NJRC NJM2718E

NJM2718
Single-Supply High-Operating voltage
Dual Operational Amplifier
■ GENERAL DESCRIPTION
The NJM2718 is a single-supply high voltage dual operational
amplifier. It is suitable for high supply voltage applications.
Large-capacitance drive capability is better or equal than
competing products.
■PACKAGE OUTLINE
NJM2718E
■ FEATURES
●Single Supply
●Operating Voltage
●Input Offset Voltage
●Large Capacitance Drive Capability
●Output Voltage
NJM2718V
3V~36V
4mV max.
1000pF typ.
VOH≥+13.5V, VOL≤-14.0V ( at V+/V- = ±15V, RL=2kΩ)
VOH≥+3.7V, VOL≤0.3V ( at V+=+5V, RL=2kΩ)
3.5V/µs typ. ( at Vin = 1Vpp, RL=2kΩ)
9V/µs typ. ( at Vin = 20Vpp, RL=2kΩ)
●Slew Rate
●Bipolar Technology
●Package Outline
EMP8, SSOP8
■ APPLICATION
●Low-Side Current Sense
●PWM Motor Control System
●Power Supply Module
●Line Driver, ADC/DAC Buffer
■ PIN CONFIGURATION
( Top View )
A OUTPUT
1
A -INPUT
2
A +INPUT
3
V-
4
- +
+ -
8
V+
7
B OUTPUT
6
B -INPUT
5
B +INPUT
EMP8 [NJM2718E]
SSOP8 [NJM2718V]
Ver.2008-04-21
-1-
NJM2718
■ ABSOLUTE MAXIMUM RATINGS (Ta=25˚C)
PARAMETER
SYMBOL
RATINGS
UNIT
Supply Voltage
Common Mode Input Voltage Range
Differential Input Voltage Range
Output Voltage
Output Sink/Source Current
for Each one Output Terminal
Flow in Current for V+ terminal
Flow out Current for V- terminal
V+
VICM
VID
VO
+40
V - -0.3V to V + +0.3V
±40
V - -0.3V to V + +0.3V (Note1)
V
V
V
V
IOPORT
±80 (Note3)
mA
IIV+
IOV-
90 (Note3)
90 (Note3)
300 [EMP8], 250[SSOP8]
500[EMP8] (Note2)
350[SSOP8] (Note2)
-40 to +85
-50 to +125
mA
mA
mW
mW
mW
˚C
˚C
Power Dissipation
PD
Operating Temperature Range
Storage Temperature Range
T opr
T st g
(Note 1) The output voltage of normal operation will be the Output Voltage Swing of electrical characteristics.
(Note 2) On the PCB " EIA/JEDEC (76.2x114.3x1.6mm, two layers, FR-4) "
(Note 3) Do not exceed "Power dissipation: PD" in which power dissipation in IC is shown by the absolute maximum rating.
Refer to following Figure 1 for a permissible loss when ambient temperature (Ta) is Ta≥25oC.
Package Type
(2)
500
(1)EMP8
: ∆PD= -3.0(mW/°C)
(2)EMP8[Tw o Layer] : ∆PD= -5.0(mW/°C)
(3)SSOP8
: ∆PD= -2.5(mW/°C)
(4)SSOP8[Tw o Layer] : ∆PD= -3.5(mW/°C)
Power Dissipation P D (mW)
400
(4)
(1)
300
(3)
200
100
0
0
50
25
75
100
Ambient Temperature Ta (°C)
Figure1: Power Dissipation – Ambient Temperature
■ OPERATING VOLTAGE (Ta=25˚C)
PARAMETER
Supply Voltage
-2-
SYMBOL
+
V
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
