MAXIM MAX1551

19-2902; Rev 0; 7/03
SOT23 Dual-Input USB/AC Adapter 1-Cell Li+
Battery Chargers
Features
♦ Charge from USB or AC Adapter
♦ Automatic Switchover when AC Adapter is
Plugged In
♦ On-Chip Thermal Limiting Simplifies Board
Design
♦ Charge Status Indicator
♦ 5-Pin Thin SOT23 Package
♦ Protected by U.S. Patent #6,507,172
Ordering Information
TEMP RANGE
PIN-PACKAGE
MAX1551EZK-T
PART
-40°C to +85°C
5 Thin SOT23-5
MAX1555EZK-T
-40°C to +85°C
5 Thin SOT23-5
The MAX1551/MAX1555 are available in 5-pin thin SOT23
packages and operate over a -40°C to +85°C range.
Applications
PDAs
Selector Guide
TOP MARK
FEATURES
MAX1551EZK
PART
ADRT
POK Output
MAX1555EZK
ADRU
CHG Output
Wireless Appliances
Cell Phones
Digital Cameras
Pin Configuration
TOP VIEW
Typical Operating Circuit
AC ADAPTER
3.7V TO 7V
USB
1
GND 2
5
THIN SOT23
TO SYSTEM
LOAD
Li+
USB
3.7V TO 6V
4
BAT
BAT
MAX1551
(MAX1555)
POK 3
(CHG)
DC
USB
CHARGE
CONTROL
TO LOGIC RAIL
LOGIC
CONTROL
DC
MAX1551
(MAX1555)
POK
(CHG)
GND
*Protected by U.S. Patent #6,507,172.
________________________________________________________________ Maxim Integrated Products
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.
1
MAX1551/MAX1555
General Description
The MAX1551/MAX1555 charge a single-cell lithium-ion
(Li+) battery from both USB* and AC adapter sources.
They operate with no external FETs or diodes, and
accept operating input voltages up to 7V.
On-chip thermal limiting simplifies PC board layout and
allows optimum charging rate without the thermal limits
imposed by worst-case battery and input voltage. When
the MAX1551/MAX1555 thermal limits are reached, the
chargers do not shut down, but progressively reduce
charging current.
The MAX1551 includes a POK output to indicate when
input power is present. If either charging source is
active, POK goes low. The MAX1555 instead features a
CHG output to indicate charging status.
With USB connected, but without DC power, charge current is set to 100mA (max). This allows charging from
both powered and unpowered USB hubs with no port
communication required. When DC power is connected,
charging current is set at 280mA (typ). No input-blocking
diodes are required to prevent battery drain.
MAX1551/MAX1555
SOT23 Dual-Input USB/AC Adapter 1-Cell Li+
Battery Chargers
ABSOLUTE MAXIMUM RATINGS
DC to GND......................................................................0 to +8V
DC to BAT .......................................................................0 to +7V
BAT, CHG, POK, USB to GND .................................-0.3V to +7V
Continuous Power Dissipation (TA = +70°C)
5-Pin Thin SOT23 (derate 9.1mW/°C above +70°C) ....727mW
Operating Temperature Range ...........................-40°C to +85°C
Junction Temperature Range ............................-40°C to +150°C
Storage Temperature Range .............................-65°C to +150°C
Lead Temperature (soldering, 10s) .................................+300°C
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.
ELECTRICAL CHARACTERISTICS
(VDC = 5V, VUSB = 0, IBAT = 0, CBAT = 1µF, TA = 0°C to +85°C, unless otherwise noted.)
