MITSUMI
CMOS Regulator MM303X Series
CMOS Regulator
Monolithic IC MM303X Series
Outline
This IC is a voltage regulator IC developed using the CMOS process. Super low consumption current of
1.5 µA typ. (MM303X) (when not loaded) has been achieved through the use of the CMOS process. Also, the
output voltage has a high accuracy of ±2%.
Features
1. Super low consumption current
2. Super low consumption current (when off)
3. High precision output voltage
4. Input/output voltage difference
5. Good input stability
6. Built-in short-circuit restriction circuit
7. Wide operating temperature range
8. Output voltage
1.5µA typ. (when not loaded, excluding the CE terminal current)
0.1µA typ.
±2%
40mV typ. (Io=1mA MM3033A)
0.05%/V typ.
60mA typ.
-30~+85°C
1.7~5.5V (0.1V step)
Package
SC-82AB
Applications
1. Devices that use batteries
2. Portable communications devices
3. Household electronics products
Block Diagram
MITSUMI
CMOS Regulator MM303X Series
Pin Assignment
1
2
3
1
2
4
GND
V
DD
V
OUT
CE
4
3
SC-82AB
(TOP VIEW)
Pin Description
Pin No.
1
2
3
Pin name
GND
V
DD
V
OUT
GND Pin
Voltage-Supply pin
Regulator output pin
No connection pin
CE
L
4
CE
H
OUTPUT
OFF
ON
Functions
ON/OFF-Control pin
Connect CE-pin with VDD-
pin,when it is not used.
Absolute Maximum Ratings
Item
Storage Temperature
Operating Temperature
Supply Voltage
Output Current
Allowable loss
(Ambient Temperature, Ta=25°C)
Symbol
T
STG
T
OPR
V
DD
I
OUT
Pd
Ratings
-40~+125
-30~+85
-0.3~+9
150
150 (Alone)
Unit
°C
°C
V
mA
mW
Recommended Operating Conditions
Item
Operating Temperature
Supply Voltage
(Ambient Temperature, Ta=25°C)
Ratings
-30~+85
V
OUT
+0.3~8
Unit
°C
V
Symbol
T
OP
V
OP
MITSUMI
CMOS Regulator MM303X Series
Electrical Characteristics
Item
Quiescent Current
Input Current(OFF)
Line Regulation
Input Voltage
Output voltage temperature coefficient
Short current
CE pin current when ON
CE input voltage "H"
CE input voltage "L"
(Ambient Temperature, Ta=25°C, V
IN
=V
CE
)
Measurement conditions
V
IN
=V
OUT
+2.0V
V
IN
=V
OUT
+2.0V, V
CE
=0V
I
OUT
=1mA, V
OUT
+0.5V < V
IN
< 8V
=
=
I
OUT
=10mA -30°C < T
OPT
< 85°C
=
=
V
IN
=V
OUT
+2.0V, V
OUT
=0V
V
IN
=V
OUT
+2.0V
V
IN
=V
OUT
+2.0V
V
IN
=V
OUT
+2.0V
V
IN
-1
0
Min. Typ. Max. Unit
1.5
0.1
0.05
±100
60
0.1
1.0
V
IN
0.25
3.0
1.0
0.20
8
µA
µA
%/V
V
ppm/°C
mA
µA
V
V
Symbol
I
SS
Istandby
V
OUT
/ V
IN
V
IN
V
OUT
/ Vopt
Ilim
I
CE
V
CEH
V
CEL
MITSUMI
CMOS Regulator MM303X Series
Electrical Characteristics 2
(Ambient Temperature, Ta=25°C, V
IN
=V
CE
)
Output Voltage
V
OUT
(V)
TEST CONDISIONS MIN. TYP.
MM3031H
1.666 1.700
MM3031J
1.764 1.800
MM3031K
1.862 1.900
MM3032A
1.960 2.000
MM3032B
2.058 2.100
MM3032C
2.156 2.200
MM3032D
2.254 2.300
MM3032E
2.352 2.400
MM3032F
2.450 2.500
MM3032G
2.548 2.600
MM3032H
2.646 2.700
MM3032J
2.744 2.800
MM3032K
2.842 2.900
MM3033A
2.940 3.000
MM3033B
3.038 3.100
MM3033C
3.136 3.200
MM3033D
3.234 3.300
V
IN
-V
OUT
=
MM3033E
3.332 3.400
2.0V
MM3033F
3.430 3.500
MM3033G
3.528 3.600
10µA <
=
MM3033H
3.626 3.700
<
I
OUT
=
MM3033J
3.724 3.800
10mA
MM3033K
3.822 3.900
MM3034A
3.920 4.000
MM3034B
4.018 4.100
MM3034C
4.116 4.200
MM3034D
4.214 4.300
MM3034E
4.312 4.400
MM3034F
4.410 4.500
MM3034G
4.508 4.600
MM3034H
4.606 4.700
MM3034J
4.704 4.800
MM3034K
4.802 4.900
MM3035A
4.900 5.000
MM3035B
4.998 5.100
MM3035C
5.096 5.200
MM3035D
5.194 5.300
MM3035E
5.292 5.400
MM3035F
5.390 5.500 5.610
Product
Name
PARAMETER
Output Current
Load Regulation
Input-Output differential Voltage
I
OUT
(mA)
V
OUT
/ I
OUT
(mV)
V
DIF
(V)
MAX. TEST CONDISIONS MIN. TYP. TEST CONDISIONS TYP. MAX. TEST CONDISIONS TYP. MAX.
1.734
1.836
1.938
2.040
90
60
V
IN
-V
OUT
2.142
=2.0V
2.244
2.346
45
35
30
1mA <
=
2.448
I
OUT
<
=
2.550
75
50
35mA
2.652
2.754
2.856
2.958
60
40
3.060
3.162
3.264
V
IN
-V
OUT
3.366
=2.0V
55
35
3.468
40
60
50
3.570
1mA <
=
I
OUT
=
V
IN
-V
OUT
3.672
I
OUT
<
=
1mA
=2.0V
3.774
50mA
45
30
3.876
3.978
4.080
4.182
4.284
V
IN
-V
OUT
4.386
=2.0V
4.488
50
70
65
4.590
1mA <
=
4.692
I
OUT
<
=
4.794
65mA
40
25
4.896
4.998
5.100
V
IN
-V
OUT
5.202
=2.0V
5.304
90
60
80
5.406
1mA <
=
5.508
I
OUT
<
=
80mA
MITSUMI
CMOS Regulator MM303X Series
Measuring Circuit
Typical Application Circuit
Note: This regulator is not internally compensated and thus requires an external output-capacitor(COUT) for stability.
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