(Note3)
+3
-
+36
V
Ver.2008-04-21
NJM2718
■ ELECTRICAL CHARACTERISTICS
●DC CHARACTERISTICS (V+/V−=±15V, Ta=25˚C)
PARAMETER
SYMBOL
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
Icc
VIO
∆Vio/∆T
IB
IIO
Av
CMR
SVR
VOH1
VOL1
VOH2
VOL2
I source
Isink
VICM
No Signal
Rs=50Ω
Rs=50Ω
Rs=50Ω
Rs=50Ω
RL≥2kΩ, Vo=±10V, Rs=50Ω
-15V≤ VICM ≤+13V, Rs=50Ω
±1.5V≤ V+/V- ≤±18V, Rs=50Ω
RL=10kΩ to 0V
RL=10kΩ to 0V
RL=2kΩ to 0V
RL=2kΩ to 0V
Vin+=+1V, Vin-=0V, Vo=0V
Vin+=0V, Vin-=+1V, Vo=0V
CMR≥70dB
88
70
70
+13.7
+13.5
10
20
-15
3.7
1
10
1.2
0.1
100
83
100
+14
-14.6
+14.0
-13.9
30
30
-
5.3
4
4
1.8
-14.2
-13.5
+13
mA
mV
µV/deg
µA
µA
dB
dB
dB
V
V
V
V
mA
mA
V
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
GBW
f=100kHz
-
1.8
-
MHz
Power Band1
PBW1
Gv=+1, RL=2kΩ to 0V,
Vo=20Vpp, THD=1%
-
80
-
kHz
Power Band2
PBW2
Gv=+1, RL=2kΩ to 0V,
Vo=2Vpp, THD=1%
-
800
-
kHz
-
85
75
18
11
24
-
deg
deg
dB
dB
nV/√Hz
-
0.03
-
%
Supply Current
Input Offset Voltage
Input Offset Voltage Drift
Input Bias Current
Input Offset Current
Voltage Gain
Common Mode Rejection Ratio
Supply Voltage Rejection Ratio
Maximum Output Voltage 1
Maximum Output Voltage 2
Output Source Current
Output Sink Current
Common Mode Input Voltage
●AC CHARACTERISTICS (V+/V−=±15V, Ta=25˚C)
PARAMETER
Gain Bandwidth Product
Phase Margin
Gain Margin
SYMBOL
φM1
RL=2kΩ to 0V, CL=0pF
φM2
AM1
RL=2kΩ to 0V, CL=300pF
RL=2kΩ to 0V, CL=0pF
RL=2kΩ to 0V, CL=300pF
Rs=50Ω, f=1kHz
Equivalent Input Noise Voltage
AM2
VNI
Total Harmonic Distortion
THD
Gv=+10, RL=2kΩ to 0V
Vo=20Vpp, f=10kHz
ci
VICM=0V, f=1MHz, Vinpower=0dBm
-
4.5
-
pF
CT
f=20~20kHz, RL=2kΩ
-
120
-
dB
Input Capacitance
Channel Separation
●TRANSIENT CHARACTERISTICS (V+/V−=±15V, Ta=25˚C)
PARAMETER
SYMBOL
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
SR1P
Vin=1Vpp (-0.5V to +0.5V),
Gv=+1, RL=2kΩ to 0V, CL=500pF
-
3.5
-
V/µs
SR1N
Vin=1Vpp (-0.5V to +0.5V),
Gv=-1, RL=2kΩ to 0V, CL=500pF
-
3.5
-
V/µs
SR2P
Vin=20Vpp (-10V to +10V),
Gv=+1, RL=2kΩ to 0V, CL=500pF
-
9
-
V/µs
SR2N
Vin=20Vpp (-10V to +10V),
Gv=-1, RL=2kΩ to 0V, CL=500pF
-
9
-
V/µs
-
0.9
-
µs
-
1.9
-
µs
Slew Rate 1
Slew Rate 2
Settling time(0.1%)
ts1
Settling time(0.01%)
ts2
Ver.2008-04-21
Vin=10Vpp, Gv=-1, Rin=1kΩ,
Rf=1kΩ, Rg=5kΩ, CL=470pF
-3-
NJM2718
■ ELECTRICAL CHARACTERISTICS
●DC CHARACTERISTICS (V+=+5V, V−=0V, Ta=25˚C)
PARAMETER
Supply Current
Input Offset Voltage
Input Offset Voltage Drift
Input Bias Current
Input Offset Current
Voltage Gain
Common Mode Rejection Ratio
