ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter Description The ACE714C veriable frequency step-up Converter drives white LEDs with a constant current to provide backlight in cell phones, PDAs, and other handheld devices. It features allowing series connection of the white LEDs so that the LED currents are identical for uniform brightness. An enable input can be pulsed repeatedly to adjust LEDs brightness. The fast 3MHz operation frequency allows for smaller capacitor and inductor. Fault condition protection uses cycle-by cycle current limiting to sense maximum inductor current and over-voltage protection. The 0.2V low reference voltage minimized the power loss across the current sense resistor. The converter can operate from 2V to 6V, and capable of delivering maximum 250mA output current at 4-LEDs application with 3V input voltage is as low as 120uA. All of these features make ACE714C be suitable for the portable devices, which are supplied by a single battery. Features Up to 19V Output Voltage Wide Operation Range: 2V to 6V Maximum 3MHz Operating Frequency PWM Dimming Control Shutdown Current <1uA Current Limit Cycle-by-Cycle Low Current Sense Threshold: 200mV 19V Over Output Voltage Protection Application Compact Back Light Module Power Source for LED Constant Current Source Typical Application L1 Vin 10uH + Cin 4.7uF SS14 + ON OFF D1 Vin LX ACE714C OVP CE FB GND LED 1 LED 17 LED2 LED 18 LED 3 LED 19 LED 4 LED 20 R1 R5 Cout 4.7uF Figure 1. ACE714C Typical Application Circuit VER 1.2 1 ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter Absolute Maximum Ratings Parameter Max Input voltage -0.3 to 8 CE Pin Voltage -0.3 to (Vin+0.3V) Lx Pin Output Current 1.8A Lx Pin Voltage 19.4V Operating Junction Temperature (TJ) 125℃ Ambient Temperature (TA) -40℃ to 85℃ Power Dissipation SOT-23-6 400mW Storage Temperature (Ts) -40℃ to 150℃ Packaging Type SOT-23-6 6 5 4 1 2 3 SOT-23-6 Description Function 1 LX Switching Pin 2 GND Ground Pin 3 FB Pin for Feedback Voltage 4 CE Chip Enable Pin (Active with “H”), connect to VIN if not used 5 OVP Over Voltage Protection 6 VIN Power Supply Pin Ordering Information ACE714C XX + H Halogen - free Pb - free GM : SOT-23-6 VER 1.2 2 ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter Block Diagram Electrical Characteristics (TA=25℃, VIN=3V, VCE=3V, unless otherwise noted) Parameter Symbol Conditions Min Operating Input Voltage VIN 2 Feedback Voltage VFB 0.19 FB Pin Bias Current IFB 10 Quiescent Current IQ Maximum switching Frequency FMAX Switching Current Limit ILIMIT Switch Saturation Voltage VCESAT Switching pin Leak Current Typ Max Units 6 V 0.20 0.21 V 45 100 nA VFB=0.3V 93 120 VCE=0V 0.4 1.0 VFB=0V, Floating OVP Pin 3 MHz 1.8 A ILX=300mA 260 mV ILX VLX=5V 0.11 uA CE Voltage High VCEH VCE=0 to 3V CE Voltage Low VCEL VCE=3 to 0V CE Pin Bias Current ICE VIN=VCE=3V Over Voltage Protection VOVP 1.5 uA V 0.4 V 18 uA 19 V VER 1.2 3 ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter Typical Performance Characteristics VER 1.2 4 ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter Typical Performance Characteristics Application Information Dimming Control 1.Using a PWM Signal to CE Pin When adding the PWM signal to CE pin, the ACE714C is turned on or off by the PWM signal, so the LEDs operate at either zero or full current. The average LED current increase proportionally with the duty cycle of the PWM signal. 2.Using a DC Voltage to FB Pin From the Figure 2, we can add a DC voltage to FB pin, we adjust the LED current by changing the DC voltage, which control the brightness, DC voltage range is from 0V to 2V. VER 1.2 5 ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter ACE714C Figure 2. Dimming Control Using a DV Voltage 3.Using a Filtered PWM Signal to FB Pin The filtered PWM signal can be considered as an adjustable DC voltage. It can be used to replace the variable DC voltage source in dimming control. The circuit is shown in Figure 3. ACE714C Figure 3. Dimming Control Using a Filtered PWM Signal VER 1.2 6 ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter 4.PCB Layout Layout is critical to achieve clean and stable operation. The switching power stage requires particular attention. Follow these guidelines for good PC board layout: 1) Place decoupling capacitors as close to the IC as possible. 2) Connect input and output capacitors to the same power ground node with a star ground configuration then to IC ground. 3) Keep the high-current paths as short and wide as possible. 4) If possible, connect IN, SW, and GND separately to a large copper area to help cool the IC to further improve efficiency and long-term reliability. 5) Ensure all feedback connections are short and direct. Place the feedback resistors as close to the IC as possible. 6) Route high-speed switching nodes away from sensitive analog areas Figure 4. Recommended Component Placement VER 1.2 7 ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter Packing Information SOT-23-6 VER 1.2 8 ACE714C Max. 3MHz, Variable Frequency Step-up DC/DC Converter Notes ACE does not assume any responsibility for use as critical components in life support devices or systems without the express written approval of the president and general counsel of ACE Electronics Co., LTD. As sued herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and shoes failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user. 2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. ACE Technology Co., LTD. http://www.ace-ele.com/ VER 1.2 9