19-2783; Rev 2; 8/05 KIT ATION EVALU LE B A IL A AV High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting The MAX1582/MAX1582Y drive up to six white LEDs in series with a constant current to provide display backlighting for two (main and sub-) displays in cell phones and other handheld devices. This configuration eliminates the need for ballast resistors and expensive factory calibration. The proprietary dual-output, step-up pulse-width modulation (PWM) converter includes a low RDSON n-channel MOSFET switch for high efficiency and maximum battery life. The MAX1582/MAX1582Y utilize 1MHz current-mode PWM control to allow small input and output capacitors and a small inductor, while minimizing ripple on the input supply and avoiding interference to sensitive circuitry in the equipment. Integrated overvoltage protection (27V for the MAX1582 and 18V for the MAX1582Y) eliminates the need for an external zener diode to protect the IC from open circuit. Flexible dimming control utilizes either an analog control signal or direct digital PWM control without external RC filtering. This also increases dimming accuracy at low brightness levels. The PWM dimming signal can be any frequency from 200Hz to 200kHz. Softstart eliminates inrush current during startup. The MAX1582/MAX1582Y are available in tiny 4 4 chip-scale (UCSPTM) and 12-pin thin QFN packages. Applications Cell Phones with One or Two Displays Smart Phones, Palmtops, and Wireless Handhelds Other Handheld Devices with Dual Displays Typical Application Circuit INPUT 2.6V TO 5.5V Features Accurate Current Regulation for Uniform Illumination Lights Up Two LED Sections for Main and Subdisplays Up to 84% Efficiency Internal High-Power, 30V MOSFET Low 15mVP-P Input Ripple Flexible Dimming Control Analog DAC Controlled Direct-Digital PWM (No RC Required) from 200Hz to 200kHz Overvoltage Protection to Eliminate Zener Diode Constant 1MHz PWM Operation Low-Profile Inductor and Capacitors Soft-Start Eliminates Inrush Current 2.6V to 5.5V Input 0.01A (typ) Shutdown Current Tiny UCSP (2.1mm 2.1mm 0.61mm) and Thin QFN (4mm 4mm) Packages Ordering Information TEMP RANGE PIN-PACKAGE TOP MARK MAX1582EBE-T -40C to +85C 16 UCSP-16 1582EBE MAX1582EBE+T -40C to +85C 16 UCSP-16 1582EBE MAX1582ETC -40C to +85C 12 Thin QFN-EP* AACE MAX1582ETC+ -40C to +85C 12 Thin QFN-EP* AACE PART *EP = Exposed paddle. +Denotes lead-free package. UCSP is a trademark of Maxim Integrated Products, Inc. Ordering Information continued at end of data sheet. Pin Configurations LX OUT1 V+ LX TOP VIEW 2.2F PGND 22H 12 11 10 + 0.1F 2 TO 4 LEDS CTRL MAIN DISPLAY PGND EN1 OUT2 2 TO 3 LEDS EN2 COMP 1 9 OUT2 2 8 CS CTRL 3 7 EN2 MAX1582 MAX1582Y 4 5 6 4mm x 4mm THIN QFN CS 0.022F GND SUBDISPLAY V+ VP EN1 OUT1 GND MAX1582 COMP VP ANALOG OR DIRECT PWM DIMMING 7.5 A "+" SIGN WILL REPLACE THE FIRST PIN INDICATOR ON LEAD-FREE PACKAGES. Pin Configurations continued at end of data sheet. ________________________________________________________________ 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 MAX1582/MAX1582Y General Description MAX1582/MAX1582Y High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting ABSOLUTE MAXIMUM RATINGS V+, VP, CTRL to GND............................................