ROHM BA4560RFVM

ROHM’s Selection Operational Amplifier/Comparator Series
Operational Amplifiers:
Low Noise
BA4558F,BA4558RF/FV/FVM,BA4560F,BA4560RF/FV/FVM,BA4580RF/FVM
BA2115F/FVM,BA15218F,BA14741F,BA15532FBA4510F/FV
●Description
General-purpose BA4558 / BA4560 / BA15218 / BA14741 /
BA15532 / BA4510 family and high-reliability BA4558R / BA4560R /
BA4580R / BA2115 family integrate two or four independent
Op-Amps on a single chip.
Especially, this series is suitable for any audio applications due to
low noise and low distortion characteristics and are usable for other
many applications by wide operating supply voltage range.
BA4558R/BA4560R/BA4580R/BA2115 are high-reliability products
with extended operating temperature range and high ESD tolerance.
General-purpose
High-reliability
No.09049EAT02
Dual
BA4558 family
Dual
BA4560 family
Dual
BA15218 family
Quad
BA14741 family
Dual
BA15532 family
Dual
BA4510 family
Dual
BA4558R family
Dual
BA4560R family
Dual
BA4580R family
Dual
BA2115 family
●Features
1) High voltage gain, low noise, low distortion
2) Internal phase compensation
3) No latch up immunity
4) Wide operating supply voltage
±4.0[V]～±15.0[V](split supply)
(BA4558/BA4560/BA4558R/BA4560R family)
±2.0[V]～±16.0[V](split supply)
(BA4580R/BA15218 family)
±2.0[V]～±18.0[V](split supply)
(BA14741 family)
±3.0[V]～±20.0[V](split supply)
(BA15532 family)
±1.0[V]～±3.5[V](split supply)
(BA4510 family)
±1.0[V]～±7.0[V](split supply)
(BA2115 family)
5) Internal ESD protection
Human body mode (HBM) ±5000[V](Typ.) (BA4558R/BA4560R/BA4580R/BA2115 family)
6) Wide temperature range
-40[℃]～+85[℃]
(BA4558/BA4560/BA15218/BA14741/BA2115 family)
-40[℃]～+105[℃]
(BA4558R/BA4560R/BA4580R family)
●Pin Assignments
OUT1 1
-IN1
+IN1
VEE
2
3
BA4558R F
BA4560R F
BA4580R F
BA4510F
BA2115F
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
CH1
7
- +
CH2
+ -
4
SOP8
BA4558F
BA4560F
BA15218F
BA15532F
BA4510F
BA2115F
8
VCC
OUT2
6 -IN2
5 +IN2
SSOP-B8
MSOP8
BA4558R FV
BA4560R FV
BA4510FV
BA4558R FVM
BA4560R FVM
BA4580R FVM
BA2115FVM
1/33
14
OUT4
13
-IN4
3
12
+IN4
VCC
4
11
VEE
+IN2
5
10
+IN3
-IN2
6
OUT2
7
OUT1
1
-IN1
2
+IN1
CH4
+ -
CH1
- +
- +
CH2
+ CH3
9
-IN3
8
OUT3
SOP14
BA14741F
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Absolute maximum rating (Ta=25[℃])
○BA4558/BA4560 family,BA4558R/BA4560R/BA4580R family
Parameter
Supply Voltage
Differential
Input Voltage(*1)
Input Common-mode
voltage range
Operating Supply
Voltage
Symbol
BA4558
family
Rating
BA4558R
family
BA4560
family
VCC-VEE
BA4560R
family
BA4580R
family
Unit
+36
V
Vid
(VCC-VEE)
36
V
Vicm
VEE～VCC
(VEE-0.3)～VEE+36
V
Vopr
8～30 (±4～±15)
8～30 (±4～±15)
4～32(±2～±16)
V
Io
-
-
±50
mA
Operating Temperature
Topr
-40～+85
-40～+105
℃
Storage Temperature
Tstg
-55～+125
-55～+150
℃
Tjmax
+125
+150
℃
Output Current
Maximum Junction
Temperature
Note: Absolute maximum rating item indicates the condition which must not be exceeded.
Application of voltage in excess of absolute maximum rating or use out absoluted maximum rated temperature environment may cause
deterioration of characteristics.
(*1) The voltage difference between inverting input and non-inverting input is the differential input voltage.
Then input terminal voltage is set to more then VEE.
●Electrical characteristics
○BA4558/BA4560 family (Unless otherwise specified VCC=+15[V], VEE=-15[V], Ta=25[℃])
Guaranteed limit
Parameter
Symbol
Temperature
Range
BA4558 family
BA4560 family
Min.
Typ.
Max.
Min.
Typ.
Max.
Unit
Condition
Input Offset Voltage (*2)
Vio
25℃
-
0.5
6
-
0.5
6
mV
Input Offset Current (*2)
Iio
25℃
-
5
200
-
5
200
nA
-
Input Bias Current (*3)
Ib
25℃
-
60
500
-
50
500
nA
-
Supply Current
ICC
25℃
-
3
6
-
4
7.5
mA
Maximum Output Voltage
VOM
25℃
±12
±10
±14
±13
-
±12
±10
±14
±13
-
V
RL≧10[kΩ]
RL≧2[kΩ]
Large Single Voltage Gain
AV
25℃
86
100
-
86
100
-
dB
RL≧2[kΩ],VOUT=±10[V]
Vicm
25℃
±12
±14
-
±12
±14
-
V
CMRR
25℃
70
90
-
70
90
-
dB
Rs≦10[kΩ]
PSRR
25℃
76.3
90
-
76.3
90
150
dB
Rs≦10[kΩ]
Channel Separation
CS
25℃
-
105
-
-
-
-
dB
f=1[kHz] Input referred
Slew Rate
SR
25℃
-
1.0
-
-
4
-
V/μs
AV=0[dB],RL≧2[kΩ]
GBW
25℃
-
-
-
-
10
-
MHz
f=10[kHz]
Vn
25℃
-
-
-
-
-
2.2
μV
Input Common-mode
Voltage Range
Common-mode
Rejection Ratio
Power Supply Rejection
Ratio
Gain Bandwidth Product
Input Referred
Noise Voltage
(*2)
(*3)
Rs≦10[kΩ]
RL=∞ All Op-Amps
-
Rs=2.2[kΩ],
BW=10[Hz]～30[kHz],RIAA
Absolute value
Current direction: Since first input stage is composed with PNP transistor, input bias current flows out of IC.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
2/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Electrical characteristics
○BA4558R/BA4560R family (Unless otherwise specified VCC=+15[V], VEE=-15[V], Full range -40[℃]～+105[℃])
Guaranteed limit
Temperature
Parameter
Symbol
BA4558R family
BA4560R family
Unit
Condition
Range
Min. Typ. Max. Min. Typ. Max.
25℃
0.5
6
0.5
6
Input Offset Voltage (*4)
Vio
mV VOUT=0[V]
Full range
7
7
25℃
5
200
5
200
Input Offset Current (*4)
Iio
nA
VOUT=0[V]
Full range
200
200
25℃
60
500
50
500
Input Bias Current (*5)
Ib
nA
VOUT=0[V]
Full range
800
800
25℃
3
6
3
7
RL=∞ All Op-Amps
Supply Current
ICC
mA
VIN+=0[V]
Full range
6.5
7.5
25℃
±10
±13
±12
±14
RL≧2[kΩ]
Full range ±10
Maximum Output Voltage
VOM
V
±10 ±11.5
Io=25[mA]
25℃
±12
±14
RL≧10[kΩ]
25℃
86
100
86
100
RL≧2[kΩ],VO=±10[V],
Large Single Voltage Gain
AV
dB
Vicm=0[V]
Full range 83
83
25℃
±12
±14
±12
±14
Input Common-mode
Vicm
V
VOUT=±12[V]
Voltage Range
Full range ±12
±12
Common-mode
CMRR
25℃
70
90
70
90
dB
VOUT=±12[V]
Rejection Ratio
Power Supply
PSRR
25℃
76.5
90
76.5
90
dB
Ri≦10[kΩ]
Rejection Ratio
Channel Separation
CS
25℃
-
105
-
-
105
-
dB
Slew Rate
SR
25℃
-
1
-
-
4
-
V/μs
AV=0[dB],RL=10[kΩ]
CL=100[pF]
ft
25℃
-
2
-
-
4
-
MHz
RL=2[kΩ]
THD
25℃
-
0.005
-
-
0.003
-
％
Vn
25℃
-
12
-
-
8
-
nV/ Hz
Unity Gain Frequency
Total Harmonic Distortion
Input Referred
Noise Voltage
(*4)
(*5)
f=1[kHz]
AV=20[dB],RL=10[kΩ]
VOUT=5[Vrms],f=1[kHz]
RS=100[Ω],Vi=0[V]
,f=1[kHz]
Absolute value
Current direction: Since first input stage is composed with PNP transistor, input bias current flows out of IC.
●Electrical characteristics
○BA4580R family (Unless otherwise specified VCC=+15[V], VEE=-15[V], Ta=25[℃])
Guaranteed limit
Temperature
BA4580R family
Parameter
Symbol
Unit
Range
Min.
Typ.
Max.
Input Offset Voltage (*6)
Vio
25℃
-
0.3
3
mV
Input Offset Current (*6)
Iio
25℃
-
5
200
nA
Condition
Rs≦10[kΩ]
-
Input Bias Current (*7)
Ib
25℃
-
100
500
nA
Large Single Voltage Gain
AV
25℃
90
110
-
dB
RL≧10[kΩ],VOUT=±10[V]
-
Maximum Output Voltage
VOM
Input Common-mode
Vicm
Voltage Range
Common-mode Rejection Ratio CMRR
25℃
±12
±13.5
-
V
RL≧2[kΩ]
25℃
±12
±13.5
-
V
25℃
80
110
-
dB
Power Supply Rejection Ratio
Rs≦10[kΩ]
PSRR
25℃
80
110
-
dB
Rs≦10[kΩ]
Supply Current
ICC
25℃
-
6
9
mA
RL=∞ All Op-Amps,VIN+=0[V]
Slew Rate
Unity Gain Frequency
SR
25℃
-
5
-
V/μs RL≧2[kΩ]
ft
25℃
-
5
-
THD
25℃
-
0.0005
-
Vni
25℃
-
0.8
-
Total Harmonic Distortion
Input Referred Noise Voltage
(*6)
(*7)
MHz RL=2[kΩ]
Av=20[dB],VOUT=5[Vrms],RL=2[kΩ]
%
f=1[kHz],20[Hz]~20[kHz] BPF
μVrms RIAA,Rs=2.2 [kΩ],30[kHz] LPF
Absolute value
Current direction: Since first input stage is composed with PNP transistor, input bias current flows out of IC.
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© 2009 ROHM Co., Ltd. All rights reserved.
3/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Absolute maximum rating (Ta=25[℃])
○BA15218/BA14741F/BA15532 family
Parameter
Supply Voltage
Symbol
BA15218 family
Rating
BA14741 family
BA15532 family
36
36
42
V
±0.5(*9)
V
VCC-VEE
Differential Input Voltage
VCC-VEE(*8)
Vid
Unit
Input Common-mode
voltage range
Vicm
Operating Supply Voltage
Vopr
4～32 (±2～±16)
4～36 (±2～±18)
6～40 (±3～±20)
V
Ii
-
-
±10
mA
-20~+75
℃
Input Current
VEE~VCC
V
Operating Temperature
Topr
Storage Temperature
Tstg
-55~+125
℃
Maximum junction Temperature
Tjmax
125
℃
Output Short Current (*10)
Iomax
±50
-
-
mA
Ts
-
unlimited
(only 1CH short)
unlimited
Sec
Output Short Time (*10)
-40~+85
Note: Absolute maximum rating item indicates the condition which must not be exceeded.
Application of voltage in excess of absolute maximum rating or use out absoluted maximum rated temperature environment may cause
deterioration of characteristics.
(*8) The voltage difference between inverting input and non-inverting input is the differential input voltage.
Then input terminal voltage is set to more then VEE.
(*9) Don’t over input current ±10mA. Built-in resistor for protection because of over current with differential input voltage above 0.5V.
(*10) Limit within Pd
●Electrical characteristics
○BA15218 family (Unless otherwise specified VCC=+15[V], VEE=-15[V], Ta=25[℃])
Parameter
Symbol
Temperature
Range
Guaranteed limit
Unit
Min.
Typ.
Max.
Condition
Input Offset Voltage (*11)
Vio
25℃
-
0.5
5.0
mV
Input Offset Current (*11)
Iio
25℃
-
5
200
nA
-
Input Bias Current (*12)
Ib
25℃
-
50
500
nA
-
Large Single Voltage Gain
Av
25℃
86
110
-
dB
RL≧2[kΩ],Vo=±10[V]
Vicm
25℃
±12
±14
-
V
-
Common-mode Rejection Ratio
CMRR
25℃
70
90
-
dB
Rs≦10[kΩ]
Power Supply Rejection Ratio
PSRR
25℃
76
90
-
dB
Rs≦10[kΩ]
ICC
25℃
-
5.0
8.0
mA
Vin=0,RL=∞
VOH
25℃
±12
±14
-
V
RL≧10[kΩ]
VOL
25℃
±10
±13
-
V
RL≧2[kΩ]
SR
25℃
-
3.0
-
V/μs GV=0[dB],RL=2[kΩ]
GBW
25℃
-
10
-
MHz f=10[kHz]
Input Referred Noise Voltage
Vn
25℃
-
1.0
-
μVrms
Channel Separation
CS
25℃
-
120
-
dB
Input Common-mode Voltage
Range
Supply Current
Maximum Output Voltage
Slew Rate
Gain Bandwidth Product
Rs≦10[kΩ]
RS=1[kΩ],
BW=20[Hz]～30[kHz],RIAA
f=1[kHz] input referred
(*11) Absolute value
(*12) Current direction: Since first input stage is composed with PNP transistor, input bias current flows out of IC.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
4/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Electrical characteristics
○BA14741 family (Unless otherwise specified VCC=+15[V], VEE=-15[V], Ta=25[℃])
Guaranteed limit
Temperature
Parameter
Symbol
Unit
Range
Min.
