MAXIM MAX8662, MAX8663 User Manual

MAX8662/MAX8663
Power-Management ICs for
Single-Cell, Li+ Battery-Operated Devices
________________________________________________________________
Maxim Integrated Products
1
Ordering Information
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
General Description
The MAX8662/MAX8663 power-management ICs (PMICs) are efficient, compact devices suitable for smart cellular phones, PDAs, Internet appliances, and other portable devices. They integrate two synchronous buck regulators, a boost regulator driving two to seven white LEDs, four low-dropout linear regulators (LDOs), and a linear charger for a single-cell Li-ion (Li+) battery.
Maxim’s Smart Power Selector™ (SPS) safely distrib­utes power between an external power source (AC adapter, auto adapter, or USB source), battery, and the system load. When system load peaks exceed the external source capability, the battery supplies supple­mental current. When system load requirements are small, residual power from the external power source charges the battery. A thermal-limiting circuit limits bat­tery-charge rate and external power-source current to prevent overheating. The PMIC also allows the system to operate with no battery or a discharged battery.
The MAX8662 is available in a 6mm x 6mm, 48-pin thin QFN package, while the MAX8663, without the LED driver, is available in a 5mm x 5mm, 40-pin thin QFN package.
Features
Applications
+
Denotes a lead-free package.
*
EP = Exposed paddle.
PART
TEMP
PIN-PACKAGE
PKG
CODE
MAX8662ETM+
-40°C to
48 Thin QFN-EP*
T4866-1
MAX8663ETL+
-40°C to
40 Thin QFN-EP*
T4055-1
Two 95%-Efficient 1MHz Buck Regulators
Main Regulator: 0.98V to V
IN
at 1200mA
Core Regulator: 0.98V to V
IN
at 900mA
1MHz Boost WLED Driver
Drives Up to 7 White LEDs at 30mA (max) PWM and Analog Dimming Control
Four Low-Dropout Linear Regulators
1.7V to 5.5V Input Range 15µA Quiescent Current
Single-Cell Li+ Charger
Adapter or USB Input Thermal-Overload Protection
Smart Power Selector (SPS)
AC Adapter/USB or Battery Source Charger-Current and System-Load Sharing
Smart Phones and PDAs
MP3 and Portable Media Players
Palmtop and Wireless Handhelds
TOP VIEW
MAX8662
THIN QFN
(6mm x 6mm)
13
14
15
16
17
18
19
20
21
22
23
24
THM
ISET
CT
REF
GND
OUT4
IN45
OUT5
EN4
EN5
PWM
FB1
48
47
46
45
44
43
42
41
40
39
38
37
1
2
345678910
11
12
POK
PSET
SL2
SL1
VL
OUT7
IN67
OUT6
PG3
LX3
EN7
EN6
CEN
CHG
BRT
BAT2
BAT1
SYS2
SYS1
DC2
DC1
EN3
PEN2
PEN1
36
35
34 33 32 31 30 29 28 27
26
25
EN1
PG1
LX1
PV1
OVP
CS
CC3
FB2
PV2
LX2
PG2
EN2
Pin Configurations
OUT1
0.98V TO V
IN
/ 1.2A
OUT2
0.98V TO V
IN
/ 0.9A
OUT3
30mA
WLED
DC SYS
OUT7
EN1
500mA
150mA
300mA
150mA
Li+ BATTERY
DC/USB
INPUT
TO SYSTEM POWER
BAT
LX1
LX2
LX3
(MAX8662 ONLY)
OUT6
OUT5
OUT4
CS
TO SYS
EN2
EN3
EN4
EN5
EN6
EN7
PWR OK
CHARGE
STATUS
CHARGE
ENABLE
SL1
SL2
OUT4–OUT7
VOLTAGE
SELECT
MAX8662 MAX8663
POK
CHG
CEN
Typical Operating Circuit
Smart Power Selector is a trademark of Maxim Integrated Products, Inc.
Pin Configurations continued at end of data sheet.
