LMV982-N [TI]
双路、5V、1.5MHz、65mA 输出电流、RRIO 运算放大器;型号: | LMV982-N |
厂家: | TEXAS INSTRUMENTS |
描述: | 双路、5V、1.5MHz、65mA 输出电流、RRIO 运算放大器 放大器 运算放大器 放大器电路 |
文件: | 总22页 (文件大小:612K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ꢀ ꢁꢂ ꢃ ꢄ ꢅ ꢆꢇ ꢈꢉ ꢀ ꢊꢋ ꢀ ꢁꢂꢃ ꢄꢌ ꢍ ꢎꢏ ꢀ
ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
LMV981 . . . DBV (SOT23-6) OR DCK (SC-70) PACKAGE
(TOP VIEW)
D
D
1.8-V, 2.7-V, and 5-V Specifications
Rail-to-Rail Output Swing
− 600-Ω Load . . . 80 mV From Rail
− 2-kΩ Load . . . 30 mV From Rail
1
2
3
6
5
4
IN+
/GND
IN−
V
CC+
SHDN
V
CC−
D
D
D
D
D
D
V
. . . 200 mV Beyond Rails
ICR
OUT
Gain Bandwidth . . . 1.4 MHz
Supply Current . . . 100 µA/Amplifier
Max V . . . 4 mV
IO
Turn-On Time From Shutdown . . . 8.4 µs
Space-Saving Packages
− LMV981: SOT-23-6 and SC-70
− LMV982: MSOP and VSSOP
LMV982 . . . DGS (VSSOP/MSOP) PACKAGE
(TOP VIEW)
OUTA
−INA
+INA
1
2
3
4
5
10
9
V
CC+
OUTB
8
−INB
+INB
SHDNB
7
V
/GND
CC−
D
Applications
− Industrial (Utility/Energy Metering)
− Automotive
6
SHDNA
− Communications (Optical Telecom,
Data/Voice Cable Modems)
− Consumer Electronics (PDAs, PCs,
CDR/W, Portable Audio)
− Supply-Current Monitoring
− Battery Monitoring
description/ordering information
The LMV981 and LMV982 devices are low-voltage, low-power operational amplifiers that are well suited for
today’s low-voltage and/or portable applications. Specified for operation of 1.8 V to 5 V, they can be used in
portable applications that are powered from a single-cell Li-ion or two-cell batteries. They have rail-to-rail input
and output capability for maximum signal swings in low-voltage applications. The LMV98x input common-mode
voltage extends 200 mV beyond the rails for increased flexibility. The output can swing rail-to-rail unloaded and
typically can reach 80 mV from the rails, while driving a 600-Ω load (at 1.8-V operation).
ORDERING INFORMATION
ORDERABLE
PART NUMBER
TOP-SIDE
MARKING
†
PACKAGE
T
A
‡
Reel of 3000 LMV981IDBVR
RBA_
SOT-23 (DBV)
Reel of 250
Reel of 3000 LMV981IDCKR
Reel of 250 LMV981IDCKT
Reel of 2500 LMV982IDGSR
Reel of 250 LMV982IDGST
LMV981IDBVT
PREVIEW
R7_
Single
Dual
−40°C to 125°C
SC-70 (DCK)
PREVIEW
MSOP/VSSOP (DGS)
RCB
†
‡
Package drawings, standard packing quantities, thermal data, symbolization, and PCB design guidelines are available
at www.ti.com/sc/package.
DBV/DCK: The actual top-side marking has one additional character that designates the assembly/test site.
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
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Copyright 2005, Texas Instruments Incorporated
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1
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁ ꢂ ꢃ ꢄꢅ ꢆꢇ ꢈ ꢉꢀ ꢊꢋ ꢀꢁ ꢂꢃ ꢄ ꢌ ꢍꢎ ꢏꢀ
ꢅꢐ ꢄꢑꢂ ꢒꢓꢊ ꢔꢏꢕ ꢇ ꢒꢈ ꢏꢀ ꢏꢁ ꢓꢀ ꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗꢇ ꢕ ꢘ ꢔ ꢏ ꢇꢀ ꢑ ꢕꢒꢑꢔ ꢏꢇ ꢀ ꢇ ꢈꢓ ꢎꢕ ꢏꢈ ꢍ ꢒ ꢎꢕꢓ ꢎꢕ ꢏꢈꢍ ꢆꢘ ꢎꢕꢍ ꢒꢗ ꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
description/ordering information (continued)
The LMV981 and LMV982 devices offer shutdown capability for additional power savings. Pulling the SHDN
pin low puts the amplifiers in shutdown, where only 0.156 mA typically is consumed from a 1.8-V supply. In
normal operation with the same 1.8-V supply, the devices typically consume a quiescent current of 103 mA per
channel, and yet they are able to achieve excellent electrical specifications, such as 101-dB open-loop DC gain
and 1.4-MHz-gain bandwidth. Furthermore, the amplifiers offer good output drive characteristics, with the ability
to drive a 600-Ω load and 1000-pF capacitance, with minimal ringing.
The LMV981 and LMV982 devices are offered in the latest packaging technology to meet the most demanding
space-constraint applications. The LMV981 is offered in standard SOT-23 and SC-70 packages. The LMV982
is available in the 10-pin MSOP package.
