UTC LMV358-S08-R General purpose, low voltage, rail-to-rail output operational amplifier Datasheet

UNISONIC TECHNOLOGIES CO., LTD
LMV358
LINEAR INTEGRATED CIRCUIT
GENERAL PURPOSE, LOW
VOLTAGE, RAIL-TO-RAIL
OUTPUT OPERATIONAL
AMPLIFIERS
SOP-8
DESCRIPTION
The UTC LMV358 are low voltage (2.7-5.5V) versions of the dual
and quad commodity op amps, LM358, which currently operate at
5-30V. The UTC LMV358 are the most cost effective solutions for
the applications where low voltage operation, space saving and low
price are needed. They offer specifications that meet or exceed the
familiar LM358. The UTC LMV358 have rail-to-rail output swing
capability and the input common-mode voltage range includes
ground. They all exhibit excellent speed-power ratio, achieving
1MHz of bandwidth and 1V/µs of slew rate with low supply current.
The chips are built with National’s advanced submicron
silicon-gate BiCMOS process. The UTC LMV358 have bipolar input
and output stages for improved noise performance and higher output
current drive.
DIP-8
TSSOP-8
*Pb-free plating product number: LMV358L
FEATURES
(For V1 =5V and V=0V. Typical Unless Otherwise Noted)
*Guaranteed 2.7V and 5V Performance
*No Crossover Distortion
*Space Saving Package
*Industrial Temp. Range
*Gain-Bandwidth Product
*Low Supply Current: 210µA
*Rail-to-Rail Output Swing
@10kΩ Load
V1-10mV
V +65mV
*VCM -0.2V to V1 –0.8V
ORDERING INFORMATION
Order Number
Normal
Lead Free Plating
LMV358-D08-T
LMV358L-D08-T
LMV358-P08-R
LMV358L-P08-R
LMV358-P08-T
LMV358L-P08-T
LMV358-S08-R
LMV358L-S08-R
LMV358-S08-T
LMV358L-S08-T
Package
Packing
DIP-8
TSSOP-8
TSSOP-8
SOP-8
SOP-8
Tube
Tape Reel
Tube
Tape Reel
Tube
LMV358L-D08-T
(1)Packing Type
(2)Package Type
(3)Lead Plating
www.unisonic.com.tw
Copyright © 2005 Unisonic Technologies Co., Ltd
(1) R: Tape Reel, T: Tube
(2) D08: DIP-8, S08: SOP-8, P08: TSSOP-8
(3) L: Lead Free Plating, Blank: Pb/Sn
1 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
PIN CONFIGURATIONS
OUT A
1
IN A-
2
IN A+
3
V-
4
A
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B
8
V+
7
OUT B
6
IN B-
5
IN B+
2 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
ABSOLUTE MAXIMUM RATINGS
PARAMETER
SYMBOL
RATINGS
UNIT
ESD Tolerance(Note 2)
Machine Model
100
V
Human Body Model
2000
V
±Supply
Voltage
Differential Input Voltage
VI(DIFF)
Supply Voltage (V1-V)
VSS
5.5
V
Output Short Circuit to V1
(Note 3)
Output Short Circuit to V
(Note 4)
Infrared (15 sec)
215
°C
Junction Temp. (Tj, max) (Note 5)
TJ
+150
°C
Storage Temp. Range
TSTG
-65 to 150
°C
Note Absolute maximum ratings are those values beyond which the device could be permanently damaged.
Absolute maximum ratings are stress ratings only and functional device operation is not implied.