EVALUATION KIT
AVAILABLE
RANGE
+85°C
+85°C
6mm x 6mm x 0.8mm
5mm x 5mm x 0.8mm
MAX8662/MAX8663
Power-Management ICs for Single-Cell, Li+ Battery-Operated Devices
2 _______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS (Input Limiter and Battery Charger)
(VDC= 5V, V
BAT
= 4V, V
CEN
= 0V, V
PEN_
= 5V, R
PSET
= 3kΩ, R
ISET
= 3.15kΩ, CCT= 0.068µF, TA= -40°C to +85°C, unless otherwise
noted.) (Note 1)
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
LX3 to GND ............................................................-0.3V to +33V
DC_ to GND..............................................................-0.3V to +9V
BAT_ CEN, CHG, EN_, PEN_, POK, PV_, PWM,
SYS_, LX1, CS, LX2 to GND .................................-0.3V to +6V
VL to GND ................................................................-0.3V to +4V
BRT, CC3, FB_, IN45, IN67, OVP, REF,
SL_ to GND ...........................................-0.3V to (V
S
YS
+ 0.3V)
CT, ISET, PSET, THM to GND .....................-0.3V to (V
VL
+ 0.3V)
OUT4, OUT5 to GND................................-0.3V to (V
IN45
+ 0.3V)
OUT6, OUT7 to GND................................-0.3V to (V
IN67
+ 0.3V)
PG_ to GND...........................................................-0.3V to +0.3V
BAT1 + BAT2 Continuous Current ...........................................3A
SYS1 + SYS2 Continuous Current (2 pins) ..............................3A
LX_ Continuous Current ........................................................1.5A
Continuous Power Dissipation (T
A
= +70°C)
40-Pin 5mm x 5mm Thin QFN
(derate 35.7mW/°C above +70°C)
(multilayer board) .......................................................2857mW
48-Pin 6mm x 6mm Thin QFN (derate 37mW/°C above +70°C) (multilayer board)...2963mW
Operating Temperature Range ..........................-40°C to +85°C
Junction Temperature Range ............................-40°C to +125°C
Storage Temperature Range .............................-65°C to +150°C
Lead Temperature (soldering, 10s) .................................+300°C
PARAMETER
CONDITIONS
UNITS
INPUT LIMITER
DC Operating Range V
DC
(Note 2)
V
V
DC_L
VDC rising, 500mV hysteresis
V
DC Overvoltage Threshold V
DC_H
VDC rising, 100mV hysteresis
V
I
SYS = IBAT =
0mA, V
CEN =
0V
DC Supply Current
I
SYS = IBAT =
0mA, V
CEN =
5V
mA
DC Shutdown Current
V
DC
= 5V, V
CEN =
5V, V
PEN1
= V
PEN2 =
0V (USB
suspend mode)
µA
DC-to-SYS Dropout On-Resistance
V
DC
= 5V, I
SYS =
400mA, V
CEN =
5V
Ω
DC-to-BAT Dropout Threshold
When V
SYS
regulation and charging stops, V
DC
falling, 150mV hysteresis
50 85
mV
VL Voltage V
VL
I
VL =
0 to 10mA
V
SYS Regulation Voltage
VDC = 5.8V, I
SYS =
1mA, V
CEN =
5V
V
R
PSET =
1.5kΩ
R
PSET
= 3kΩ
R
PSET
= 6kΩ
(500mA USB mode)
DC Input Current Limit I
DC_LIM
VDC = 5V, V
SYS
= 4.0V
V
PEN1
= V
PEN2 =
0V
(100mA USB mode)
90
mA
PSET Resistance Range R
PSET
Guaranteed by SYS current limit
kΩ
Inp ut Li m i ter S oft- S tar t Ti m e
Current-limit ramp time
ms
DC Undervoltage Threshold
SYMBOL
R
DC_SYS
V
DR_DC_BAT
V
SYS_REG
T
S S _ D C _S Y S
MIN TYP MAX
4.1 8.0
3.9 4.0 4.1
6.6 6.9 7.2
1.5
0.9
110 180
0.1 0.2
20
V
PEN1 =
V
PEN1 =
V
PEN1 =
V
PEN1 =
5V, V
5V, V
5V, V
0V, V
PEN2
PEN2 =
PEN2 =
PEN2 =
= 5V,
5V,
5V,
5V
3.1 3.3 3.5
5.2 5.3 5.4
1800 2000 2200
900 1000 1100
450 500 550
450 475 500
80
100
1.5 6.0
1.5
MAX8662/MAX8663
Power-Management ICs for
Single-Cell, Li+ Battery-Operated Devices
_______________________________________________________________________________________ 3
ELECTRICAL CHARACTERISTICS (Input Limiter and Battery Charger) (continued)
(VDC= 5V, V
BAT
= 4V, V
CEN
= 0V, V
PEN_
= 5V, R
PSET
= 3kΩ, R
ISET