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
DC
DC Voltage Range
(Note 1)
DC to BAT Voltage Range
DC Undervoltage Lockout
Threshold
Input rising, 430mV hysteresis, VBAT = 3V (Note 1)
3.7
7.0
V
0.1
6.0
V
3.95
4.15
V
1.75
3
mA
1
2
Ω
60
90
mV
6.0
V
3.95
4.15
V
1.65
2
3
4
mA
Ω
30
60
90
mV
4.158
4.2
4.242
V
3.75
DC Supply Current
DC to BAT On-Resistance
VDC = 3.7V, VBAT = 3.6V
DC to BAT Dropout Voltage
When charging stops, VBAT = 4V,
DC falling, 200mV hysteresis
30
USB
USB Voltage Range
USB Undervoltage Threshold
USB Supply Current
USB to BAT On-Resistance
USB to BAT Dropout Voltage
(Note 1)
Input rising, 430mV hysteresis, VDC = 0,
VBAT = 3V (Note 1)
VUSB = 5V, VDC = 0
VUSB = 3.7V, VBAT = 3.6V, VDC = 0
When charging stops, VBAT = 4V,
USB falling, 200mV hysteresis, VDC = 0
3.7
3.75
BAT
BAT Regulation Voltage
VDC or VUSB = 5V
DC Charging Current
VBAT = 3.3V, VUSB = 0, VDC = 5V
220
280
340
mA
USB Charging Current
VBAT = 3.3V, VDC = 0, VUSB = 5V
80
90
100
mA
BAT Prequal Threshold
VBAT rising, 100mV hysteresis
2.9
3
3.1
V
Prequalification Charging Current
VBAT = 2.8V
20
40
80
mA
BAT Leakage Current
VDC = VUSB = 0, VBAT = 4.2V
5
µA
50
100
mA
150
300
mV
1
µA
POK, CHG, AND THERMAL LIMIT
CHG Threshold
Charge current where CHG goes high,
IBAT falling, 50mA hysteresis
CHG, POK Logic-Low Output
ICHG, IPOK = 10mA
CHG, POK Leakage Current
VCHG, VPOK = 6V, TA = +25°C
0.001
Thermal-Limit Temperature
Charge current reduced by 17mA/°C above this
temperature
+110
2
25
_______________________________________________________________________________________
°C
SOT23 Dual-Input USB/AC Adapter 1-Cell Li+
Battery Chargers
(VDC = 5V, VUSB = 0, IBAT = 0, CBAT = 1µF, TA = -40°C to +85°C, unless otherwise noted.) (Note 2)
PARAMETER
CONDITIONS
MIN
MAX
UNITS
DC
DC Voltage Range
(Note 1)
DC to BAT Voltage Range
DC Undervoltage Lockout
Threshold
Input rising, 430mV hysteresis, VBAT = 3V (Note 1)
3.7
7.0
V
0.1
6.0
V
3.75
4.15
V
3
mA
2
Ω
DC Supply Current
DC to BAT On-Resistance
VDC = 3.7V, VBAT = 3.6V
DC to BAT Dropout Voltage
When charging stops, VBAT = 4V, DC falling, 200mV
hysteresis
30
95
mV
USB Voltage Range
(Note 1)
3.7
6.0
V
USB Undervoltage Lockout
Threshold
Input rising, 430mV hysteresis, VDC = 0, VBAT = 3V
(Note 1)
3.75
4.15
V
USB Supply Current
VUSB = 5V, VDC = 0
3
mA
USB to BAT On-Resistance
VUSB = 3.7V, VBAT = 3.6V, VDC = 0
4
Ω
USB to BAT Dropout Voltage
When charging stops, VBAT = 4V, USB falling, 200mV
hysteresis, VDC = 0
30
95
mV
4.141
4.259
V
USB
BAT
BAT Regulation Voltage
VDC or VUSB = 5V
DC Charging Current
VBAT = 3.3V, VUSB = 0, VDC = 5V
220
340
mA
USB Charging Current
VBAT = 3.3V, VDC = 0, VUSB = 5V
80
100
mA
BAT Prequal Threshold
VBAT rising, 100mV hysteresis
2.9
3.1
V
Prequalification Charging Current
VBAT = 2.8V
20
80
mA
BAT Leakage Current
VDC = VUSB = 0, VBAT = 4.2V
5
µA
100
mA
300
mV
1
µA
POK, CHG
Charge current where CHG goes high,
IBAT falling, 50mA hysteresis
CHG Threshold
CHG, POK Logic-Low Output
ICHG, IPOK = 10mA
CHG, POK Leakage Current
VCHG, VPOK = 6V, TA = +25°C
25
Note 1: The input undervoltage lockout has 430mV of hysteresis. The charger turns on when an input rises to 3.95V (typ), and turns
off when it falls below 3.52V.
Note 2: Specifications to -40°C are guaranteed by design, not production tested.
_______________________________________________________________________________________
3
MAX1551/MAX1555
ELECTRICAL CHARACTERISTICS
Typical Operating Characteristics
(VDC = 5V, VUSB = 0, IBAT = 0, CBAT = 1µF, TA = +25°C, unless otherwise noted.)
