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| White LED Step-Up Regulator EC4513 Preliminary The EC4513 is a constant current boost regulator specially designed for driving white LEDs. It can drive 4 LEDs in series and achieves efficiency up to 90%. The brightness of the LEDs is adjusted through a voltage level on the CNTL pin. When the level falls below 0.2V, the chip goes into shut-down mode and consumes less than 1A of supply current for VIN less than 5.5V. The EC4513 is available in the 8-pin MSOP packages. Features * 2.6V to 13.2V input voltage * 18V maximum output voltage * * 1MHz switching frequency * Up to 90% efficiency * 1A maximum shut-down current * Dimming control * 8-pin MSOP packages Applications * PDAs * Cellular phones * Digital cameras * White LED backlighting Pinouts MSOP 8-PIN TOP VIEW Application Circuit PAGE 1 / 7 DR18EV9005-VER1.0 White LED Step-Up Regulator Absolute Maximum Ratings (TA = 25C) COMP, CNTL, IS to SGND. . . . . . . .. . . . . .. . . . . -0.3V to +6V VOUT, VIN to SGND. . . . . . . . . . . . . . . . . . . . . . . . . . . . +19.5V LX to PGND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .+20V SGND to PGND . . . . . . . . . . . . . . . . . . . . . . . . -0.3V to +0.3V EC4513 Preliminary Storage Temperature . . . . . . . . . . . . . . . . . . . . . . -65C to +150C Lead Temperature . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . 300C Operating Temperature . . . . . . . . . . . . . . . . . . . . . -40C to +85C CAUTION: Stresses above those listed in "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress only rating and operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. IMPORTANT NOTE: All parameters having Min/Max specifications are guaranteed. Typ values are for information purposes only. Unless otherwise noted, all tests are at the specified temperature and are pulsed tests, therefore: TJ = TC = TA Electrical Specifications PARAMETER VIN = 3V, VO = 12V, C1 = 4.7F, C2 = 1F, C3 = 0.1F, R1 = 5&, TA = 25C, unless otherwise specified. DESCRIPTION CONDITIONS MIN TYP MAX UNIT VIN IQ1 ICOMP VCOMP ICNTL VCNTL1 Input Voltage Shut-down Supply Current COMP Pin Pull-up Current COMP Voltage Swing CNTL shut-down Current Chip Enable Voltage Chip Disable Voltage CNTL = 0V VCNTL = 0V, Vin=3V COMP connected to SGND 2.6 13.2 1 10 V uA uA 0.5 2.5 3.5 1 V uA mV 270 200 VCNTL =1V VOUT rising VOUT falling 500 0.7 VCNTL = 0V , VLX = 12V 800 VCNTL = 2V , IS = 0 85 1 VIN = 2.6V - 5.5V 0.05 1000 1 1200 14 15 17 15 16 mV mA V V mA uA KHz uA %/V IOUT_ACCURACY VOUT1 VOUT2 ILX RDS_ON ILEAK FS DMAX ICS IO/VIN VCNTL =1V Over-voltage Threshold Over-voltage Threshold MOSFET Current Limit MOSFET On-resistance MOSFET leakage Current Switching Frequency Maximum Duty Ratio CS Input Bias Current Line Requlation PAGE 2 / 7 DR18EV9005-VER1.0 White LED Step-Up Regulator PIN Desription PIN NUMBER 1 PIN NAME DECRIPTION EC4513 Preliminary COMP CNTL Compensation pin. A compensation cap (2200pF to 0.1uF) is normally between this pin and SGND 2 Control pin for dimming and shut-down. A voltage between 270mV and 5.5V controls the brightness, and less then 200mV shuts down the converter. Output voltage sense. Use for over voltage protection Inductor connection pin. The drain of internal MOSFET. Power Ground pin. The source of internal MOSFET. Signal Ground. Ground pin for internal control circuitry. Needs to connect to PGND at only one point 3 4 5 6 VOUT LX PGND SGND 7 8 CS VIN Current sense pin. Connect to sensing resistor to set the LED bias current. Power supply for internal control circuitry Block Diagram PAGE 3 / 7 DR18EV9005-VER1.0 White LED Step-Up Regulator Typical Performance Curves EC4513 Preliminary ILED VS. VCNTL Application Circuit FIGURE 1A : 2 LEDS in a series FIGURE 2A : 3 LEDS in a series PAGE 4 / 7 DR18EV9005-VER1.0 White LED Step-Up Regulator EC4513 Preliminary FIGURE 3A : 4 LEDs in a series PAGE 5 / 7 DR18EV9005-VER1.0 White LED Step-Up Regulator Detailed Description EC4513 Preliminary The EC4513 is a constant current boost regulator specially designed for white LEDs. It can drive up to 4 LEDs in series and achieves efficiency up to 90%. The brightness of the LEDs is adjusted through a voltage level on CNTL pin. When the level falls below 0.2V, the chip goes into shut-down mode and consumes less than 1A of current for VIN less than 5.5V. Steady-State Operation EC4513 is operated in constant frequency PWM. The switching is around 1MHz. Depending on the input voltage, the inductance, the type of LEDs