= 3.15kΩ, CCT= 0.068µF, TA= -40°C to +85°C, unless otherwise
noted.) (Note 1)
PARAMETER
CONDITIONS
UNITS
BATTERY CHARGER
BAT-to-SYS On-Resistance
V
DC =
0V, V
BAT =
4.2V, I
SYS =
1A 40 80
mΩ
BAT-to-SYS Reverse Regulation Voltage
V
D C
= 5V , V
P E N 1
= V
P E N 2
= 0V ( U S B 100m A m od e) ,
I
SYS
= 200mA (BAT to SYS voltage drop during SYS
overload)
mV
TA = +25°C
BAT Regulation Voltage
I
BAT =
0mA
T
A
= -40°C to +85°C
V
BAT Recharge Threshold BAT voltage drop to restart charging
mV
R
ISET =
1.89kΩ
R
ISET =
3.15kΩ
BAT Fast-Charge Current
I
SYS =
0mA,
R
PSET
= 1.5kΩ,
V
PEN1
= V
PEN2
= 5V
R
ISET =
7.87kΩ
mA
V
BAT =
2.5V, R
ISET =
3.15kΩ (prequalification
current is 10% of fast-charge current)
75
mA
ISET Resistance Range R
ISET
Guaranteed by BAT charging current (1.5A to 300mA)
kΩ
V
ISET
-to-I
BAT
Ratio
R
ISET
= 3.15kΩ (ISET output voltage to actual
charge-current ratio)
2
V/A
Charger Soft-Start Time
Charge-current ramp time
ms
BAT Prequalification Threshold
V
BAT
rising, 180mV hysteresis
V
VDC = 0V
5
BAT Leakage Current
V
BAT =
4.2V,
outputs disabled
V
DC = VCEN =
5V
5
µA
I
BAT
where CHG goes
high, and top-off timer; I
BAT
falling (7.5% of
fast-charge current)
R
ISET =
3.15kΩ
mA
Timer-Suspend Threshold I
BAT
falling (Note 3)
mV
Timer Accuracy C
CT =
0.068µF
%
Prequalification Time
From CEN high to end of prequalification charge, V
BAT =
2.5V, C
CT =
0.068µF
30
Min
Charge Time
From CEN high to end of fast charge, C
CT =
0.068µF
Min
Top-Off Time
From CHG high to end of fast charge, C
CT =
0.068µF
30
Min
Charger Thermal-Limit Temperature
(Note 4)
°C
R
PSET
= 3kΩ 50
m A/°C
BAT Prequalification Current
CHG and Top-Off Threshold
Charger Thermal-Limit Gain
SYMBOL
R
BAT_REG
V
BAT_REG
t
SS_CHG
t
PREQUAL
t
FST-CHG
t
TOP-OFF
MIN TYP MAX
50 100 150
4.179 4.200 4.221
4.158 4.200 4.242
-140 -100 -60
1250
675 750 825
300
1.57 7.87
1.5
2.9 3.0 3.1
0.01
0.01
56.25
250 300 350
-20 +20
300
100
MAX8662/MAX8663
Power-Management ICs for Single-Cell, Li+ Battery-Operated Devices
4 _______________________________________________________________________________________
ELECTRICAL CHARACTERISTICS (Input Limiter and Battery Charger) (continued)
(VDC= 5V, V
BAT
= 4V, V
CEN
= 0V, V
PEN_
= 5V, R
PSET
= 3kΩ, R
ISET
= 3.15kΩ, CCT= 0.068µF, TA= -40°C to +85°C, unless otherwise
noted.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
THERMISTOR INPUT (THM)
THM Internal Pullup Resistance
10
kΩ
THM Resistance Threshold, Hot
Resistance falling (1% hysteresis)
kΩ
THM Resistance Threshold, Cold
Resistance rising (1% hysteresis)
kΩ
THM Resistance Threshold, Disabled
Resistance falling
Ω
LOGIC I/O (POK, CHG, PEN_, EN_, PWM, CEN)
Input Logic-High Level
V
Input Logic-Low Level
V
V
LOGIC
= 0V to 5.5V, TA = +25°C
V
LOGIC
= 5.5V, TA = +85°C
µA
Logic Output-Voltage Low I
SINK
= 1mA 10
mV
TA = +25°C
1
Logic Output-High Leakage Current
V
LOGIC =
5.5V T
A
= +85°C
µA
ELECTRICAL CHARACTERISTICS (Output Regulator)
(V
SYS_
= V
PV_
= V
IN45
= V
IN67
= 4.0V, V
BRT
= 1.25V, circuit of Figure 1, TA= -40°C to +85°C, unless otherwise noted.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
SYSTEM
SYS Operating Range V
SYS
V
V
SYS
rising, 100mV hysteresis
V
Extra supply current when at least one output is on 35
OUT1 on, V
PWM
= 0V 16
OUT2 on, V
PWM =
0V 16
µA
OUT3 on 1 2 mA
20
16
17
SYS Bias Current Additional Regulator Supply Current
Not including SYS bias current
OUT7 on (current in IN67) 16
µA
Inter nal Osci l l ator Fr eq uency PWM frequency of OUT1, OUT2, and OUT3
MHz
BUCK REGULATOR 1
V
PWM =
0V 16 35 µA
Supply Current
not including SYS bias current
V
PWM =
5V
mA
Output Voltage Range V
OUT1