CHARGE CURRENT
vs. DC VOLTAGE HEADROOM
150
100
50
60
40
20
250
0
0
-20
0.2
0.3
0.4
150
100
50
VDC = 0, VBAT = 3.8V, VUSB FALLING
-50
0.1
200
0
VBAT = 3.8V, VDC FALLING
-50
0
0.5
0.1
0.2
0.3
0.5
0.4
0
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5
DC VOLTAGE HEADROOM (VDC - VBAT) (V)
USB VOLTAGE HEADROOM (VUSB - VBAT) (V)
BATTERY VOLTAGE (V)
USB CHARGE CURRENT
vs. BATTERY VOLTAGE
DC CHARGE CURRENT
vs. AMBIENT TEMPERATURE
BATTERY TERMINATION VOLTAGE
vs. TEMPERATURE
60
40
20
THERMAL LIMIT ACTIVATED
200
150
100
50
0
0
-20
-50
MAx1551/55 toc06
250
4.22
BAT OPEN
BATTERY TERMINATION VOLTAGE (V)
80
300
MAX1551/55 toc05
MAX1551/55 toc04
100
DC CHARGE CURRENT (mA)
0
MAX1551/55 toc03
MAX1551/55 toc02
80
300
DC CHARGE CURRENT (mA)
200
DC CHARGE CURRENT
vs. BATTERY VOLTAGE
100
CHARGE CURRENT (mA)
250
CHARGE CURRENT (mA)
CHARGE CURRENT
vs. USB VOLTAGE HEADROOM
MAX1551/55 toc01
300
USB CHARGE CURRENT (mA)
4.21
4.20
4.19
VBAT = 3.8V, VDC = 5V
0
4.18
25
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5
35
45
55
65
75
85
-40
TEMPERATURE (°C)
BATTERY VOLTAGE (V)
-15
10
60
USB-TO-DC TRANSITION WAVEFORM
MAX1551/55 toc08
MAX1551/55 toc07
2.5
VDC = 0, SWEEPING USB
0 TO 5V OR VUSB = 0,
SWEEPING DC 0 TO 5V
2.0
BATTERY
CURRENT
200mA/div
0A
VBAT = 4.2V
VUSB
5V/div
1.5
0V
1.0
VPOK
2V/div
0V
0.5
VDC
5V/div
0V
0
0
1
2
3
4
5
400ms/div
DC OR USB INPUT VOLTAGE (V)
4
35
TEMPERATURE (°C)
OFF-BATTERY LEAKAGE CURRENT
vs. DC INPUT VOLTAGE
OFF-BATTERY LEAKAGE CURRENT (µA)
MAX1551/MAX1555
SOT23 Dual-Input USB/AC Adapter 1-Cell Li+
Battery Chargers
_______________________________________________________________________________________
85
SOT23 Dual-Input USB/AC Adapter 1-Cell Li+
Battery Chargers
PIN
NAME
1
USB
USB Port Charger Supply Input. USB draws up to 100mA to charge the battery. Decouple USB with a 1µF
ceramic capacitor to GND.
2
GND
Ground
POK
Power-OK Active-Low Open-Drain Charger Status Indicator. POK pulls low when either charger source is
present (MAX1551 only).
CHG
Active-Low Open-Drain Charge Status Indicator. CHG pulls low when the battery is charging. CHG goes to a
high-impedance state, indicating the battery is fully charged, when the charger is in voltage mode and
charge current falls below 50mA. CHG is high impedance when both input sources are low (MAX1555 only).
3
FUNCTION
4
DC
DC Charger Supply Input for an AC Adapter. DC draws 280mA to charge the battery. Decouple DC with a
1µF ceramic capacitor to GND.
5
BAT
Battery Connection. Decouple BAT with a 1µF ceramic capacitor to GND.
Detailed Description
The MAX1551/MAX1555 charge a single-cell Li+ battery from both USB and AC adapter sources, enabling
portable users to forgo carrying a wall cube. These
devices operate with no external FETs or diodes, and
accept operating input voltages up to 7V.
An internal thermal control loop simplifies PC board layout and allows optimum charging rate without the thermal limits imposed by worst-case battery and input
voltage. When the MAX1551/MAX1555 thermal limits
are reached, the chargers do not shut down, but simply
reduce charging current by 17mA/°C above a die temperature of +110°C.