driven, and the LED's current, the converter operates at either continuous conduction mode or discontinuous conduction mode (see waveforms). Both are normal. Brightness Control LED's current is controlled by the voltage level on CNTL pin (VCNTL). This voltage can be either a DC or a PWM signal with frequency less than 200Hz (for C3=2200pF). When a higher frequency PWM is used, an RC filter is recommended before the CNTL pin (see Figure 11). The relationship between the LED current and CNTL voltage level is as follows: When R1 is 5&, 1V of VCNTL conveniently sets ILED to 15mA. The range of VCNTL is 250mV to 5.5V. FIGURE 11 : PWM Brightness Control Shut-Down When VCNTL is less than 200mV, the converter is in shutdown mode. The max current consumed by the chip is less than 1A for VIN less than 5.5V. Over-Voltage Protection When an LED string is disconnected from the output, VO will continue to rise because of no current feedback. When VO reaches 18.5V (nominal), the chip will shut down. The output voltage will drop. When VO drops bellow 18V (nominal), the chip will boost output voltage again until it reaches 18.5V. This hiccough continues until LED is applied or converter is shut down. When designing the converter, caution should be taken to ensure the highest operating LED voltage does not exceed 18V, the minimum shut-down voltage. There is no external component required for this function. Component Selection The input and output capacitors are not very important for the converter to operate normally. The input capacitance is normally 2.2F - 4.7F and output capacitance 0.47F - 1F. Higher capacitance is allowed to reduce the oltage/current ripple, but at added cost. Use X5R or X7R type (for its good temperature characteristics) of ceramic capacitors with correct voltage rating and maximum height. PAGE 6 / 7 DR18EV9005-VER1.0 White LED Step-Up Regulator When choosing an inductor, make sure the inductor can handle the average and peak currents giving by following formulas (80% efficiency assumed): where: *IL is the peak-to-peak inductor current ripple in Ampere * L inductance in H A wide range of inductance (6.8H - 68H) can be used for the converter to function correctly. EC4513 Preliminary For the same series of inductors, the lower inductance has lower DC resistance (DCR), which has less conducting loss. But the ripple current is bigger, which generates more RMS current loss. Figure 12 shows the efficiency of the demo board under different inductance for a specific series of inductor. For optimal efficiency in an application, it is a good exercise to check several adjacent inductance values of your preferred series of inductors. For the same inductance, higher overall efficiency can be obtained by using lower DCR inductor. The diode should be Schottky type with minimum reverse voltage of 20V. The diode's peak current is the same as inductor's peak current, the average current is IO, and RMS current is: Ensure the diode's ratings exceed these current requirements. White LED Connections One leg of LEDs connected in series will ensure the uniformity of the brightness. 18V maximum voltage enables 4 LEDs can be placed in series. When placing 4 LEDs in series, make sure the worst total forward voltage does not exceed 18V. However, placing LEDs into series/parallel connection can give higher efficiency as shown in the efficiency curves. One of the ways to ensure the brightness uniformity is to prescreen the LEDs. PCB Layout Considerations The layout is very important for the converter to function properly. Power Ground ( ) and Signal Ground ( ) should be separated to ensure the high pulse current in the power ground does not interference with the sensitive signals connected to Signal Ground. Both grounds should only be connected at one point right at the chip. The heavy current paths (VIN-L-LX pin-PGND, and VIN-L-D-C2-PGND) should be as short as possible. The trace connected to pin (CS) is most important. The current sense resister R1 should be very close to the pin When the trace is long, use a small filter capacitor close to the CS pin. The heat of the IC is mainly dissipated through the PGND pin. Maximizing the copper area around the plane is preferable. In addition, a solid ground plane is always helpful for the EMI performance. The demo board is a good example of layout based on the principle. Please refer to the EC4513 Application Brief for the layout. PAGE 7 / 7 DR18EV9005-VER1.0 |
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