Supply Voltage Rejection Ratio
Maximum Output Voltage 1
Output Source Current
Output Sink Current
Common Mode Input Voltage
SYMBOL
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
Icc
VIO
∆Vio/∆T
IB
IIO
Av
CMR
SVR
VOH1
VOL1
Isource
Isink
VICM
No Signal
Rs=50Ω
Rs=50Ω
Rs=50Ω
Rs=50Ω
RL≥2kΩ, Vo=1.5V to 3.5V, Rs=50Ω
0V≤ VICM ≤3V, Rs=50Ω
±1.5V≤ V+/V- ≤±2.5V, Rs=50Ω
RL=2kΩ to 0V
RL=2kΩ to 0V
Vin+=+1V, Vin-=0V, Vo=+2.5V
Vin+=0V, Vin-=+1V, Vo=+2.5V
CMR≥65dB
80
65
70
3.7
10
20
0
2.8
1
10
1
0.1
100
80
85
4
0.1
20
30
-
3.5
4
4
1.8
0.2
3
mA
mV
µV/deg
µA
µA
dB
dB
dB
V
V
mA
mA
V
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
GBW
f=100kHz
-
1.7
-
MHz
PBW1
Gv=+1, RL=2kΩ to 2.5V,
Vo=2Vpp, THD=1%
-
600
-
kHz
RL=2kΩ to 2.5V, CL=0pF
RL=2kΩ to 2.5V, CL=300pF
RL=2kΩ to 2.5V, CL=0pF
RL=2kΩ to 2.5V, CL=300pF
Rs=50Ω, f=1kHz
-
75
70
17
11
24
-
deg
deg
dB
dB
nV/√Hz
●AC CHARACTERISTICS (V+=+5V, V−=0V, Ta=25˚C)
PARAMETER
Gain Bandwidth Product
Power Band1
Phase Margin
Gain Margin
SYMBOL
φM1
φM2
AM1
Equivalent Input Noise Voltage
AM2
VNI
Total Harmonic Distortion
THD
Gv=+10, RL=2kΩ to 2.5V,
Vo=3Vpp, f=10kHz
-
0.05
-
%
ci
CT
Vcm=0V, f=1MHz, Vinpower=0dBm
f=10kHz
-
5
110
-
pF
dB
Input Capacitance
Channel Separation
●TRANSIENT CHARACTERISTICS (V+=+5V, V−=0V, Ta=25˚C)
PARAMETER
SYMBOL
TEST CONDITION
MIN.
TYP.
MAX.
UNIT
SR1P
Vin=1Vpp (+2V to +3V),
Gv=+1, RL=2kΩ to 0V, CL=500pF
-
3
-
V/µs
SR1N
Vin=1Vpp (+2V to +3V),
Gv=-1, RL=2kΩ to 0V, CL=500pF
-
2.5
-
V/µs
-
1.5
-
µs
-
3
-
µs
Slew Rate 1
Settling time(0.1%)
ts1
Settling time(0.01%)
ts2
-4-
Vin=1Vpp, Gv=-1, Rin=1kΩ, Rf=1kΩ,
Rg=5kΩ, CL=470pF
Ver.2008-04-21
NJM2718
■ TYPICAL CHARACTERISTICS
Supply Current vs. Supply Voltage (Temperature)
5.0
4.5
4.5
V+/V-=±15V
4.0
Supply Current [mA]
Ta=-40ºC
3.5
3.0
2.5
Ta=85ºC
2.0
VIN=0, RS=50Ω
5.0
Ta=+25ºC
4.0
Supply Current [mA]
Supply Current vs. Temperature (supply Voltage)
VIN=0, RS=50Ω
1.5
3.5
3.0
2.5
2.0
1.0
0.5
0.5
0.0
0
5
10
15
Supply Voltage [±V]
20
-50
Input Offset Voltage vs. Temperature
125
MIN =1.12uV/ºC
MAX=9.93uV/ºC
AVE=4.39uV/ºC
4.0
Input Offset Voltage [mV]
Input Offset Voltage [mV]
3.0
0
25
50
75
100
Ambient Temperature [ºC]
V+/V-=±2.5V, VICM=0V, n=30
5.0
MIN =0.26uV/ºC
MAX=9.42uV/ºC
AVE=3.58uV/ºC
4.0
-25
Input Offset Voltage vs. Temperature
V+/V-=±15V, VICM=0V, n=30
5.0
2.0
1.0
0.0
-1.0
-2.0
-3.0
-4.0
3.0
2.0
1.0
0.0
-1.0
-2.0
-3.0
-4.0
-5.0
-5.0
-50
-25
0
25
50
75
100
Ambient Temperature [ºC]
125
-50