OPERATING RATINGS (NOTE 1)
PARAMETER
Supply Voltage
Temperature Range
SYMBOL
VSS
RATINGS
2.7 to 5.5
-40≦TJ≦85
UNIT
V
°C
SYMBOL
θJA
RATINGS
235
UNIT
°C/W
THERMAL DATA
PARAMETER
Thermal Resistance (Note 8)
2.7V DC ELECTRICAL CHARACTERISTICS
Unless otherwise specified, all limits guaranteed for TJ =25°C, V1=2.7V, V=0V, VCM=1.0V, VOUT =V1/2 and RL=1MΩ
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNIT
Input Offset Voltage
VOS
1.7
7
mV
Input Offset Voltage Average Drift
TCVos
5
µV/°C
Input Bias Current
II(BIAS)
11
250
nA
Input Offset Current
II(OFF)
5
50
nA
0V≦VCM≦1.7V
50
63
dB
Common Mode Rejection Ratio
CMRR
2.7V≦V1 ≦5V
50
60
dB
Power Supply Rejection Ratio
PSRR
VOUT =1V
0
-0.2
V
For CMRR≧50dB
Input Common-Mode Voltage Range
VCM
1.9
1.7
V
V1-100
V1-10
mV
Output Swing
VOUT
RL=10kΩ to 1.35V
60
180
mV
Supply Current
ISS
Both amplifiers
140
340
µA
2.7V AC ELECTRICAL CHARACTERISTICS
Unless otherwise specified, all limits guaranteed for TJ =25°C, V1=2.7V, V=0V, VCM=1.0V, VOUT =V1/2 and RL>1MΩ
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNIT
Gain-Bandwidth Product
GBWP CL=200pF
1
MHz
Phase Margin
Φ(T)
60
Deg
Gain Margin
G(r)
10
dB
nV
θr1
Input-Referred Voltage Noise
F=1kHz
46
√ Hz
pA
Input-referred Current Noise
Ir1
F=1kHz
0.17
√ Hz
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3 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
5V DC ELECTRICAL CHARACTERISTICS
Unless otherwise specified, all limits guaranteed for TJ =25°C, V1=5V, V=0V, VCM=2.0V, VOUT=V1/2 and RL>1MΩ.
Boldface limits apply at the temperature extremes.
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNIT
Input Offset Voltage
VOS
7
1.7
9
mV
Input Offset Voltage Average Drift
TCVos
5
µV/°C
Input Bias Current
II(BIAS)
250
15
500
nA
Input Offset Current
II(OFF)
50
5
150
nA
50
65
dB
Common Mode Rejection Ratio
CMRR 0V≦VCM≦4V
2.7V≦V1≦5V
Power Supply Rejection Ratio
PSRR
50
60
dB
VOUT=1V VCM=1V
0
-0.2
V
For CMRR≧50dB
Input Common-Mode Voltage Range
VCM
4.2
4
V
Large Signal Voltage Gain(Note 6)
Av
RL=2kΩ
10
100
15
V/mV
V+-400
V1-40
V1-300
mV
RL=2kΩ to 2.5V
300
120
400
mV
Output Swing
VOUT
V+-200
V1-10
V1-100
mV
RL=10kΩ to 2.5V
180
65
280
mV
Sourcing, VOUT =0V
5
60
mA
Output Short Circuit Current
IOUT
10
160
mA
Sinking, VOUT =5V
Supply Current
ISS
Both amplifiers
440
210
615
µA
2.5V AC ELECTRICAL CHARACTERISTICS
Unless otherwise specified, all limits guaranteed for TJ =25°C, V1=2.7V, V=0V, VCM=2.0V, VOUT=V1/2 and RL>1MΩ
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNIT
Slew Rate
SR
1
V/µs
Gain-Bandwidth Product
GBWP CL=200pF
1
MHz
Phase Margin
Φ(T)
60
Deg
Gain Margin
G(r)
10
dB
nV
Input-Referred Voltage Noise
θr1
f=1kHz
39
√ Hz
pA
Input-referred Current Noise
Ir1
f=1kHz
0.21
√ Hz
Note1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings
indicate conditions for which the device is intended to be functional, but specific performances is not
guaranteed. For guaranteed specifications and the test conditions, see the Electrical Characteristics.
Note2: Human body model 1.5kΩ in series with 100pF. Machine model, 0Ω in series with 200pF.
Note3: Shorting output to V1 will adversely after reliability.
Note4: Shorting output to V+ will adversely affect reliability.
Note5: The maximum power dissipation is a function of TJ(max) θJA and TA. The maximum allowable power
dissipation at any ambient temperature is PD=(TJ(max)-TA)/θJA. All numbers apply for packages soldered
directly into a PC board.
Note6: RL is connected to V. The output voltage is 0.5V≦VOUT≦4.5V.
Note7: Connected as voltage follower with 3V step input. Number specified is these lower of the positive and
negative slew rates.
Note8: all numbers are typical, and apply for packages soldered directly note a PC board is still air.
