PDF MAX1912EUB Data sheet ( Hoja de datos )

Número de pieza	MAX1912EUB
Descripción	1.5x/2x High-Efficiency White LED Charge Pumps
Fabricantes	Maxim Integrated
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No Preview Available ! 19-2290; Rev 2; 3/04 1.5x/2x High-Efficiency White LED Charge Pumps General Description The MAX1910/MAX1912 power LEDs with a regulated output voltage or current (up to 120mA) from an unreg- ulated input supply (2.7V to 5.3V). These are complete DC-DC converters requiring only four small ceramic capacitors and no inductors. Input ripple is minimized by a unique regulation scheme that maintains a fixed 750kHz switching frequency over a wide load range. Also included are logic-level shutdown and soft-start to reduce input current surges at startup. The MAX1910 has two automatically selected operating modes: 1.5x and 2x. 1.5x mode improves efficiency at higher input voltages, while 2x mode maintains regula- tion at lower input voltages. The MAX1912 operates only in 1.5x mode. The MAX1910 and the MAX1912 are available in a space-saving 10-pin µMAX package. Features ♦ High-Efficiency 1.5x/2x Charge Pumps ♦ Low Input Ripple with 750kHz Operation ♦ 200mV Current-Sense Threshold Reduces Power Loss ♦ Current- or Voltage-Regulated Charge Pump ♦ Up to 120mA Output Current ♦ No Inductors Required ♦ Small Ceramic Capacitors ♦ Regulated ±5% LED Current ♦ Load Disconnected in Shutdown ♦ 1µA Shutdown Current ♦ Small 10-Pin µMAX Package Applications White LED Backlighting Cellular Phones PDAs Digital Still Cameras MP3 Players Backup-Battery Boost Converters PART MAX1910EUB MAX1912EUB Ordering Information TEMP RANGE -40°C to +85°C -40°C to +85°C PIN-PACKAGE 10 µMAX 10 µMAX Typical Operating Circuit VIN CIN IN1 IN2 SHDN C1+ C1 OUT C1- C2+ C2 MAX1910 MAX1912 SET C2- GND COUT Pin Configuration TOP VIEW GND 1 IN1 2 C2- 3 C1+ 4 OUT 5 MAX1910 MAX1912 µMAX 10 SET 9 C1- 8 IN2 7 C2+ 6 SHDN ________________________________________________________________ Maxim Integrated Products 1 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 page 1.5x/2x High-Efficiency White LED Charge Pumps charge-pump topologies because the charge trans- ferred per cycle is only the amount required to supply the output load. Soft-Start The MAX1910/MAX1912 include soft-start circuitry to limit inrush current at turn-on. When starting up with the output voltage at zero, the output capacitor charges through a ramped current source, directly from the input with no charge-pump action until the output volt- age is near the input voltage. If the output is shorted to ground, the part remains in this mode without damage until the short is removed. Once the output capacitor charges to the input voltage, the charge-pumping action begins. Startup surge cur- rent is minimized by ramping up charge on the transfer capacitors. As soon as regulation is reached, soft-start ends and the part operates normally. If the SET voltage reaches regulation within 2048 clock cycles (typically 2.7ms), the part begins to run in normal mode. If the SET voltage is not reached by 2048 cycles, the soft- start sequence is repeated. The devices continue to repeat the soft-start sequence until the SET voltage reaches the regulation point. Shutdown Mode When driven low, SHDN turns off the charge pump. This reduces the quiescent current to approximately 0.1µA. The output is high impedance in shutdown. Drive SHDN high or connect to IN for normal operation. Thermal Shutdown The MAX1910/MAX1912 shut down when their die tem- perature reaches +160°C. Normal operation continues after the die cools by 15°C. This prevents damage if an excessive load is applied or the output is shorted to ground. Design Procedure Setting Output Current The MAX1910/MAX1912 have a SET voltage threshold of 0.2V, used for LED current regulation (Figure 