-0.3V to +6.0V PGND to GND .......................................................-0.3V to +0.3V LX, OUT1 to GND ...................................................-0.3V to +30V OUT2 to GND .........................................................-0.3V to +14V COMP, CS, EN1, EN2 to GND ....................-0.3V to (VV+ + 0.3V) ILX ....................................................................................................1ARMS Continuous Power Dissipation (TA = +70C) 12-Pin Thin QFN (derate 16.9mW/C above +70C) ....1349mW 16-Pin UCSP (derate 6.5mW/C above +70C)..............518mW Operating Temperature Range ...........................-40C to +85C Junction Temperature ......................................................+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 (VV+ = +3.0V, VOUT1 = 20V, L1 = 22H, COUT = 0.1F, CCOMP = 0.022F, RSENSE = 7.5, VCTRL = +1.5V, EN1 = EN2 = V+, TA = 0C to +85C, unless otherwise noted. Typical values are at TA = +25C.) (Note 1) PARAMETER CONDITIONS MIN Supply Voltage Undervoltage Lockout (UVLO) Threshold V+ rising or falling 2.10 UVLO Hysteresis Quiescent Current TYP 2.6 2.38 MAX UNITS 5.5 V 2.55 V 40 No switching, VCTRL = VCS = +0.25V mV 0.40 0.56 TA = +25C 0.01 1 TA = +85C 0.1 Shutdown Supply Current EN1 = EN2 = GND, OUT1 = V+ Overvoltage Lockout (OVLO) Threshold (Rising) MAX1582 26 27 29 MAX1582Y 17 18 19 OVLO Hysteresis MAX1582 2 MAX1582Y OUT1 Input Bias Current 20 MAX1582Y, VOUT1 = +16V, EN1 = EN2 = V+ OUT1 = V+, EN1 = EN2 = GND 20 40 65 40 65 TA = +25C 0.01 1 TA = +85C 0.05 MAX1582 (VV+ VDIODE) 25.5 MAX1582Y (VV+ VDIODE) 17.0 Output Voltage Range (Note 2) A V V 1.3 MAX1582, VOUT1 = +26V, EN1 = EN2 = V+ mA A V ERROR AMPLIFIER CTRL to CS Regulation VCTRL = +1.0V, VV+ = +2.6V to +5.5V 0.095 0.100 0.106 TA = +25C 0.01 1 TA = +85C 1 V CS Input Bias Current VCS = VCTRL / 10 CTRL Input Resistance 0 < VCTRL < +1V 290 500 780 k CS to COMP Transconductance VCOMP = +1.0V 32 50 82 S 0.80 1.0 1.25 MHz A OSCILLATOR Operating Frequency Minimum Duty Cycle Maximum Duty Cycle 2 PWM mode 12 Pulse skipping 0 CTRL = V+, CS = GND 91 94 _______________________________________________________________________________________ % % High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting (VV+ = +3.0V, VOUT1 = 20V, L1 = 22H, COUT = 0.1F, CCOMP = 0.022F, RSENSE = 7.5, VCTRL = +1.5V, EN1 = EN2 = V+, TA = 0C to +85C, unless otherwise noted. Typical values are at TA = +25C.) (Note 1) PARAMETER CONDITIONS MIN TYP MAX UNITS N-CHANNEL SWITCH LX On-Resistance LX Leakage Current VLX = +28V LX Current Limit Duty cycle = 90% 1.50 2.25 TA = +25C 0.01 5 TA = +85C 0.02 450 650 950 A mA MAIN AND SUBDISPLAY ON/OFF SWITCHES OUT1 to OUT2 On-Resistance EN1 = GND, EN2 = V+ 2.5 OUT2 to CS On-Resistance EN1 = V+, EN2 = GND 2.5 OUT1 to OUT2 Leakage Current EN1 = EN2 = V+, VOUT1 = 25V, VOUT2 = +9V, TA = +85C 0.05 A OUT2 to CS Leakage Current EN1 = EN2 = V+, VOUT2 = 12V, VCS = 0, TA = +85C 0.05 A EN1 and EN2 Logic Input Voltage High +2.6V < VV+ < +5.5V EN1 and EN2 Logic Input Voltage Low +2.6V < VV+ < +5.5V EN1 and EN2 Input Leakage VV+ = VEN1 = VEN2 = +5.5V 1.6 V 0.6 TA = +25C 0.02 TA = +85C 0.1 1 V A ELECTRICAL CHARACTERISTICS (VV+ = +3.0V, VOUT1 = +20V, L1 = 22H, COUT = 0.1F, CCOMP = 0.022F, RSENSE = 7.5, VCTRL = +1.5V, EN1 = EN2 = V+, TA = -40C to +85C, unless otherwise noted.) (Notes 1, 3) PARAMETER CONDITIONS Supply Voltage MIN MAX UNITS 2.6 5.5 V 2.10 2.55 V 0.56 mA Undervoltage Lockout (UVLO) Threshold V+ rising or falling Quiescent Current No switching, VC = +0.25V Overvoltage Lockout (OVLO) Threshold (Rising) MAX1582 26 29 MAX1582Y 17 19 OUT1 Input Bias Current VOUT1 = +26V, EN1 = EN2 = V+ 20 65 V A ERROR AMPLIFIER CTRL to CS Regulation VCTRL = +1.0V, VV+ = +2.6V to +5.5V 0.093 0.107 V CTRL Input Resistance 0 < VCTRL < +1.0V 290 780 k CS to COMP Transconductance VCOMP = 1.0V 32 85 S 0.75 1.30 MHz OSCILLATOR Operating Frequency _______________________________________________________________________________________ 3 MAX1582/MAX1582Y ELECTRICAL CHARACTERISTICS (continued) ELECTRICAL CHARACTERISTICS (continued) (VV+ = +3.0V, VOUT1 = +20V, L1 = 22H, COUT = 0.1F, CCOMP = 0.022F, RSENSE = 7.5, VCTRL = +1.5V, EN1 = EN2 = V+, TA = -40C to +85C, unless otherwise noted.) (Notes 1, 3) PARAMETER CONDITIONS Maximum Duty Cycle MIN CTRL = V+, CS = GND MAX UNITS 91 % N-CHANNEL SWITCH LX On-Resistance LX Current Limit Duty cycle = 90% 450 2.25 950 mA Note 1: Limits are 100% production tested at TA = +25C for UCSP parts. Limits over the entire operating temperature range are guaranteed by design and characterization but are not production tested. Note 2: The minimum output voltage is the input voltage minus the forward voltage drop of the Schottky diode: VOUT(MIN) = VV+ - VDIODE Note 3: Specifications to -40C are guaranteed by design and not production tested. Typical Operating Characteristics (See the Typical Applications Circuit, VV+ = VVP = 3.6V, ILED = 15mA, L1 = 22H, COUT1 = 0.1F, CCOMP = 0.022F, RSENSE = 7.5, VCTRL = 1.5V, 4 LEDs, TA = +25C, unless otherwise noted.) EFFICIENCY vs. LED CURRENT (vs. INPUT VOLTAGE) 90 90 2.7 VIN 70 4 LEDs 2 LEDs 60 80 70 EFFICIENCY (%) 80 3.6 VIN 4.2 VIN 60 50 50 0 5 10 15 4.7H 47H 70 60 40 0 20 80 5 10 15 20 0 5 10 15 LED CURRENT (mA) LED CURRENT (mA) LED CURRENT (mA) INPUT RIPPLE vs. INDUCTANCE INPUT RIPPLE SPECTRUM LED CURRENT vs. DIRECT-PWM DIMMING DUTY CYCLE 25 20 15 4 3 2 10 5 10 15 20 25 30 35 40 45 50 INDUCTANCE (H) 15 10 VCTRL = SQUARE WAVE 200Hz < FREQ < 200kHz 0 0 20 5 1 5 20 MAX1582 toc06 5 INPUT RIPPLE (mVRMS) 30 LED CURRENT (mA) 35 25 MAX1582 toc05 6 MAX1582 toc04 40 0 22H 50 40 40 4 90 10H EFFICIENCY (%) EFFICIENCY (%) 6 LEDs 100 MAX1582 toc02 100 MAX1582 toc01 100 EFFICIENCY vs. LED CURRENT (vs. INDUCTANCE) MAX1582 toc03 EFFICIENCY vs. LED CURRENT (vs. NUMBER of LEDs) INPUT RIPPLE (mVP-P) MAX1582/MAX1582Y High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting 0 0 1 2 3 4 5 6 7 FREQUENCY (MHz) 8 9 10 0 10 20 30 40 50 60 70 80 90 100 DIRECT-PWM DIMMING DUTY CYCLE (%) _______________________________________________________________________________________ High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting DIRECT-PWM DIMMING SWITCHING WAVEFORMS MAX1582 toc08 MAX1582 toc07 VIN 10mV/div VCTRL 32kHz 1V/div 0V VOUT 100mV/div VIN 50mV/div IIN 50mA/div 0mA VOUT 5V/div VLX 10V/div VIN = 3.8V Li+ BATTERY 0V 50s/div 500ns/div Pin Description PIN NAME QFN UCSP 1 A1 V+ 2 A2 VP FUNCTION Input Voltage Supply. Input voltage range is 2.6V to 5.5V. Connect a 2.2F capacitor from V+ to PGND. High-Current Input Supply. Connect to V+. 