With USB connected, but without DC power, the charge
current is set to 100mA (max). This allows charging
from both powered and unpowered USB hubs with no
port communication required. When DC power is connected, charging current is set at 280mA (typ). The
MAX1551/MAX1555 do not feature an enable input.
Once power is connected to USB and/or DC, the
charger is on.
When input power is removed, battery leakage current
is less than 5µA. No input-blocking diodes are required
to prevent battery drain. Insert a diode at DC (the
adapter input) if protection from negative voltage inputs
(reversed-polarity adapter plugs) is required.
USB to Adapter Power Handoff
The MAX1551/MAX1555 can charge from either the
USB input or the DC input. The battery does not charge
from both sources at the same time. The MAX1551/
MAX1555 automatically detect the active input and
charge from that. If both power sources are active, the
DC input takes precedence. The switchover between
DC and USB is detailed in Table 1.
MAX1551 Power-OK (POK)
The MAX1551’s POK is an active-low, open-drain output that goes low when VDC or VUSB is above 3.95V.
POK can be used as a logic output or can drive an
LED. POK indicates the charger is connected to input
power and is charging.
MAX1555 Charge Status (CHG)
The MAX1555’s CHG is an active-low, open-drain
charge status indicator. CHG pulls low when the battery
is charging (whenever USB or DC are powered) and
charge current is greater than 50mA. CHG indicates
when the battery is fully charged by going high impedance when the charger is in voltage mode and charge
current falls below 50mA. Charging does not stop when
CHG goes high. CHG is low in precharge mode.
Table 1. USB and DC Input Selection
VDC > 7V OR VUSB > 6V
Exceeds operating input range. Not allowed. See the
Absolute Maximum Ratings section.
VDC > 3.95V AND
VUSB DON’T CARE
280mA (typ)
charging from DC
VDC < 3.52V AND
3.95V < VUSB < 6V
100mA (max)
charging from USB
VDC AND VUSB < 3.52V
Undervoltage lockout
(VDC takes precedence when both inputs are present.)
_______________________________________________________________________________________
5
MAX1551/MAX1555
Pin Description
MAX1551/MAX1555
SOT23 Dual-Input USB/AC Adapter 1-Cell Li+
Battery Chargers
Precharge Current
not shut down, but progressively reduce charging current by 17mA/°C above a die temperature of +110°C.
Solder the MAX1551/MAX1555s’ GND to a large
ground plane to help dissipate power and keep the die
temperature below the thermal limit. The USB charge
current of 100mA is unlikely to induce thermal limiting.
The MAX1551/MAX1555 feature a precharge current to
protect deeply discharged cells. If VBAT is less than 3V,
the device enters precharge mode where charging current is limited to 40mA.
Package Thermal Limiting
Bypass Capacitors
On-chip thermal limiting in the MAX1551/MAX1555 simplifies PC board layout and allows charging rates to be
optimized without the limits imposed by worst-case battery and input voltages. The device reduces the power
dissipation at BAT to prevent overheating. This allows
the board design to be optimized for compact size and
typical thermal conditions. When the MAX1551/
MAX1555 thermal limits are reached, the chargers do
Use ceramic bypass capacitors at DC, USB, and BAT.
Mount these capacitors within 1cm of their respective
pins. X7R and X5R dielectrics are recommended.
Chip Information
TRANSISTOR COUNT: 541
PROCESS: BiCMOS
Typical Application Circuit
AC ADAPTER
3.7V TO 7V
C1
1µF
USB
3.7V TO 6V
C2
1µF
DC
BAT
Li+
USB
C3
1µF
CHARGE
CONTROL
TO LOGIC RAIL
LOGIC
CONTROL
MAX1551
(MAX1555)
6
TO SYSTEM
LOAD
GND
POK
(CHG)
R1
100kΩ
INDICATES
THAT POWER
IS PRESENT
(EITHER DC
OR USB)
_______________________________________________________________________________________
SOT23 Dual-Input USB/AC Adapter 1-Cell Li+
Battery Chargers
_______________________________________________________________________________________
7
MAX1551/MAX1555
Package Information
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to www.maxim-ic.com/packages.)
MAX1551/MAX1555
SOT23 Dual-Input USB/AC Adapter 1-Cell Li+
Battery Chargers
Package Information (continued)
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to www.maxim-ic.com/packages.)
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
8 _____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
© 2003 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.