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4 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
TYPICAL CHARACTERISTICS
(Unless otherwise specified, VE=+5V, single supply. TA=25°C)
200
Supply Current vs Supply Voltage
(LMV321)
Input Current vs Temperature
-10
150
125
T
100
=
℃
85
T=
75
2
T=
50
Suply Current (nA)
Suply Current (μA)
175
5℃
- 40
℃
-12
VSS = 5V
VIN = VSS/2
-14
-16
-18
25
0
0
1
2
3
4
Supply Voltage (V)
-20
-40 -20
5
100
10
10
1
VSS = 2.7V
0.1
0.1
0.001
0.001 0.01
0.1
1
10
+
Output Voltage Referenced V (V)
0.001 0.01
0.1
1
10
+
Output Voltage Referenced V (V)
Sinking Current vs Output Voltage
1000
10
100
VSS = 2.7V
0.1
0.01
ISINK (mA)
ISINK (mA)
Sinking Current vs Output Voltage
100
1
VSS = 3V
1
0.01
0.01
0.001
80
Sourcing Current vs Output Voltage
100
ISOURCT (mA)
ISOURCT (mA)
Sourcing Current vs Output Voltage
0 20 40 60
Temperature (℃)
VSS = 5V
10
1
0.1
0.01
0.001
0.01
0.1
1
10
Output Voltage Referenced to GND (V)
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0.001
0.01
0.1
1
10
Output Voltage Referenced to GND (V)
5 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
TYPICAL CHARACTERISTICS(Cont.)
Open Loop Output Impedance
vs Frequency
Short Circuit Current (mA)
Output Impedance (Ω)
1000
900
800
700
600
500
400
300
200
100
0
VSS = 2.7V
VSS = 5V
1k
Short Circuit Current vs
Temperature (Sinking)
10k
100k
1M
Frequency (Hz)
200
VSS = 5V
180
160
140
120
100
80
60
VSS = 2.7V
40
20
0
20 40 60 80
-40 -20 0
-30 -10 10 30 50 70 90
Temperature (℃)
Output Voltage Swing vs
Supply Voltage
100
90
80
70
VSS = 5V
60
50
VSS = 2.7V
40
30
20
10
Output Impedance Iron
Supply Voltage (mV)
Short Circuit Current (mA)
Short Circuit Current vs
Temperature (Sourcing)
0
20 40 60 80
-40 -20 0
-30 -10 10 30 50 70 90
100
90
R L = 10kΩ
80
70
Negative Swing
60
50
40
30
Poaltive Swing
20
10
0
2.5
Input Voltage Noise vs Frequency
55
50
VSS = 2.7V
45
VSS = 5V
40
35
30
10
100
1k
10k
Frequency (Hz)
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Input Current Noise (μA/√Hz)
Input Voltage Noise (nV/√Hz)
60
4
5
4.5
Input Current Noise vs Frequency
70
VCM = VS/2
3.5
Supply Voltage (V)
Temperature (℃)
65
3
0.6
0.5
VSS = 2.7V
0.4
0.3
0.2
0.1
0.0
10
100
1k
10k
Frequency (Hz)
6 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
TYPICAL CHARACTERISTICS(Cont.)
Input Current Noise vs Frequency
Crosstalk Rejection vs Frequency
150
VSS = 5V
0.5
Crosstalk Rejection (dB)
Input Current Noise (μA/√Hz)
0.6
0.4
0.3
0.2
0.1
0.0
10
100
1k
VSS = 5V
RL = 5kΩ
140
130
120
110
100
90
100
10k
PSRR vs Frequency
VSS = 5V, +PSRR
RL = 5kΩ
40
35 VSS = 2.7V, +PSRR
30 VSS = 5V, -PSRR
25 V = 2.7V, -PSRR
SS
20
1k
10k
100
65
60
55
50
45
100k
40
10
1M
CMRR (dB)
CMRR (dB)
80
75
70
VSS = 2.7V
f = 10kHz
RL = 5kΩ
60
55
50
45
40
35
30
-0.5 0.0 0.5 1.0 1.5 2.0 2.5 3.0
Input Common Mode Voltage (V)
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10k 30k
1k
CMRR vs Input Common Mode
Voltage
Common Mode vs Voltage
75
70
65
100
Frequency (Hz)
Frequency (Hz)
80
VSS = 5V
VCM = VSS/2
RL = 5kΩ
75
70
50
45
100k
CMRR vs Frequency
80
CMRR (dB)
PSRR (dB)
65
60
55
10k
Frequency (Hz)
Frequency (Hz)
70
1k
65
VSS = 5V
f = 10kHz
RL = 5kΩ
60
55
50
45
40
35
30
-0.5 0.00.51.0 1.52.02.5 3.03.54.0 4.55.0
Input Common Mode Voltage (V)
7 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
TYPICAL CHARACTERISTICS(Cont.)