The LMV98x devices are characterized for operation from −40°C to 125°C, making them universally suited for
commercial, industrial, and automotive applications.
simplified schematic
V
CC+
V
BIAS1
I1
I2
IP
M5
M6
M1
M2
Class AB
Control
OUT
Q1
Q4
Q3
Q2
IN−
IN+
M7
M8
M3
M4
I4
V
BIAS2
I3
IN
V
CC−
2
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ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
†
absolute maximum ratings over free-air temperature range (unless otherwise noted)
Supply voltage, V
− V
(see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.5 V
CC+
CC−
ID
Differential input voltage, V (see Note 2) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Supply voltage
Input voltage range, V (either input) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . V
Duration of output short circuit (one amplifier) to V
− 0.2 V to V
+ 0.2 V
I
CC−
CC+
(see Notes 3 and 4) . . . . . . . . . . . . . . . . . . . . Unlimited
CC
Package thermal impedance, θ (see Notes 4 and 5): DBV package . . . . . . . . . . . . . . . . . . . . . . . . 165°C/W
JA
DCK package . . . . . . . . . . . . . . . . . . . . . . . . 259°C/W
DGS package . . . . . . . . . . . . . . . . . . . . . . . . 165°C/W
Operating virtual junction temperature, T . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 150°C
J
Storage temperature range, T
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −65 to 150°C
stg
†
Stresses beyond those listed under “absolute maximum ratings” 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.
NOTES: 1. All voltage values (except differential voltages and V
2. Differential voltages are at IN+ with respect to IN−.
specified for the measurement of I ) are with respect to the network GND.
CC
OS
3. Applies to both single-supply and split-supply operation. Continuous short-circuit operation at elevated ambient temperature can
result in exceeding the maximum-allowed junction temperature of 150°C. Output currents in excess of 45 mA over long term may
adversely affect reliability.
4. Maximum power dissipation is a function of T (max), θ , and T . The maximum allowable power dissipation at any allowable
J
JA
A
ambient temperature is P = (T (max) − T )/θ . Operating at the absolute maximum T of 150°C can affect reliability.
D
J
A
JA
J
5. The package thermal impedance is calculated in accordance with JESD 51-7.
recommended operating conditions
MIN
1.8
MAX
5
UNIT
V
V
CC
Supply voltage (V
CC+
− V )
CC−
T
A
Operating free-air temperature
−40
125
°C
ESD protection
TEST CONDITIONS
TYP
2000
200
UNIT
V
Human-Body Model
Machine Model
V
3
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ꢅꢐ ꢄꢑꢂ ꢒꢓꢊ ꢔꢏꢕ ꢇ ꢒꢈ ꢏꢀ ꢏꢁ ꢓꢀ ꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗꢇ ꢕ ꢘ ꢔ ꢏ ꢇꢀ ꢑ ꢕꢒꢑꢔ ꢏꢇ ꢀ ꢇ ꢈꢓ ꢎꢕ ꢏꢈ ꢍ ꢒ ꢎꢕꢓ ꢎꢕ ꢏꢈꢍ ꢆꢘ ꢎꢕꢍ ꢒꢗ ꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
electrical characteristics at T = 25°C, V
= 1.8 V, V
= 0 V, V = V
/2, V = V
O
/2,
CC+
A
CC+
CC+
CC−
IC
CC+
R > 1 MΩ, and SHDN tied to V
(unless otherwise noted)
L
PARAMETER
TEST CONDITIONS
T
MIN
TYP
MAX
4
UNIT
A
25°C
Full range
25°C
1
LMV981 (single)
LMV982 (dual)
6
V
IO
Input offset voltage