Typ.
Max.
Input Offset Voltage (*13)
Vio
25℃
(*13)
Iio
25℃
-
Ib
25℃
-
Input Offset Current
Input Bias Current (*14)
Large Single Voltage Gain
Common-mode Rejection Ratio
Input Common-mode
Voltage Range
Power Supply Rejection Ratio
Supply Current
Maximum
High
Output
Low
Voltage
Maximum
Source
Output
Sink
Current
-
1.0
Condition
5.0
mV
Rs≦10[kΩ]
10
50
nA
-
60
300
nA
-
Av
25℃
20
100
-
V/mV
CMRR
25℃
80
100
-
dB
RL≧2[kΩ],Vo=±10[V]
-
Vicm
25℃
±12
±13.5
-
V
-
PSRR
25℃
80
100
-
dB
ICC
25℃
-
3.0
7.0
mA
VOH
25℃
10
12.5
-
V
Vin+=1[V],Vin-=0[V],RL=2[kΩ]
VOL
25℃
-10
-12.5
-
V
Vin+=0[V],Vin-=1[V],RL=2[kΩ]
IOH
25℃
10
20
-
mA
Vin+=1[V],Vin-=0[V],VO=0[V]
RL=∞,on all OpAmp
IOL
25℃
5
10
-
mA
Vin+=0[V],Vin-=1[V],VO=0[V]
Slew Rate
SR
25℃
-
1.0
-
V/μs
Av=1,RL=2[kΩ]
Input Referred Noise Voltage
Vn
25℃
-
2.0
4.0
Channel Separation
CS
25℃
-
100
-
(*13)
(*14)
μVrms RIAA,Rs=2.2[kΩ],10[Hz]~30[kHz]
dB
f=1[kHz ] input referred
Absolute value
Current direction: Since first input stage is composed with PNP transistor, input bias current flows out of IC.
●Electrical characteristics
○BA15532 family (Unless otherwise specified VCC=+15[V], VEE=-15[V], Ta=25[℃])
Guaranteed limit
Temperature
Parameter
Symbol
Unit
Range
Min.
Typ.
Max.
Condition
Input Offset Voltage (*15)
Vio
25℃
-
0.5
4.0
mV
Rs=50[Ω],RL≧10[kΩ]
Input Offset Current (*15)
Iio
25℃
-
10
150
nA
RL≧10[kΩ]
Input Bias Current (*16)
Ib
25℃
-
200
800
nA
RL≧10[kΩ]
Large Single Voltage Gain
Av
25℃
80
94
-
dB
RL≧600[Ω],Vo=±10[V]
CMRR
25℃
70
100
-
dB
RL≧10[kΩ]
Vicm
25℃
±12
±13
-
V
RL≧10[kΩ]
PSRR
25℃
80
100
-
dB
Rs=50[Ω],RL≧10[kΩ]
Icc
25℃
-
8.0
16.0
mA
RL=∞,on all OpAmp
25℃
±12
±13
-
V
RL≧600[Ω]
25℃
±15
±16
-
V
RL≧600[Ω]
VCC=18[V],VEE=-18[V]
Common-mode
Rejection Ratio
Input Common-mode
Voltage Range
Power Supply Rejection Ratio
Supply Current
Maximum Output Voltage -1
Maximum Output Voltage -2
VOH/
VOL
Output Short Current
lOS
25℃
-
38
-
mA
(*17)
Slew Rate
SR
25℃
-
8.0
-
V/μs
Av=1,RL=600[Ω],CL=100[pF]
GBW
25℃
-
20
-
MHz
f=10[kHz],RL=600[Ω],CL=100[pF]
Input Referred Noise Voltage
Vn
25℃
-
0.7
1.5
Channel Separation
CS
25℃
-
110
-
Gain Bandwidth Product
μVrms RIAA,Rs=100[Ω],20[Hz]~30[kHz]
dB
RIAA Input referred
(*15 Absolute value
(*16) Current direction: Since first input stage is composed with NPN transistor, input bias current flows out of IC.
(*17) In the case of output pin shorting with VCC or VEE. But never over the maximum power dissipation
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
5/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Absolute maximum rating (Ta=25[℃])
○BA4510/BA2115 family
Parameter
Rating
Symbol
Unit
BA4510 family
BA2115 family
VCC-VEE
10
14
V
Vid
VCC-VEE
14
V
Input Common-mode Voltage Range
Vicm
VEE~VCC
(VEE-0.3)~VEE+14
V
Operating Supply Voltage
Vopr
2～7(±1~±3.5)
2～14(±1~±7)
V
Operating Temperature
Topr
-20~+75
-40~+85
℃
Storage Temperature
Tstg
-55~125
-55~150
℃
Tjmax
125
150
℃
Supply Voltage
(*18)
Differential Input Voltage
Maximum Junction Temperature
Note: Absolute maximum rating item indicates the condition which must not be exceeded.
Application of voltage in excess of absolute maximum rating or use out absoluted maximum rated temperature environment may cause
deterioration of characteristics.
(*18) The voltage difference between inverting input and non-inverting input is the differential input voltage.
Then input terminal voltage is set to more then VEE.
●Electrical characteristics
○BA4510 family (Unless otherwise specified VCC=+2.5[V], VEE=-2.5[V], Ta=25[℃])
Guaranteed limit
Symbol
Temperature
Range
Min.
Typ.
Max.
Input Offset Voltage (*19)
Vio
25℃
-
1
6
mV
Rs=50[Ω]
(*19)
Iio
25℃
-
2
200
nA
-
Ib
25℃
-
80
500
nA
-
ICC
25℃
2.5
5.0
7.5
mA
RL=∞ All Op-Amps
VOH
25℃
+2.0
+2.4
-
V
RL=10[kΩ]
VOL
25℃
-
-2.4
-2.0
V
RL=10[kΩ]
Av
25℃
60
90
-
dB
RL≧10[kΩ]
Vicm
25℃
-1.3
-
+1.5
V
-
Common-mode Rejection Ratio
CMRR
25℃
60
80
-
dB
-
Power Supply Rejection Ratio
PSRR
25℃
60
80
-
dB
Rs=50[Ω]
SR
25℃
-
5.0
-
V/μs
Parameter
Input Offset Current
Input Bias Current
(*20)
Supply Current
Maximum Output Voltage
Large Single Voltage Gain
Input Common-mode Voltage Range
Slew Rate
Unit
Condition
Av=1
(*19) Absolute value
(*20) Current direction: Since first input stage is composed with PNP transistor, input bias current flows out of IC.
●Electrical characteristics
○BA2115 family (Unless otherwise specified VCC=+2.5[V], VEE=-2.5[V], Ta=25[℃])
Temperature Guaranteed limit
Parameter
Symbol
Unit
Range
Min. Typ. Max.
Condition
Input Offset Voltage (*21)
Vio
25℃
-
1
6
mV
VOUT=0[V], Vicm=0[V]
Input Offset Current (*21)
Iio
25℃
-
2
200
nA
VOUT=0[V], Vicm=0[V]
Ib
25℃
-
150
400
nA
VOUT=0[V], Vicm=0[V]
Supply Current
ICC
25℃
-
3.5
5
mA
RL=∞ All Op-Amps, VIN+=0[V]
Maximum Output Voltage
VOM
25℃
±2.0
±2.2
-
V
Large Single Voltage Gain
AV
25℃
60
80
-
dB
Vicm
25℃
±1.5
-
-
V
Input Bias Current
(*22)
Input Common-mode Voltage Range
RL≧2.5[kΩ]
RL≧10[kΩ], VOUT=±2[V],
Vicm=0[V]
-
Common-mode Rejection Ratio
CMRR
25℃
60
74
-
dB
Vicm=-1.5[V]～+1.5[V]
Power Supply Rejection Ratio
PSRR
25℃
60
80
-
dB
VCC=+2[V]～+14[V]
Slew Rate
SR
25℃
-
4
-
V/μs
AV=0[dB], VIN=±1[V]
Gain Bandwidth Product
GB
25℃
-
12
-
MHz
f=10[kHz]
(*21)
(*22)
Absolute value
Current direction: Since first input stage is composed with PNP transistor, input bias current flows out of IC.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
6/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
●Example of electrical characteristics
○BA4558 family
BA4558 family
BA4558F
600
400
200
0
25
50
75
100
AMBIENT TEMPERTURE [℃] .
-40℃
3.0
2.0
85℃
1.0
4.0
±15V
3.0
2.0
±4 V
0
5
10
15
20
25
SUPPLY VOLTAGE [V]
30
1.0
15
10
5
0
15
10
VOH
5
0
-5
VOL
-10
-15
-20
0.1
1
LOAD RESISTANCE [kΩ]
10
15
VOH
10
5
0
-5
-10
VOL
-15
-20
0.1
1
LOAD RESISTANCE [kΩ]
10
±2
±4
±6 ±8 ±10 ±12 ±14 ±16 ±18
SUPPLY VOLTAGE [V]
Fig. 4
Maximum Output Voltage Swing
– Load Resistance
Fig. 5
Maximum Output Voltage
– Load Resistance
Fig. 6
Maximum Output Voltage
– Supply Voltage
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(RL=2[kΩ],Ta=25[℃])
BA4558 family
10
VOH
5
0
-5
VOL
-10
-15
15
10
VOH
5
0
-5
VOL
-10
-15
-20
-20
-50
-25
0
25
50
75
5
10
15
20
OUTPUT CURRENT [mA]
Fig. 7
Maximum Output Voltage
– Ambient Temperature
Fig. 8
Maximum Output Voltage
– Output Current
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
BA4558 family
-40℃
2
0
85℃
25℃
-2
-4
25
AMBIENT TEMPERATURE [℃]
±0
±4
±6
±8
±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
Fig. 9
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
BA4558 family
80
±2
BA4558 family
80
70
±4V
2
±7.5V
0
±15V
-2
-4
70
85℃
60
50
40
-40℃
25℃
30
20
-25
0
25
50
75
100
±0
±2
www.rohm.com
40
±7.5V
±15V
30
20
±6
±8
±10 ±12 ±14 ±16
-50
-25
0
25
50
75
100
AMBIENT TEMPERATURE [℃]
Fig. 11
Input Bias Current – Supply Voltage
Fig. 12
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
© 2009 ROHM Co., Ltd. All rights reserved.
±4
SUPPLY VOLTAGE [V]
AMBIENT TEMPERATURE [℃]
Fig. 10
Input Offset Voltage – Ambient Temperature
50
0
0
-50
±4V
60
10
10
-6
INPUT BIAS CURRENT [nA]
4
INPUT BIAS CURRENT [nA]
INPUT OFFSET VOLTAGE [mV]
.
6
4
-6
0
100
BA4558 family
6
INPUT OFFSET VOLTAGE [mV]
INPUT OFFSET VOLTAGE [mV]
15
BA4558 family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
20
100
BA4558 family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
20
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
Fig. 3
Supply Current – Ambient Temperature
BA4558 family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
25
-50
35
Fig. 2
Supply Current – Supply Voltage
BA4558 family
30
±7.5 V
0.0
125
Fig. 1
Derating Curve
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
25℃
0.0
0
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
4.0
BA4558 family
5.0
SUPPLY CURRENT [mA]
800
BA4558 family
5.0
SUPPLY CURRENT [mA] .
POWER DISSIPATION [mW] .
1000
Technical Note
7/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
-40℃
0
-10
85℃
-20
-30
10
±4V
0
±15V
-10
-20
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
100
75
50
25
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
75
50
-4
0
0
-25
0
25
50
1.0
0.5
75
0.0
100
±2
TOTAL HARMONIC DISTORTION [%]
0
20kHz
0.01
1kHz
0.001
20Hz
0.0001
10000
0.1
Fig. 19
1
OUTPUT VOLTAGE [Vrms]
10
Fig. 20
Equivalent Input Noise Voltage – Frequency
Total Harmonic Distortion – Output Voltage
(VCC/VEE=+15[V]/-15[V],Av=20[dB],
RL＝2[kΩ],80[kHz]-LPF,Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Rs=100[Ω],Ta=25[℃])
±6
±8 ±10 ±12 ±14
SUPPLY VOLTAGE [V]
±16
Slew Rate – Supply Voltage
BA4558 family
0.1
±4
Fig. 18
(CL=100[pF],RL=2[kΩ],Ta=25[℃])
(VCC/VEE=+4[V]/-4[V] to +15[V]/-15[V])
1
20
BA4558 family
BA4558 family
2.0
Fig. 17
Power Supply Rejection Ratio
– Ambient Temperature
40
2
4
6
8
COMMON MODE INPUT VOLTAGE [V]
Fig. 15
Input Offset Voltage
– Common Mode Input Voltage
AMBIENT TEMPERATURE [℃]
60
60
-3
25
-50
BA4558 family
100
FREQUENCY [Hz]
85℃
-2
1.5
100
Fig. 16
Common Mode Rejection Ratio
– Ambient Temperature
1
0
(VCC=8[V],Vout=4[V])
125
100
(VCC/VEE=+15[V]/-15[V],Vicm=-12[V] to +12[V])
-40℃
-1
100
BA4558 family
150
0
80
25℃
1
.
POWER SUPPLY REJECTION RATIO [dB]
.
125
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
2
(Vicm=0[V],Vout=0[V])
BA4558 family
-50
3
Fig. 14
Input Offset Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
150
4
-5
-50
SLEW RATE [V/μs]
±2
Fig. 13
Input Offset Current – Supply Voltage
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
.
±7.5V
-30
±0
COMMON MODE REJECTION RATIO [dB]
20
BA4558 family
5
INPUT OFFSET VOLTAGE [mV]
25℃
10
BA4558 family
30
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
20
BA4558 family
INPUT OFFSET CURRENT [nA]
.