Input Bias Current vs. Temperature (Supply Voltage)
-25
0
25
50
75
100
Ambient Temperature [ºC]
125
Input Offset Current vs. Temperature (Supply Voltage)
VIN=0V, RS=50Ω
2.0
VIN=0V, RS=50Ω
500
400
Input Offset Current [nA]
1.5
Input Bias Current [µA]
V+/V-=+2.5/-0.5V
1.5
1.0
0.0
V+/V-=±2.5V
1.0
0.5
0.0
V+/V-=+2.0/-1.0V
V+/V-=±2.5V
-0.5
-1.0
-1.5
300
200
100
V+/V-=+2.0/-1.0V
V+/V-=±2.5V
0
-100
-200
V+/V-=±15V
-300
-400
V+/V-=±15V
-2.0
-500
-50
Ver.2008-04-21
-25
0
25
50
75
100
Ambient Temperature [ºC]
125
-50
-25
0
25
50
75
100
Ambient Temperature [ºC]
125
-5-
NJM2718
■ TYPICAL CHARACTERISTICS
Input Offset Voltage
vs. Common Mode Input Voltage
Input Offset Voltage
vs. Common Mode Input Voltage
(Temperature)
+ V /V =±15V, RS=50Ω
(Temperature)
+ V /V =±2.5V, RS=50Ω
5.0
5.0
4.0
3.0
Input Offset Voltage [mV]
Input Offset Voltage [mV]
4.0
Ta=+85ºC
2.0
1.0
0.0
-1.0
Ta=+25ºC
Ta=-40ºC
-2.0
-3.0
-4.0
3.0
2.0
1.0
0.0
-1.0
Ta=-40ºC
Ta=+25ºC
-2.0
-3.0
-4.0
-5.0
-5.0
-20
-10
0
10
Common Mode Input Voltage [V]
20
-4
Common Mode Rejection Ratio vs. Temperature
-3
-2
-1
0
1
Common Mode Input Voltage [V]
V+/V-=±1.5V to ±18V, RS=50Ω
120
Supply Voltage Rejection Ratio [dB]
100
90
80
70
60
V+/V-=±15V
V+/V-=±2.5V
50
40
30
20
10
0
2
Supply Voltage Rejection Ratio vs. Temperature
(Supply Voltage)
RS=50Ω
Common Mode Rejection Ratio
[dB]
Ta=+85ºC
100
80
60
40
20
0
-50
-25
0
25
50
75
100
Ambient Temperature [ºC]
125
-50
-25
0
25
50
75
100
Ambient Temperature [ºC]
125
Voltage Gain vs. Temperature (Supply Voltage)
RS=50Ω, RL=2kΩ
120
Voltage Gain [dB]
100
80
V+/V-=±2.5V
V+/V-=±15V
60
40
20
0
-50
-6-
-25
0
25
50
75
100
Ambient Temperature [ºC]
125
Ver.2008-04-21
NJM2718
■ TYPICAL CHARACTERISTICS
Maximum Output Voltage vs. Frequency
Maximum Output Voltage vs. Frequency
V+/V-=±15V, AV=+1, THD≤1%, RL=2k, Ta=25ºC
30
V+/V-=±2.5V, AV=+1, THD≤1%, RL=2k, Ta=25ºC
3.0
THD≤1%
Maximum Output Voltage [Vpp]
Maximum Output Voltage [Vpp]
THD≤1%
25
20
15
10
5
2.5
2.0
1.5
1.0
0.5
0
0.0
100
0M
1k
0M
10k
100k
0M
0M
Frequency [Hz]
1M
100
0M
10M
1k
0M
10M
Maximum Output Voltage vs. Load Resistance
(Temperature)
V /V-=±15V, RL to 0V
(Temperature)
V+=5V, RL to 0V
15
5.0
Maximum Output Voltage [V]
Ta=25ºC
10
Ta=85ºC
5
Ta=-40ºC
0
-5
-10
-15
4.0
Ta=85ºC
Ta=25ºC
3.0
Ta=-40ºC
2.0
1.0
0.0
10
0k
100
0k
1k
10k
Load Resistance [Ω]
10
0k
100k
100
0k
1k
10k
Load Resistance [Ω]
100k
Maximum Output Voltage vs. Output Current
Maximum Output Voltage vs. Output Current
(Temperature)
