absence of specific parametric testing, product performance is assured by characterization and/or
design.
2/
Full range is –40°C to +125°C for Q suffix parts.
3/
Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C
extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV.
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10
TABLE I. Electrical performance characteristics – continued.
Test
Symbol
Input offset voltage
VIO
Conditions
VDD = 3 V,
unless otherwise specified
Temperature, 2/
TA
1/
Min
±VDD = ±1.5 V, VIC = 0,
25°C
VO = 0, RS = 50 Ω
-40°C to +125°C
αVIO
Temperature
coefficient of input
offset voltage
Input offset voltage
long term drift
Input offset current
±VDD = ±1.5 V, VIC = 0,
3/
±VDD = ±1.5 V, VIC = 0,
03
1500
04
850
03
1750
04
1000
IIO
±VDD = ±1.5 V, VIC = 0,
IIB
03,04
0.5 typical
µV /
°C
25°C
03,04
0.003 typical
µV /
mo
25°C
03,04
60
pA
VICR
1000
+125°C
±VDD = ±1.5 V, VIC = 0,
03,04
25°C
60
Low level output
voltage
VOH
VOL
03,04
25°C
0 to 2
V
0 to
1.7
03,04
2.98 typical
IOH = -20 µA
25°C
IOH = -75 µA
25°C
2.9
-40°C to +125°C
2.8
IOH = -150 µA
25°C
2.8
VIC = 1.5 V, IOL = 50 µA
25°C
VIC = 1.5 V, IOL = 500 µA
25°C
150
-40°C to +125°C
165
25°C
300
-40°C to +125°C
300
VIC = 1.5 V, IOL = 1 mA
pA
1000
+125°C
|VIO| ≤ 5 mV, RS = 50 Ω
µV
25°C to +85°C
-40°C to +125°C
High level output
voltage
Max
VO = 0, RS = 50 Ω
VO = 0, RS = 50 Ω
Common mode input
voltage range
Unit
VO = 0, RS = 50 Ω
VO = 0, RS = 50 Ω
Input bias current
Limits
Device
type
03,04
10 typical
V
mV
See footnotes at end of table.
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TABLE I. Electrical performance characteristics – continued.
Test
Large signal differential
voltage amplification
Symbol
AVD
Conditions
VDD = 3 V,
unless otherwise specified
Temperature, 2/
TA
1/
Limits
Device
type
Min
03,04
25°C
VIC = 1.5 V, VO = 1 V to 2 V,
100
V/mV
800 typical
25°C
VIC = 1.5 V, VO = 1 V to 2 V,
Max
10
-40°C to +125°C
RL = 100 kΩ referenced to 1.5 V
Unit
RL = 1 MΩ referenced to 1.5 V
12
typical
Ω
typical
Ω
Differential input
resistance
ri(d)
25°C
03,04
10
Common mode input
resistance
ri(c)
25°C
03,04
10
Common mode input
capacitance
ci(c)
f = 10 kHz
25°C
03,04
8 typical
pF
Closed loop output
impedance
zo
f = 25 kHz, AV = 10
25°C
03,04
220 typical
Ω
Common mode
rejection ratio
CMRR
VIC = 0 V to 1.7 V, VO = 1.5 V,
25°C
03,04
RS = 50 Ω
Supply voltage
rejection ratio
kSVR
( ∆VDD / ∆VIO )
Supply current
(four amplifiers)
Slew rate at unity gain
80
dB
03,04
25°C
VO = 1.5 V, no load
dB
80
-40°C to +125°C
VIC = VDD / 2
IDD
03,04
25°C
65
60
-40°C to +125°C
VDD = 2.7 V to 8 V, no load,
12
250
300
-40°C to +125°C
SR
03,04
25°C
VO = 0.5 V to 1.7 V,
µA
0.07
V/µs
RL = 100 kΩ referenced to 1.5 V,
Equivalent input
noise voltage
Vn
0.05
-40°C to +125°C
CL = 100 pF referenced to 1.5 V
f = 10 Hz
25°C
03,04
nV /
Hz
f = 1 kHz
Peak to peak
equivalent input
35 typical
VN(PP)
noise voltage
19 typical
f = 0.1 Hz to 1 Hz
25°C
03,04
f = 0.1 Hz to 10 Hz
0.6 typical
µV
1.1 typical
See footnotes at end of table.
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12
TABLE I. Electrical performance characteristics – continued.