2). The current through the resistor and LED is: ILED = 0.2/RSET If additional matching LEDs with ballast resistors are connected to the output as in Figure 2, the current through each additional LED is the same as that in the regulated LED. In Figure 2, total LED current depends somewhat on LED matching. Figure 3 shows a connection that regu- lates the average of all the LED currents to reduce the impact of mismatched LEDs. Figure 4’s circuit improves LED current matching by raising the ballast resistance while maintaining a 200mV VSET. The increased ballast resistance tolerates wider LED mismatch, but reduces efficiency and raises the minimum input voltage required for regulation. Yet another method of biasing LEDs is shown in Figure 5. In this case, the current through the complete paral- lel combination of LEDs is set by R5. R1–R4 are only used to compensate for LED variations. This method of biasing is useful for parallel LED arrays that do not allow connection to individual LEDs. Setting Output Voltage The MAX1910 has a SET voltage threshold of 0.2V. Output voltage can be set by connecting a resistor volt- age-divider as shown in Figure 6. The output voltage is adjustable from VIN to 5V. To set the output voltage, select a value for R2 that is less than 20kΩ, then solve for R1 using the following equation: R1= R2   VOUT 0.2 -1 Capacitor Selection Use low-ESR ceramic capacitors. Recommended values are 0.47µF for the transfer capacitors, 2.2µF to 10µF for the input capacitor, and 2.2µF to 4.7µF for the output capacitor. To ensure stability over a wide temperature range, ceramic capacitors with an X7R dielectric are rec- ommended. Place these capacitors as close to the IC as possible. Increasing the value of the input and output capacitors further reduces input and output ripple. With a 10µF input capacitor and a 4.7µF output capacitor, input ripple is less than 5mV peak-to-peak and output ripple is less than 15mV peak-to-peak for 60mA of output current. A constant 750kHz switching frequency and fixed 50% duty cycle create input and output ripple with a predictable frequency spectrum. Decoupling the input with a 1Ω resistor (as shown in Figures 2–9) improves stability when operating from low- impedance sources such as high-current laboratory bench power supplies. This resistor can be omitted when operating from higher impedance sources such as lithium or alkaline batteries. For some designs, such as an LED driver, input ripple is more important than output ripple. Input ripple depends on the source supply’s impedance. Adding a lowpass fil- ter to the input further reduces ripple. Figure 7 shows a C- R-C filter used to reduce input ripple. With 10µF-1Ω-10µF, input ripple is less than 1mV when driving a 60mA load. _______________________________________________________________________________________ 5 5 Page 1.5x/2x High-Efficiency White LED Charge Pumps 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.) e 10 0.6±0.1 ÿ 0.50±0.1 1 0.6±0.1 TOP VIEW D2 A2 b D1 FRONT VIEW 4X S 10 H 1 BOTTOM VIEW A A1 GAGE PLANE α E2 E1 SIDE VIEW INCHES DIM MIN MAX A - 0.043 A1 0.002 0.006 A2 0.030 0.037 D1 0.116 0.120 D2 0.114 0.118 E1 0.116 0.120 E2 0.114 0.118 H 0.187 0.199 L 0.0157 0.0275 L1 0.037 REF b 0.007 0.0106 e 0.0197 BSC c 0.0035 0.0078 S 0.0196 REF α 0∞ 6∞ MILLIMETERS MIN - 0.05 0.75 2.95 MAX 1.10 0.15 0.95 3.05 2.89 3.00 2.95 3.05 2.89 3.00 4.75 5.05 0.40 0.70 0.940 REF 0.177 0.270 0.500 BSC 0.090 0.200 0.498 REF 0∞ 6∞ c L L1 PROPRIETARY INFORMATION TITLE: PACKAGE OUTLINE, 10L uMAX/uSOP APPROVAL DOCUMENT CONTROL NO. 21-0061 REV. 1 I1 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. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 11 © 2004 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products. 11 Page

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