V+/V-=±15V, Input=+1/-1V
(Temperature)
V+/V-=±2.5V, Input=+1/-1V
15
2.5
Ta=85ºC
10
Maximum Output Voltage [V]
2.0
Maximum Output Voltage [V]
1M
Maximum Output Voltage vs. Load Resistance
+
Maximum Output Voltage [V]
10k
100k
0M
0M
Frequency [Hz]
Ta=85ºC
5
Ta=25ºC
Ta=-40ºC
0
-5
-10
1.5
1.0
Ta=-40ºC
Ta=25ºC
0.5
0.0
-0.5
-1.0
-1.5
-2.0
-15
-2.5
0.1
Ver.2008-04-21
1
10
Output Current [mA]
100
0.1
1
10
Output Current [mA]
100
-7-
NJM2718
■ TYPICAL CHARACTERISTICS
40dB Gain/Phase vs. Frequency (Load Capacitance)
40dB gain/Phase vs. Frequency (Load Capacitance)
V+/V-=±15V, VIN=-20dBm, RG=20Ω,
RF=2kΩ, RL=2kΩ to 0V, Ta=25ºC
V+/V-=±2.5V, VIN=-20dBm, RG=20Ω,
RF=2kΩ, RL=2kΩ to 0V, Ta=25ºC
50
50
40
Gain
10
0
0
Phase
CL=0pF
-10
-45
Voltage Gain [dB]
20
-20
20
10
0
-40
100
0M
1k
0M
10k
100k
0M
0M
Frequency [Hz]
1M
-90
CL=300pF
-30
-180
10M
-135
CL=1000pF
-40
100
0M
1k
0M
10k
100k
0M
0M
Frequency [Hz]
1M
THD vs. Output Voltage (Frequency)
THD vs. Output Voltage (Frequency)
V+/V-=±15V, VIN=2Vpp, AV=20dB, VO=20Vpp,
R1=1kΩ, R2=9kΩ, RG=1kΩ, RL=2kΩ,
BW=10~500kHz, Ta=25ºC
V+/V-=±2.5V, ZIN=40Ω, AV=20dB, VO=3Vpp,
R1=1kΩ, R2=9kΩ, RG=10kΩ, RL=2kΩ,
BW=10~500kHz, Ta=25ºC
-180
10M
Total Harmonic Distortion THD
[%]
100
10
1
f=1kHz
f=10kHz
0.1
0.01
10
1
f=10kHz
0.1
f=1kHz
0.01
f=20Hz
0.001
0.01
0.1
1
10
Output Voltage [Vpp]
f=20Hz
0.001
0.01
100
0.1
1
Output Voltage [Vpp]
10
Channel Separation vs. Frequency
Channel Separation vs. Frequency
V+/V-=±15V, VIN=200mVpp, ZIN=20Ω, AV=40dB, VO=20Vpp,
R1=1kΩ, R2=100kΩ, RG=10k, RL=2kΩ, BW=10~500kHz
V+/V-=±2.5V, VIN=20mVpp, ZIN=20Ω, AV=40dB, VO=2Vpp,
R1=1kΩ, R2=100kΩ, RG=10k, RL=2kΩ, BW=10~500kHz
-40
-60
-60
Channel Separation [dB]
-40
-80
-100
CH_A→B
-120
-140
-80
-100
CH_B→A
-120
-140
CH_A→B
CH_B→A
-160
-160
10
0k
-8-
-45
-20
100
Total Harmonic Distortion THD
[%]
CL=0pF
-10
-135
CL=1000pF
0
Phase
-90
CL=300pF
-30
Channel Separation [dB]
Gain
30
Phase [deg]
Voltage gain [dB]
30
Phase [deg]
40
100
0k
1k
10k
Frequency [Hz]
100k
1M
1000k
10
0k
100
0k
1k
10k
Frequency [Hz]
100k
1M
1000k
Ver.2008-04-21
NJM2718
■ TYPICAL CHARACTERISTICS
Frequency Response (VIN=1Vpp, Load Capacitance)
Frequency Response (VIN=1Vpp, Temperature)
V+/V-=±15V, VIN=1Vpp,
f=100kHz, AV=+1, RL=2kΩ to 0V, Ta=25ºC
V+/V-=±15V, VIN=1Vp-p,
f=100kHz, AV=+1, RL=2kΩ to 0V, CL=500pF
2.0
-0.5
1.5
1.0
Output
-1.5
0.5
CL=0pF
-2.0
0.0
CL=500pF
-2.5
-0.5
CL=1000pF
-3.0
-1.0
-1
0
2
3
4
5
Time [µs]
6
7
0.0
2.0
-0.5
1.5
-1.0
1.0
Output
-1.5
-2.5
-0.5