mV
1
5.5
7.5
Full range
Average temperature
coefficient of
input offset voltage
aVIO
25°C
5.5
15
mV/°C
V
= V
CC+
− 0.8 V
25°C
25°C
35
65
75
25
40
185
205
1
IC
I
IB
Input bias current
Input offset current
nA
nA
Full range
25°C
13
103
I
IO
Full range
25°C
Full range
25°C
0.156
0.178
78
Supply current
(per channel)
I
LMV981
mA
CC
Full range
25°C
2
In shutdown
3.5
5
LM982
Full range
25°C
60
55
0 ≤ V ≤ 0.6 V,
1.4 V ≤ V ≤ 1.8 V
IC
−40°C to 85°C
IC
Common-mode
rejection ratio
0.2 V ≤ V ≤ 0.6 V,
IC
CMRR
dB
−40°C to 125°C
25°C
55
50
1.4 V ≤ V ≤ 1.6 V
IC
−0.2 V ≤ V ≤ 0 V,
IC
72
1.8 V ≤ V ≤ 2 V
IC
25°C
Full range
75
70
100
Supply-voltage
rejection ratio
k
1.8 V ≤ V
CC+
≤ 5 V
dB
V
SVR
25°C
V
V
− 0.2 −0.2 to 2.1
V
V
+ 0.2
CC−
V
CC+
V
Common-mode
input voltage range
−40°C to 85°C
−40°C to 125°C
V
CMRR ≥ 50 dB
CC−
+ 0.2
CC+
− 0.2
ICR
CC−
CC+
R
= 600 Ω to 0.9 V,
= 0.2 V to 1.6 V,
= 0.5 V
25°C
Full range
25°C
77
73
80
75
75
72
78
75
101
105
90
L
V
O
V
IC
LMV981
R
= 2 kΩ to 0.9 V,
= 0.2 V to 1.6 V,
= 0.5 V
L
V
O
V
IC
Full range
25°C
Large-signal
voltage gain
A
V
dB
R
= 600 Ω to 0.9 V,
= 0.2 V to 1.6 V,
= 0.5 V
L
V
O
V
IC
Full range
25°C
LMV982
R
= 2 kΩ to 0.9 V,
= 0.2 V to 1.6 V,
= 0.5 V
100
L
V
O
V
IC
Full range
4
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁꢂ ꢃ ꢄ ꢅ ꢆꢇ ꢈꢉ ꢀ ꢊꢋ ꢀ ꢁꢂꢃ ꢄꢌ ꢍ ꢎꢏ ꢀ
ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
electrical characteristics at T = 25°C, V
= 1.8 V, V
= 0 V, V = V
/2, V = V
/2,
CC+
A
CC+
CC+
CC−
IC
CC+
O
R > 1 MΩ, and SHDN tied to V
(unless otherwise noted) (continued)
L
PARAMETER
TEST CONDITIONS
T
A
MIN
TYP
MAX
UNIT
25°C
Full range
25°C
1.65
1.63
1.72
High level
Low level
High level
Low level
Sourcing
Sinking
R
= 600 Ω to 0.9 V,
= 100 mV
L
V
ID
0.077 0.105
0.12
Full range
25°C
V
O
Output swing
V
1.75
1.74
1.77
Full range
25°C
R
V
= 2 kΩ to 0.9 V,
L
=
100 mV
0.024 0.035
ID
Full range
25°C
0.04
8
4
3.3
7
V
V
= 0 V,
= 100 mV
O
ID
Full range
25°C
Output
short-circuit current
I
mA
OS
9
V
V
= 1.8 V,
= −100 mV
O
ID
Full range
5
Turn-on time from
shutdown
T
on
25°C
19
ms
Turn-on voltage to
enable part
1.0
V
25°C
V
SHDN
Turn-off voltage
Gain bandwidth product
Slew rate
0.55
1.4
0.35
67
GBW
SR
25°C
25°C
25°C
25°C
MHz
V/mS
deg
dB
See Note 6
F
m
Phase margin
Gain margin
7
Equivalent input
noise voltage
V
f = 1 kHz, V = 0.5 V
IC
25°C
25°C
60
nV/√Hz
pA/√Hz
n
Equivalent input
noise current
I
n
f = 1 kHz
0.06
f = 1 kHz, A = 1, R = 600 Ω,
V
L
THD
Total harmonic distortion
Amp-to-amp isolation
25°C
25°C
0.023
123
%
V
= 1 V
ID
See Note 7
PP
dB
NOTES: 6. Number specified is the slower of the positive and negative slew rates.
7. Input referred, V = 5 V and R = 100 kΩ connected to 2.5 V. Each amp is excited in turn with a 1-kHz signal to produce
CC+
L
V
O
= 3 V .
PP
5
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
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ꢅꢐ ꢄꢑꢂ ꢒꢓꢊ ꢔꢏꢕ ꢇ ꢒꢈ ꢏꢀ ꢏꢁ ꢓꢀ ꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗꢇ ꢕ ꢘ ꢔ ꢏ ꢇꢀ ꢑ ꢕꢒꢑꢔ ꢏꢇ ꢀ ꢇ ꢈꢓ ꢎꢕ ꢏꢈ ꢍ ꢒ ꢎꢕꢓ ꢎꢕ ꢏꢈꢍ ꢆꢘ ꢎꢕꢍ ꢒꢗ ꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
electrical characteristics at T = 25°C, V
= 2.7 V, V
