MAX8600ETD(2005) データシートの表示（PDF） - Maxim Integrated

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MAX8600ETD
(Rev.:2005)

Single-/Dual-Input 1-Cell Li+ Chargers with OVP Protection and Programmable Charge Timer

Maxim Integrated 

Single-/Dual-Input 1-Cell Li+ Chargers with

OVP Protection and Programmable Charge Timer

ELECTRICAL CHARACTERISTICS (continued)

(VDC = VUSB = 5V, VBAT = 4V, V EN = 0V, RSETI = 2kΩ, CCT = 0.068µF, TA = -40°C to +85°C, unless otherwise noted. Typical values

are at TA = +25°C. Note 1)

PARAMETER

CONDITIONS

MIN TYP MAX UNITS

EN, USEL

Logic Input Thresholds

Rising

Falling

1.6

V

0.4

Logic Input Leakage Current

POK, CHG, FLT

V EN = VUSEL = 0 to 5.5V

TA = +25°C

TA = +85°C

0.001 1

µA

0.01

Logic Output Voltage, Low

Logic Output Leakage

Current, High

CHG

I POK, = I CHG = I FLT = 1mA

V POK = V CHG = V FLT = 5.5V,

VDC = VUSB = 0V

TA = +25°C

TA = +85°C

12

100

mV

0.001 1

µA

0.01

CHG/Top-Off Threshold

THM

IBAT falling, battery is

charged

RSETI = 1.5kΩ

RSETI = 2kΩ

RSETI = 5kΩ

75

37.5 56.25 75.0

mA

22.5

THM Pullup Resistance

THM Resistance, Hot

THM Resistance, Cold

THM Resistance, Disabled

CT

RTHM falling, 420Ω hysteresis (typ)

RTHM rising, 2.7kΩ hysteresis (typ)

RTHM falling, 230Ω hysteresis (typ)

10

kΩ

3.72 3.94 4.13

kΩ

26.7 28.3 29.7

kΩ

274 309 337

Ω

Timer Accuracy

Prequal Time Limit

Charge Time Limit

Top-Off Time Limit

CCT = 0.068µF

From entering prequal to FLT low, VBAT < 3V

From entering fast-charge to FLT low, 3V < VBAT < 4.2V

From CHG high to charger disabled

-20

+20

%

34.8

min

334

min

34.8

min

THERMAL LOOP

Thermal-Limit Temperature

Thermal-Limit Gain

Junction temperature when the charge current is reduced,

TJ rising

Reduction of IBAT for increase of TJ, from VDC, RSETI = 1.5kΩ

+100

-50

°C

mA/°C

Note 1: Limits are 100% production tested at TA = +25°C. Limits over the operating temperature range are guaranteed by design

and characterization.

Note 2: Input refers to either DC or USB.

Note 3: Guaranteed by undervoltage- and overvoltage-threshold testing. For complete charging, the input voltage must be greater

than 4.32V. See the Applications Information section.

Note 4: Guaranteed by the current-limit test.

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