ΔVOS vs CMR
0.8
0.6
0.4
AVOS (mV)
AVOS (mV)
0.8 VSS = ±1.35V
0.6
0.4
0.2
0.0
-0.2
-0.4
-0.2
-0.4
-0.6
-0.8
-0.8
-1
-0.5
0
0.5
1
-1.0
1.5
VSS = ±2.5V
0.2
0.0
-0.6
-1.0
-1.5
ΔVOS vs CMR
1.0
-3
-2
-1
-300
-250
-200
-150
-100
-50
0
50
100
150
200
250
300
VSS = ±2.5V
R L = 600Ω
R L = 10kΩ
-3
RL = 100kΩ
GAIN 15
0
RL = 600Ω
10k
45
30
RL = 2kΩ
0
-10
1k
70
60
30
10
105
100k
1M
-15
10M
Frequency (Hz)
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60
Gain (dB)
Gain (dB)
40
20
80
90
PHASE 75
RL = 100kΩ
0
-1
1
2
3
Open Loop Frequency Response
120
Phase Margin (Dog)
VSS = 2.7V
60
-2
Output Voltage (V)
Open Loop Frequency Response
50
3
RL = 2kΩ
Output Voltage (V)
70
2
Input Voltage vs Output Voltage
Input Voltage (μV)
Input Voltage (μV)
Input Voltage vs Output Voltage
-300
VSS = ±1.35V
-250
-200
RL = 2kΩ
-150
RL = 600Ω
-100
-50
0
50
100
RL = 10kΩ
150
200
250
300
-1.5 -1 -0.5 0
0.5
1
1.5
RL = 600Ω
RL = 2kΩ
1
VCM (V)
VCM (V)
80
0
50
RL = 600Ω
RL = 2kΩ
VSS = 5V
R L = 100kΩ
30
60
45
RL = 2kΩ
20
RL = 600Ω
10
GAIN
30
15
0
-10
1k
105
PHASE 90
75
RL = 100kΩ
40
120
Phase Margin (Dog)
1.0
0
10k
100k
1M
-15
10M
Frequency (Hz)
8 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
50
75
40
60
30
20
10
45
25℃
GAIN
85℃
-40℃
0
-10
1k
10k
100k
30
15
0
1M
-15
10M
Gain and Phase vs Capacitive Load
70
140
CL = 500pF VSS = 5V
120
60
CL = 1000pF
RL = 600Ω
50
PHASE
100
CL = 0
80
40
30
60
CL = 100pF
20
GAIN
40
10
20
0
0
CL = 0
CL = 1000pF
-10
-20
CL = 500pF
-40
-20
CL = 100pF
-30
-60
10k
100k
10M
1M
Frequency (Hz)
Frequency (Hz)
Gain and Phase vs Capacitive Load
140
CL = 500pF VSS = 5V
120
CL = 1000pF
RL = 100Ω
50
100
PHASE
CL = 0
40
80
30
60
CL = 100pF
40
20
GAIN
10
20
CL = 0
0
0
CL = 1000pF
-10
-20
CL = 500pF
-40
-20
CL = 100pF
-30
-60
10k
100k
10M
1M
Slew Rate vs Supply Voltage
Sles Rate (V/μs)
1.5
1.4
Phase Margin (Dog)
Gain (dB)
70
60
Time (1μs/div)
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Failing Edge
1.1
1.0
0.9
0.8
0.7
0.6
0.5
2.5
Rising Edge
3.0
3.5
4.0
4.5
5.0
Supply Voltage (V)
Non-Inverting Large Signal
Pulse Response
Output Signal Input Signal
(1V/div)
Non-Inverting Large Signal
Pulse Response
TA = 25℃, R L = 2kΩ
AV = +1
R L = 10kΩ
VIN = 1VPP
1.3
1.2
Frequency (Hz)
Output Signal Input Signal
(1V/div)
Gain (dB)
60
VSS = 5V
R L = 2kΩ 105
PHASE 90
Gain (dB)
85℃
-40℃
25℃
70
120
Phase Margin (Dog)
80
Open Loop Frequency Response
vs Temperature
Phase Margin (Dog)
TYPICAL CHARACTERISTICS(Cont.)
TA = 85℃, RL = 2kΩ
Time (1μs/div)
9 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
TYPICAL CHARACTERISTICS(Cont.)
