MAX1551/MAX1555 SOT23 Dual-Input USB/AC Adapter 1-Cell Li+ Battery Chargers LE AVAILAB 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. The MAX1551/MAX1555 are available in 5-pin thin SOT23 packages and operate over a -40C to +85C range. Applications PDAs 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 Ordering Information PART TEMP RANGE PIN-PACKAGE MAX1551EZK-T -40C to +85C 5 Thin SOT23-5 MAX1555EZK-T -40C to +85C 5 Thin SOT23-5 Selector Guide TOP MARK FEATURES MAX1551EZK PART ADRT POK Output MAX1555EZK ADRU CHG Output Wireless Appliances Cell Phones Functional Diagrams Digital Cameras Pin Configuration TOP VIEW Typical Operating Circuit AC ADAPTER 3.7V TO 7V USB 1 GND 2 5 USB CHARGE CONTROL TO LOGIC RAIL LOGIC CONTROL DC THIN SOT23 TO SYSTEM LOAD Li+ USB 3.7V TO 6V 4 BAT BAT MAX1551 (MAX1555) POK 3 (CHG) DC MAX1551 (MAX1555) POK (CHG) GND Pin Configurations appear at end of data sheet. Functional Diagrams continued at end of data sheet. UCSP is a trademark of Maxim Integrated Products, Inc. For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim's website at www.maximintegrated.com. 19-2902; Rev 0; 7/03 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 = +70C) 5-Pin Thin SOT23 (derate 9.1mW/C above +70C) ....727mW Operating Temperature Range ...........................-40C to +85C Junction Temperature Range ............................-40C to +150C Storage Temperature Range .............................-65C to +150C Lead Temperature (soldering, 10s) .................................+300C 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 = 1F, TA = 0C to +85C, 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 60 90 mV 6.0 V 3.95 4.15 V 1.65 2 3 4 mA 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 A 50 100 mA 150 300 mV 1 A 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 25 CHG, POK Leakage Current VCHG, VPOK = 6V, TA = +25C 0.001 Thermal-Limit Temperature Charge current reduced by 17mA/C above this temperature +110 2 C Maxim Integrated MAX1551/MAX1555 SOT23 Dual-Input USB/AC Adapter 1-Cell Li+ Battery Chargers ELECTRICAL CHARACTERISTICS (VDC = 5V, VUSB = 0, IBAT = 0, CBAT = 1F, TA = -40C to +85C, 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 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 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 A 100 mA 300 mV 1 A POK, CHG 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 = +25C 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 -40C are guaranteed by design, not production tested. Maxim Integrated 3 MAX1551/MAX1555 SOT23 Dual-Input USB/AC Adapter 1-Cell Li+ Battery Chargers Typical Operating Characteristics (VDC = 5V, VUSB = 0, IBAT = 0, CBAT = 1F, TA = +25C, unless otherwise noted.) CHARGE CURRENT vs. DC VOLTAGE HEADROOM 150 100 50 40 20 -20 0.1 0.2 0.3 0.4 150 100 50 VDC = 0, VBAT = 3.8V, VUSB FALLING -50 -50 0.1 0 0.5 0.2 0.3 0.4 0.5 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 20 250 THERMAL LIMIT ACTIVATED 200 150 100 50 0 0 -20 -50 4.22 MAx1551/55 toc06 80 300 BAT OPEN BATTERY TERMINATION VOLTAGE (V) MAX1551/55 toc04 100 DC CHARGE CURRENT (mA) 0 200 0 VBAT = 3.8V, VDC FALLING USB CHARGE CURRENT (mA) 250 0 0 MAX1551/55 toc03 MAX1551/55 toc02 60 300 DC CHARGE CURRENT (mA) 200 80 MAX1551/55 toc05 CHARGE CURRENT (mA) 250 DC CHARGE CURRENT vs. BATTERY VOLTAGE 100 CHARGE CURRENT (mA) MAX1551/55 toc01 300 CHARGE CURRENT vs. USB VOLTAGE HEADROOM 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 -40 TEMPERATURE (C) BATTERY VOLTAGE (V) -15 10 35 60 85 TEMPERATURE (C) OFF-BATTERY LEAKAGE CURRENT vs. DC INPUT VOLTAGE USB-TO-DC TRANSITION WAVEFORM MAX1551/55 toc08 MAX1551/55 toc07 2.5 OFF-BATTERY LEAKAGE CURRENT (A) 85 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 Maxim Integrated MAX1551/MAX1555 SOT23 Dual-Input USB/AC Adapter 1-Cell Li+ Battery Chargers Pin Description PIN NAME 1 USB USB Port Charger Supply Input. USB draws up to 100mA to charge the battery. Decouple USB with a 1F 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 1F ceramic capacitor to GND. 5 BAT Battery Connection. Decouple BAT with a 1F 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 +110C. 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 5A. 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.) Maxim Integrated 5 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 +110C. 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 1F USB 3.7V TO 6V C2 1F DC BAT Li+ USB C3 1F CHARGE CONTROL TO LOGIC RAIL LOGIC CONTROL MAX1551 (MAX1555) 6 TO SYSTEM LOAD GND POK (CHG) R1 100k INDICATES THAT POWER IS PRESENT (EITHER DC OR USB) Maxim Integrated MAX1551/MAX1555 SOT23 Dual-Input USB/AC Adapter 1-Cell Li+ Battery Chargers 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.) Maxim Integrated 7 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. The parametric values (min and max limits) shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance. 8 (c) Maxim Integrated 160 Rio Robles, San Jose, CA 95134 USA 1-408-601-1000 Maxim Integrated The Maxim logo and Maxim Integrated are trademarks of Maxim Integrated Products, Inc.