Guaranteed by FB accuracy
V
Maximum Output Current I
OUT1
mA
3.73 3.97 4.21
26.98 28.7 30.42
270 300 330
1.3
Logic Input-Leakage Current
-1 +0.001 +1
0.01
0.001
0.01
0.4
100
S Y S U nd er vol tag e Thr eshol d V
UVLO_SYS
OUT4 on (current into IN45)
I
+ I
, no load,
PV1
SYS
OUT5 on (current into IN45)
OUT6 on (current into IN67)
2.6 5.5
2.4 2.5 2.6
70
35
35
30
25
27
25
0.9 1.0 1.1
2.9
0.98 3.30
1200
MAX8662/MAX8663
Power-Management ICs for
Single-Cell, Li+ Battery-Operated Devices
_______________________________________________________________________________________ 5
ELECTRICAL CHARACTERISTICS (Output Regulator) (continued)
(V
SYS_
= V
PV_
= V
IN45
= V
IN67
= 4.0V, V
BRT
= 1.25V, circuit of Figure 1, TA= -40°C to +85°C, unless otherwise noted.) (Note 1)
PARAMETER
CONDITIONS
UNITS
FB Regulation Accuracy
From V
FB1
= 0.98V, I
OUT1 =
0 to 1200mA,
V
OUT1 =
0.98V to 3.3V
-3 +3 %
FB1 Input Leakage Current
µA
V
PV1 =
3.3V
pMOS On-Resistance I
LX1 =
100mA
V
PV1 =
2.6V
Ω
V
PV1 =
3.3V
nMOS On-Resistance I
LX1 =
100mA
V
PV1 =
2.6V
Ω
pMOS Current Limit
A
S ki p M od e Transi ti on C ur r ent 90
mA
nMOS Zero-Cross Current 25
mA
V
LX1
= V
PV1 =
5.5V
LX Leakage
V
EN1 =
0V, V
SYS
= 5.5V,
T
A =
+25°C
µA
BUCK REGULATOR 2
V
PWM
= 0V 16 35 µA
Supply Current
I
SYS
+ I
PV2
, no l oad , not
i ncl ud i ng S Y S b i as cur r ent
V
PWM
= 5V
mA
Output Voltage Range Guaranteed by FB accuracy
V
Maximum Output Current
mA
FB Regulation Accuracy
From V
FB2 =
0.98V, I
OUT2 =
0 to 600mA,
V
OUT2
= 0.98V to 3.3V
-3 +3 %
FB2 Input Leakage Current
µA
V
PV2 =
3.3V
pMOS On-Resistance I
LX2
= 100mA
V
PV2 =
2.6V
Ω
V
PV2 =
3.3V
nMOS On- Resistance I
LX2 =
100mA
V
PV2 =
2.6V
Ω
pMOS Current Limit
A
S ki p M od e Transi ti on C ur r ent 90
mA
nMOS Zero-Cross Current 25
mA
V
LX2
= V
PV2
= 5.5V
LX Leakage
V
EN2 =
0V, V
SYS
= 5.5V,
T
A =
+25°C
µA
BOOST REGULATOR FOR LED DRIVER
Supply Current
At S Y S , no l oad , not i ncl ud i ng S Y S b i as cur r ent
Switching 1
mA
Output Range V
OUT3
30 V
Minimum Duty Cycle D
MIN
10 %
Maximum Duty Cycle D
MAX
92 %
CS Regulation Voltage V
CS
V
OVP Regulation Voltage Duty = 90%, I
LX3 =
0mA
V
OVP Sink Current
µA
OVP Soft-Start Period Time for I
OVP
to ramp from 0 to 20µA
ms
SYMBOL
V
LX1
V
LX2
= 0V, V
= 0V, V
= 5.5V -5.00 -0.01
PV1
= 5.5V -5.00 -0.01
PV2
MIN TYP MAX
0.01 0.10
0.12 0.24
0.15
0.2 0.4
0.3
1.4 1.8 2.2
0.01 1.00
2.1
0.98 3.30
900
0.01 0.10
0.2 0.4
0.3
0.2 0.4
0.3
1.07 1.30 1.55
0.01 1.00
V
SYS
90
0.29 0.32 0.35
1.225 1.250 1.275
19.2 20.0 20.8
1.25
ELECTRICAL CHARACTERISTICS (Output Regulator) (continued)
(V
SYS_
= V
PV_
= V
IN45
= V
IN67
= 4.0V, V
BRT
= 1.25V, circuit of Figure 1, TA= -40°C to +85°C, unless otherwise noted.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
TA = +25°C
1
OVP Leakage Current
V
EN3
= 0V,
V
OVP
= V
SYS
= 5.5V
T
A =
+85°C
µA
nMOS On-Resistance I
LX3
= 100mA
1.2 Ω
TA = +25°C
V
LX3
= 30V
T
A =
+85°C
µA
nMOS Current Limit
mA
LED DRIVER
BRT Input Range V
BRT
I
CS =
0 to 30mA 0 1.5 V
REF Voltage V
REF
I
REF =
0mA
V
TA = +25°C -1
+1
BRT Input Current V
BRT
= 0 to 1.5V
T
A =
+85°C
µA
V
BRT
= 1.5V
30 32
CS Sink Current VCS = 0.2V
V
BRT
= 50mV
1.2
mA
CS Current-Source Line Regulation
V
SYS
= 2.7V to 5.5V
%/V
PWM DIMMING
EN3 DC Turn-On Delay From V
EN3
= high to LED on
2.5 ms
EN3 Shutdown Delay From V
EN3
= low to LED off
2.5 ms
Maximum
ms
PWM Dimming Capture Period
Time between rising edges on EN3 for PWM dimming to become active
Minimum 8 10 µs
PWM Dimming Pulse-Width Resolution
Resolution of high or low-pulse width on EN3 for dimming change
µs
LINEAR REGULATORS
V
IN45
5.5 V
IN45, IN67 Undervoltage Threshold
V
IN45
rising, 100mV hysteresis