Output Signal Input Signal
(50mV/div)
TA = -40℃, R L = 2kΩ
Non-Inverting Small Signal
Pulse Response
TA = 25℃, RL = 2kΩ
Time (1μs/div)
Non-Inverting Small Signal
Pulse Response
Non-Inverting Small Signal
Pulse Response
TA = 85℃, R L = 2kΩ
Output Signal Input Signal
(50mV/div)
Time (1μs/div)
TA = -40℃, RL = 2kΩ
Time (1μs/div)
Time (1μs/div)
Non-Inverting Large Signal
Pulse Response
Non-Inverting Large Signal
Pulse Response
TA = 25℃, R L = 2kΩ
Time (1μs/div)
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Output Signal Input Signal
(1V/div)
Output Signal Input Signal
(1V/div)
Output Signal Input Signal
(50mV/div)
Output Signal Input Signal
(1V/div)
Non-Inverting Large Signal
Pulse Response
TA = 85℃, RL = 2kΩ
Time (1μs/div)
10 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
TYPICAL CHARACTERISTICS(Cont.)
Non-Inverting Large Signal
Pulse Response
Non-Inverting Small Signal
Pulse Response
Output Signal Input Signal
(50mV/div)
Output Signal Input Signal
(1V/div)
TA = -40℃, R L = 2kΩ
Time (1μs/div)
Time (1μs/div)
Non-Inverting Small Signal
Pulse Response
Non-Inverting Small Signal
Pulse Response
Output Signal Input Signal
(50mV/div)
Output Signal Input Signal
(50mV/div)
TA = 85℃, R L = 2kΩ
Time (1μs/div)
Stability vs Capacitive Load
Stability vs Capacitive Load
10000
VIN
+2.5V
+
RL
-2.5V
V OUT
CL
25% Overshoot
100 V = ±2.5V
SS
AV = +1
RL = 2kΩ
VOUT = 100mVPP
10
-2 -1.5 -1 -0.5 0
0.5
1
1.5
Output Voltage (V)
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Capacitive Load (pF)
Capacitive Load (pF)
TA = -40℃, RL = 2kΩ
Time (1μs/div)
10000
1000
TA = 25℃, RL = 2kΩ
VIN
1000
+2.5V
+
RL
-2.5V
V OUT
CL
VSS = ±2.5V
AV = +1
RL = 1MΩ
100 VOUT = 100mVPP
25% Overshoot
10
-2 -1.5 -1 -0.5
0
0.5
1
1.5
Output Voltage (V)
11 of 12
QW-R105-010,C
LMV358
LINEAR INTEGRATED CIRCUIT
TYPICAL CHARACTERISTICS(Cont.)
Stability vs Capacitive Load
Stability vs Capacitive Load
10000
1.34kΩ1.21MΩ
VIN
1000
+2.5V
+
RL
-2.5V
VSS = ±2.5V
AV = +10
R L = 2kΩ
100 VOUT = 100mVPP
VOUT
CL
25% Overshoot
10
-2 -1.5 -1 -0.5 0 0.5 1 1.5 2
Output Voltage (V)
Capacitive Load (pF)
Capacitive Load (pF)
10000
1000
1.34kΩ1.21MΩ
VIN
+2.5V
+
RL
-2.5V
VOUT
CL
VSS = ±2.5V
AV = +10
RL = 1MΩ
100 VOUT = 100mVPP
25% Overshoot
10
-2 -1.5 -1 -0.5 0 0.5 1 1.5 2
Output Voltage (V)
THD vs Frequency
5
THD (%)
0.5
VSS = 2.7V, A V = +10, V OUT = 1VPP
0.05
V SS = 5 V, AV = -10, VOUT = 2.5VPP
V SS = 2 .7V , AV = +1, V OUT = 1V PP
VSS = 5V, A V = +1, VOUT = 1VPP
0.005
20
100
1k
10k
100k
Frequency (Hz)
UTC assumes no responsibility for equipment failures that result from using products at values that
exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or
other parameters) listed in products specifications of any and all UTC products described or contained
herein. UTC products are not designed for use in life support appliances, devices or systems where
malfunction of these products can be reasonably expected to result in personal injury. Reproduction in
whole or in part is prohibited without the prior written consent of the copyright owner. The information
presented in this document does not form part of any quotation or contract, is believed to be accurate
and reliable and may be changed without notice.
UNISONIC TECHNOLOGIES CO., LTD
www.unisonic.com.tw
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QW-R105-010,C
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