Test
Equivalent input noise
current
Symbol
Conditions
VDD = 3 V,
unless otherwise specified
Temperature, 2/
TA
1/
Limits
Device
type
Min
25°C
In
03,04
Unit
Max
0.6 typical
fA /
Hz
Gain bandwidth
product
f = 1 kHz,
RL = 50 kΩ referenced to 1.5 V,
25°C
03,04
0.187 typical
MHz
25°C
03,04
60 typical
kHz
25°C
03,04
63° typical
25°C
03,04
15 typical
CL = 100 pF referenced to 1.5 V
Maximum output
swing bandwidth
BOM
VO(PP) = 1 V, AV = 1,
RL = 50 kΩ referenced to 1.5 V,
CL = 100 pF referenced to 1.5 V
Phase margin at
unity gain
Gain margin
φm
RL = 50 kΩ referenced to 1.5 V,
CL = 100 pF referenced to 1.5 V
RL = 50 kΩ referenced to 1.5 V,
dB
CL = 100 pF referenced to 1.5 V
1/
Testing and other quality control techniques are used to the extent deemed necessary to assure product performance over the
specified temperature range. Product may not necessarily be tested across the full temperature range and all parameters may not
necessarily be tested. In the absence of specific parametric testing, product performance is assured by characterization and/or
design.
2/
Full range is –40°C to +125°C for Q suffix parts.
3/
Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C
extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV.
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TABLE I. Electrical performance characteristics – continued.
Test
Symbol
Input offset voltage
VIO
Conditions
VDD = 5 V,
unless otherwise specified
Temperature, 2/
TA
1/
Min
±VDD = ±2.5 V, VIC = 0,
25°C
VO = 0, RS = 50 Ω
-40°C to +125°C
αVIO
Temperature
coefficient of input
offset voltage
Input offset voltage
long term drift
Input offset current
±VDD = ±2.5 V, VIC = 0,
3/
±VDD = ±2.5 V, VIC = 0,
03
1500
04
850
03
1750
04
1000
IIO
±VDD = ±2.5 V, VIC = 0,
IIB
03,04
0.5 typical
µV /
°C
25°C
03,04
0.003 typical
µV /
mo
25°C
03,04
60
pA
VICR
1000
+125°C
±VDD = ±2.5 V, VIC = 0,
03,04
25°C
60
Low level output
voltage
VOH
VOL
03,04
25°C
0 to 4
V
0 to
3.5
03,04
4.98 typical
IOH = -20 µA
25°C
IOH = -75 µA
25°C
4.9
-40°C to +125°C
4.8
IOH = -150 µA
25°C
4.8
VIC = 2.5 V, IOL = 50 µA
25°C
VIC = 2.5 V, IOL = 500 µA
25°C
0.15
-40°C to +125°C
0.15
25°C
0.3
-40°C to +125°C
0.3
VIC = 2.5 V, IOL = 1 mA
pA
1000
+125°C
|VIO| ≤ 5 mV, RS = 50 Ω
µV
25°C to +85°C
-40°C to +125°C
High level output
voltage
Max
VO = 0, RS = 50 Ω
VO = 0, RS = 50 Ω
Common mode input
voltage range
Unit
VO = 0, RS = 50 Ω
VO = 0, RS = 50 Ω
Input bias current
Limits
Device
type
03,04
0.01 typical
V
V
See footnotes at end of table.
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TABLE I. Electrical performance characteristics – continued.
Test
Large signal differential
voltage amplification
Symbol
AVD
Conditions
VDD = 5 V,
unless otherwise specified
Temperature, 2/
TA
1/
Limits
Device
type
Min
03,04
25°C
VIC = 2.5 V, VO = 1 V to 4 V,
100
V/mV
1700 typical
25°C
VIC = 2.5 V, VO = 1 V to 4 V,
Max
10
-40°C to +125°C
RL = 100 kΩ referenced to 2.5 V
Unit
RL = 1 MΩ referenced to 2.5 V
12
typical
Ω
typical
Ω
Differential input
resistance
ri(d)
25°C
03,04
10
Common mode input
resistance
ri(c)
25°C
03,04
10
Common mode input
capacitance
ci(c)
f = 10 kHz
25°C
03,04
8 typical
pF
Closed loop output
impedance
zo
f = 25 kHz, AV = 10
25°C
03,04
200 typical
Ω
Common mode
rejection ratio
CMRR
VIC = 0 V to 2.7 V, VO = 2.5 V,
25°C
03,04
RS = 50 Ω
Supply voltage
rejection ratio
kSVR
( ∆VDD / ∆VIO )
Supply current
(four amplifiers)
Slew rate at unity gain
80
dB
03,04
25°C
VO = 2.5 V, no load
dB
80
-40°C to +125°C
VIC = VDD / 2
IDD
03,04
25°C
70
70
-40°C to +125°C
VDD = 4.4 V to 8 V, no load,
12
250
300
-40°C to +125°C
SR
03,04
25°C
VO = 0.5 V to 3.5 V,
µA
0.07
V/µs
RL = 100 kΩ referenced to 2.5 V,
Equivalent input
noise voltage
Vn
0.05
-40°C to +125°C
CL = 100 pF referenced to 2.5 V
f = 10 Hz
25°C
03,04
nV /
Hz
f = 1 kHz
Peak to peak
equivalent input
36 typical
VN(PP)
noise voltage
19 typical
f = 0.1 Hz to 1 Hz
25°C
03,04
f = 0.1 Hz to 10 Hz
0.7 typical
µV
1.1 typical
See footnotes at end of table.
