MITSUBISHI M62551

MITSUBISHI <STD LINEAR ICs>
RY
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PREL
M6255X Series
RECOMMENDED OPERATING CONDITIONS
Supply voltage………………………………………………………5V
BLOCK DIAGRAM (M62551L/GP)
5
OUTPUT 1 1
INVERTED 2
INPUT 1
NON-INVERTED 3
INPUT 1
GND 4
VCC
5
4
M62551GP
1
8 VCC
7 OUTPUT 2
3
6 INVERTED
INPUT 2
5 NON-INVERTED
INPUT 2
OUTPUT 1 1
OUTLINE:
5P5T (M62551L)
SOT-25 (M62551GP)
8P4 (M62552P)
8P2S (M62552FP)
SSOP-8 (M62552GP)
14P4 (M62554P)
14P2S (M62554FP)
2
INVERTED
INPUT
VCC
4
GND
3
NON-INVERTED
INPUT
2
INVERTED
INPUT
NON-INVERTED
INPUT
1
14 OUTPUT 4
INVERTED
2
INPUT 1
NON-INVERTED
3
INPUT 1
INVERTED
13 INPUT 4
NON-INVERTED
12 INPUT 4
M62554P/FP
APPLICATION
Various types of arithmetic circuits for ink jet printer and other
general electronic equipment
M62551L
M62552
P/FP/GP
FEATURES
•Dissipation current………0.19/0.38/0.76mA<551/552/554> (TYP)
•Output wide……………………VO=GND to VCC (VIN=GND to VCC)
•Slew rate…………………………………………SR=1.2V/µS (TYP)
•Small size SSOP package. (551GP/ 552GP)
PIN CONFIGURATION (TOP VIEW)
GND
DESCRIPTION
The M6255X is a single power supply system semiconductor
integrated circuit designed to be used for general-purpose
arithmetic amplifier of general electronic equipment for consumer
appliances.
This IC adopts C-MOS structure to achieve low power
consumption and is therefore optimum for the recent boom in
portable electronic equipment. The IC is also available for various
applications for its full swing in both input and output, though the IC
has a single power supply.
OUTPUT
GENERAL PURPOSE C•MOS OP AMP(SINGLE/DUAL/QUAD)
OUTPUT
.
ication change.
l specif
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Notice parametric li
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VCC 4
NON-INVERTED
5
INPUT 2
INVERTED
6
INPUT 2
11 GND
NON-INVERTED
10 INPUT 3
INVERTED
9 INPUT 3
OUTPUT 2 7
8 OUTPUT 3
BLOCK DIAGRAM (M62552P/FP/GP)
8
INVERTED
INPUT
(3)
4
NON-INVERtED
INPUT
(1)
5
OUTPUT
(5)
1
2
3
VCC
(4)
GND
(2)
VCC
INVERTED
INPUT 1
2
6
INVERTED
INPUT 2
NON-INVERTED
INPUT 1
3
5
NON-INVERTED
INPUT 2
1
7
OUTPUT 2
OUTPUT 1
4
*Pin number at GP is put in parentheses.
GND
BLOCK DIAGRAM (M62554P/FP)
4
OUTPUT 1
1
INVERTED
INPUT 1
2
NON-INVERTED
INPUT 1
VCC
14
OUTPUT 4
13
INVERTED
INPUT 4
3
12
NON-INVERTED
INPUT 4
NON-INVERTED
INPUT 2
5
9
NON-INVERTED
INPUT 3
INVERTED
INPUT 2
6
10
INVERTED
INPUT 3
OUTPUT 2
7
8
OUTPUT 3
CH1
CH4
CH2
CH3
11
GND
(1/3)
MITSUBISHI <STD LINEAR ICs>
RY
A
N
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M
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PREL
.
ication change.
