MITSMI MM1305XW, MM1305AW, MM1305BW Datasheet

MITSUMI

Remaining Battery Power Display MM1305

Remaining Battery Power Display

Monolithic IC MM1305

Outline

This IC detects battery voltage and displays the power remaining in the battery. Portable equipment is
becoming more and more popular, and one standard function of this type of equipment is remaining battery
power display. This IC has four threshold voltages built in. Since their respective detection circuits share the
reference voltage on one chip, the detection voltage for each lags in the same direction. Thus, there is much
smaller error as compared to the reciprocal error resulting from combining single circuits.
Also, the stepped display of remaining battery power as in nickel cadmium, nickel hydrogen and lithium ion
batteries is enabled through super high precision voltage detection of ±1%.

Features

1. A separate line-up of detection voltages for alkaline magnesium and nickel cadmium and nickel hydrogen
batteries.
Alkaline magnesium : 1.350V /1.285V /1.200V /1.100V
Nickel cadmium, nickel hydrogen : 1.275V /1.245V /1.205V /1.100V

2. Super high precision detection voltage : ±1% typ.

3. Low current consumption : Waiting : 1.5µA

Detection : 12µA

4. Ripple absorption pin
Enables continuous ripple absorption and suppresses detection errors.

5. Built-in hysteresis voltage

Package

VSOP-8A (MM1305XW, MM1305AW, MM1305BW)

Absolute Maximum Ratings

Item Specification Unit

Storage temperature

-

40~+125 °C

Operating temperature

-

20~+70 °C

Input voltage 5V

Output pin voltage 5V

Allowable loss 300 mW

MITSUMI

Remaining Battery Power Display MM1305

Electrical Characteristics

(Unless otherwise specified Ta=25°C, VCC=1.5V)

Item Measurement Conditions Min. Typ. Max. Unit

Current consumption 12.0 8.0 µA

Current consumption during waiting V

CC=1.3V, CE pin=L 1.5 2.5 µA

Detection voltage 1 1.330 1.350 1.370

2

Rank A V

CC=H L

1.270 1.285 1.300
V

3 1.185 1.200 1.215

4 1.089 1.100 1.111

1 1.262 1.275 1.288

2

Rank X V

CC=H L

1.232 1.245 1.258
V

3 1.193 1.205 1.217

4 1.089 1.100 1.111

Detection voltage Difference 1 V

TH1=VTH1

-

VTH4 230 250 270

2 Rank A V

TH2=VTH2

-

VTH4 160 185 200 mV

3 V

TH3=VTH3

-

VTH4 85 100 115

1 V

TH1=VTH1

-

VTH2203040

2 Rank X V

TH2=VTH2

-

VTH3304050mV

3 V

TH3=VTH2

-

VTH4 135 145 155

Detection voltage temperature factor

±200

ppm/°C

Hysteresis voltage 10 20 35 mV

Output sink current

VCC=1.3V, Output saturation voltage=0.3V

40 µA

Output saturation voltage 1 150 250

2

I

SINK=30µA

150 250

mV

3 150 250

4 150 250

Output leak voltage 1 1

2

VCC=1.0V, Output saturation voltage=1.5V

1

µA

3 1

4 1

Power supply voltage operating limit

0.70 0.75 V

Input H voltage

VCC-

0.3

VCC

VCC-

0.3

V

L voltage CE pin=0V 100 300 500 nA

L voltage

-

0.3 0

-

0.3 V

Ripple absorption resistance

measure resistance between pins 8pin-6pin

70 100 130 kΩ

CEpin