= 0 V, V = V
/2, V = V
O
/2,
CC+
A
CC+
CC+
CC−
IC
CC+
R > 1 MΩ, and SHDN tied to V
(unless otherwise noted)
L
PARAMETER
TEST CONDITIONS
T
MIN
TYP
MAX
4
UNIT
A
25°C
Full range
25°C
1
LMV981 (single)
6
V
IO
Input offset voltage
mV
1
5.5
7.5
LMV982 (dual)
Full range
Average temperature
coefficient of
input offset voltage
aVIO
25°C
5.5
15
mV/°C
V
= V
CC+
− 0.8 V
25°C
25°C
35
65
75
25
40
190
210
1
IC
I
IB
Input bias current
Input offset current
nA
nA
Full range
25°C
8
105
I
IO
Full range
25°C
Full range
25°C
0.61
0.101
81
Supply current
(per channel)
I
LMV981
mA
CC
Full range
25°C
2
In shutdown
3.5
5
LM982
Full range
25°C
60
55
0 ≤ V ≤ 1.5 V,
IC
2.3 V ≤ V ≤ 2.7 V
−40°C to 85°C
IC
Common-mode
rejection ratio
0.2 ≤ V ≤ 1.5 V,
IC
2.3 V ≤ V ≤ 2.5 V
CMRR
dB
−40°C to 125°C
25°C
55
50
IC
−0.2 V ≤ V ≤ 0 V,
IC
74
2.7 V ≤ V ≤ 2.9 V
IC
25°C
Full range
25°C
75
70
100
Supply-voltage
rejection ratio
1.8 V ≤ V
≤ 5 V,
CC+
IC
k
dB
V
SVR
V
= 0.5 V
V
V
− 0.2 −0.2 to 3.0
V
V
+ 0.2
CC−
V
CC+
V
Common-mode
input voltage range
−40°C to 85°C
−40°C to 125°C
25°C
V
CMRR ≥ 50 dB
CC−
+ 0.2
CC+
− 0.2
ICR
CC−
CC+
87
86
92
91
78
75
81
78
104
110
90
R
V
= 600 Ω to 1.35 V,
= 0.2 V to 2.5 V
L
O
Full range
25°C
LMV981
R
= 2 kΩ to 1.35 V,
= 0.2 V to 2.5 V
L
V
O
Full range
25°C
Large-signal
voltage gain
A
dB
V
R
V
= 600 Ω to 1.35 V,
= 0.2 V to 2.5 V
L
O
Full range
25°C
LMV982
100
R
= 2 kΩ to 1.35 V,
= 0.2 V to 2.5 V
L
V
O
Full range
6
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁꢂ ꢃ ꢄ ꢅ ꢆꢇ ꢈꢉ ꢀ ꢊꢋ ꢀ ꢁꢂꢃ ꢄꢌ ꢍ ꢎꢏ ꢀ
ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
characteristics at T = 25°C, V
= 2.7 V, V
= 0 V, V
= V
/2, V = V
/2,
CC+
A
CC+
CC−
IC
CC+
O
R > 1 MΩ, and SHDN tied to V
(unless otherwise noted) (continued)
L
CC+
PARAMETER
TEST CONDITIONS
T
MIN
2.55
2.53
TYP
MAX
UNIT
A
25°C
Full range
25°C
2.62
High level
R
= 600 Ω to 1.35 V,
L
V
ID
= 100 mV
0.083
0.11
0.13
Low level
High level
Low level
Sourcing
Sinking
Full range
25°C
V
O
Output swing
V
2.65 2.675
2.64
Full range
25°C
R
V
= 2 kΩ to 1.35 V,
L
=
100 mV
0.025
0.04
ID
Full range
25°C
0.045
20
15
18
12
30
25
V
V
= 0 V,
O
ID
= 100 mV
Full range
25°C
Output
short-circuit current
I
mA
OS
V
V
= 2.7 V,
= −100 mV
O
ID
Full range
Turn-on time from
shutdown
T
25°C
12.5
1.9
ms
on
Turn-on voltage to
enable part
V
25°C
V
SHDN
Turn-off voltage
Gain bandwidth product
Slew rate
0.8
1.4
0.4
70
GBW
SR
25°C
25°C
25°C
25°C
MHz
V/mS
deg
dB
See Note 6
F
m
Phase margin
Gain margin
7.5
Equivalent input
noise voltage
V
f = 1 kHz, V = 0.5 V
IC
25°C
25°C
57
nV/√Hz
pA/√Hz
n
Equivalent input
noise current
I
n
f = 1 kHz
0.082
f = 1 kHz, A = 1, R = 600 Ω,
V
L
THD
Total harmonic distortion
Amp-to-amp isolation
25°C
25°C
0.022
123
%
V
= 1 V
ID
See Note 7
PP
dB
NOTES: 6. Number specified is the slower of the positive and negative slew rates.
7. Input referred, V = 5 V and R = 100 kΩ connected to 2.5 V. Each amp is excited in turn with a 1-kHz signal to produce
CC+
L
V
O
= 3 V .
PP
7
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁ ꢂ ꢃ ꢄꢅ ꢆꢇ ꢈ ꢉꢀ ꢊꢋ ꢀꢁ ꢂꢃ ꢄ ꢌ ꢍꢎ ꢏꢀ
ꢅꢐ ꢄꢑꢂ ꢒꢓꢊ ꢔꢏꢕ ꢇ ꢒꢈ ꢏꢀ ꢏꢁ ꢓꢀ ꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ
ꢇ
ꢕ
ꢘ
ꢔ
