NJM2746
Single Supply, Rail-to-Rail Output Dual Operational Amplifier
■GENERAL DESCRIPTION
The NJM2746 is a Rail-to-Rail Output single supply dual
operational amplifier with a low noise of 10nV/√Hz.
It has an output voltage swing closer to the rails, which can offer a
wide dynamic range of output voltage easer compared with
conventionally single supply operational amplifiers.
And Input voltage range extended from ground level makes it
suited for single supply operation. The NJM2746 is suitable for
various amplifiers and filters using in sound processing, signal
detection and other applications. The NJM2746 is available in a wide
variety of packages, SOP8 (DMP8), SOP8 JEDEC 150 mil, SSOP8,
MSOP8 (TVSP8) and a small lead-less 2020 size package of
ESON8 which allows high-density mounting.
■ FEATURES
●Operating Voltage
●Rail-to-Rail Output
●Offset Voltage
●Slew Rate
. ●Low Distortion
. ●Low Input Voltage Noise
●Bipolar Technology
●Package Outline
■
PACKAGE INFORMATION
NJM2746KU1
( ESON8 )
NJM2746M
( DMP8 )
NJM2746E
( SOP8 )
2.5V to 14V
V
OH
≥4.9V Typ. (at V
+
=5V, R
L
=5kΩ)
V
OL
≤0.1V Typ. (at V
+
=5V, R
L
=5kΩ)
1mV Typ.
3.5V/μs Typ.
0.001% Typ. (at V
+
=5V, f=1kHz)
10nV/√Hz Typ. (at f=1kHz)
NJM2746V
( SSOP8 )
NJM2746RB1
(MSOP8 (TVSP8) )
DMP8,
SSOP8,
MSOP8 (TVSP8)
MEET JEDEC MO-187-DA / THIN TYPE
SOP8 JEDEC 150mil,
ESON8 (2020)
■ PIN CONFIGURATION
(Top View)
(Top View)
(Bottom View)
PIN FUNCTION
1. A OUTPUT
1
2
3
4
NJM2746M
NJM2746E
NJM2746V
NJM2746RB1
A
B
8
7
6
5
1
2
3
4
A
B
8
7
6
5
8
7
6
5
Exposed
Pad
1
2
3
4
2. A - INPUT
3. A +INPUT
4. GND(V )
5. B +INPUT
6. B - INPUT
7. B OUTPUT
8. V
+
−
NJM2746KU1
About Exposed Pad
Connect the Exposed Pad on the GND.
Ver.2017-10-20
-1-
NJM2746
■ ABSOLUTE MAXIMUM RATINGS
PARAMETER
Supply Voltage
Common Mode Input Voltage Range
Differential Input Voltage Range
SYMBOL
V
+
RATING
15
0~15(Note1)
±15(Note1)
(DMP8) 300
(SOP8) 300
(SSOP8) 250
(MSOP8(TVSP8)) 320
(ESON8) 360(Note2)
(ESON8) 940(Note3)
-40~+85
-50~+125
UNIT
V
V
V
V
ICM
V
ID
Power Dissipation
P
D
mW
Operating Temperature Range
Storage Temperature Range
Topr
Tstg
ºC
ºC
(Note1) For supply voltage less than 15V, the absolute maximum input voltage is equal to the supply voltage.
(Note2) Mounted on the EIA/JEDEC standard board (76.2×114.3×1.6mm, 2 layer, FR-4).
(Note3) Mounted on the EIA/JEDEC standard board (76.2×114.3×1.6mm, 4 layer, FR-4).
■
OPERATING VOLTAGE
PARAMETER
Supply Voltage
SYMBOL
V
+
(Ta=25˚C)
RATING
2.5~14
UNIT
V
■ ELECTRICAL CHARACTERISTICS
●DC CHARACTERISTICS (V
+
=5V
,
Ta=25˚C)
PARAMETER
Supply Current
Input Offset Voltage
Input Bias Current
Input Offset Current
Voltage Gain
Common Mode Rejection Ratio
Supply Voltage Rejection Ratio
Maximum Output Voltage
Common Mode Input Voltage Range
SYMBOL
Icc
V
IO
I
B
I
IO
Av
CMR
SVR
V
OH
V
OL
V
ICM
R
L
≥10kΩ to 2.5V, Vo=0.5V~4.5V
0V≤V
CM
≤4V
V =2.5V~14V
R
L
≥5kΩ to 2.5V
R
L
≥5kΩ to 2.5V
CMR≥60dB
+
TEST CONDITION
R
L
=∞, V
IN
=2.5V, No signal
R
S
≤10kΩ
MIN.