1.7 V
Output Noise f = 100Hz to 100kHz
µV
RMS
PSRR f = 100kHz 30 dB
Shutdown Supply Current V
EN4
= V
EN5
= 0V, TA = +25°C
A
Soft-Start Ramp Time V
OUT4
to 90% of final value 10
V/ms
Output Discharge Resistance in Shutdown
V
EN4
= 0V
2.0 kΩ
LINEAR REGULATOR 4 (LDO4)
Supply Current At IN45, V
EN5
= 0V I
OUT4
= 0A 20 30 µA
Voltage Accuracy
I
OUT4
= 0 to 500mA,
V
IN45
= V
OUT4
+ 0.3V to 5.5V with 1.7V (min)
%
M i ni m um O utp ut C ap aci tor C
OUT4
Guaranteed stability, ESR < 0.05Ω
µF
Dropout Resistance IN45 to OUT4
0.4 Ω
Current Limit V
OUT4
= 0V
mA
MAX8662/MAX8663
Power-Management ICs for Single-Cell, Li+ Battery-Operated Devices
6 _______________________________________________________________________________________
nMOS Off-Leakage Current
IN 45, IN 67 O p er ati ng Rang e
V
UVLO-IN45
0.01
0.1
0.6
0.01 5.00
0.1
500 620 900
1.45 1.50 1.55
-0.01
0.1
28
0.4 0.8
0.1
1.5 2.0
1.5 2.0
1.5 2.0
0.5
1.7
1.5 1.6
200
0.001
0.5 1.0
-1.5 +1.5
3.76
0.2
500 700
MAX8662/MAX8663
Power-Management ICs for
Single-Cell, Li+ Battery-Operated Devices
_______________________________________________________________________________________ 7
ELECTRICAL CHARACTERISTICS (OUTPUT REGULATOR) (continued)
(V
SYS_
= V
PV_
= V
IN45
= V
IN67
= 4.0V, V
BRT
= 1.25V, circuit of Figure 1, TA= -40°C to +85°C, unless otherwise noted.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
LINEAR REGULATOR 5 (LDO5)
Supply Current At IN45, V
EN4
= 0V I
OUT5
= 0A
25 µA
Voltage Accuracy
I
OUT5 =
0 to 150mA,
V
IN45
= V
OUT5
+ 0.3V to 5.5V with 1.7V (min)
%
M i ni m um O utp ut C ap aci tor C
OUT5
Guaranteed stability, ESR < 0.05Ω
µF
Dropout Resistance IN45 to OUT5
Ω
Current Limit V
OUT5
= 0V
mA
LINEAR REGULATOR 6 (LDO6)
Supply Current At IN67, V
EN6
= V
SYS
, V
EN7
= 0V I
OUT6
= 0A
27 µA
Voltage Accuracy I
OUT6 =
0 to 300mA, V
IN67
= V
OUT6
+ 0.3V to 5.5V
%
M i ni m um O utp ut C ap aci tor C
OUT6
Guaranteed stability, ESR < 0.05Ω
µF
Dropout Resistance IN67 to OUT6
Ω
Current Limit V
OUT6
= 0V
mA
LINEAR REGULATOR 7 (LDO7)
Supply Current At IN67, V
EN6
= 0V, V
EN7
= V
SYS
I
OUT7
= 0A
25 µA
Voltage Accuracy
I
OUT7
= 0 to 150mA,
V
IN67
= V
OUT7
+ 0.3V to 5.5V with 1.7V (min)
%
M i ni m um O utp ut C ap aci tor C
OUT7
Guaranteed stability, ESR < 0.05Ω
µF
Dropout Resistance IN67 to OUT6
Ω
Current Limit V
OUT7
= 0V
mA
THERMAL SHUTDOWN
Thermal-Shutdown Temperature
T
J
rising
°C
Thermal-Shutdown Hysteresis
°C
Note 1: Limits are 100% production tested at TA= +25°C. Limits over the operating temperature range are guaranteed through
correlation using statistical quality control (SQC) methods.
Note 2: Input withstand voltage. Not designed to operate above V
DC
= 6.5V due to thermal-dissipation issues.
Note 3: ISET voltage when CT timer stops. Occurs only when in constant-current mode. Translates to 20% of fast-charge current. Note 4: Temperature at which the input current limit begins to reduce.
16
-1.5 +1.5
0.8
0.6 1.2
150 210
17
-1.5 +1.5
1.76
0.35 0.60
300 420
16
-1.5 +1.5
0.8
0.6 1.2
150 210
165
15
MAX8662/MAX8663
Power-Management ICs for Single-Cell, Li+ Battery-Operated Devices
8 _______________________________________________________________________________________
Typical Operating Characteristics
(Circuit of Figure 1, V
DC
= 5V, R
PSET
= 1.5kΩ, R
ISET
= 3kΩ, V
OUT1
= 3.3V, V
OUT2
= 1.3V, SL1 = SL2 = open, V
CEN
= 0V, V
PEN1
=
V
PEN2
= 5V, C
OUT1
= 2 x 10µF, C
OUT2
= 2 x 10µF, C
OUT3
= 0.1µF, C
OUT4
= 4.7µF, C
OUT5
= 1µF, C
OUT6
= 2.2µF, C
OUT7
= 1µF, CT =
0.068µF, C
REF
= CVL= 0.1µF, R
THM
= 10kΩ, L1 = 3.3µH, L2 = 4.7µH, L3 = 22µH, GND = PG1 = PG2 = PG3 = 0, TA= +25°C, unless
otherwise noted.)