ꢏ
ꢇꢀ
ꢑ
ꢕ
ꢒ
ꢑ
ꢔ
ꢏ
ꢇ
ꢀ
ꢇ
ꢈ
ꢓ
ꢎ
ꢕ
ꢏ
ꢈ
ꢍ
ꢒ
ꢎ
ꢕꢓ
ꢎ
ꢕ
ꢏ
ꢈ
ꢍ
ꢆ
ꢘ
ꢎ
ꢕꢍ
ꢒꢗ
ꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
electrical characteristics at T = 25°C, V
= 5 V, V
= 0 V, V = V
IC
/2, V = V
/2,
CC+
A
CC+
CC+
CC−
CC+
O
R > 1 MΩ, and SHDN tied to V
(unless otherwise noted)
L
PARAMETER
TEST CONDITIONS
T
MIN
TYP
MAX
4
UNIT
A
25°C
Full range
25°C
1
LMV981 (single)
LMV982 (dual)
6
V
IO
Input offset voltage
mV
1
5.5
7.5
Full range
Average temperature
coefficient of
input offset voltage
aVIO
25°C
5.5
15
mV/°C
V
= V
CC+
− 0.8 V
25°C
25°C
35
65
75
25
40
210
230
1
IC
I
IB
Input bias current
Input offset current
nA
nA
Full range
25°C
9
116
I
IO
Full range
25°C
Full range
25°C
0.201
0.302
86
Supply current
(per channel)
I
LMV981
LM982
mA
CC
Full range
25°C
2
In
shutdown
3.5
5
Full range
25°C
60
55
0 ≤ V ≤ 3.8 V,
4.6 V ≤ V ≤ 5 V
IC
−40°C to 85°C
IC
Common-mode
rejection ratio
0.3 ≤ V ≤ 3.8 V,
IC
CMRR
dB
−40°C to 125°C
25°C
55
50
4.6 V ≤ V ≤ 4.7 V
IC
−0.2 V ≤ V ≤ 0 V,
IC
78
5 V ≤ V ≤ 5.2 V
IC
25°C
Full range
25°C
75
70
100
Supply-voltage
rejection ratio
1.8 V ≤ V
≤ 5 V,
CC+
IC
k
dB
V
SVR
V
= 0.5 V
V
V
− 0.2 −0.2 to 5.3
V
V
+ 0.2
CC−
V
CC+
V
Common-mode
input voltage range
−40°C to 85°C
−40°C to 125°C
25°C
+
V
CMRR ≥ 50 dB
CC−
+ 0.3
CC
ICR
− 0.3
CC−
CC+
88
87
94
93
81
78
85
82
102
113
90
R
V
= 600 Ω to 2.5 V,
= 0.2 V to 4.8 V
L
O
Full range
25°C
LMV981
R
= 2 kΩ to 2.5 V,
= 0.2 V to 4.8 V
L
V
O
Full range
25°C
Large-signal
voltage gain
A
dB
V
R
V
= 600 Ω to 2.5 V,
= 0.2 V to 4.8 V
L
O
Full range
25°C
LMV982
100
R
= 2 kΩ to 2.5 V,
= 0.2 V to 4.8 V
L
V
O
Full range
8
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁꢂ ꢃ ꢄ ꢅ ꢆꢇ ꢈꢉ ꢀ ꢊꢋ ꢀ ꢁꢂꢃ ꢄꢌ ꢍ ꢎꢏ ꢀ
ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
electrical characteristics at T = 25°C, V
= 5 V, V
= 0 V, V = V
/2, V = V
/2,
A
CC+
CC+
CC−
IC
CC+
O
CC+
R > 1 MΩ, and SHDN tied to V
(unless otherwise noted) (continued)
L
PARAMETER
TEST CONDITIONS
T
A
MIN
TYP
MAX
UNIT
25°C
Full range
25°C
4.855
4.835
4.89
High level
Low level
High level
Low level
Sourcing
Sinking
R
= 600 Ω to 2.5 V,
= 100 mV
L
V
ID
0.12
0.16
0.18
Full range
25°C
V
O
Output swing
V
4.945 4.967
4.935
Full range
25°C
R
V
= 2 kΩ to 2.5 V,
L
=
100 mV
0.037 0.065
0.075
ID
Full range
25°C
80
68
58
45
100
LMV981:
V
O
= 0 V, V = 100 mV
ID
Full range
25°C
Output short-circuit
current
I
mA
OS
65
V
V
= 5 V,
= −100 mV
O
ID
Full range
Turn-on time from
shutdown
T
25°C
8.4
4.2
ms
on
Turn-on voltage to
enable part
V
25°C
V
SHDN
Turn-off voltage
Gain bandwidth product
Slew rate
0.8
1.5
0.42
71
GBW
SR
25°C
25°C
25°C
25°C
MHz
V/mS
deg
dB
See Note 6
F
m
Phase margin
Gain margin
8
Equivalent input
noise voltage
V
f = 1 kHz, V = 1 V
IC
25°C
25°C
50
nV/√Hz
pA/√Hz
n
Equivalent input
noise current
I
n
f = 1 kHz
0.07
f = 1 kHz, A = 1, R = 600 Ω,
V
L
THD
Total harmonic distortion
Amp-to-amp isolation
25°C
25°C
0.022
123
%
V
= 1 V
ID
See Note 7
PP
dB
NOTES: 6. Number specified is the slower of the positive and negative slew rates.
7. Input referred, V = 5 V and R = 100 kΩ connected to 2.5 V. Each amp is excited in turn with a 1-kHz signal to produce
CC+
L
V
O
= 3 V .