-
-
-
-
65
60
60
4.75
-
0
TYP.
4
1
100
5
85
75
80
4.9
0.1
-
MAX.
5.5
6
350
100
-
-
-
-
0.25
4
UNIT
mA
mV
nA
nA
dB
dB
dB
V
V
V
●AC CHARACTERISTICS (V
+
=5V
,
Ta=25˚C)
PARAMETER
Gain Bandwidth Product
Phase Margin
Equivalent Input Noise Voltage
Total Harmonic Distortion
Channel Separation
SYMBOL
GB
Φ
M
V
NI
THD
CS
TEST CONDITION
f=1MHz
R
L
=10kΩ , C
L
=10pF
f=1kHz , V
CM
=2.5V
f=1kHz , A
V
=+2,
R
L
=10kΩ to 2.5V , Vo=1.5Vrms
f=1kHz, R
L
=10kΩ to 2.5V , Vo=1.5Vrms
MIN.
-
-
-
-
-
TYP.
10
75
10
0.001
120
MAX.
-
-
-
-
-
UNIT
MHz
deg
nV/√Hz
%
dB
●AC CHARACTERISTICS (V
+
=5V
,
Ta=25˚C)
PARAMETER
Slew Rate(Note4)
SYMBOL
SR
TEST CONDITION
A
V
=1, V
IN
=2Vpp
R
L
=10kΩ to 2.5V, C
L
=10pF to 2.5V
MIN.
-
TYP.
3.5
MAX.
-
UNIT
V/μs
(Note4) Number specified is the slower of the positive and negative slew rates.
-2-
Ver.2017-10-20
NJM2746
■
TYPICAL CHARACTERISTICS
Supply Current vs. Supply Voltage
7
6
G
V
=0dB
Supply Current vs. Temperature
7
6
G
V
=0dB
Supply Current [mA]
5
4
3
Supply Current [mA]
Ta=+25°C
5
4
3
V
+
=14V
V
+
=5V
Ta=+85°C
Ta=-40°C
V =2.5V
+
2
1
0
0
2
4
6
8
10 12
Supply Voltage [V]
14
16
2
1
0
-50
-25
0
25
50
75
100
Ambient Temperature [°C]
125
Input Offset Voltage vs. Temperature
3.0
2.5
Input Offset Voltage [mV]
Input Bias Current [nA]
R
S
=10kΩ
Input Bias Current vs. Temperature
0
-25
-50
-75
-100
-125
-150
-175
-200
V
+
=5V
2.0
1.5
1.0
0.5
0.0
-0.5
-50
-25
V =+5V
+
V
+
=+14V
V =+2.5V
+
0
25
50
75
100
Ambient Temperature [°C]
125
-50
-25
0
25
50
75
100
Ambient Temperature [°C]
125
Input Offset Current vs. Temperature
30
20
10
0
-10
-20
-30
-50
-25
0
25
50
75
100
Ambient Temperature [°C]
125
Voltage Gain [dB]
V =5V
+
Large Signal Voltage Gain vs. Temperature
120
100
80
60
40
20
0
-50
-25
0
25
50
75
100
Ambient Temperature [ºC]
125
V
+
=5V, 0.5VV
O
4.5V,
R
L
=10kΩ
Ver.2017-10-20
Input Offset Current [nA]
-3-
NJM2746
■
TYPICAL CHARACTERISTICS
CMR vs. Temperature
120
Common Mode Rejection Ratio [dB]
V
+
=5V, 0VV
ICM
4V
SVR vs. Temperature
120
Supply Voltage Rejection Ratio [dB]
V
+
= 2.5V to 14V
100
80
60
40
20
0
-50
-25
0
25
50
75
100
Ambient Temperature [°C]
125
100
80
60
40
20
0
-50
-25
0
25
50
75
100
Ambient Temperature [°C]
125
Maximum Output Voltage vs. Supply Voltage
8
G
V
=OPEN, R
L
=5kΩ to GND