30
INPUT OFFSET CURRENT [nA]
○BA4558 family
Technical Note
BA4558 family
30
25
20
15
10
5
0
1
10
100
FREQUENCY [Hz]
1000
Fig. 21
Maximum Output Voltage Swing – Frequency
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ],Ta=25[℃])
0
50
-30
40
-60
30
-90
GAIN
20
-120
10
-150
0
1.E+00
1.E+02
1.E+04
1.E+06
FREQUENCY [Hz]
PHASE [deg]
VOLTAGE GAIN [dB]
PHASE
-180
1.E+08
Fig. 22
Voltage Gain – Frequency
(VCC/VEE=+15[V]/-15[V],Av=40[dB],RL=2[kΩ],Ta=25[℃])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
8/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA4560 family
BA4560 family
BA4560 family
8.0
BA4560F
600
400
200
0
25
50
75
100
25℃
4.0
85℃
2.0
Fig. 23
Derating Curve
±4 V
2.0
5
10
15
20
25
SUPPLY VOLTAGE [V]
30
-50
35
Fig. 24
Supply Current – Supply Voltage
25
20
15
10
5
15
10
VOH
5
0
-5
VOL
-10
-15
1
LOAD RESISTANCE [kΩ]
Fig. 26
Maximum Output Voltage Swing
– Load Resistance
1
LOAD RESISTANCE [kΩ]
10
VOH
0
VOL
-10
-15
-20
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
VOL
-15
±4
±6 ±8 ±10 ±12 ±14 ±16 ±18
SUPPLY VOLTAGE [V]
Fig. 28
Maximum Output Voltage
– Supply Voltage
15
10
VOH
5
0
-5
VOL
-10
-15
(RL=2[kΩ],Ta=25[℃])
BA4560 family
6
4
-40℃
0
0
-2
85℃
-4
5
10
15
20
25
±2
±4
OUTPUT CURRENT [mA]
Fig. 30
Maximum Output Voltage
– Output Current
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
BA4560 family
25℃
2
-6
100
Fig. 29
Maximum Output Voltage
– Ambient Temperature
±8
±10
±12
±14
±16
Fig. 31
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
BA4560 family
80
±6
SUPPLY VOLTAGE [V]
BA4560 family
60
70
±4V
2
±7.5V
0
±15V
-2
-4
50
60
-40℃
50
25℃
40
30
20
85℃
10
0
-6
-50
-25
0
25
50
75
100
www.rohm.com
±2
±4
±6
±8
±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
Fig. 33
Input Bias Current – Supply Voltage
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
© 2009 ROHM Co., Ltd. All rights reserved.
±4V
40
30
±7.5V
±15V
20
10
0
±0
AMBIENT TEMPERATURE [℃]
Fig. 32
Input Offset Voltage – Ambient Temperature
INPUT BIAS CURRENT [nA]
4
INPUT BIAS CURRENT [nA]
INPUT OFFSET VOLTAGE [mV]
.
6
-10
±2
-20
-50
0
-5
10
BA4560 family
20
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
15
-5
5
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
BA4560 family
5
VOH
10
Fig. 27
Maximum Output Voltage
– Load Resistance
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
20
15
-20
0.1
10
INPUT OFFSET VOLTAGE [mV]
0.1
100
BA4560 family
20
-20
0
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
Fig. 25
Supply Current – Ambient Temperature
BA4560 family
20
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
4.0
0.0
0
BA4560 family
±15V
±7.5 V
0.0
125
AMBIENT TEMPERATURE
TEMPERTURE [℃]
AMBIENT
[℃] .
30
6.0
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
0
-40℃
6.0
SUPPLY CURRENT [mA]
SUPPLY CURRENT [mA]
800
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
BA4560 family
8.0
.
POWER DISSIPATION [mW]
1000
(Vicm=0[V],Vout=0[V])
9/33
-50
-25
0
25
50
75
100
AMBIENT TEMPERATURE [℃]
Fig. 34
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
INPUT OFFSET CURRENT [nA]
20
-40℃
10
BA4560 family
30
INPUT OFFSET CURRENT [nA]
.
BA4560 family
30
25℃
0
-10
85℃
-20
20
10
±7.5V
±4V
0
±15V
-10
5
-20
BA4560 family
4
INPUT OFFSE T VOLTAGE [mV ]
○BA4560 family
Technical Note
85℃
3
25℃
2
-40℃
1
0
-1
-2
-3
-4
-30
-30
±0
±2
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
-50
-25
0
25
50
75
-5
100
0
2
AMBIENT TEMPERATURE [°C]
Fig. 35
Input Offset Current – Supply Voltage
Fig. 36
Input Offset Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
4
6
8
COMMON MODE INPUT VOLTAGE [V]
Fig. 37
Input Offset Voltage
– Common Mode Input Voltage
(Vicm=0[V],Vout=0[V])
(VCC=8[V],Vout=4[V])
BA4560 family
BA4560 family
125
SLEW RATE [V/μs]
125
100
75
50
25
0
-50
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
100
75
50
-50
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
TOTAL HARMONIC DISTORTION [%]
100
FREQUENCY [Hz]
10000
Fig. 41
Equivalent Input Noise Voltage – Frequency
BA4560 family
±6
±8 ±10 ±12 ±14
SUPPLY VOLTAGE [V]
±16
(CL=100[pF],RL=2[kΩ],Ta=25[℃])
BA4560 family
0.01
1kHz
0.001
20Hz
1
OUTPUT VOLTAGE [Vrms]
10
Fig. 42
Total Harmonic Distortion – Output Voltage
200
(VCC/VEE=+15[V]/-15[V],Av=20[dB],
RL＝2[kΩ],80[kHz]-LPF,Ta=25[℃])
BA4560 family
30
25
20
15
10
5
0
1
10
100
1000
FREQUENCY
[kHz]
FREQUENCY [KHz]
Fig. 43
Maximum Output Voltage Swing – Frequency
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ],Ta=25[℃])
180
..
160
40
PHASE
30
140
120
GAIN
100
80
20
PHASE [deg]
.
VOLTAGE GAIN[dB]
±4
Fig. 40
Slew Rate – Supply Voltage
20kHz
(VCC/VEE=+15[V]/-15[V],Rs=100[Ω],Ta=25[℃])
50
±2
100
0.1
0.0001
0.1
0
1
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
1
20
2
(VCC/VEE=+4[V]/-4[V] to +15[V]/-15[V])
BA4560 family
40
3
Fig. 39
Power Supply Rejection Ratio
– Ambient Temperature
(VCC/VEE=+15[V]/-15[V],Vicm=-12[V] to +12[V])
60
4
0
0
Fig. 38
Common Mode Rejection Ratio
– Ambient Temperature
80
5
1
25
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
100
BA4560 family
6
.
150
POWER SUPPLY REJECTION RATIO [dB]
.
COMMON MODE REJECTION RATIO [dB]
150
60
10
40
20
0
1.E+00
0
1.E+02
1.E+04
1.E+06
1.E+08
FREQUENCY [Hz]
SUPPLY VOLTAGE [V]
Fig. 44
Voltage Gain – Frequency
(VCC/VEE=+15[V]/-15[V],Av=40[dB],RL=2[kΩ],Ta=25[℃])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
10/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA4558R family
SUPPLY CURRENT [mA] .
BA4558RF
600
BA4558RFV
400
BA4558RFVM
200
5.0
5.0
-40℃
4.0
25℃
3.0
2.0
105℃
1.0
0.0
0
25
50
75
100
AMBIENT TEMPERTURE [℃] .
BA4558R family
25
20
15
10
5
30
1
LOAD RESISTANCE [kΩ]
±4 V
2.0
±7.5 V
1.0
-50
15
10
VOH
5
0
-5
VOL
-10
-15
-25
0
25
50
75
100
AMBIENT TEMPERATURE [℃]
BA4558R family
20
15
VOH
10
5
0
-5
-10
VOL
-15
-20
1
LOAD RESISTANCE [kΩ]
10
±4
±6
±8
±10
±12
±14
SUPPLY VOLTAGE [V]
Fig. 48
Maximum Output Voltage Swing
– Load Resistance
Fig. 49
Maximum Output Voltage
– Load Resistance
Fig. 50
Maximum Output Voltage
– Supply Voltage
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(RL=2[kΩ],Ta=25[℃])
BA4558R family
10
VOH
5
0
-5
VOL
-10
-15
-20
-50
BA4558R family
20
15
10
VOH
5
0
-5
VOL
-10
-15
-20
-25
0
25
50
75 100
AMBIENT TEMPERATURE [℃]
125
-40℃
2
25℃
0
105℃
-2
-4
5
10
15
20
25
±2
±4
OUTPUT CURRENT [mA]
Fig. 51
Maximum Output Voltage
– Ambient Temperature
±8
±10
±12
±14
±16
Fig. 53
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
BA4558R family
BA4558R family
50
.
50
±6
SUPPLY VOLTAGE [V]
Fig. 52
Maximum Output Voltage
– Output Current
BA4558R family
6
4
-6
0
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ])
±16
BA4558R family
6
INPUT OFFSET VOLTAGE [mV]
15
125
Fig. 47
Supply Current – Ambient Temperature
BA4558R family
0.1
10
3.0
35
-20
0.1
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
10
15
20
25
SUPPLY VOLTAGE [V]
20
0
20
4
INPUT BIAS CURRENT [nA]
INPUT OFFSET VOLTAGE [mV]
5
Fig. 46
Supply Current – Supply Voltage
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
Fig. 45
Derating Curve
30
±15V
4.0
0.0
0
125
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
0
BA4558R family
6.0
±4V
2
±7.5V
0
-2
±15V
-4
40
INPUT BIAS CURRENT [nA]
POWER DISSIPATION [mW] .
800
BA4558R family
6.0
SUPPLY CURRENT [mA]
BA4558R family
1000
30
-40℃
25℃
20
10
105℃
-50
-25
0
25
50
75
100
125
AMBIENT TEMPERATURE [℃]
Fig. 54
Input Offset Voltage – Ambient Temperature
±2
www.rohm.com
±4
±6
±8
±10
±12
SUPPLY VOLTAGE [V]
±14
±16
Fig. 55
Input Bias Current – Supply Voltage
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
© 2009 ROHM Co., Ltd. All rights reserved.
30
±4V
±7.5V
20
10
±15V
0
0
-6
40
(Vicm=0[V],Vout=0[V])
11/33
-50
-25
0
25
50
75
100
125
AMBIENT TEMPERATURE [℃]
Fig. 56
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
○BA4558R family
BA4558R family
60
Technical Note
BA4558R family
60
BA4558R family
5
INPUT OFFSET CURRENT [nA]
-40℃
20
105℃
0
-20
25℃
-40
INPUT OFFSET VOLTAGE [mV]
INPUT OFFSET CURRENT [nA]
4
40
40
±4V
20
±15V
0
±7.5V
-20
-40
3
2
1
0
-1
-40℃
-2
25℃
-3
105℃
-4
-60
±0
±2
-5
-60
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
-50
Fig. 57
Input Offset Current – Supply Voltage
-25
0
25
50
75 100
AMBIENT TEMPERATURE [°C]
0
125
Fig. 58
Input Offset Current – Ambient Temperature
Fig. 59
Input Offset Voltage
– Common Mode Input Voltage
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
2
4
6
8
COMMON MODE INPUT VOLTAGE [V]
.
(VCC=8[V],Vout=4[V])
75
50
25
0
-25
0
25
50
75 100
AMBIENT TEMPERATURE [°C]
125
.
125
100
75
50
0.5
0.0
0
-50
-25
0
25
50
75 100
AMBIENT TEMPERATURE [℃]
(VCC/VEE=+15[V]/-15[V],Vicm=-12[V] to +12[V])
(VCC/VEE=+4[V]/-4[V] to +15[V]/-15[V])
TOTAL HARMONIC DISTORTION [%]
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
.
60
40
20
1
100
FREQUENCY [Hz]
20kHz
0.1
1kHz
0.01
0.001
20Hz
0.1
10000
1
OUTPUT VOLTAGE [Vrms]
±6
±8 ±10 ±12 ±14
SUPPLY VOLTAGE [V]
±16
(CL=100[pF],RL=2[kΩ],Ta=25[℃])
0.0001
0
±4
Fig. 62
Slew Rate – Supply Voltage
BA4558R family
1
±2
125
Fig. 61
Power Supply Rejection Ratio
– Ambient Temperature
BA4558R family
1.0
25
Fig. 60
Common Mode Rejection Ratio
– Ambient Temperature
80
1.5
SLEW RATE [V/μs]
100
BA4558R family
2.0
10
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
125
-50
BA4558R family
150
POWER SUPPLY REJECTION RATIO [dB]
COMMON MODE REJECTION RATIO [dB]
BA4558R family
150
BA4558 family
30
25
20
15
10
5
0
10
100
1000
10000 100000 100000
0
FREQUENCY [Hz]
Fig. 63
Equivalent Input Noise Voltage – Frequency
Fig. 64
Total Harmonic Distortion – Output Voltage
Fig. 65
Maximum Output Voltage Swing – Frequency
(VCC/VEE=+15[V]/-15[V],Rs=100[Ω],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Av=20[dB],
RL＝2[kΩ],80[kHz]-LPF,Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ],Ta=25[℃])
BA4558R family
60
0
-30
40
-60
30
-90
GAIN
20
-120
10
-150
0
1.E+00
1.E+02
1.E+04
1.E+06
PHASE [deg]
VOLTAGE GAIN [dB]
PHASE
50
-180
1.E+08
FREQUENCY [Hz]
Fig. 66
Voltage Gain – Frequency
(VCC/VEE=+15[V]/-15[V],Av=40[dB],RL=2[kΩ],Ta=25[℃])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
12/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA4560R family
SUPPLY CURRENT [mA] .
BA4560RF
600
BA4560RFV
400
BA4560RFVM
200
5.0
4.0
3.0
25℃
2.0
105℃
50
75
100
AMBIENT TEMPERATURE [℃] .