3 A3 CTRL Brightness Control Input. LED brightness is controlled by the voltage applied to CTRL. Varying the voltage from 0 to +1.62V adjusts the brightness from dim to bright, respectively. Any voltage above +1.62V does not increase brightness. 4 A4 COMP Compensation Input. Connect a 0.022F capacitor (CCOMP) from COMP to GND. CCOMP stabilizes the converter and controls soft-start. CCOMP discharges to GND when in shutdown. 5 B4 GND Ground. Connect to PGND at a single point near the IC. 6 C4 EN1 Enable 1 Input. Drive EN1 high to enable the main-display LEDs. Pull EN1 low to turn off the maindisplay LEDs. Pull both EN1 and EN2 low to place the IC in low-current shutdown mode. 7 D4 EN2 Enable 2. Drive EN2 high to enable the subdisplay LEDs. Pull EN2 low to turn off the subdisplay LEDs. Pull both EN1 and EN2 low to place the IC in low-current shutdown mode. 8 D3 CS Current-Sense Feedback Input. Connect a resistor (RSENSE) from CS to GND to set the LED bias current. The voltage at CS regulates to VCTRL / 10 or +0.162V, whichever is lower. 9 D2 OUT2 Display Switch Output. OUT2 is internally connected to CS when only the main display is lit. OUT2 is internally connected to OUT1 when only the subdisplay is lit. OUT2 is high impedance when both displays are lit and when the IC is shut down. 10 D1 OUT1 Overvoltage Sense. When VOUT1 is greater than 27V (18V on the MAX1582Y), the internal n-channel MOSFET turns off until VOUT1 drops below 25V (16.7V on the MAX1582Y), then the IC re-enters soft-start. Connect a 0.1F capacitor from OUT1 to PGND. 11 C1 LX 12 B1 PGND EP -- EP Inductor Connection. During shutdown, this pin is high impedance. Power Ground. Connect to GND at a single point near the IC. Exposed Paddle. Connect directly to GND and PGND under the IC. _______________________________________________________________________________________ 5 MAX1582/MAX1582Y Typical Operating Characteristics (continued) (See the Typical Applications Circuit, VV+ = VVP = 3.6V, ILED = 15mA, L1 = 22H, COUT1 = 0.1F, CCOMP = 0.022F, RSENSE = 7.5, VCTRL = 1.5V, 4 LEDs, TA = +25C, unless otherwise noted.) MAX1582/MAX1582Y High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting 2.6V TO 5.5V CIN 2.2F L1 22F VP V+ LX D1 COUT1 0.1F PWM CONTROL PGND fOSC 1.0MHz SLOPE COMP. CURRENT SENSE DAC OR PWM CTRL 114k OVERVOLTAGE PROTECTION OUT1 336k 2 TO 4 LEDS MAIN DISPLAY COMP gm 1.25V CLAMP UP TO 27V CCOMP 0.022F 50k EN1 ENABLE INPUTS OUT2 UP TO 13V EN2 2 TO 3 LEDS SUBDISPLAY CS MAX1582 SHUTDOWN RSENSE 7.5 GND Figure 1. Functional Diagram Detailed Description The MAX1582's high efficiency and small size make it ideally suited to drive up to six series-connected LEDs (four LEDs for the MAX1582Y). Separate enable inputs are provided to control the main and subdisplay backlighting. The MAX1582/MAX1582Y operate as a boost DC-to-DC converter that regulates output current rather than voltage. It provides even illumination by sourcing the same output current through each LED, eliminating the need for expensive factory calibration. The fast 1MHz internal oscillator allows for a small inductor and small input and output capacitors while minimizing input and output ripple. 