PP
9
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁ ꢂ ꢃ ꢄꢅ ꢆꢇ ꢈ ꢉꢀ ꢊꢋ ꢀꢁ ꢂꢃ ꢄ ꢌ ꢍꢎ ꢏꢀ
ꢅꢐ ꢄꢑꢂ ꢒꢓꢊ ꢔꢏꢕ ꢇ ꢒꢈ ꢏꢀ ꢏꢁ ꢓꢀ ꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗꢇ ꢕ ꢘ ꢔ ꢏ ꢇꢀ ꢑ ꢕꢒꢑꢔ ꢏꢇ ꢀ ꢇ ꢈꢓ ꢎꢕ ꢏꢈ ꢍ ꢒ ꢎꢕꢓ ꢎꢕ ꢏꢈꢍ ꢆꢘ ꢎꢕꢍ ꢒꢗ ꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
TYPICAL PERFORMANCE CHARACTERISTICS
Unless Otherwise Specified, V
= 5 V, Single Supply, T = 255C
CC+
A
SLEW RATE
vs
SUPPLY VOLTAGE
SUPPLY CURRENT
vs
SUPPLY VOLTAGE
0.6
0.17
0.15
0.13
0.11
0.09
0.07
R
= 2 kΩ
= 1
L
125°C
85°C
A
V
0.55
0.5
V = 1 V
I
pp
Falling Edge
Rising Edge
25°C
−40°C
0.45
0.4
0.05
0.03
0.35
0.3
0.01
−0.01
0
1
2
3
4
5
0.25
0
1
2
3
4
5
6
Supply Voltage − V
Supply Voltage − V
Figure 1
Figure 2
SINK CURRENT
vs
OUTPUT VOLTAGE
SOURCE CURRENT
vs
OUTPUT VOLTAGE
1,000
100
10
1,000
100
10
5-V Sink
5-V Source
2.7-V Sink
1.8-V Sink
2.7-V Source
1.8-V Source
1
1
0.1
0.1
0.01
0.01
0.1
0.001
0.01
10
0.1
0.001
0.01
10
1
1
Output Voltage Referenced to V (V)
+
Output Voltage Referenced to V− (V)
Figure 3
Figure 4
10
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁꢂ ꢃ ꢄ ꢅ ꢆꢇ ꢈꢉ ꢀ ꢊꢋ ꢀ ꢁꢂꢃ ꢄꢌ ꢍ ꢎꢏ ꢀ
ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
TYPICAL PERFORMANCE CHARACTERISTICS
Unless Otherwise Specified, V
= 5 V, Single Supply, T = 255C
CC+
A
OUTPUT VOLTAGE SWING
vs
OUTPUT VOLTAGE SWING
vs
SUPPLY VOLTAGE
SUPPLY VOLTAGE
140
120
100
80
45
40
35
30
25
20
15
10
5
R
= 2 kΩ
L
R
= 600 Ω
L
Negative Swing
Negative Swing
60
Positive Swing
Positive Swing
40
20
0
0
0
1
2
3
4
5
6
0
1
2
3
4
5
6
Supply Voltage − V
Supply Voltage − V
Figure 6
Figure 5
SHORT-CIRCUIT CURRENT (SINK)
SHORT-CIRCUIT CURRENT (SOURCE)
vs
vs
TEMPERATURE
TEMPERATURE
160
140
120
100
80
160
140
120
100
80
5-V Source
5-V Sink
60
60
2.7-V Source
1.8-V Source
2.7-V Sink
1.8-V Sink
40
40
20
0
20
0
−40 −20
0
20
40
60
80
100
120
−40 −20
0
20
40
80
100 120
60
Temperature − °C
Temperature − °C
Figure 7
Figure 8
11
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁ ꢂ ꢃ ꢄꢅ ꢆꢇ ꢈ ꢉꢀ ꢊꢋ ꢀꢁ ꢂꢃ ꢄ ꢌ ꢍꢎ ꢏꢀ
ꢅꢐ ꢄꢑꢂ ꢒꢓꢊ ꢔꢏꢕ ꢇ ꢒꢈ ꢏꢀ ꢏꢁ ꢓꢀ ꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗꢇ ꢕ ꢘ ꢔ ꢏ ꢇꢀ ꢑ ꢕꢒꢑꢔ ꢏꢇ ꢀ ꢇ ꢈꢓ ꢎꢕ ꢏꢈ ꢍ ꢒ ꢎꢕꢓ ꢎꢕ ꢏꢈꢍ ꢆꢘ ꢎꢕꢍ ꢒꢗ ꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
TYPICAL PERFORMANCE CHARACTERISTICS
Unless Otherwise Specified, V
= 5 V, Single Supply, T = 255C
CC+
A
1.8-V FREQUENCY RESPONSE
vs
C
L
110
90
70
50
30
60
50
40
V
R
= 1.8 V
= 600 Ω
S
L
Phase
Gain
30
20
10
10
−10
C
C
C
= 0 pF
= 300 pF
= 1,000 pF
0
L
L
L
−10
−30
10k
100k
1M
10M
Frequency − Hz
Figure 9
5-V FREQUENCY RESPONSE
vs
C
L
110
60
50
40
30
20
10
0
V
R
= 5 V
= 600 Ω
S
L
Phase
90
70
50
Gain
30
10
C
C
C
= 0 pF
= 300 pF
= 1,000 pF
L
L
L
−10
−30
10M
−10
10k
1M
100k
Frequency − Hz
Figure 10
12
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁꢂ ꢃ ꢄ ꢅ ꢆꢇ ꢈꢉ ꢀ ꢊꢋ ꢀ ꢁꢂꢃ ꢄꢌ ꢍ ꢎꢏ ꢀ
ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
TYPICAL PERFORMANCE CHARACTERISTICS
Unless Otherwise Specified, V
= 5 V, Single Supply, T = 255C
CC+
A
1.8-V FREQUENCY RESPONSE
vs
TEMPERATURE
60
50
40
30
20
10
0
110
90
V
R
C
= 1.8 V