125
±7.5 V
1.0
5
10
15
20
25
SUPPLY VOLTAGE [V]
30
35
-50
Fig. 68
Supply Current – Supply Voltage
BA4560R family
25
20
15
10
5
15
10
VOH
5
0
-5
VOL
-10
-15
0.1
1
LOAD RESISTANCE [kΩ]
15
Fig. 70
Maximum Output Voltage Swing
– Load Resistance
5
0
-5
-10
VOL
-15
VOH
5
0
-5
VOL
-10
-15
-20
-50
±4
0
25
50
75
100
10
VOH
5
0
VOL
-10
-15
125
BA4560R family
4
2
-40℃
105℃
-2
-4
5
10
15
20
25
±2
±4
OUTPUT CURRENT [mA]
Fig. 74
Maximum Output Voltage
– Output Current
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
±8
±10
±12
±14
±16
Fig. 75
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
BA4560R family
BA4560R family
200
±4V
2
±7.5V
0
-2
±15V
-4
180
180
160
160
INPUT BIAS CURRENT [nA]
4
INPUT BIAS CURRENT [nA ]
INPUT OFFSET VOLTAGE [mV]
.
200
±6
SUPPLY VOLTAGE [V]
Fig. 73
Maximum Output Voltage
– Ambient Temperature
BA4560R family
25℃
0
-6
0
AMBIENT TEMPERATURE [℃]
6
±16
(RL=2[kΩ],Ta=25[℃])
15
-5
±8
±10
±12
±14
SUPPLY VOLTAGE [V]
6
-20
-25
±6
Fig. 72
Maximum Output Voltage
– Supply Voltage
BA4560R family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
10
10
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
BA4560R family
15
1
LOAD RESISTANCE [kΩ]
Fig. 71
Maximum Output Voltage
– Load Resistance
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
20
VOH
10
-20
0.1
10
125
BA4560R family
20
-20
0
-25
0
25
50
75 100
AMBIENT TEMPERATURE [℃]
Fig. 69
Supply Current – Ambient Temperature
BA4560R family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
30
±4 V
2.0
0.0
0
Fig. 67
Derating Curve
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
3.0
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
25
±15V
4.0
0.0
0
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
5.0
-40℃
1.0
0
BA4560R family
6.0
INPUT OFFSET VOLTAGE [mV]
POWER DISSIPATION [mW] .
800
BA4560R family
6.0
SUPPLY CURRENT [mA]
BA4560R family
1000
140
120
25℃
100
-40℃
80
60
40
105℃
-25
0
25
50
75
100
125
±2
AMBIENT TEMPERATURE [℃]
Fig. 76
Input Offset Voltage – Ambient Temperature
www.rohm.com
±4
±6
±8
±10
±12
±14
±16
SUPPLY VOLTAGE [V]
Fig. 77
Input Bias Current – Supply Voltage
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
© 2009 ROHM Co., Ltd. All rights reserved.
±4V
±7.5V
100
80
60
40
±15V
0
0
-50
120
20
20
-6
140
(Vicm=0[V],Vout=0[V])
13/33
-50
-25
0
25
50
75
100
125
AMBIENT TEMPERATURE [℃]
Fig. 78
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA4560R family
.
BA4560R family
60
BA4560R family
60
BA4560R family
5
-40℃
105℃
20
0
-20
25℃
-40
INPUT OFFSET VOLTAGE [mV]
INPUT OFFSET CURRENT [nA]
INPUT OFFSET CURRENT [nA]
4
40
40
±4V
20
±15V
0
±7.5V
-20
-40
3
2
1
0
-1
-40℃
-2
25℃
-3
105℃
-4
-60
-60
±2
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
-5
-50
Fig. 79
Input Offset Current – Supply Voltage
-25
0
25
50
75 100
AMBIENT TEMPERATURE [°C]
100
75
50
25
0
-25
0
25
50
75 100
AMBIENT TEMPERATURE [°C]
125
.
125
4.0
100
75
50
0
0.0
125
40
20
20kHz
0.1
0.01
1kHz
0.001
20Hz
0.0001
0
0.1
10000
1
OUTPUT VOLTAGE [Vrms]
10
Fig. 85
Equivalent Input Noise Voltage – Frequency
Fig. 86
Total Harmonic Distortion – Output Voltage
(VCC/VEE=+15[V]/-15[V],Rs=100[Ω],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Av=20[dB],
RL＝2[kΩ],80[kHz]-LPF,Ta=25[℃])
PHASE
VOLTAGE GAIN [dB]
50
40
0
-90
GAIN
20
-120
10
-150
0
±16
(CL=100[pF],RL=2[kΩ],Ta=25[℃])
BA4560R family
30
25
20
15
10
5
0
10
100
1000
10000 100000 100000
0
FREQUENCY [Hz]
Fig. 87
Maximum Output Voltage Swing – Frequency
(VCC/VEE=+1 5[V]/-15[V],RL=2[kΩ],Ta=25[℃])
-30
-60
30
±6
±8 ±10 ±12 ±14
SUPPLY VOLTAGE [V]
PHASE [deg]
BA4560R family
±4
Fig. 84
Slew Rate – Supply Voltage
BA4560R family
1
60
60
±2
(VCC/VEE=+4[V]/-4[V] to +15[V]/-15[V])
TOTAL HARMONIC DISTORTION [%]
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
.
-25
0
25
50
75 100
AMBIENT TEMPERATURE [℃]
Fig. 83
Power Supply Rejection Ratio
– Ambient Temperature
BA4560R family
100
FREQUENCY [Hz]
2.0
1.0
-50
(VCC/VEE=+15[V]/-15[V],Vicm=-12[V] to +12[V])
1
3.0
25
Fig. 82
Common Mode Rejection Ratio
– Ambient Temperature
80
BA4560R family
5.0
SLEW RATE [V/μs]
POWER SUPPLY REJECTION RATIO [dB]
.
COMMON MODE REJECTION RATIO [dB]
125
(VCC=8[V],Vout=4[V])
BA4560R family
150
2
4
6
8
COMMON MODE INPUT VOLTAGE [V]
Fig. 81
Input Offset Voltage
– Common Mode Input Voltage
(Vicm=0[V],Vout=0[V])
BA4560R family
-50
0
Fig. 80
Input Offset Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
150
125
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
±0
-180
1.E+00
1.E+02
1.E+04
1.E+06
FREQUENCY [Hz]
1.E+08
Fig. 88
Voltage Gain – Frequency
(VCC/VEE=+15[V]/-15[V],Av=40[dB],RL=2[kΩ],Ta=25[℃])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
14/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA4580R family
BA4580R family
BA4580R family
10.0
BA4580R family
10.0
BA4580RF
600
400
BA4580RFVM
200
8.0
6.0
25℃
4.0
105℃
2.0
25
50
75
100
AMBIENT TEMPERATURE [℃]
±2 V
5
10
15
20
25
SUPPLY VOLTAGE [V]
.
30
35
-50
Fig. 90
Supply Current – Supply Voltage
BA4580R family
25
20
15
10
5
15
10
VOH
5
0
-5
VOL
-10
0.1
1
LOAD RESISTANCE [kΩ]
-15
15
VOH
10
5
0
-5
-10
VOL
-15
-20
0.1
10
1
LOAD RESISTANCE [kΩ]
10
±0
±2
±4
±6 ±8 ±10 ±12 ±14 ±16 ±18
SUPPLY VOLTAGE [V]
Fig. 92
Maximum Output Voltage Swing
– Load Resistance
Fig. 93
Maximum Output Voltage
– Load Resistance
Fig. 94
Maximum Output Voltage
– Supply Voltage
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(RL=2[kΩ],Ta=25[℃])
BA4580R family
10
VOH
5
0
-5
VOL
-10
-15
-20
15
10
VOH
5
0
-5
VOL
-10
-15
-20
-50
-25
0
25
50
75
100
0
5
10
15
20
OUTPUT CURRENT [mA]
Fig. 95
Maximum Output Voltage
– Ambient Temperature
Fig. 96
Maximum Output Voltage
– Output Current
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
.
INPUT BIAS CURRENT [nA]
±2V
2
±7.5V
0
±15V
-2
-4
-25
0
25
50
75
100
125
120
-40℃
100
80
60
105℃
40
25℃
www.rohm.com
±2
±4
±6
±8
±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
Fig. 97
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
BA4580R family
200
160
140
140
±7.5V
120
100
80
60
±15V
±2V
40
20
0
±0
±2
±4
±6
±8
±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
Fig. 99
Input Bias Current – Supply Voltage
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
© 2009 ROHM Co., Ltd. All rights reserved.
-4
180
AMBIENT TEMPERATURE [℃]
Fig. 98
Input Offset Voltage – Ambient Temperature
105℃
-2
160
0
-50
0
180
20
-6
25℃
±0
BA4580R family
200
4
-40℃
2
25
AMBIENT TEMPERATURE [℃]
6
4
-6
125
BA4580R family
BA4580R family
6
INPUT OFFSET VOLTAGE [mV]
INPUT OFFSET VOLTAGE [mV]
15
BA4580R family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
20
100
BA4580R family
20
-20
0
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
Fig. 91
Supply Current – Ambient Temperature
BA4580R family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
30
±7.5 V
2.0
0.0
0
125
Fig. 89
Derating Curve
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
4.0
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
0
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
±15V
6.0
0.0
0
INPUT
OFFSET
INPUT
OFFSETVOLTAGE
VOLTAGE[mV]
[mV]
8.0
-40℃
SUPPLY CURRENT [mA]
SUPPLY CURRENT [mA]
800
INPUT BIAS CURRENT [nA]
POWER DISSIPATION [mW] .
.
1000
(Vicm=0[V],Vout=0[V])
15/33
-50
-25
0
25
50
75
100
125
AMBIENT TEMPERATURE [℃]
Fig. 100
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA4580R family
BA4580R family
BA4580R family
30
INPUT OFFSET CURRENT [nA]
20
105℃
10
0
25℃
-40℃
-10
-20
20
±2V
±7.5V
10
0
±15V
-10
-20
BA4580R family
5
4
INPUT
OFFSET VOLTAGE
VOLTAGE[mV]
[mV]
INPUT OFFSET
INPUT OFFSET CURRENT [nA]
.
30
105℃
3
25℃
2
-40℃
1
0
-1
-2
-3
-4
-30
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
Fig. 101
Input Offset Current – Supply Voltage
75
50
25
0
-25
0
25
50
75 100
AMBIENT TEMPERATURE [°C]
125
75
50
0
-10
-25
0
25
50
75 100
AMBIENT TEMPERATURE [℃]
TOTAL HARMONIC DISTORTION [%]
20
20kHz
0.01
1kHz
0.001
20Hz
Fig. 107
Equivalent Input Noise Voltage – Frequency
(VCC/VEE=+15[V]/-15[V],Rs=100[Ω],Ta=25[℃])
BA4580R family
60
0
1
OUTPUT VOLTAGE [Vrms]
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
(CL=100[pF],RL=2[kΩ],Ta=25[℃])
0.1
0.1
10000
±2
Fig. 106
Slew Rate – Supply Voltage
0.0001
0
100
FREQUENCY [Hz]
±0
125
BA4580R family
1
40
-5
(VCC/VEE=+2[V]/-2[V] to +15[V]/-15[V])
BA4580R family
60
0
Fig. 105
Power Supply Rejection Ratio
– Ambient Temperature
(VCC/VEE=+15[V]/-15[V],Vicm=-12[V] to +12[V])
family
25
-50
125
BA4580R
(VCC=8[V],Vout=4[V])
10
5
100
Fig. 104
Common Mode Rejection Ratio
– Ambient Temperature
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
.
Fig. 103
Input Offset Voltage
– Common Mode Input Voltage
BA4580R family
150
2
4
6
8
COMMON MODE INPUT VOLTAGE [V]
.
POWER SUPPLY REJECTION RATIO [dB]
.
COMMON MODE REJECTION RATIO [dB]
100
1
0
(Vicm=0[V],Vout=0[V])
125
80
125
Fig. 102
BA4580R family
-50
-25
0
25
50
75 100
AMBIENT TEMPERATURE [°C]
Input Offset Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
150
-5
-50
SLEW RATE [V/μs]
±2
10
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
±0
-30
BA4580R family
30
25
20
15
10
5
0
1
10
100
FREQUENCY [kHz]
1000
Fig. 108
Total Harmonic Distortion – Output Voltage
Fig. 109
Maximum Output Voltage Swing – Frequency
(VCC/VEE=+15[V]/-15[V],Av=20[dB],
RL＝2[kΩ],80[kHz]-LPF,Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ],Ta=25[℃])
-30
40
-60
30
-90
GAIN
20
-120
10
-150
PHASE [deg]
VOLTAGE GAIN [dB]
PHASE
50
0
-180
1.E-01 1.E+00 1.E+01 1.E+02 1.E+03 1.E+04
FREQUENCY [kHz]
Fig. 110
Voltage Gain – Frequency
(VCC/VEE=+15[V]/-15[V],Av=40[dB],RL=2[kΩ],Ta=25[℃])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
16/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA15218 family
SUPPLY CURRENT [mA] .
POWER DISSIPATION [mW] .
800
BA15218F
600
400
200
BA15218 family
10.0
BA15218 family
10.0
8.0
8.0
SUPPLY CURRENT [mA]
BA15218 family
1000
25℃
6.0
-40℃
4.0
2.0
±15V
6.0
±7.5 V
4.0
2.0
85℃
0
25
50
75
100
AMBIENT TEMPERATURE [℃]
125
0
Fig. 111
Derating Curve
30
-50
35
25
20
15
10
5
15
10
VOH
5
0
-5
VOL
-10
-15
0.1
1
LOAD RESISTANCE [kΩ]
15
VOH
10
5
0
-5
-10
VOL
-15
-20
0.1
10
1
LOAD RESISTANCE [kΩ]
10
±0
±2
±4
±6 ±8 ±10 ±12 ±14 ±16 ±18
SUPPLY VOLTAGE [V]
Fig. 114
Maximum Output Voltage Swing
– Load Resistance
Fig. 115
Maximum Output Voltage
– Load Resistance
Fig. 116
Maximum Output Voltage
– Supply Voltage
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(RL=2[kΩ],Ta=25[℃])
BA15218 family
10
VOH
5
0
-5
VOL
-10
-15
-20
-50
15
10
VOH
5
0
-5
VOL
-10
-15
-20
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
100
4
-40℃
2
0
25℃
-2
85℃
-4
-6
0
5
10
15
20
25
±0
±2
±4
OUTPUT CURRENT [mA]
Fig. 117
Maximum Output Voltage
– Ambient Temperature
Fig. 118
Maximum Output Voltage
– Output Current
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
BA15218 family
±8 ±10 ±12 ±14 ±16 ±18
Fig. 119
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
BA15218 family
60
±6
SUPPLY VOLTAGE [V]
BA15218 family
60
±2V
±7.5V
2
0
±15V
-2
-4
-6
50
50
40
-40℃
25℃
30
20
85℃
10
-25
0
25
50
75
100
AMBIENT TEMPERATURE [℃]
Fig. 120
Input Offset Voltage – Ambient Temperature
±0
±2
www.rohm.com
±15V
±7.5V
30
20
±2V
10
±4
±6
±8
±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
-50
-25
0
25
50
75
100
AMBIENT TEMPERATURE [℃]
Fig. 121
Input Bias Current – Supply Voltage
Fig. 122
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
© 2009 ROHM Co., Ltd. All rights reserved.