INPUT QUIESCENT CURRENT
vs. INPUT VOLTAGE (CHARGER ENABLED)
MAX8662/63 toc01
INPUT VOLTAGE (V)
INPUT QUIESCENT CURRENT (mA)
7654321
0.2
0.4
0.6
0.8
1.0
1.2
1.4
0
08
V
BAT
= 4.2V
I
SYS
= 0 CHARGER IN DONE MODE
V
BAT
RISING
V
BAT
FALLING
INPUT QUIESCENT CURRENT
vs. INPUT VOLTAGE (CHARGER DISABLED)
MAX8662/63 toc02
INPUT VOLTAGE (V)
INPUT QUIESCENT CURRENT (mA)
7654321
0.2
0.4
0.6
0.8
1.0
1.2
1.4
0
08
V
BAT
= 3.6V
V
BAT
RISING
V
BAT
FALLING
INPUT QUIESCENT CURRENT
vs. INPUT VOLTAGE (SUSPEND)
MAX8662/63 toc03
INPUT VOLTAGE (V)
INPUT QUIESCENT CURRENT (mA)
764 52 31
0.02
0.04
0.06
0.08
0.10
0.12
0.14
0.16
0.18
0.20
0
08
V
BAT
= 4.2V
I
SYS
= 0mA PEN1 = PEN2 = 0 CEN = 1
BATTERY-LEAKAGE CURRENT
vs. BATTERY VOLTAGE
MAX8662/63 toc04
BATTERY VOLTAGE (V)
BATTERY-LEAKAGE CURRENT (μA)
4321
0.1
0.2
0.3
0.4
0.5
0
05
EN_ = 0, CEN = 1
V
DC
OPEN
V
DC
= 5V
BATTERY-LEAKAGE CURRENT
vs. TEMPERATURE (INPUT DISCONNECTED)
MAX8662/63 toc05
AMBIENT TEMPERATURE (°C)
BATTERY-LEAKAGE CURRENT (μA)
603510-15
0.3
0.5
0.4
0.6
0.7
0.8
0.2
-40 85
V
BAT
= 4.0V
EN_ = 0
BATTERY-REGULATION VOLTAGE
vs. TEMPERATURE
MAX8662/63 toc06
AMBIENT TEMPERATURE (°C)
BATTERY-REGULATION VOLTAGE (V)
603510-15
4.180
4.175
4.185
4.195
4.190
4.200
4.170
-40 85
EN_ = 0
CHARGE CURRENT
vs. BATTERY VOLTAGE (100mA USB)
MAX8662/63 toc07
BATTERY VOLTAGE (V)
CHARGE CURRENT (mA)
4321
10
20
30
40
50
60
70
80
90
100
0
05
VDC = 5V R
ISET
= 3kΩ
PEN1 = PEN2 = 0
V
BAT
FALLING
V
BAT
RISING
CHARGE CURRENT
vs. BATTERY VOLTAGE (500mA USB)
MAX8662/63 toc08
BATTERY VOLTAGE (V)
CHARGE CURRENT (mA)
4.54.03.0 3.51.0 1.5 2.0 2.50.5
50
100
150
200
250
300
350
400
450
500
550
0
05.0
VDC = 5V R
ISET
= 3k
Ω
PEN1 = 0 PEN2 = 1
V
BAT
FALLING
V
BAT
RISING
CHARGE CURRENT
vs. BATTERY VOLTAGE (AC ADAPTER)
MAX8662/63 toc09
BATTERY VOLTAGE (V)
CHARGE CURRENT (mA)
431 2
100
200
300
400
600
500
700
800
0
05
VDC = 5V R
ISET
= 3k
Ω
PEN1 = PEN2 = 1
V
BAT
FALLING
V
BAT
RISING
MAX8662/MAX8663
Power-Management ICs for
Single-Cell, Li+ Battery-Operated Devices
_______________________________________________________________________________________
9
CHARGE CURRENT vs. AMBIENT TEMPERATURE
(LOW IC POWER DISSIPATION)
MAX8662/63 toc10
AMBIENT TEMPERATURE (°C)
CHARGE CURRENT (mA)
603510-15
100
200
300
400
500
600
700
800
900
0
-40 85
PEN1 = PEN2 = 1
PEN1 = PEN2 = 0
PEN1 = 0, PEN2 = 1
VDC = 5.0V, V
BAT
= 4.0V
R
ISET
= 3kΩ, CEN = 0, EN_ = 0
CHARGE CURRENT vs. AMBIENT TEMPERATURE
(HIGH IC POWER DISSIPATION)
MAX8662/63 toc11
AMBIENT TEMPERATURE (°C)
CHARGE CURRENT (mA)
603510-15
100
200
300
400
500
600
700
800
900
0
-40 85
PEN1 = PEN2 = 1
PEN1 = PEN2 = 0
PEN1 = 0, PEN2 = 1
VDC = 6.5V, V
BAT
= 3.1V
R
ISET
= 3kΩ, CEN = 0, EN_ = 0
SYS OUTPUT VOLTAGE
vs. INPUT VOLTAGE
MAX8662/63 toc12
INPUT VOLTAGE (V)
V
SYS
(V)
76
53412
3.8
4.2
4.0
4.6
4.4
5.2
5.0
4.8
5.4
5.6
3.6 08
V
BAT
= 4.0V
I
SYS
= 0mA PEN1 = 0 PEN2 = 1
CHARGER DISABLED
CHARGER
ENABLED
SYS OUTPUT VOLTAGE
vs. SYS OUTPUT CURRENT (DC DISCONNECTED)
MAX8662/63 toc13
I
SYS
(A)
V
SYS
(V)
2.52.01.51.00.5
3.8
4.0
4.2
4.4
4.6
4.8
5.0
5.2
5.4
5.6
3.6
03.0
V
BAT
= 4.0V
V
DC
= 0V
THE SLOPE OF THIS LINE SHOWS THAT THE BAT-TO-SYS RESISTANCE IS 49mΩ.