= 600 Ω
= 150 pF
S
L
L
Phase
70
50
25°C
85°C
Gain
25°C
85°C
−40°C
30
125°C
10
125°C
−10
−30
−40°C
−10
10k
100k
1M
10M
Frequency − Hz
Figure 11
5-V FREQUENCY RESPONSE
vs
TEMPERATURE
60
50
40
30
20
10
0
110
V
R
C
= 5 V
= 600 Ω
= 150 pF
S
L
L
Phase
90
70
50
25°C
85°C
Gain
25°C
−40°C
30
125°C
85°C
125°C
10
−40°C
−10
−30
−10
10k
100k
1M
10M
Frequency − Hz
Figure 12
13
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁ ꢂ ꢃ ꢄꢅ ꢆꢇ ꢈ ꢉꢀ ꢊꢋ ꢀꢁ ꢂꢃ ꢄ ꢌ ꢍꢎ ꢏꢀ
ꢅꢐ ꢄꢑꢂ ꢒꢓꢊ ꢔꢏꢕ ꢇ ꢒꢈ ꢏꢀ ꢏꢁ ꢓꢀ ꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗꢇ ꢕ ꢘ ꢔ ꢏ ꢇꢀ ꢑ ꢕꢒꢑꢔ ꢏꢇ ꢀ ꢇ ꢈꢓ ꢎꢕ ꢏꢈ ꢍ ꢒ ꢎꢕꢓ ꢎꢕ ꢏꢈꢍ ꢆꢘ ꢎꢕꢍ ꢒꢗ ꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
TYPICAL PERFORMANCE CHARACTERISTICS
Unless Otherwise Specified, V
= 5 V, Single Supply, T = 255C
CC+
A
PSRR
vs
CMRR
vs
FREQUENCY
FREQUENCY
100
90
80
70
60
50
100
90
1.8 V
2.7 V
5 V
+PSRR
−PSRR
80
70
60
50
40
30
10
100
1k
10k
10
100
1k
10k
100k
Frequency − Hz
Frequency − Hz
Figure 13
Figure 14
THD
vs
THD
vs
FREQUENCY
FREQUENCY
10
10
1
R = 600 Ω
L
V
R
A
V
= 600 Ω
= 1
L
A = 10
1
0.1
0.1
0.01
0.01
1.8 V
2.7 V
5 V
1.8 V
2.7 V
5 V
0.001
0.001
10
100
1k
10k
100k
10
100
1k
10k
100k
Frequency − Hz
Frequency − Hz
Figure 15
Figure 16
14
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁꢂ ꢃ ꢄ ꢅ ꢆꢇ ꢈꢉ ꢀ ꢊꢋ ꢀ ꢁꢂꢃ ꢄꢌ ꢍ ꢎꢏ ꢀ
ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
TYPICAL PERFORMANCE CHARACTERISTICS
Unless Otherwise Specified, V
= 5 V, Single Supply, T = 255C
CC+
A
SMALL-SIGNAL NONINVERTING RESPONSE
SMALL-SIGNAL NONINVERTING RESPONSE
0.25
0.1
0.25
V
R
= 1.8 V
= 2 kΩ
0.1
S
L
V
R
= 2.7 V
= 2 kΩ
Input
S
L
0.05
Input
0.2
0.05
0.2
0.15
0.1
0
0.15
0
−0.05
0.1
−0.05
Output
0.05
Output
−0.1
0.05
−0.1
−0.15
0
−0.15
0
−0.2
−0.05
−0.1
−0.05
−0.2
−0.25
−0.25
−0.1
0.25 µs/div"
0.25 µs/div"
Figure 17
Figure 18
SMALL-SIGNAL NONINVERTING RESPONSE
LARGE-SIGNAL NONINVERTING RESPONSE
0.25
0.1
1.8
4.5
3.6
2.7
V
R
= 5 V
= 2 kΩ
V
= 1.8 V
= 2 kΩ
= 1
S
L
S
R
L
Input
Input
A
V
0.05
0.2
0.15
0.1
0.9
0
0
−0.9
−0.05
−0.1
1.8
0.9
0
Output
Output
0.05
−1.8
−2.7
−0.15
−0.2
0
−0.05
−0.1
−3.6
−4.5
−0.9
−1.8
−0.25
0.25 µs/div"
10 µs/div"
Figure 19
Figure 20
15
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁ ꢂ ꢃ ꢄꢅ ꢆꢇ ꢈ ꢉꢀ ꢊꢋ ꢀꢁ ꢂꢃ ꢄ ꢌ ꢍꢎ ꢏꢀ
ꢅꢐ ꢄꢑꢂ ꢒꢓꢊ ꢔꢏꢕ ꢇ ꢒꢈ ꢏꢀ ꢏꢁ ꢓꢀ ꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗꢇ ꢕ ꢘ ꢔ ꢏ ꢇꢀ ꢑ ꢕꢒꢑꢔ ꢏꢇ ꢀ ꢇ ꢈꢓ ꢎꢕ ꢏꢈ ꢍ ꢒ ꢎꢕꢓ ꢎꢕ ꢏꢈꢍ ꢆꢘ ꢎꢕꢍ ꢒꢗ ꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
TYPICAL PERFORMANCE CHARACTERISTICS
Unless Otherwise Specified, V
= 5 V, Single Supply, T = 255C
CC+
A
LARGE-SIGNAL NONINVERTING RESPONSE
LARGE-SIGNAL NONINVERTING RESPONSE
6.75
2.7
12.5
5
V
= 2.7 V
= 2 kΩ
= 1
S
V
S
= 5 V
= 2 kΩ
= 1
R
A
V
L
R
A
Input
L
V
Input
1.35
2.5
5.4
10
4.05
2.7
0
0
7.5
−2.5
−5
−1.35
5
Output
Output
1.35
0
−2.7
2.5
−7.5
−10
0
−2.5
−5
−4.05
−1.35
−5.4
−12.5
−2.7
−6.75
10 µs/div"
10 µs/div"
Figure 21
Figure 22
OFFSET VOLTAGE
vs
OFFSET VOLTAGE
vs
COMMON-MODE RANGE
COMMON-MODE RANGE
1
1
V
S
= 1.8 V
V
S
= 2.7 V
0.5
0
0.5
0
−0.5
−1
−0.5
−1
−1.5
−2
−1.5
−2
125°C
125°C
85°C
25°C
−40°C