Maximum Output Voltage vs. Supply Voltage
8
G
V
=OPEN, R
L
=10kΩ to GND
Maximum Output Voltage [V]
Ta=+25°C
Ta=+85°C
Ta=-40°C
4
2
0
-2
-4
-6
-8
0
±1
Maximum Output Voltage [V]
6
6
4
2
0
-2
-4
-6
-8
Ta=+85ºC
Ta=+25ºC
Ta=-40ºC
Ta=+85ºC
Ta=+25ºC
Ta=-40ºC
Ta=+85ºC
Ta=+25ºC
Ta=-40ºC
±2 ±3 ±4 ±5 ±6
Supply Voltage V
+
/V
-
[V]
±7
±8
0
±1
±2 ±3 ±4 ±5 ±6
Supply Voltage V
+
/V
-
[V]
±7
±8
Maximum Output Voltage vs. Output Current
Maximum Output Voltage vs. Load Resistance
V
+
=5V,
V
COM
=2.5V, G
V
=OPEN, R
L
to 2.5V
V =+5V, V
CM
=+2.5V, G
V
=OPEN
+
6
Maximum Output Voltage [V]
5.0
5
4
Ta=+85ºC
Maximum Output Voltage [V]
V
OH
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
I
SOURCE
Ta=+25ºC
Ta=-40ºC
Ta=-40°C
Ta=+25°C
Ta=+85°C
Ta=-40°C
Ta=+25°C
Ta=+85°C
3
2
1
0
Ta=+85ºC
Ta=+25ºC
Ta=-40ºC
V
OL
I
SINK
0.1
1
10
Load Resistance [kΩ]
100
0.0
0.1
0.0001
1
10
0.001
0.01
Output Current [mA]
100
0.1
-4-
Ver.2017-10-20
NJM2746
■
TYPICAL CHARACTERISTICS
Gain/Phase vs. Frequency
60
Gain
V =5V, V
IN
=0.02Vpp, G
V
=40dB,
R
T
=50Ω, R
F
=10kΩ, R
G
=100Ω, Ta=25°C
+
Gain/Phase vs. Frequency
V
+
=5V, V
IN
=0.02Vpp, G
V
=40dB
R
T
=50Ω, R
F
=10kΩ, R
G
=100Ω, C
L
=10pF
60
40
Gain
Ta=-40°C
40
Voltage Gain [dB]
Voltage Gain [dB]
Phase
Phase [deg]
0
C
L
=100pF
C
L
=10pF
Phase
Ta=+85ºC
0
60
120
180
0
Ta=-40°C
0
Ta=+25°C
Ta=+85ºC
-20
-40
-60
1k
10k
C
L
=10pF
C
L
=330pF
-20
-40
-60
1k
60
120
180
C
L
=100pF
C
L
=330pF
100k
1M
10M
Frequency [Hz]
100M
1G
10k
100k
1M
10M
Frequency [Hz]
100M
1G
Gain vs. Frequency
20
V
+
=5V, V
IN
=0.02Vpp, A
V
=+1, Ta=25°C
Gain vs. Frequency
20
V
+
=5V, V
IN
=0.02Vpp, A
V
=+1, C
L
=100pF
10
Voltage Gain [dB]
C
L
=1000pF
C
L
=100pF
Voltage Gain [dB]
C
L
=470pF
10
Ta=-40°C
0
C
L
=10pF
0
-10
-10
Ta=25°C
Ta=85°C
-20
100k
1M
10M
Frequency [Hz]
100M
-20
100k
1M
10M
Frequency [Hz]
100M
Phase Margin vs. Load Capacitance
90
80
70
Phase Margin [deg]
V =5V, V
IN
=0.02Vpp, V
O
=V /2, G
V
=40dB,
R
T
=50Ω, R
F
=10kΩ, R
G
=100Ω, Ta=25°C
+
+
Pulse Response
V
+
=5V, V
IN
=2Vpp, A
V
=+1, R
L
=10kΩ, Ta=25°C
Input
60
50
40
30
20
10
0
10
100
1k
Load Capacitance [pF]
10k
Voltage [1V/div]
C
L
=330pF
Output
C
L
=100pF
C
L
=10pF
Time [1μsec/div]
Ver.2017-10-20
-5-
Phase [deg]
20
20
Ta=+25°C
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