SYS OUTPUT VOLTAGE
vs. SYS OUTPUT CURRENT (500mA USB)
MAX8662/63 toc14
I
SYS
(A)
V
SYS
(V)
2.52.01.51.00.5
3.8
4.0
4.2
4.4
4.6
4.8
5.0
5.2
5.4
5.6
3.6
03.0
VDC = 5.0V V
BAT
= 4.0V PEN1 = 0, PEN2 = 1 CEN = 1
SYS OUTPUT VOLTAGE
vs. SYS OUTPUT CURRENT (AC ADAPTER)
MAX8662/63 toc15
I
SYS
(A)
V
SYS
(V)
2.52.01.51.00.5
3.8
4.0
4.2
4.4
4.6
4.8
5.0
5.2
5.4
5.6
3.6
03.0
VDC = 5.0V V
BAT
= 4.0V PEN1 = PEN2 = 1 CEN = 1
USB CONNECT (I
SYS
= 0mA)
MAX8662/63 toc16
200μs/div
PEN1 = PEN2 = 0, CEN = 0,
V
BAT
= 4.0V, I
SYS
= 0mA, EN_ = 1
V
DC
I
IN
V
SYS
V
POK
V
CHG
I
BAT
0V
0V
0mA
0mA
4.0V 5V
4.4V
5V
+95mA
+95mA
5V/div
5V/div
5V/div
2V/div
200mA/div
200mA/div
NEGATIVE BATTERY CURRENT FLOWS INTO THE BATTERY (CHARGING).
USB CONNECT (I
SYS
= 50mA)
MAX8662/63 toc17
200μs/div
PEN1 = PEN2 = 0, CEN = 0,
V
BAT
= 4.0V, I
SYS
= 50mA, EN_ = 1
V
DC
I
IN
V
SYS
V
POK
V
CHG
I
BAT
NEGATIVE BATTERY CURRENT FLOWS INTO THE BATTERY (CHARGING).
0V
0V
0V
0mA
50mA
4.0V
4.4V
5V/div
5V/div
5V/div
2V/div
200mA/div
200mA/div
5V
5V
+95mA
-45mA
Typical Operating Characteristics (continued)
(Circuit of Figure 1, V
DC
= 5V, R
PSET
= 1.5kΩ, R
ISET
= 3kΩ, V
OUT1
= 3.3V, V
OUT2
= 1.3V, SL1 = SL2 = open, V
CEN
= 0V, V
PEN1
=
V
PEN2
= 5V, C
OUT1
= 2 x 10µF, C
OUT2
= 2 x 10µF, C
OUT3
= 0.1µF, C
OUT4
= 4.7µF, C
OUT5
= 1µF, C
OUT6
= 2.2µF, C
OUT7
= 1µF, CT =
0.068µF, C
REF
= CVL= 0.1µF, R
THM
= 10kΩ, L1 = 3.3µH, L2 = 4.7µH, L3 = 22µH, GND = PG1 = PG2 = PG3 = 0, TA= +25°C, unless
otherwise noted.)
MAX8662/MAX8663
Power-Management ICs for Single-Cell, Li+ Battery-Operated Devices
10 ______________________________________________________________________________________
AC ADAPTER CONNECT (I
SYS
= 500mA)
MAX8662/63 toc18
400μs/div
PEN1 = PEN2 = 1, CEN = 0,
V
BAT
= 4.0V, I
SYS
= 500mA, EN_ = 1
V
DC
I
IN
V
SYS
V
POK
V
CHG
I
BAT
NEGATIVE BATTERY CURRENT FLOWS INTO THE BATTERY (CHARGING).
0V
0V
0mA
500mA
4.0V
4.4V
5V
5V/div
5V/div
5V/div
2V/div
1A/div
1A/div
5V
+1280mA
-780mA
USB DISCONNECTED (500mA USB)
MAX8662/63 toc19
200μs/div
PEN1 = 0, PEN2 = 1, CEN = 0,
V
BAT
= 4.0V, I
SYS
= 0mA
V
DC
I
IN
V
SYS
V
CHG
I
BAT
0V
0mA
4.4V
5V
5V/div
5V/div
500mA/div
500mA/div
1V/div
475mA
-475mA
CHARGER ENABLE (I
SYS
= 0mA)
MAX8662/63 toc20
200μs/div
PEN1 = 0, PEN2 = 1, V
BAT
= 4.0V, I
SYS
= 0mA, EN_ = 1
V
CEN
I
IN
V
SYS
V
CHG
I
BAT
2.8V
0V
0mA
0mA
5V
4.4V
0V
475mA
-475mA
5V/div
5V/div
500mA/div
2V/div
1A/div
OUT1 REGULATOR EFFICIENCY
vs. LOAD CURRENT
MAX8662/63 toc21
LOAD CURRENT (mA)
OUT1 REGULATOR EFFICIENCY (%)
1000100101
10
20
30
40
50
60
70
80
90
100
0
0.1 10,000
V
BAT
= 4.2V
V
BAT
= 3.6V
PWM = 0 PWM = 1
V
BAT
= 4.2V
V
BAT
= 3.6V
V
OUT1
= 3.3V
Typical Operating Characteristics (continued)
(Circuit of Figure 1, V
DC
= 5V, R
PSET
= 1.5kΩ, R
ISET
= 3kΩ, V
OUT1
= 3.3V, V
OUT2
= 1.3V, SL1 = SL2 = open, V
CEN
= 0V, V
PEN1
=
V
PEN2
= 5V, C
OUT1
= 2 x 10µF, C
OUT2
= 2 x 10µF, C
OUT3
= 0.1µF, C
OUT4
= 4.7µF, C
OUT5
= 1µF, C
OUT6
= 2.2µF, C
OUT7
= 1µF, CT =
0.068µF, C
REF
= CVL= 0.1µF, R
THM
= 10kΩ, L1 = 3.3µH, L2 = 4.7µH, L3 = 22µH, GND = PG1 = PG2 = PG3 = 0, TA= +25°C, unless
otherwise noted.)