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TABLE I. Electrical performance characteristics – continued.
Test
Symbol
Equivalent input noise
current
In
Total harmonic
distortion plus noise
THD+N
Conditions
VDD = 5 V,
unless otherwise specified
Temperature, 2/
TA
1/
Limits
Device
type
Min
25°C
03,04
Unit
Max
0.6 typical
fA /
Hz
25°C
AV = 1, VO = 0.5 V to 2.5 V,
f = 20 kHz,
RL = 50 kΩ referenced to 2.5 V
03,04
1 % typical
AV = 10, VO = 0.5 V to 2.5 V,
f = 20 kHz,
RL = 50 kΩ referenced to 2.5 V
Gain bandwidth
product
0.2 % typical
f = 50 kHz,
RL = 50 kΩ referenced to 2.5 V,
25°C
03,04
0.2 typical
MHz
25°C
03,04
30 typical
kHz
25°C
03,04
63° typical
25°C
03,04
15 typical
CL = 100 pF referenced to 2.5 V
Maximum output
swing bandwidth
BOM
VO(PP) = 2 V, AV = 1,
RL = 50 kΩ referenced to 2.5 V,
CL = 100 pF referenced to 2.5 V
Phase margin at
unity gain
Gain margin
φm
RL = 50 kΩ referenced to 2.5 V,
CL = 100 pF referenced to 2.5 V
RL = 50 kΩ referenced to 2.5 V,
dB
CL = 100 pF referenced to 2.5 V
1/
Testing and other quality control techniques are used to the extent deemed necessary to assure product performance over the
specified temperature range. Product may not necessarily be tested across the full temperature range and all parameters may not
necessarily be tested. In the absence of specific parametric testing, product performance is assured by characterization and/or
design.
2/
Full range is –40°C to +125°C for Q suffix parts.
3/
Typical values are based on the input offset voltage shift observed through 500 hours of operating life test at TA = 150°C
extrapolated to TA = 25°C using the Arrhenius equation and assuming an activation energy of 0.96 eV.
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Case U
FIGURE 1. Case outlines.
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Case U - Continued
Dimensions
Symbol
Inches
Min
A
Millimeters
Max
Min
Max
.069
1.75
A1
.004
.010
0.10
0.25
b
.014
.020
0.35
0.51
c
.008 NOM
0.20 NOM
D
.189
.197
4.80
5.00
E
.150
.157
3.81
4.00
E1
.228
.244
5.80
6.20
e
L
.050 BSC
.016
1.27 BSC
.044
0.40
1.12
NOTES:
1. All linear dimensions are in inches (millimeters).
2. This case outline is subject to change without notice.
3. Body dimensions do not include mold flash or protrusion, not to exceed .006 inch (0.15 mm).
4. Fall within JEDEC MS-012.
FIGURE 1. Case outlines - Continued.
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Case X
FIGURE 1. Case outlines –Continued.
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Case X - Continued
Dimensions
Symbol
Inches
Min
A
Millimeters
Max
Min
Max
.069
1.75
A1
.004
.010
0.10
0.25
b
.014
.020
0.35
0.51
c
.008 NOM
0.20 NOM
D
.337
.344
8.55
8.75
E
.150
.157
3.81
4.00
E1
.228
.244
5.80
6.20
e
L
.050 BSC
.016
1.27 BSC
.044
0.40
1.12
NOTES:
1. All linear dimensions are in inches (millimeters).
2. This case outline is subject to change without notice.
3. Body dimensions do not include mold flash or protrusion, not to exceed .006 inch (0.15 mm).
4. Fall within JEDEC MS-012.
FIGURE 1. Case outlines - Continued.
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Case Y
FIGURE 1. Case outlines - Continued.