40
0
0
-50
INPUT BIAS CURRENT [nA]
4
INPUT BIAS CURRENT [nA]
INPUT OFFSET
OFFSETVOLTAGE
VOLTAGE[mV]
[mV]
INPUT
.
6
BA15218 family
6
INPUT OFFSET VOLTAGE [mV]
15
BA15218 family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
20
100
BA15218 family
20
-20
0
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
Fig. 113
Supply Current – Ambient Temperature
BA15218 family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
MAXIMUM OUTPUT VOLTAGE SWING[Vp-p]
10
15
20
25
SUPPLY VOLTAGE [V]
Fig. 112
Supply Current – Supply Voltage
BA15218 family
30
5
.
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
0
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
±2 V
0.0
0.0
17/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
.
30
INPUT OFFSET CURRENT [nA]
○BA15218 family
20
BA15218 family
Technical Note
BA15218 family
30
BA15218 family
5
-40℃
10
25℃
0
-10
85℃
-20
INPUT OFFSET VOLTAGE [mV]
INPUT OFFSET CURRENT [nA]
4
20
10
±2V
±7.5V
0
±15V
-10
-20
85℃
3
25℃
2
-40℃
1
0
-1
-2
-3
-4
-30
-30
±2
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
-5
-50
100
Fig. 124
Input Offset Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
0
2
4
6
8
COMMON MODE INPUT VOLTAGE [V]
Fig. 125
Input Offset Voltage
– Common Mode Input Voltage
(VCC=8[V],Vout=4[V])
BA15218 family
150
BA15218 family
150
125
BA15218 family
4
125
3
SLEW RATE [V/μs]
100
100
75
75
50
50
2
1
25
0
-50
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
0
0
-50
100
Fig. 126
Common Mode Rejection Ratio
– Ambient Temperature
TOTAL HARMONIC DISTORTION [%]
20
0.1
20kHz
0.01
1kHz
0.001
20Hz
0.0001
0
1
100
FREQUENCY [Hz]
0.1
10000
Fig. 129
Equivalent Input Noise Voltage – Frequency
(VCC/VEE=+15[V]/-15[V],Rs=100[Ω],Ta=25[℃])
BA15218 family
..
60
1
OUTPUT VOLTAGE [Vrms]
±2
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
Fig. 128
Slew Rate – Supply Voltage
BA15218 family
1
40
±0
(CL=100[pF],RL=2[kΩ],Ta=25[℃])
(VCC/VEE=+2[V]/-2[V] to +15[V]/-15[V])
BA15218 family
60
100
Fig. 127
Power Supply Rejection Ratio
– Ambient Temperature
(VCC/VEE=+15[V]/-15[V],Vicm=-12[V] to +12[V])
80
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
10
Fig. 130
Total Harmonic Distortion – Output Voltage
(VCC/VEE=+15[V]/-15[V],Av=20[dB],
RL＝2[kΩ],80[kHz]-LPF,Ta=25[℃])
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
25
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
.
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
Fig. 123
Input Offset Current – Supply Voltage
POWER SUPPLY REJECTION RATIO [dB]
.
COMMON MODE REJECTION RATIO [dB]
±0
BA15218 family
30
25
20
15
10
5
0
1
10
100
FREQUENCY [kHz]
[Hz]
FREQUENCY
1000
Fig. 131
Maximum Output Voltage Swing – Frequency
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ],Ta=25[℃])
0
-30
40
-60
30
-90
GAIN
20
-120
10
-150
0
PHASE
PHASE[degree]
[deg]
.
50
VOLTAGE GAIN [dB]
PHASE
-180
1.E+00
1.E+02
1.E+04
1.E+06
1.E+08
FREQUENCY [Hz]
Fig. 132
Voltage Gain – Frequency
(VCC/VEE=+15[V]/-15[V],Av=40[dB],RL=2[kΩ],Ta=25[℃])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
18/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA14741 family
SUPPLY CURRENT [mA] .
POWER DISSIPATION [mW] .
800
BA14741F
600
400
200
BA14741 family
8.0
6.0
25℃
-40℃
4.0
2.0
BA14741 family
8.0
±18V
6.0
SUPPLY CURRENT [mA]
BA14741 family
1000
±15 V
4.0
2.0
±2 V
85℃
0
0.0
0.0
25
50
75
100
AMBIENT TEMPERATURE [℃] .
125
0
BA14741 family
30
25
20
15
10
5
35
-50
40
15
10
VOH
5
0
-5
VOL
-10
-15
10
15
VOH
10
5
0
-5
-10
1
LOAD RESISTANCE [kΩ]
Fig. 137
Maximum Output Voltage
– Load Resistance
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
VOH
5
0
-5
VOL
-10
-15
-20
10
VOH
0
-5
VOL
-10
-15
-20
-50
-25
0
25
50
75
BA14741 family
4
-40℃
2
0
25℃
-2
85℃
-4
-6
100
0
AMBIENT TEMPERATURE [℃]
5
10
15
20
±0
±4
OUTPUT CURRENT [mA]
Fig. 140
Maximum Output Voltage
– Output Current
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ])
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
BA14741 family
±12
±16
±20
Fig. 141
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
BA14741 family
BA14741 family
200
.
200
±8
SUPPLY VOLTAGE [V]
Fig. 139
Maximum Output Voltage
– Ambient Temperature
6
±6 ±8 ±10 ±12 ±14 ±16 ±18
SUPPLY VOLTAGE [V]
(RL=2[kΩ],Ta=25[℃])
15
5
±4
6
INPUT OFFSET VOLTAGE [mV]
10
±2
Fig. 138
Maximum Output Voltage
– Supply Voltage
BA14741 family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
15
±0
10
Fig. 136
Maximum Output Voltage Swing
– Load Resistance
20
VOL
-15
-20
0.1
BA14741 family
100
BA14741 family
20
-20
1
LOAD RESISTANCE [kΩ]
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
Fig. 135
Supply Current – Ambient Temperature
BA14741 family
20
0
0.1
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
10 15 20 25 30
SUPPLY VOLTAGE [V]
Fig. 134
Supply Current – Supply Voltage
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
Fig. 133
Derating Curve
5
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
0
±15V
0
±18V
-2
-4
180
160
-40℃
140
INPUT BIAS CURRENT [nA]
±2V
2
INPUT BIAS CURRENT [nA]
INPUT OFFSET VOLTAGE [mV]
180
4
25℃
120
100
85℃
80
60
40
20
-6
-25
0
25
50
75
100
www.rohm.com
±4
±8
±12
±16
±20
SUPPLY VOLTAGE [V]
100
80
±18V
60
40
-50
-25
0
25
50
75
100
AMBIENT TEMPERATURE [℃]
Fig. 143
Input Bias Current – Supply Voltage
Fig. 144
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
© 2009 ROHM Co., Ltd. All rights reserved.
±15V
120
0
±0
AMBIENT TEMPERATURE [℃]
Fig. 142
Input Offset Voltage – Ambient Temperature
±2V
140
20
0
-50
160
19/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA14741 family
BA14741 family
.
30
BA14741 family
30
BA14741 family
5
10
-40℃
25℃
0
-10
85℃
-20
-30
10
±15V
±18V
0
-10
±2V
-20
±8
±12
±16
SUPPLY VOLTAGE [V]
2
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
0
-1
-2
-3
Fig. 146
Input Offset Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
75
50
25
0
-50
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
.
2.5
100
75
50
0.0
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
100
±2
±4 ±6 ±8 ±10 ±12 ±14 ±16
SUPPLY VOLTAGE [V]
Fig. 150
Slew Rate – Supply Voltage
(CL=100[pF],RL=2[kΩ],Ta=25[℃])
(VCC/VEE=+2[V]/-2[V] to +15[V]/-15[V])
BA14741 family
TOTAL HARMONIC DISTORTION [%]
1
20
20kHz
0.1
1kHz
0.01
20Hz
0.001
0.0001
0
0.1
10000
1
OUTPUT VOLTAGE [Vrms]
10
Fig. 151
Equivalent Input Noise Voltage – Frequency
Fig. 152
Total Harmonic Distortion – Output Voltage
(VCC/VEE=+15[V]/-15[V],Rs=100[Ω],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Av=20[dB],
RL＝2[kΩ],80[kHz]-LPF,Ta=25[℃])
BA14741 family
±0
Fig. 149
Power Supply Rejection Ratio
– Ambient Temperature
40
60
1.0
0.5
-50
60
100
1000
FREQUENCY [Hz]
1.5
0
100
BA14741 family
10
2.0
25
(VCC/VEE=+15[V]/-15[V],Vicm=-12[V] to +12[V])
1
BA14741 family
3.0
125
Fig. 148
Common Mode Rejection Ratio
– Ambient Temperature
80
(VCC=8[V],Vout=4[V])
BA14741 family
150
2
4
6
8
COMMON MODE INPUT VOLTAGE [V]
Fig. 147
Input Offset Voltage
– Common Mode Input Voltage
SLEW RATE [V/μs]
100
0
100
Fig. 145
125
-40℃
1
-5
-50
Input Offset Current – Supply Voltage
150
25℃
-4
±20
BA14741 family
85℃
3
0
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
±4
POWER SUPPLY REJECTION RATIO [dB]
COMMON MODE REJECTION RATIO [dB]
20
-30
±0
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
.
INPUT OFFSET VOLTAGE [mV]
INPUT OFFSET CURRENT [nA]
INPUT OFFSET CURRENT [nA]
4
20
BA14741 family
30
25
20
15
10
5
0
1
10
100
FREQUENCY [kHz]
1000
Fig. 153
Maximum Output Voltage Swing – Frequency
(VCC/VEE=+15[V]/-15[V],RL=2[kΩ],Ta=25[℃])
-30
40
-60
30
-90
GAIN
20
-120
10
-150
0
PHASE [deg]
VOLTAGE GAIN [dB]
PHASE
50
-180
1.E+00
1.E+02
1.E+04
1.E+06
1.E+08
FREQUENCY [Hz]
Fig. 154
Voltage Gain – Frequency
(VCC/VEE=+15[V]/-15[V],Av=40[dB],RL=2[kΩ],Ta=25[℃])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
20/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA15532 family
SUPPLY CURRENT [mA] .
POWER DISSIPATION [mW] .
800
BA15532F
600
400
200
BA15532 family
20.0
BA15532 family
20.0
16.0
16.0
SUPPLY CURRENT [mA]
BA15532 family
1000
25℃
-20℃
12.0
8.0
75℃
4.0
±20V
12.0
8.0
±15 V
4.0
±2 V
0
25
50
75
100
AMBIENT TEMPERATURE [℃] .
125
0
Fig. 155
Derating Curve
10 15 20 25 30
SUPPLY VOLTAGE [V]
-50
40
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
25
20
15
10
5
15
10
VOH
5
0
-5
VOL
-10
-15
1
LOAD RESISTANCE [kΩ]
1
LOAD RESISTANCE [kΩ]
VOH
5
0
-5
VOL
-10
-15
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
15
10
VOH
5
0
-5
VOL
-10
-15
VOL
±0
±4
±8
±12
±16
±20
SUPPLY VOLTAGE [V]
±24
Fig. 160
Maximum Output Voltage– Supply
Voltage(RL=2[kΩ],Ta=25[℃])
BA15532 family
6
4
2
-20℃
0
-2
25℃
5
10
15
20
25
±0
±4
±8
OUTPUT CURRENT [mA]
BA15532 family
75℃
-4
-6
0
100
Fig. 161
Maximum Output Voltage– Ambient
Temperature(VCC/VEE=+15[V]/-15[V],RL=2[kΩ])
Fig. 162
Maximum Output Voltage– Output
Current(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
±16
±20
±24
Fig. 163
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
BA15532 family
800
±12
SUPPLY VOLTAGE [V]
BA15532 family
800
700
2
±15V
±3V
0
-2
±20V
-4
700
-20℃
600
INPUT BIAS CURRENT [nA]
4
INPUT BIAS CURRENT [nA]
INPUT OFFSET
OFFSETVOLTAGE
VOLTAGE[mV]
[mV]
INPUT
.
6
-15
10
-20
-20
-50
-10
BA15532 family
20
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
10
0
-5
])
BA15532 family
15
5
Fig. 159
Maximum Output Voltage– Load
Resistance(VCC/VEE=+15[V]/-15[V],Ta=25[℃
(VCC/VEE=+15[V]/-15[V],Ta=25[℃])
20
VOH
10
-20
0.1
10
15
INPUT
OFFSET VOLTAGE
VOLTAGE[mV]
[mV]
INPUT OFFSET
0.1
100
BA15532 family
20
-20
0
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
Fig. 157
Supply Current – Ambient Temperature
BA15532 family
20
Fig. 158
Maximum Output Voltage Swing
– Load Resistance
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
35
Fig. 156
Supply Current – Supply Voltage
BA15532 family
30
5
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
0
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
0.0
0.0
25℃
500
400
300
75℃
200
100
-6
-25
0
25
50
75
100
±20V
500
±15V
400
300
±3V
200
100
0
0
-50
600
±0
±4
±8
±12
±16
±20
±24
SUPPLY VOLTAGE [V]
AMBIENT TEMPERATURE [℃]
-50
-25
0
25
50
75
100
AMBIENT TEMPERATURE [℃]
Fig. 164
Input Offset Voltage – Ambient Temperature
Fig. 165
Input Bias Current – Supply Voltage
Fig. 166
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
21/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
.