85°C
25°C
−40°C
−2.5
−3
−2.5
−3
−0.4
0.1
0.6
1.1
1.6
− V
2.1
2.6
3.1
−0.4
0
0.4
0.8
1.2
1.6
2
2.4
V
IC
V
IC
− V
Figure 24
Figure 23
16
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
ꢀ ꢁꢂ ꢃ ꢄ ꢅ ꢆꢇ ꢈꢉ ꢀ ꢊꢋ ꢀ ꢁꢂꢃ ꢄꢌ ꢍ ꢎꢏ ꢀ
ꢅ ꢐꢄ ꢑꢂ ꢒ ꢓꢊꢔ ꢏꢕ ꢇꢒ ꢈꢏꢀ ꢏꢁ ꢓ ꢀꢇ ꢖꢇ ꢊꢔ ꢆ
ꢗ ꢇ ꢕꢘ ꢔꢏꢇ ꢀ ꢑꢕꢒ ꢑꢔꢏꢇ ꢀ ꢇꢈ ꢓꢎꢕ ꢏꢈꢍ ꢒ ꢎꢕ ꢓꢎꢕ ꢏꢈꢍ ꢆꢘꢎ ꢕꢍ ꢒ ꢗꢈ
SLOS440G − AUGUST 2004 − REVISED MAY 2005
TYPICAL PERFORMANCE CHARACTERISTICS
Unless Otherwise Specified, V
= 5 V, Single Supply, T = 255C
CC+
A
OFFSET VOLTAGE
vs
COMMON-MODE RANGE
1
V
S
= 5 V
0.5
0
−0.5
−1
−1.5
−2
125°C
85°C
25°C
−40°C
−2.5
−3
−0.4
0.6
1.6
2.6
− V
3.6
4.6
5.6
V
IC
Figure 25
17
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
PACKAGE OPTION ADDENDUM
www.ti.com
18-Jul-2006
PACKAGING INFORMATION
Orderable Device
LMV981IDBVR
Status (1)
ACTIVE
ACTIVE
ACTIVE
ACTIVE
ACTIVE
ACTIVE
ACTIVE
Package Package
Pins Package Eco Plan (2) Lead/Ball Finish MSL Peak Temp (3)
Qty
Type
Drawing
SOT-23
DBV
6
3000 Green (RoHS & CU NIPDAU Level-1-260C-UNLIM
no Sb/Br)
LMV981IDBVRE4
LMV981IDCKR
SOT-23
SC70
DBV
DCK
DCK
DGS
DGS
DGS
6
3000 Green (RoHS & CU NIPDAU Level-1-260C-UNLIM
no Sb/Br)
6
3000 Green (RoHS & CU NIPDAU Level-1-260C-UNLIM
no Sb/Br)
LMV981IDCKRE4
LMV982IDGSR
SC70
6
3000 Green (RoHS & CU NIPDAU Level-1-260C-UNLIM
no Sb/Br)
MSOP
MSOP
MSOP
10
10
10
2500 Green (RoHS & CU NIPDAU Level-1-260C-UNLIM
no Sb/Br)
LMV982IDGSRE4
LMV982IDGSRG4
2500 Green (RoHS & CU NIPDAU Level-1-260C-UNLIM
no Sb/Br)
2500 Green (RoHS & CU NIPDAU Level-1-260C-UNLIM
no Sb/Br)
(1) The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in
a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
(2)
Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check
http://www.ti.com/productcontent for the latest availability information and additional product content details.
TBD: The Pb-Free/Green conversion plan has not been defined.
Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements
for all 6 substances, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered
at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes.
Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and
package, or 2) lead-based die adhesive used between the die and leadframe. The component is otherwise considered Pb-Free (RoHS
compatible) as defined above.
Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame
retardants (Br or Sb do not exceed 0.1% by weight in homogeneous material)
(3)
MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder
temperature.
Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is
provided. TI bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the
accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and continues to take
reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on
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information may not be available for release.
In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI
to Customer on an annual basis.
Addendum-Page 1
IMPORTANT NOTICE
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