6 Shutdown for Main and Subdisplay The MAX1582/MAX1582Y have two enable inputs (EN1 and EN2) used to enable or shutdown the main and subdisplay LEDs. When EN1 and EN2 are both high, all LEDs are lit. With EN1 high and EN2 low, the main-display LEDs are lit, and the subdisplay LEDs are shorted by the MAX1582/MAX1582Y. With EN1 low and EN2 high, the main-display LEDs are shorted and the subdisplay LEDs are lit. When both EN1 and EN2 are low, the MAX1582/ MAX1582Y enter shutdown, reducing supply current to 0.01A (typ). Although the internal n-channel MOSFET does not switch in shutdown, there is still a DC-current _______________________________________________________________________________________ High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting Soft-Start The MAX1582/MAX1582Y attain soft-start by charging CCOMP gradually with a current source. When VCOMP rises above 1.25V, the internal MOSFET begins switching, but at a reduced duty cycle. When VCOMP rises above 2.25V, the duty cycle is at its maximum. Capacitor Selection The exact values of input and output capacitors are not critical. The typical value for the input capacitor is 2.2F, and the typical value for the output capacitor is 0.1F. Larger value capacitors can be used to reduce input and output ripple, but at the expense of size and higher cost. CCOMP stabilizes the converter and controls soft-start. Connect a 0.022F capacitor from COMP to GND. The minimum value for CCOMP is COUT / 10. The soft-start time is found from: 1.25V t SS = CCOMP x 5A Overvoltage Protection OVLO occurs when VOUT1 rises above 27V (18V for the MAX1582Y). The protection circuitry stops the internal MOSFET from switching and causes VCOMP to decay to GND. The device comes out of OVLO and into soft-start when VOUT1 falls below 25V (16.7V for the MAX1582Y). Design Procedure Adjusting LED Current Adjusting the MAX1582/MAX1582Ys' output current changes the brightness of the LEDs. The LED current is set by the voltage at CTRL (V CTRL) and the senseresistor value (RSENSE): ILED = VCTRL 10 x RSENSE The VCTRL voltage range for adjusting output current is 0 to +1.62V. To set the maximum current, calculate RSENSE when VCTRL is at its maximum as follows: RSENSE = 1.62 10 x ILED(MAX ) Power dissipation in RSENSE is typically less than 5mW; therefore, a standard chip resistor is sufficient. PWM Dimming Control CTRL is also used as a digital input, allowing LED brightness control with a logic-level PWM signal applied directly to CTRL. The frequency range is from 200Hz to 200kHz, while 0% duty cycle corresponds to zero current and 100% duty cycle corresponds to full current. The error amplifier and compensation capacitor form a lowpass filter, so PWM dimming results in DC current to the LEDs without any additional RC filters required. Inductor Selection Recommended inductor values range from 10H to 47H. A 22H inductor optimizes the efficiency for most applications, while maintaining a low 15mVP-P input ripple. With input voltages near 5V, a larger value of inductance may be more efficient. To prevent core saturation, ensure that the inductor saturation current rating exceeds the peak inductor current for the application. Calculate the peak inductor current with the following formula: IPEAK VOUT1(MAX ) x ILED(MAX ) VIN(MIN) x 0.8s + 0.8 x VIN(MIN) 2 x L Schottky Diode Selection The