30
INPUT OFFSET CURRENT [nA]
○BA15532 family
20
BA15532 family
Technical Note
BA15532 family
30
BA15532 family
5
25℃
10
0
75℃
-10
-20
-30
±3V
10
0
±20V
-10
-20
±8
±12
±16
±20
SUPPLY VOLTAGE [V]
±24
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
Fig. 168
Input Offset Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
125
100
75
50
-50
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
-3
-4
.
100
75
50
BA15532 family
10
8
6
4
2
25
0
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
100
±2
TOTAL HARMONIC DISTORTION [%]
40
20
10000
±10
±14
±18
SUPPLY VOLTAGE [V]
±22
(CL=100[pF],RL=2[kΩ],Ta=25[℃])
0.1
0.01
20kHz 1kHz
0.001
20Hz
0.0001
0.1
0
±6
Fig. 172
Slew Rate – Supply Voltage
BA15532 family
1
60
2
4
6
8
COMMON MODE INPUT VOLTAGE [V]
(VCC/VEE=+3[V]/-3[V] to +15[V]/-15[V])
BA15532 family
100
1000
FREQUENCY [Hz]
-2
Fig. 171
Power Supply Rejection Ratio
– Ambient Temperature
(VCC/VEE=+15[V]/-15[V],Vicm=-12[V] to +12[V])
10
0
-1
12
125
Fig. 170
Common Mode Rejection Ratio
– Ambient Temperature
80
-20℃
Fig. 169
Input Offset Voltage– Common Mode
Input Voltage (VCC=8[V],Vout=4[V])
BA15532 family
150
-50
100
25℃
1
0
SLEW RATE [V/μs]
POWER SUPPLY REJECTION RATIO [dB]
.
150
75℃
2
100
Fig. 167
Input Offset Current – Supply Voltage
BA15532 family
3
-5
-50
1
OUTPUT VOLTAGE [Vrms]
10
MAXIMUM OUTPUT VOLTAGE SWING [Vp-p]
±4
175
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
.
±15V
-30
±0
COMMON MODE REJECTION RATIO [dB]
20
INPUT
OFFSET
VOLTAGE
[mV]
INPUT
OFFSET
VOLTAGE
[mV]
INPUT OFFSET CURRENT [nA]
4
-20℃
BA15532 family
30
25
20
15
10
5
0
1
10
100
FREQUENCY [kHz]
[Hz]
FREQUENCY
1000
Fig. 173
Equivalent Input Noise Voltage – Frequency
Fig. 174
Total Harmonic Distortion – Output Voltage
Fig. 175
Maximum Output Voltage Swing – Frequency
(VCC/VEE=+15[V]/-15[V],Rs=100[Ω],Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],Av=20[dB],
RL＝600[Ω],80[kHz]-LPF,Ta=25[℃])
(VCC/VEE=+15[V]/-15[V],RL=600[Ω],Ta=25[℃])
BA15532 family 0
40
PHASE
-30
-60
30
-90
GAIN
20
-120
10
-150
0
1.E+00
1.E+02
1. E+04
1.E+06
PHASE [deg]
.
50
VOLTAGE GAIN [dB]
..
60
-180
1.E+08
FREQUENCY [Hz]
Fig. 176
Voltage Gain – Frequency (VCC/VEE=+15[V]/-15[V],Av=40[dB],RL=2[kΩ],Ta=25[℃])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
22/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
○BA4510 family
BA4510 family
800
BA4510 family
10
BA4510 family
10
7V
BA4510F
400
BA4510FV
200
0
25℃
6
75℃
4
2
25
50
75
100
AMBIENT TEMPERATURE [℃]
125
0
Fig. 177
VOH
1
0
-1
VOL
-2
-3
10
100
1000
LOAD RESISTANCE [kΩ]
10000
3
2
VOH
1
0
-1
VOL
-2
-3
Output Voltage – Load Resistance
(VCC/VEE=2.5[V]/-2.5[V],Ta=25[℃])
±1.5
±2.0 ±2.5 ±3.0 ±3.5
SUPPLY VOLTAGE [V]
2.0
VOH
1.5
1.0
0.5
0
0.4
0.8
1.2
1.6
OUTPUT SOURCE CURRENT [mA]
±1.5V
1.0
±2.5V
0.5
±3.5V
0.0
-25
0
25
50
75
0
-1
VOL
-2
100
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
Maximum Output Voltage
– Supply Voltage
Maximum Output Voltage
– Ambient Temperature
100
(VCC/VEE=2.5[V]/-2.5[V],RL=10[kΩ])
-1.0
-1.5
VOL
-2.0
-2.5
BA4510 family
6.0
4.0
-20°C
2.0
0.0
75°C
-2.0
25°C
-4.0
-6.0
2
4
6
8
OUTPUT SINK CURRENT [mA]
10
±1.0
75°C
25°C
150
-20°C
100
50
±1.0
AMBIENT TEMPERATURE [°C]
±2.5
±3.0
±3.5
±4.0
Fig. 185
Input Offset Voltage – Supply Voltage
(Vicm=0[V],Vout=0[V])
BA4510 family
300
±3.5V
±2.5V
200
150
±1.5V
100
50
0
±1.5
±2.0
±2.5
±3.0
±3.5
±4.0
SUPPLY VOLTAGE [V]
Fig. 186
±2.0
250
250
200
±1.5
SUPPLY VOLTAGE [V]
BA4510 family
300
0
-50
VOH
1
Fig. 182
Fig. 184
Maximum Output Voltage– Output Sink
Current (VCC/VEE=2.5[V]/-2.5[V],Ta=25[℃])
INPUT BIAS CURRENT [nA ]
1.5
100
BA4510 family
-50
BA4510 family
0
BA4510 family
2.0
75
2
±4.0
-0.5
2
Fig. 183
Maximum Output Voltage– Output Source
Current (VCC/VEE=2.5[V]/-2.5[V],Ta=25[℃])
50
3
-3.0
0.0
25
Fig. 181
0.0
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
2.5
0
Fig. 179
(RL=10[kΩ],Ta=25[℃])
BA4510 family
-25
-3
±1.0
Fig. 180
3.0
2
Supply Current – Ambient Temperature
INPUT OFFSET VOLTAGE [mV]
1
3V
AMBIENT TEMPERATURE [℃]
-4
0.1
4
-50
BA4510 family
4
MAXIMUM OUTPUT VOLTAGE [V]
OUTPUT VOLTAGE [V]
OUTPUT VOLTAGE [V]
2
5V
6
8
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
BA4510 family
3
2
4
6
SUPPLY VOLTAGE [V]
Fig. 178
Supply Current – Supply Voltage
Derating Curve
8
0
0
0
INPUT OFFSET VOLTAGE [mV]
SUPPLY CURRENT [mA]
SUPPLY CURRENT [mA]
600
INPUT BIAS CURRENT [nA]
POWER DISSIPATION [mW] .
-20℃
8
Fig. 187
-50
-25
0
25
50
75
100
AMBIENT TEMPERATURE [°C]
Fig. 188
Input Offset Voltage – Ambient Temperature
Input Bias Current – Supply Voltage
Input Bias Current – Ambient Temperature
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(Vicm=0[V],Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
23/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
BA4510 family
15
10
25°C
-20°C
5
0
-5
75°C
-10
-15
-20
±1.0
15
10
±2.5V
±2.0 ±2.5 ±3.0 ±3.5
SUPPLY VOLTAGE [V]
0
±3.5V
-10
-15
±4.0
(Vicm=0[V],Vout=0[V])
30
0
-50
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
BA4510 family
120
100
2.5V
80
60
40
20
0
100
-50
Fig. 192
Large Signal Voltage Gain
– Ambient Temperature
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
8
SLEW RATE H-L [V/us]
6
±2.5V
4
6
±2.5V
4
±1.5V
0
0
-50
100
Fig. 195
Slew Rate L-H – Ambient Temperature
VOLTAGE
GAIN GAIN
[dB] [dB]
20
10
0
1
10
100
1000
FREQUENCY [Hz]
10000
0
Phase
40
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
100
BA4510 family
1kHz
0.1
20Hz
20kHz
0.01
0.001
0.01
100
BA4510 family
60
50
30
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
Fig. 196
Slew Rate H-L – Ambient Temperature
BA4510 family
40
20
0.1
1
OUTPUT VOLTAGE [Vrms]
10
Fig. 197
Total Harmonic Distortion – Output Voltage
(VCC/VEE=2.5[V]/-2.5[V],RL=3[kΩ]
80[kHz]-LPF,Ta=25[℃])
0
-30
-60
Gain
30
-90
20
-120
10
-150
PHASE [deg]
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
40
1
±1.5V
-50
60
Fig. 194
Power Supply Rejection Ratio
– Ambient Temperature
±3.5V
2
2
80
-50
8
±3.5V
BA4510 family
100
100
BA4510 family
10
-2
-1
0
1
2
3
COMMON MODE INPUT VOLTAGE [V]
120
Fig. 193
Common Mode Rejection Ratio
– Ambient Temperature
BA4510 family
10
-20℃
-15
Fig. 191
Input Offset Voltage– Common Mode
Input Voltage (VCC/VEE=2.5[V]/-2.5[V])
TOTAL HARMONIC DISTORTION [%]
60
25℃
-10
-3
POWER SUPPLY REJECTION RATIO [dB]
COMMON MODE REJECTION RATIO [dB]
2.5V
-5
100
(Vicm=0[V],Vout=0[V])
90
SLEW RATE L-H [V/us]
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
Fig. 190
Input Offset Current – Ambient Temperature
BA4510 family
75℃
0
-20
-50
Fig. 189
Input Offset Current – Supply Voltage
120
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
±1.5V
5
-5
BA4510 family
5
-20
±1.5
150
LARGE SIGNAL VOLTAGE GAIN [dB]
BA4510 family
20
INPUT OFFSET CURRENT [nA]
INPUT OFFSET CURRENT [nA]
20
INPUT OFFSET VOLTAGE [mV]
○BA4510 family
Technical Note
0
-180
1.E+02 1.E+03 1.E+04 1.E+05 1.E+06 1.E+07
FREQUENCY [Hz]
Fig. 198
Equivalent Input Noise Voltage – Frequency
Fig. 199
Voltage Gain – Frequency
(VCC/VEE=2.5[V]/-2.5[V])
(VCC/VEE=2.5[V]/-2.5[V],Av=40[dB],RL=10[kΩ])
(*) The above data is ability value of sample, it is not guaranteed.
www.rohm.com
© 2009 ROHM Co., Ltd. All rights reserved.
24/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
.
○BA2115 family
BA2115 family
BA2115 family
7
BA2115 family
7
.
1000
600
400
BA2115FVM
200
5
25℃
4
85℃
3
2
1
25
50
75
100
AMBIENT TEMPERATURE [℃]
Fig. 200
Derating Curve
VOH
1
0
-1
VOL
-2
-3
1
10
100
1000
LOAD RESISTANCE [kΩ]
10000
8
VOH
6
4
2
0
-2
-4
-6
VOL
-8
±3
(VCC/VEE=+2.5[V]/-2.5[V])
VOH
1.5
±4
±5
±6
±7
SUPPLY VOLTAGE [V]
1.0
0.5
0.0
0.4
0.8
1.2
1.6
-1.5
VOL
-2
-2.5
2.0
2
4
6
8
±1.5V
-2
-4
±2
±3
100
www.rohm.com
±6
±7
±8
BA2115 family
250
±1.5V
-40℃
25℃
150
85℃
100
50
200
±2.5V
150
±7.0V
100
50
0
±1
±2
±3
±4
±5
±6
±7
±8
SUPPLY VOLTAGE [V]
-50
-25
0
25
50
75
100
AMBIENT TEMPERATURE [°C]
Fig. 210
Input Bias Current – Supply Voltage
Fig. 211
Input Bias Current – Ambient Temperature
(Vicm=0[V], Vout=0[V])
(Vicm=0[V], Vout=0[V])
(Vicm=0[V], Vout=0[V])
(*) The above data is ability value of sample, it is not guaranteed.
© 2009 ROHM Co., Ltd. All rights reserved.
±5
.
200
AMBIENT TEMPERATURE [°C]
Fig. 209
Input Offset Voltage – Ambient Temperature
±4
(Vicm=0[V], Vout=0[V])
0
-3
75
-2
Fig. 208
Input Offset Voltage – Supply Voltage
INPUT BIAS CURRENT [nA]
±7.0V
0
50
0
SUPPLY VOLTAGE [V]
..