Ta=85ºC
-1.0
-1
0
1
2
3
4
5
Time [µs]
6
7
Frequency Response (VIN=20Vpp, Temperature)
V+/V-=±15V, VIN=20Vpp,
f=100kHz, AV=+1, RL=2kΩ to 0V, CL=500pF
15
Input Voltage [V]
45
40
5
35
Input
0
30
-5
25
-10
20
-15
15
-20
10
-25
5
Output
0
CL=0pF
-35
CL=500pF
-40
CL=1000pF
-5
-10
-45
-15
-1
0
1
2
3
4
5
Time [µs]
6
7
0
30
-5
25
-10
20
-15
15
-20
10
-25
5
-30
Output
-35
Ta=25ºC
-40
Ta=85 ºC
2.0
-0.5
1.5
1.0
0.5
0.0
CL=500pF
-2.5
-0.5
CL=1000pF
-3.0
-1.0
-1
Ver.2008-04-21
0
1
2
3
4
Time [us]
5
6
7
8
Input Voltage [V]
0.0
-2.0
-10
-15
0
1
2
3
4
5
Time [µs]
6
7
8
+ V /V =±2.5V, VIN=1Vpp,
f=100kHz, AV=+1, RL=2kΩ to 0V, CL=500pF
1.0
Output Voltage [V]
2.5
CL=0pF
-5
Frequency Response (VIN=1Vpp, Temperature)
0.5
-1.5
0
Ta=-40ºC
-45
3.0
Output
35
Input
-1
Input
-1.0
45
40
5
Frequency Response (VIN=1Vpp, Load Capacitance)
1.0
8
10
8
+ V /V =±2.5V, VIN=1Vpp,
f=100kHz, AV=+1, RL=2kΩ to 0V, Ta=25ºC
0.0
-3.0
8
10
0.5
Ta=25ºC
-2.0
V+/V-=±15V, VIN=20Vpp,
f=100kHz, AV=+1, RL=2kΩ to 0V, Ta=25ºC,
-30
Input Voltage [V]
Ta=-40ºC
Frequency Response (VIN=20Vpp, Load Capacitance)
15
Input Voltage [V]
1
2.5
3.0
Input
0.5
2.5
0.0
2.0
-0.5
1.5
-1.0
1.0
Output
-1.5
Ta=-40ºC
0.5
Ta=25ºC
-2.0
-2.5
0.0
-0.5
Ta=85ºC
-3.0
-1.0
-1
0
1
2
3
4
5
Time [µs]
6
7
Output Voltage [V]
-1.0
0.5
output Voltage [V]
0.0
3.0
Input
Output Voltage [V]
2.5
Output Voltage [V]
0.5
1.0
Input Voltage [V]
3.0
Input
Output Voltage [V]
Input Voltage [V]
1.0
8
-9-
NJM2718
■ TYPICAL CHARACTERISTICS
Equivalent Input Noise Voltage vs. Frequency
200
Equivalent Input Noise Voltage vs. Frequency
V+/V-=±15V, VIN=0V, AV=40dB, RG=20Ω, RF=2kΩ, Ta=25ºC
200
180
Equivalent Input Noise Voltage
[nV/√Hz]
Equivalent Input Noise Voltage
[nV/√Hz]
180
V+/V-=±2.5V, VIN=0V, AV=40dB, RG=20Ω, RF=2kΩ, Ta=25ºC
160
160
140
140
120
120
100
100
80
60
40
20
0
80
60
40
20
0
1
0k
10
0k
100
0k
Frequency [Hz]
1k
1
0k
10k
10
0k
100
0k
Frequency [Hz]
1k
10k
■ TEST CIRCUIT
V+
V+
10kΩ
10kΩ
V OUT
2kΩ
V OUT
500pF
2kΩ
V-
500pF
V-
Fig.2.1 Slew Rate (Non Inverting)
Fig.2.2 Slew Rate (Inverting)
V+
RF
signal
Generator
RIN
V OUT
500Ω
CL
V-
Fig.2.3 Settling Time
- 10 -
[CAUTION]
The specifications on this data book are only given for information,
without any guarantee as regards either mistakes or omissions. The
application circuits in this data book are described only to show
representative usages of the product and not intended for the
guarantee or permission of any right including the industrial rights.
Ver.2008-04-21