MAX1582/MAX1582Ys' high switching frequency demands a high-speed rectification diode (D1) for optimum efficiency. A Schottky diode is recommended due to its fast recovery time and low forward-voltage drop. Ensure that the diode's average and peak current rating exceeds the average output current and peak inductor current. In addition, the diode's reverse breakdown voltage must exceed V OUT1 . The RMS diode current can be calculated from: IDIODE(RMS) IOUT1 x IPEAK Applications Information PC Board Layout Due to fast-switching waveforms and high-current paths, careful PC board layout is required. An evaluation kit (MAX1582EVKIT) is available to speed design. _______________________________________________________________________________________ 7 MAX1582/MAX1582Y path between the input and the LEDs through the inductor and Schottky diode. To ensure the LEDs remain off when the MAX1582/MAX1582Y are in shutdown, the minimum input forward voltage of the LED array must exceed the maximum input voltage. Typically, the leakage current through the LEDs in shutdown is less than 1A. MAX1582/MAX1582Y High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting When laying out a board, minimize trace lengths between the IC and RSENSE, the inductor, the diode, the input capacitor, and the output capacitor. Keep traces short, direct, and wide. Keep noisy traces, such as the LX node trace, away from CS. The input bypass capacitor (CIN) should be placed as close to the IC as possible. For the thin QFN package, PGND and GND should be connected directly to the exposed paddle underneath the IC. The ground connections of CIN and COUT1 should be as close together as possible. The traces from IN to the inductor and from the Schottky diode to the LEDs can be longer. Pin Configurations (continued) TOP VIEW (BALLS SOLDERED DOWN) 1 2 3 4 A V+ VP CTRL COMP B PGND C LX D OUT1 GND MAX1582 EN1 Chip Information TRANSISTOR COUNT: 2546 PROCESS: BiCMOS OUT2 CS UCSP Ordering Information PART TEMP RANGE PIN-PACKAGE TOP MARK MAX1582YEBE-T -40C to +85C 16 UCSP-16 1582YEBE MAX1582YEBE+T -40C to +85C 16 UCSP-16 1582YEBE MAX1582YETC -40C to +85C 12 Thin QFN-EP* AAEV MAX1582YETC+ -40C to +85C 12 Thin QFN-EP* AAEV *EP = Exposed paddle. +Denotes lead-free package. UCSP is a trademark of Maxim Integrated Products, Inc. 8 _______________________________________________________________________________________ EN2 High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting 24L QFN THIN.EPS PACKAGE OUTLINE, 12, 16, 20, 24, 28L THIN QFN, 4x4x0.8mm 21-0139 E 1 2 PACKAGE OUTLINE, 12, 16, 20, 24, 28L THIN QFN, 4x4x0.8mm 21-0139 E 2 2 _______________________________________________________________________________________ 9 MAX1582/MAX1582Y 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.) 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.) 16L,UCSP.EPS MAX1582/MAX1582Y High-Efficiency Step-Up Converters for White LED Main and Subdisplay Backlighting PACKAGE OUTLINE, 4x4 UCSP 21-0101 H 1 1 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. 10 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 (c) 2005 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products, Inc. Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Maxim Integrated: MAX1582ETC+ MAX1582ETC+T