1
25
2
±1
BA2115 family
250
INPUT BIAS CURRENT [nA]
INPUT OFFSET VOLTAGE [mV]
2
100
BA2115 family
OUTPUT SINK CURRENT [mA]
(VCC/VEE=+2.5[V]/-2.5[V])
0
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
4
10
(VCC/VEE=+2.5[V]/-2.5[V])
-25
-8
-6
0
BA2115 family
-50
VOL
6
-1
Fig. 207
Maximum Output Voltage
– Output Sink Current
-1
-4
(VCC/VEE=+7.5[V]/-7.5[V],RL=10[kΩ])
Fig. 206
Maximum Output Voltage
– Output Source Current
±2.5V
0
Fig. 205
Maximum Output Voltage
– Ambient Temperature
-0.5
OUTPUT SOURCE CURRENT [mA]
3
VOH
4
-50
-3
0.0
8
±8
BA2115 family
0
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
2.0
BA2115 family
12
(RL=10[kΩ])
2.5
100
Fig. 202
Supply Current – Ambient Temperature
Fig. 204
Maximum Output Voltage
– Supply Voltage
BA2115 family
-25
0
25
50
75
AMBIENT TEMPERATURE [℃]
-12
±2
Fig. 203
Output Voltage – Load Resistance
3.0
3.0V
2
-50
-10
0.1
3
15
BA2115 family
10
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
OUTPUT VOLTAGE [V]
2
5
10
SUPPLY VOLTAGE [V]
Fig. 201
Supply Current – Supply Voltage
BA2115 family
3
5.0V
4
0
0
125
OUTPUT
VOLTAGE
[V]
MAXIMUM
OUTPUT
VOLTAGE
[V]
0
14.0V
5
1
0
0
MAXIMUM
OUTPUT
VOLTAGE
[V]
OUTPUT
VOLTAGE
[V]
SUPPLY CURRENT [mA]
SUPPLY CURRENT [mA]
BA2115F
6
-40℃
INPUT OFFSET VOLTAGE [mV]
POWER DISSIPATION [mW]
6
800
25/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
BA2115 family
INPUT OFFSET CURRENT [nA]
20
-40℃
10
25℃
0
85℃
-10
-20
-30
±1
±2
±3
±4
±5
±6
SUPPLY VOLTAGE [V]
10
0
-10
±2.5V
±7.0V
-20
-30
±7
-25
0
50
75
AMBIENT TEMPERATURE [℃]
50
25
0
-50
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
100
75
50
25
0
-50
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
SLEW RATE H-L [V/us]
4
85℃
3
2
2.0
0.0
±1
±2
±3
±4
±5
±6
SUPPLY VOLTAGE[V]
±7
±2
±3
±4
±5
±6
SUPPLY VOLTAGE [V]
Fig. 218
±7
50
25
0
-25
0
25
50
75
AMBIENT TEMPERATURE [°C]
0.1
20kHz
0.01
1kHz
20Hz
BA2115 family
50
0.1
1
OUTPUT VOLTAGE [Vrms]
10
Fig. 220
Total Harmonic Distortion – Output Voltage
Slew Rate H-L – Supply Voltage
BA2115 family
100
BA2115 family
0.01
±8
Fig. 219
Slew Rate L-H – Supply Voltage
40
75
0.001
±1
±8
2.5
(VCC/VEE=+2.5[V]/-2.5[V])
3.0
0
2
100
1
85℃
1.0
1.5
Fig. 217
Power Supply Rejection Ratio
– Ambient Temperature
4.0
1
1
BA2115 family
-50
25℃
-40℃
5.0
0.5
125
100
6.0
25℃
0
150
BA2115 family
7.0
6
-40℃
-40℃
-15
(VCC/VEE=+2.5[V]/-2.5[V])
BA2115 family
5
-10
Fig. 216
Common Mode Rejection Ratio
– Ambient Temperature
(VCC/VEE=+2.5[V]/-2.5[V])
7
25℃
Fig. 214
Input Offset Voltage
– Common Mode Input Voltage
.
125
Fig. 215
Large Signal Voltage Gain
– Ambient Temperature
85℃
-5
(VCC/VEE=+2.5[V]/-2.5[V],Vout=0[V])
BA2115 family
150
100
0
COMMON MODE INPUT VOLTAGE [V]
POWER SUPPLY REJECTION RATIO [dB]
COMMON MODE REJECTION RATIO [dB] .
75
5
-2.5 -2 -1.5 -1 -0.5
(Vicm=0[V],Vout=0[V])
100
10
100
(Vicm=0[V],Vout=0[V])
125
(VCC/VEE=2.5[V]/-2.5[V],RL=3[kΩ]
80[kHz]-LPF,Ta=25[℃])
0
Phase
-30
40
30
VOLTAGE
GAIN. [dB]
GAIN [dB]
EQUIVALENT INPUT NOISE VOLTAGE
[nV/√Hz]
25
Fig. 213
Input Offset Current – Ambient Temperature
BA2115 family
15
-20
-50
±8
Fig. 212
Input Offset Current – Supply Voltage
150
SLEW RATE L-H [V/us]
±1.5V
-40
-40
LARGE SIGNAL VOLTAGE GAIN [dB] .
30
20
BA2115 family
20
TOTAL HARMONIC DISTORTION [%]
INPUT OFFSET CURRENT [nA]
30
BA2115 family
40
20
10
Gain
-90
20
-120
10
0
1
100
10000
FREQUENCY [Hz]
-60
30
PHASE [deg] .
.
40
INPUT OFFSET VOLTAGE [mV]
○BA2115 family
Technical Note
-150
0
-180
1.E+02 1.E+03 1.E+04 1.E+05 1.E+06 1.E+07
FREQUENCY [Hz]
Fig. 221
Equivalent Input Noise Voltage – Frequency
Fig. 222
Voltage Gain – Frequency
(VCC/VEE=2.5[V]/-2.5[V])
(VCC/VEE=2.5[V]/-2.5[V],Av=40[dB],RL=10[kΩ])
Fig. 223
(*) The above data is ability value of sample, it is not guaranteed.
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26/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Schematic diagram
VCC
VCC
－IN
VOUT
－IN
＋IN
VOUT
＋IN
VEE
VEE
Fig. 224 Simplified schematic (BA4558/BA4558R/BA15218/
BA4560/BA4560R/BA4580R)
)
VCC
Fig. 225 Simplified schematic (BA14741)
VCC
－IN
－IN
VOUT
VOUT
＋IN
＋IN
VEE
VEE
Fig. 226 Simplified schematic (BA15532)
Fig. 227 Simplified schematic (BA4510/BA2115)
●Test circuit1 NULL method
VCC,VEE,EK,Vicm Unit : [V], Vicm=0[V] For all parameter
Parameter
VF
S1
S2
S3(*23)
BA4558/BA4558R
BA4580R
BA4560/BA4560R
BA15218/BA14741
BA15532
BA4510
BA2115
Calculation
Vcc
VEE
EK
Vcc
VEE
EK
Vcc
VEE
EK
Vcc
VEE
EK
Vcc
VEE
EK
Input Offset Voltage
VF1
ON
ON
OFF
15
-15
0
15
-15
0
15
-15
0
2.5
2.5
0
2.5
2.5
0
1
Input Offset Current
VF2
OFF
OFF
OFF
15
-15
0
15
-15
0
15
-15
0
2.5
2.5
0
2.5
2.5
0
2
VF3
OFF
ON
15
-15
0
15
-15
0
15
-15
0
2.5
2.5
0
2.5
2.5
0
ON
OFF
15
-15
0
15
-15
0
15
-15
0
2.5
2.5
0
2.5
2.5
0
ON
ON
ON
15
-15
-10
15
-15
-10
15
-15
-10
2.5
2.5
-1.0
2.5
2.5
-1.0
15
-15
10
15
-15
10
15
-15
10
2.5
2.5
1.0
2.5
2.5
1.0
3
-27
12
3
-27
12
3
-27
12
1.5
1.5
-1.0
1.5
1.5
-1.0
ON
ON
OFF
27
-3
-12
27
-3
-12
27
-3
-12
3.5
3.5
1.0
3.5
3.5
1.0
ON
ON
OFF
4
-4
0
2
-2
0
3
-3
0
1.25 -1.25
0
0.75
-1.25
0
15
-15
0
16
-16
0
20
-20
0
3.0
0
7.0
7.0
0
Input Bias Current
Large Signal
VF4
VF5
Voltage Gain
VF6
Common-mode
VF7
Rejection Ratio
(Input Common-mode
OFF
VF8
3
4
5
Voltage Range)
Power Supply
Rejection Ratio
VF9
VF10
-3.0
6
(*23) S3 is always ON for BA15532.
-Calculation1. Input Offset Voltage (Vio)
Vio =
2.
Iio =
3.
Input Offset Current (Iio)
Input Bias Current (Ib)
Ib =
C2
0.1[μF]
| VF1 |
1 + Rf / Rs
[V]
Rf
50[kΩ]
RK
| VF2－VF1 |
Ri ×(1 + Rf / Rs)
S1
[A]
| VF4－VF3 |
2×Ri× (1 + Rf / Rs)
Rs
[A]
10[kΩ]
50[Ω]
10[kΩ]
4.
Large Signal Voltage Gain (Av) Av = 20×Log
ΔEK×(1+Rf /Rs)
|VF5-VF6|
500[kΩ]
C1
0.1[μF]
+15[V]
RK 500[kΩ]
DUT
NULL
S3
Ri
S2
Vicm
EK
Ri
50[Ω]
Rs
VCC
VEE
RL
C3
1000[pF]
-15[V]
[dB]
Fig. 228 Test circuit 1 (one channel only)
5.
Common-mode Rejection Ratio (CMRR)
6.
Power Supply Rejection Ratio (PSRR)
CMRR = 20×Log
ΔVicm×(1+Rf /Rs)
|VF8-VF7|
PSRR = 20×Log
ΔVcc×(1+Rf /Rs)
|VF10-VF9|
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27/33
[dB]
[dB]
2009.05 - Rev.A
V VF
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Test circuit2 switch condition
SW
1
SW
2
SW
3
SW
4
SW
5
SW
6
SW
7
SW
8
SW
9
SW
10
SW
11
SW
12
SW
13
SW
14
OFF
OFF
OFF
ON
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
ON
OFF
OFF
OFF
ON
ON
OFF
OFF
ON
OFF
OFF
OFF
ON
OFF
OFF
OFF
OFF
ON
ON
OFF
Slew Rate
OFF
OFF
OFF
ON
OFF
OFF
OFF
ON
ON
ON
OFF
OFF
OFF
OFF
Gain Bandwidth Product
OFF
ON
OFF
OFF
ON
ON
OFF
OFF
ON
ON
ON
OFF
OFF
OFF
Total Harmonic Distortion
ON
OFF
OFF
OFF
ON
OFF
ON
OFF
ON
ON
ON
OFF
OFF
OFF
Input Noise Voltage (*24)
ON
OFF
OFF
OFF
ON
ON
OFF
OFF
OFF
OFF
ON
OFF
OFF
OFF
SW No.
Supply Current
Load
Resistance
Output
Current
Maximum Output
Voltage
(*24) this condition refers only to BA4558Rfamily, BA4560Rfamily
voltage
電圧
SW4
VH
R2
SW5
VCC
VL
A
－
SW1
SW2
RS
R1
＋
SW3
Input 入力電圧波形
Voltage Waveform
voltage
電圧
SW6
SW7
SW8
SW9
SW10
SW11
SW12
SW13
SW14
SR＝ΔV/Δt
VH
VEE
ΔV
A
～
VIN-
VIN+
RL
～
CL
V
～
time
時間
V
VOUT
VL
Δt
time
Output Voltage Waveform 時間
出力電圧波形
Fig. 229. Test circuit2 (one channel only)
Fig. 230
Slew rate input output wave
●Test circuit3 Channel separation
VCC
VCC
R1//R2
R1//R2
OTHER
CH
VEE
R1
R2
VIN
VEE
R1
V VOUT1
R2
V
=0.5[Vrms]
CS＝20 ×log
VOUT2
100×VOUT1
VOUT2
Fig. 231Test circuit3
(VCC=+15[V],VEE=-15[V],R1=1[kΩ],R2=100[kΩ])
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28/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Description of electrical characteristics
Described here are the terms of electric characteristics used in this technical note. Items and symbols used are also shown.
Note that item name and symbol and their meaning may differ from those on another manufacture’s document or general document.
1. Absolute maximum ratings
Absolute maximum rating item indicates the condition which must not be exceeded. Application of voltage in excess of absolute
maximum rating or use out of absolute maximum rated temperature environment may cause deterioration of characteristics.
1.1
Power supply voltage(VCC-VEE)
Indicates the maximum voltage that can be applied between the positive power supply terminal and negative power
supply terminal without deterioration or destruction of characteristics of internal circuit.
1.2
Differential input voltage(Vid)
Indicates the maximum voltage that can be applied between non-inverting terminal and inverting terminal without
deterioration and destruction of characteristics of IC.
1.3
Input common-mode voltage range(Vicm)
Indicates the maximum voltage that can be applied to non-inverting terminal and inverting terminal without deterioration or
destruction ofcharacteristics. Input common-mode voltage range of the maximum ratings not assure normal operation of
IC. When normal operation of IC is desired, the input common-mode voltage of characteristics item must be followed.
1.4
Power dissipation(Pd)
Indicates the power that can be consumed by specified mounted board at the ambient temperature 25℃(normal temperature).
As forpackage product, Pd is determined by the temperature that can be permitted by IC chip in the package(maximum
junction temperature)and thermal resistance of the package.
2. Electrical characteristics item
2.1 Input offset voltage(Vio)
Indicates the voltage difference between non-inverting terminal and inverting terminal. It can be translated into the
input voltagedifference required for setting the output voltage at 0 [V] .
2.3
Input offset current(Iio)
Indicates the difference of input bias current between non-inverting terminal and inverting terminal.
2.5
Input bias current(Ib)
Indicates the current that flows into or out of the input terminal. It is defined by the average of input bias current at
non-inverting terminaland input bias current at inverting terminal.
2.6
Circuit current(ICC)
Indicates the IC current that flows under specified conditions and no-load steady status.
2.7
High level output voltage / Low level output voltage(VOH/VOL)
Indicates the voltage range that can be output by the IC under specified load condition. It is typically divided into
high-level output voltageand low-level output voltage. High-level output voltage indicates the upper limit of output
voltage. Low-level output voltage indicates thelower limit.
2.8
Large signal voltage gain(AV)
Indicates the amplifying rate (gain) of output voltage against the voltage difference between non-inverting terminal and
inverting terminal.It is normally the amplifying rate (gain) with reference to DC voltage.
Av = (Output voltage fluctuation) / (Input offset fluctuation)
2.9
Input common-mode voltage range(Vicm)
Indicates the input voltage range where IC operates normally.
2.10 Common-mode rejection ratio(CMRR)
Indicates the ratio of fluctuation of input offset voltage when in-phase input voltage is changed. It is normally the
fluctuation of DC.