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Case Y - Continued
Dimensions
Symbol
Millimeters
Min
A
Inches
Max
Min
Max
1.20
.047
A1
0.05
0.15
.002
.006
b
0.19
0.30
.007
.012
c
0.15 NOM
.006 NOM
D
2.90
3.10
.114
.122
E
4.30
4.50
.169
.177
E1
6.20
6.60
.244
.260
e
L
0.65 BSC
0.50
.026 BSC
0.75
.020
.030
NOTES:
1. All linear dimensions are in millimeters (inches).
2. This case outline is subject to change without notice.
3. Body dimensions do not include mold flash or protrusion, not to exceed 0.15 millimeter (0.006 inch).
4. Fall within JEDEC MO-153.
FIGURE 1. Case outlines - Continued.
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Case Z
FIGURE 1. Case outlines - Continued.
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Case Z - Continued
Dimensions
Symbol
Millimeters
Min
A
Inches
Max
Min
Max
1.20
.047
A1
0.05
0.15
.002
.006
b
0.19
0.30
.007
.012
c
0.15 NOM
.006 NOM
D
4.90
5.10
.193
.201
E
4.30
4.50
.169
.177
E1
6.20
6.60
.244
.260
e
L
0.65 BSC
0.50
.026 BSC
0.75
.020
.030
NOTES:
1. All linear dimensions are in millimeters (inches).
2. This case outline is subject to change without notice.
3. Body dimensions do not include mold flash or protrusion, not to exceed 0.15 millimeter (0.006 inch).
4. Fall within JEDEC MO-153.
FIGURE 1. Case outlines - Continued.
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Device types
01 and 02
03 and 04
Case outlines
U and Y
X and Z
Terminal number
Terminal symbol
1
OUT1
OUT1
2
-IN1
-IN1
3
+IN1
+IN1
4
-VDD / GND
+VDD
5
+IN2
+IN2
6
-IN2
-IN2
7
OUT2
OUT2
8
+VDD
OUT3
9
---
-IN3
10
---
+IN3
11
---
-VDD / GND
12
---
+IN4
13
---
-IN4
14
---
OUT4
FIGURE 2. Terminal connections.
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4. VERIFICATION
4.1 Product assurance requirements. The manufacturer is responsible for performing all inspection and test requirements as
indicated in their internal documentation. Such procedures should include proper handling of electrostatic sensitive devices,
classification, packaging, and labeling of moisture sensitive devices, as applicable.
5. PREPARATION FOR DELIVERY
5.1 Packaging. Preservation, packaging, labeling, and marking shall be in accordance with the manufacturer’s standard commercial
practices for electrostatic discharge sensitive devices.
6. NOTES
6.1 ESDS. Devices are electrostatic discharge sensitive and are classified as ESDS class 1 minimum.
6.2 Configuration control. The data contained herein is based on the salient characteristics of the device manufacturer’s data book.
The device manufacturer reserves the right to make changes without notice. This drawing will be modified as changes are provided.
6.3 Suggested source(s) of supply. Identification of the suggested source(s) of supply herein is not to be construed as a guarantee
of present or continued availability as a source of supply for the item.
Package
Vendor part number
Top side
marking
Tape and reel
TLV2252QDREP
2252EP
TSSOP (PW)
Tape and reel
TLV2252QPWREP 2/
01295
SOIC (D)
Tape and reel
TLV2252AQDREP
01295
TSSOP (PW)
Tape and reel
TLV2252AQPWREP 2/
01295
SOIC (D)
Tape and reel
TLV2254QDREP
01295
TSSOP (PW)
Tape and reel
TLV2254QPWREP 2/
01295
SOIC (D)
Tape and reel
TLV2254AQDREP
01295
TSSOP (PW)
Tape and reel
TLV2254AQPWREP 2/
Vendor item drawing
administrative control
number 1/
VIO max
at 25°C
Device
manufacturer
CAGE code
V62/04651-01UE
1500 µV
01295
SOIC (D)
01295
V62/04651-01YE
V62/04651-02UE
850 µV
V62/04651-02YE
V62/04651-03XE
1500 µV
V62/04651-03ZE
V62/04651-04XE
850 µV
V62/04651-04ZE
2252AE
TLV2254EP
TLV2254AEP
1/ The vendor item drawing establishes an administrative control number for identifying the item on the engineering documentation.
2/ This part is not available as of the release date of this drawing.
CAGE code
01295
DEFENSE SUPPLY CENTER, COLUMBUS
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Source of supply
Texas Instruments, Inc.
Semiconductor Group
8505 Forest Lane
P.O. Box 660199
Dallas, TX 75243
Point of contact: U.S. Highway 75 South
P.O. Box 84, M/S 853
Sherman, TX 75090-9493
SIZE
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A
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