OUT1 REGULATOR LINE REGULATION
MAX8662/63 toc23
V
SYS
(V)
OUTPUT VOLTAGE (V)
5.14.73.9 4.33.53.1
2.6
2.7
2.8
2.9
3.0
3.1
3.2
3.3
3.4
2.5
2.7 5.5
R
LOAD
= 330Ω
OUT1 VOLTAGE vs. TEMPERATURE
MAX8662/63 toc24
AMBIENT TEMPERATURE (°C)
OUTPUT VOLTAGE (V)
603510-15
3.294
3.298
3.302
3.306
3.310
3.290
-40 85
V
BAT
= 4.0V
R
LOAD
= 330Ω
OUT1 REGULATOR LOAD REGULATION
MAX8662/63 toc22
LOAD CURRENT (mA)
OUTPUT VOLTAGE (V)
1000100101
3.24
3.28
3.32
3.36
3.40
3.20
0.1 10,000
V
BAT
= 4.2V
V
BAT
= 3.6V
MAX8662/MAX8663
Power-Management ICs for
Single-Cell, Li+ Battery-Operated Devices
______________________________________________________________________________________
11
OUT1 REGULATOR LIGHT-LOAD
SWITCHING WAVEFORMS
MAX8662/63 toc25
20μs/div
V
OUT1
AC-COUPLED
V
LX
I
L
50mV/div
2V/div
200mA/div
V
BAT
= 4.0V
I
OUT1
= 10mA
PWM = 0
OUT1 REGULATOR HEAVY-LOAD
SWITCHING WAVEFORMS
MAX8662/63 toc26
1μs/div
V
OUT1
AC-COUPLED
V
LX
I
L
10mV/div
2V/div
500mA/div
V
BAT
= 4.2V
I
OUT1
= 1200mA
OUT1 REGULATOR LOAD-
TRANSIENT RESPONSE
MAX8662/63 toc27
40μs/div
V
OUT1
V
LX
I
OUT1
I
L
100mV/div
5V/div
1A/div
1A/div
V
BAT
= 4.0V
I
OUT1
= 10mA TO 1200mA TO 10mA
PWM = 0
OUT1 REGULATOR LINE-
TRANSIENT RESPONSE
MAX8662/63 toc28
100μs/div
V
OUT1
V
SYS
V
LX
I
L
200mA/div
5V/div
50mV/div
1V/div
I
OUT1
= 10mA
PWM = 0
5V
4V
OUT1 ENABLE AND DISABLE RESPONSE
MAX8662/63 toc29
1ms/div
V
OUT1
V
EN1
2V/div
2V/div
I
OUT1
= 10mA
Typical Operating Characteristics (continued)
(Circuit of Figure 1, V
DC
= 5V, R
PSET
= 1.5kΩ, R
ISET
= 3kΩ, V
OUT1
= 3.3V, V
OUT2
= 1.3V, SL1 = SL2 = open, V
CEN
= 0V, V
PEN1
=
V
PEN2
= 5V, C
OUT1
= 2 x 10µF, C
OUT2
= 2 x 10µF, C
OUT3
= 0.1µF, C
OUT4
= 4.7µF, C
OUT5
= 1µF, C
OUT6
= 2.2µF, C
OUT7
= 1µF, CT =
0.068µF, C
REF
= CVL= 0.1µF, R
THM
= 10kΩ, L1 = 3.3µH, L2 = 4.7µH, L3 = 22µH, GND = PG1 = PG2 = PG3 = 0, TA= +25°C, unless
otherwise noted.)
OUT2 REGULATOR EFFICIENCY
vs. LOAD CURRENT
MAX8662/63 toc30
LOAD CURRENT (mA)
OUT2 REGULATOR EFFICIENCY (%)
100101
10
20
30
40
50
60
70
80
90
100
0
0.1 1000
V
BAT
= 4.2V
V
BAT
= 4.2V
V
BAT
= 3.6V
V
BAT
= 3.6V
PWM = 0 PWM = 1
V
OUT1
= 3.3V
MAX8662/63 toc31
LOAD CURRENT (mA)
OUTPUT VOLTAGE (V)
1000100101
1.27
1.28
1.29
1.30
1.31
1.32
1.26
0.1 10,000
OUT2 REGULATOR LOAD REGULATION
V
BAT
= 3.6V
V
BAT
= 4.2V
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