CMRR = (Change of Input common-mode voltage) / (Input offset fluctuation)
2.11 Power supply rejection ratio(PSRR)
Indicates the ratio of fluctuation of input offset voltage when supply voltage is changed. It is normally the fluctuation of DC.
PSRR = (Change of power supply voltage) / (Input offset fluctuation)
2.13 Channel separation(CS)
Indicates the fluctuation of input offset voltage or that of output voltage with reference to the change of output voltage of
driven channel.
2.14 Slew rate(SR)
Indicates the time fluctuation ratio of voltage output when step input signal is applied.
2.12 Unity gain frequency(ft)
Indicates a frequency where the voltage gain of Op-Amp is 1.
2.13 Total harmonic distortion + Noise(THD+N)
Indicates the fluctuation of input offset voltage or that of output voltage with reference to the change of output voltage of
driven channel.
2.14 Input referred noise voltage(Vn)
Indicates a noise voltage generated inside the operational amplifier equivalent by ideal voltage source connected in
series with input terminal.
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29/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Derating curve
Power dissipation (total loss) indicates the power that can be consumed by IC at Ta=25℃(normal temperature).IC is heated when
it consumed power, and the temperature of IC ship becomes higher than ambient temperature. The temperature that can be
accepted by IC chip depends on circuit configuration, manufacturing process, and consumable power is limited. Power dissipation
is determined by the temperature allowed in IC chip (maximum junction temperature) and thermal resistance of package (heat
dissipation capability). The maximum junction temperature is typically equal to the maximum value in the storage temperature
range. Heat generated by consumed power of IC radiates from the mold resin or lead frame of the package. The parameter which
indicates this heat dissipation capability (hardness of heat release) is called thermal resistance, represented by the symbol θj-a[℃
/W]. The temperature of IC inside the package can be estimated by this thermal resistance. Fig.232 (a) shows the model of thermal
resistance of the package. Thermal resistance θja, ambient temperature Ta, junction temperature Tj, and power dissipation Pd can
be calculated by the equation below :
θja ＝ (Tj－Ta) / Pd
[℃/W]
・・・・・ (Ⅰ)
Derating curve in Fig.232 (b) indicates power that can be consumed by IC with reference to ambient temperature. Power that can
be consumed by IC with reference to ambient temperature. Power that can be consumed by IC begins to attenuate at certain
ambient temperature. This gradient, is determined by thermal resistance θja. Thermal resistance θja depends on chip size, power
consumption, package, ambient temperature, package condition, wind velocity, etc even when the same of package is used.
Thermal reduction curve indicates a reference value measured at a specified condition. Fig.233(a), (b) ,(c) ,(d) show a derating
curve for an example of BA4558, BA4560, BA4558R, BA4560R, BA4580R, BA15218, BA14741, BA15532, BA4510, BA2115.
LSIの消費電力[W]
Power dissipation
of LSI [W]
θja = ( Tj ー Ta ) / Pd [℃/W]
Pd(max)
P2
周囲温度 Ta [℃]
θja2 < θja1
Ambient temperature Ta [℃]
’
θja2
P1
θja2
’
Tj(max)
Tj(max)
’
θja1
Tj [℃]Tj [℃]
Chip surface
temperature
チップ 表面温度
Power 消費電力
dissipation
P [W]
P [W]
0
25
θja1
50
75
100
125
150
Ambient周囲温度Ta[℃]
temperature Ta [℃]
(a) Thermal resistance
Fig. 232
BA4558RF
BA4560RF
BA4580RF
780mW( *1)
800
[mW]
Power
Dissipation [mW]
許容損失　Pd　690mW( *2)
1000
BA4558RFV
BA4560RFV
BA4580RFV
590mW (*3)
600
800
BA4558RFVM
BA4560RFVM
BA4580RFVM
400
Power
Dissipation[mW]
[mW]
許容損失　Pd　1000
(b) Derating curve
Thermal resistance and derating curve
200
620mW (*4)
600
BA14741F
490mW (*5)
BA15532F
400
200
0
0
25
50
75
100
125
0
150
0
Ambient
temperature
Ta　[℃] [℃]
周囲温度　(a)BA4558R/BA4560R/BA4580R family
800
Power Dissipation [mW]
800
BA4510F
許容損失　Pd　[mW]
620mW( *1)
550mW (*2)
BA4510FV
400
200
75
100
125
780mW (*3)
BA2115F
590mW (*4)
600
BA2115FVM
400
200
0
0
0
25
50
75
100
125
0
25
Ambient
temperature
Ta　[℃] [℃]
周囲温度　(*26)
5.5
50
75
100
125
150
Ambient
temperature
Ta　[℃] [℃]
周囲温度　(c)BA4510
family
(a) BA4510ファミリ
(*25)
6.2
50
(b)BA4558/BA4560/BA15218/BA14741/BA15532 family
1000
600
25
Ambient
temperature [℃]
周囲温度　Ta　[℃]
1000
Power
Dissipation[mW]
[mW]
許容損失　Pd　BA4558F
BA4560F
BA15218F
(d)BA2115
family
(b) BA2115ファミリ
(*27)
4.7
(*28)
6.2
(*29)
4.9
Unit
[mW/℃]
When using the unit above Ta=25[℃], subtract the value above per degree[℃]. Permissible dissipation is the value
when FR4 glass epoxy board 70[mm]×70[mm]×1.6[mm] (cooper foil area below 3[％]) is mounted.
Fig. 233 Derating curve
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30/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Cautions on use
1) Processing of unused circuit
It is recommended to apply connection (see the Fig.234) and set the
noninverting input terminal at the potential within input common-mode
voltage range (Vicm), for any unused circuit.
2) Input voltage
Applying VEE+36[V](BA4550R,BA4560R,BA4580R family), VEE+14[V]
(BA2115 family) to the input terminal is possible without causing
deterioration of the electrical characteristics or destruction, irrespective
of the supply voltage. However, this does not ensure normal circuit
operation.
Please note that the circuit operates normally only when the input voltage
is within the common mode input voltage range of the electric characteristics.
3) Maximum output voltage
Because the output voltage range becomes narrow as the output current
Increases, design the application with margin by considering changes in
electrical characteristics and temperature characteristics.
4) Short-circuit of output terminal
When output terminal and VCC or VEE terminal are shorted, excessive
Output current may flow under some conditions, and heating may destroy
IC. It is necessary to connect a resistor as shown in Fig.2, thereby
Protecting against load shorting.
5) Power supply (split supply / single supply) in used
Op-amp operates when specified voltage is applied between VCC and
VEE. Therefore, the single supply Op-Amp can be used for double supply
Op-Amp as well.
VCC
connect
同相入力電圧
範囲内の電位
to Vicm
VEE
Fig. 234The example of
application circuit for unused op-amp
VCC
protection
resistor
保護抵抗
VEE
Fig. 235The example of
output short protection
6) Power dissipation (Pd)
Use a thermal design that allows for a sufficient margin in light of the power dissipation (Pd) in actual operating conditions.
7) Short-circuit between pins and wrong mounting
Pay attention to the assembly direction of the ICs. Wrong mounting direction or shorts between terminals, GND, or other
components on the circuits, can damage the IC.
8) Use in strong electromagnetic field
Using the ICs in strong electromagnetic field can cause operation malfunction.
9) Radiation
This IC is not designed to be radiation-resistant.
10) Handing of IC
When stress is applied to IC because of deflection or bend of board, the characteristics may fluctuate due to piezoelectric
(piezo) effect.
11) Inspection on set board
During testing, turn on or off the power before mounting or dismounting the board from the test Jig.
Do not power up the board without waiting for the output capacitors to discharge. The capacitors in the low output
impedanceterminal can stress the device. Pay attention to the electro static voltages during IC handling, transportation,
and storage.
12) Output capacitor
When VCC terminal is shorted to VEE (GND) potential and an electric charge has accumulated on the external capacitor,
connected to output terminal, accumulated charge may be discharged VCC terminal via the parasitic element within the
circuit or terminal protection element. The element in the circuit may be damaged (thermal destruction). When using this IC
for an application circuit where there is oscillation, output capacitor load does not occur, as when using this IC as a voltage
comparator. Set the capacitor connected to output terminal below 0.1[μF] in order to prevent damage to IC.
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31/33
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
●Ordering part number
B
A
4
Part No.
5
Part No.
4558
4560
4510
14741
15532
6
0
F
V
-
E
Package
F: SOP8
SOP14
FV: SSOP-B8
FVM: MSOP8
4558R
4560R
4580R
15218
2115
2
Packaging and forming specification
E2: Embossed tape and reel
(SOP8/SOP14/SSOP-B8)
TR: Embossed tape and reel
(MSOP8)
SOP8
<Tape and Reel information>
7
5
6
+6°
4° −4°
6.2±0.3
4.4±0.2
0.3MIN
8
1 2
3
0.9±0.15
5.0±0.2
(MAX 5.35 include BURR)
Tape
Embossed carrier tape
Quantity
2500pcs
Direction
of feed
E2
The direction is the 1pin of product is at the upper left when you hold
( reel on the left hand and you pull out the tape on the right hand
)
4
0.595
1.5±0.1
+0.1
0.17 -0.05
0.11
S
1.27
0.42±0.1
1pin
Reel
(Unit : mm)
Direction of feed
∗ Order quantity needs to be multiple of the minimum quantity.
SOP14
<Tape and Reel information>
8.7 ± 0.2
(MAX 9.05 include BURR)
8
Tape
Embossed carrier tape
Quantity
2500pcs
Direction
of feed
0.3MIN
4.4±0.2
6.2±0.3
14
1
E2
The direction is the 1pin of product is at the upper left when you hold
( reel on the left hand and you pull out the tape on the right hand
)
7
0.11
1.5±0.1
0.15 ± 0.1
1.27
0.4 ± 0.1
0.1
1pin
Reel
(Unit : mm)
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32/33
Direction of feed
∗ Order quantity needs to be multiple of the minimum quantity.
2009.05 - Rev.A
BA4558F,BA4560F,BA4558RF/FV/FVM,BA4560RF/FV/FVM,BA4580RF/FVM,
BA15218F,BA14741F,BA15532F,BA4510F/FV,BA2115F/FVM
Technical Note
SSOP-B8
<Tape and Reel information>
3.0 ± 0.2
(MAX 3.35 include BURR)
0.3MIN
4.4±0.2
6.4±0.3
8 76 5
Tape
Embossed carrier tape
Quantity
2500pcs
Direction
of feed
E2
The direction is the 1pin of product is at the upper left when you hold
( reel on the left hand and you pull out the tape on the right hand
)
1.15±0.1
1 23 4
0.15 ± 0.1
0.1
S
0.1
+0.06
0.22 -0.04
(0.52)
0.08
M
0.65
Direction of feed
1pin
Reel
(Unit : mm)
∗ Order quantity needs to be multiple of the minimum quantity.
MSOP8
<Tape and Reel information>
2.8±0.1
4.0±0.2
8 7 6 5
0.6±0.2
+6°
4° −4°
0.29±0.15
2.9±0.1
(MAX 3.25 include BURR)
Tape
Embossed carrier tape
Quantity
3000pcs
Direction
of feed
TR
The direction is the 1pin of product is at the upper right when you hold
( reel on the left hand and you pull out the tape on the right hand
)
1 2 3 4
1PIN MARK
1pin
+0.05
0.145 –0.03
0.475
0.08±0.05
0.75±0.05
0.9MAX
S
+0.05
0.22 –0.04
0.08 S
Direction of feed
0.65
Reel
(Unit : mm)
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© 2009 ROHM Co., Ltd. All rights reserved.
33/33
∗ Order quantity needs to be multiple of the minimum quantity.
2009.05 - Rev.A
Notice
Notes
No copying or reproduction of this document, in part or in whole, is permitted without the
consent of ROHM Co.,Ltd.
The content specified herein is subject to change for improvement without notice.
The content specified herein is for the purpose of introducing ROHM's products (hereinafter
"Products"). If you wish to use any such Product, please be sure to refer to the specifications,
which can be obtained from ROHM upon request.
Examples of application circuits, circuit constants and any other information contained herein
illustrate the standard usage and operations of the Products. The peripheral conditions must
be taken into account when designing circuits for mass production.
Great care was taken in ensuring the accuracy of the information specified in this document.
However, should you incur any damage arising from any inaccuracy or misprint of such
information, ROHM shall bear no responsibility for such damage.
The technical information specified herein is intended only to show the typical functions of and
examples of application circuits for the Products. ROHM does not grant you, explicitly or
implicitly, any license to use or exercise intellectual property or other rights held by ROHM and
other parties. ROHM shall bear no responsibility whatsoever for any dispute arising from the
use of such technical information.
The Products specified in this document are intended to be used with general-use electronic
equipment or devices (such as audio visual equipment, office-automation equipment, communication devices, electronic appliances and amusement devices).
The Products specified in this document are not designed to be radiation tolerant.
While ROHM always makes efforts to enhance the quality and reliability of its Products, a
Product may fail or malfunction for a variety of reasons.
Please be sure to implement in your equipment using the Products safety measures to guard
against the possibility of physical injury, fire or any other damage caused in the event of the
failure of any Product, such as derating, redundancy, fire control and fail-safe designs. ROHM
shall bear no responsibility whatsoever for your use of any Product outside of the prescribed
scope or not in accordance with the instruction manual.
The Products are not designed or manufactured to be used with any equipment, device or
system which requires an extremely high level of reliability the failure or malfunction of which
may result in a direct threat to human life or create a risk of human injury (such as a medical
instrument, transportation equipment, aerospace machinery, nuclear-reactor controller,
fuel-controller or other safety device). ROHM shall bear no responsibility in any way for use of
any of the Products for the above special purposes. If a Product is intended to be used for any
such special purpose, please contact a ROHM sales representative before purchasing.
If you intend to export or ship overseas any Product or technology specified herein that may
be controlled under the Foreign Exchange and the Foreign Trade Law, you will be required to
obtain a license or permit under the Law.
Thank you for your accessing to ROHM product informations.
More detail product informations and catalogs are available, please contact us.
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http://www.rohm.com/contact/
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© 2009 ROHM Co., Ltd. All rights reserved.
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