l specif
to
t a fina are subject
o
n
is
mits
:This
Notice parametric li
Some
M6255X Series
GENERAL PURPOSE C•MOS OP AMP(SINGLE/DUAL/QUAD)
ABSOLUTE MAXIMUM RATINGS (Ta=25°C,unless otherwise noted)
Symbol
Parameter
VCC
Isink
Isource
VIN
Vid
Supply voltage
Pd
Ktheta
Topr
Tstg
Ratings
Unit
7
V
±10
mA
-0.3 to 7
7
450(L)/200(GP)
V
V
625(P)/440(FP)/280(GP)
mW
Conditions
Load current
VIN≤VCC
Input voltage
Differential Input voltage
Power dissipation
Thermal derating
M62551
M62552
M62554
M62551
M62552
M62554
Ta=25°C
Ta>25°C
Ambient temperature
Storage temperature
700(P)/550(FP)
4.5(L)2.0(GP)
6.25(P)/4.4(FP)j/2.8(GP)
mW/°C
7.0(P)/5.5(FP)
-20 to +85
-40 to+125
°C
°C
ELECTRICAL CHARACTERISTICS (Ta=25°C,VCC=5V unless otherwise noted)
Symbol
ICC
VIO
IB
VICM
GVO
Parameter
Circuit current
GV=0dB,RL=∞
Input offset voltage
GV=0dB,RL=∞
Min.
M62551
M62552
M62554
0
80
Common mode voltage range
Open loop voltage gain
Output voltage swing
VOL
RL≥20KΩ
VCC-0.5
VCC-0.1
GV=0dB,VIN=VCC,IO=+1mA
VCC-0.1
VCC-0.02
GV=0dB,VIN=VCC,IO=-5mA
Common mode rejection ratio
Supply voltage rejection ratio
GV=0dB,RL=∞
Gain bandwidth product
Input conversion noise voltage VIN=2.5V,RS=1KΩ,BW:10Hz,30KHz
(2/3)
Max
.
0.30
0.60
1.20
8
50
VCC
100
GV=0dB,VIN=VCC,IO=+5mA
GV=0dB,VIN=VCC,IO=-1mA
Slew rate
Limits
Typ
0.19
0.38
0.76
4
1
Input bias current
VOH
CMRR
SVRR
SR
fT
VNI
Test condition
0.05
0.01
65
65
1.2
1.0
5
0.25
0.1
Unit
mA
mV
pA
V
dB
V
dB
dB
V/µS
MHz
10
µVrms
MITSUBISHI <STD LINEAR ICs>
RY
A
N
I
M
I
PREL
M6255X Series
.
ication change.
l specif
to
t a fina are subject
o
n
is
mits
:This
Notice parametric li
Some
GENERAL PURPOSE C•MOS OP AMP(SINGLE/DUAL/QUAD)
MEASUREMENT CIRCUIT
(1) CIRCUIT CURRENT
(2) INPUT OFFSET VOLTAGE
5V
ICC
VIO
2.5V
2.5V
(3) COMMON MODE REJECTION RATIO
(4) SUPPLY VOLTAGE REJECTION RATIO
VCC
5
V
*VO1:VCC1 OUTPUT
VO2:VCC2 OUTPUT
VO (AC)
Rf
Rs
Rs
VO (AC)
-10dB
1KHz
1/2VCC
Rs
2.5V
Rs
1/2VCC
Rf
Rf
SVRR=20log{(VCC1-VCC2) X Rf/Rs) / (VO1-VO2)}
CMRR=(VIN/VO) X Rf/Rs
APPLICATION
(2) REVEL DETECTOR
(1) VOLTAGE FOLLOWER
VCC
VCC
VIN
VIN
1µF
RL
1µF
¡ Mitsubishi Electric Corporation puts the maximum effort into making semiconductor products
better and more reliable, but there is always the possibility that trouble may occur with
them.Trouble with semiconductors may lead to personal injury, fire or property damage.
Remember to give due consideration to safety when making your circuit design, in order to
prevent fires from spreading, redundancy, malfunction or other mishap.
(3/3)

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