FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator Features Description 95% Efficiency, Synchronous Operation The FAN2013B is a high-efficiency, low-noise, synchronous Pulse Width Modulated (PWM) currentmode DC-DC converter designed for low-voltage applications. It provides up to 2A continuous-load current from the 4.5V to 5.5V input. The output voltage is adjustable over a wide range by means of an external voltage divider. 3x3mm 6-Lead MLP Package Adjustable Output Voltage from 0.8V to 2.5V 4.5V to 5.5V Input Voltage Range Up to 2A Output Current Fixed-Frequency 1.2 MHz PWM Operation Soft-Start Function The FAN2013B is enabled when the input voltage on the VIN pin exceeds the UVLO threshold. Excellent Load Transient Response Power-Good Flag Over-Voltage, Under-Voltage Lockout, ShortCircuit, and Thermal Shutdown Protections Applications A current-mode control loop with a fast transient response ensures excellent line and load regulation. The fixed 1.2MHz switching frequency enables designers to choose a small, inexpensive external inductor and capacitor. Filtering can be accomplished with small components, reducing space and cost. Protection features include input under-voltage lockout, short-circuit protection, and thermal shutdown. Softstart limits inrush current during start-up conditions. Hard Disk Drive Set-Top Box The device is available in a 3x3mm 6-lead MLP. Point-of-Load Power Notebook Computer Communications Equipment Typical Application Figure 1. Typical Application Ordering Information Part Number Output Voltage Package Packing Method FAN2013BMPX 0.8V to 2.5V 3x3mm 6-Lead Molded Leadless Package (MLP) Tape and Reel © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 www.fairchildsemi.com FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator December 2010 Figure 2. Pin Assignments (Top View) Pin Definitions Pin # Name Description P1 AGND 1 FB 2 PGND 3 SW 4 PVIN 5 VIN Supply Voltage Input. 6 PG Open Drain Power Good. Analog Ground. P1 must be soldered to the PCB ground. Feedback Input. Adjustable voltage option; connect this pin to the resistor divider. Power Ground. This pin is connected to the internal MOSFET switches. This pin must be externally connected to AGND. Switching Node. This pin is connected to the internal MOSFET switches. Supply Voltage Input. This pin is connected to the internal MOSFET switches. © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator Pin Assignments www.fairchildsemi.com 2 Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be operable above the recommended operating conditions and stressing the parts to these levels is not recommended. In addition, extended exposure to stresses above the recommended operating conditions may affect device reliability. The absolute maximum ratings are stress ratings only. Symbol VIN Parameter Supply Voltage Input Voltage on PVIN and Any Other Pin Thermal Resistance, Junction-to-Tab TL Lead Soldering Temperature (10 Seconds) Storage Temperature TJ Junction Temperature ESD Electrostatic Discharge Protection (2) Level Max. Unit -0.3 7.0 V -0.3 VIN V (1) θJC TSTG Min. 8 °C/W +260 °C -65 +150 °C -40 +150 °C Human Body Model, JESD22-A114 3.5 Charged Device Model, JESD22-C101 2.0 kV Notes: 1. Junction-to-ambient thermal resistance, θJA, is a strong function of PCB material, board thickness, thickness and number of copper planes, number of via used, diameter of via used, available copper surface, and attached heat sink characteristics. 2. Using Mil Std. 883E, method 3015.7 (Human Body Model) and EIA/JESD22C101-A (Charged Device Model). Recommended Operating Conditions The Recommended Operating Conditions table defines the conditions for actual device operation. Recommended operating conditions are specified to ensure optimal performance to the datasheet specifications. Fairchild does not recommend exceeding them or designing to Absolute Maximum Ratings. Symbols VIN Parameter Min. Typ. Max. Unit Supply Voltage Range 4.5 5.5 V VOUT Output Voltage Range, Adjustable Version 0.8 2.5 V IOUT Output Current 2.0 A L CIN COUT TA Inductor (3) Input Capacitor (3) Output Capacitor (3) Operating Ambient Temperature Range 2.2 µH 10 20 µF 20 40 µF -40 +85 FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator Absolute Maximum Ratings °C Note: 3. Refer to the Applications section for details. © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 www.fairchildsemi.com 3 VIN = 4.5V to 5.5V, VOUT = 1.2V, IOUT = 200mA, CIN = 10µF, COUT = 40µF, L = 2.2µH, TA = -40°C to +85°C, unless otherwise noted. Typical values are at TA = 25°C. Symbol Parameter VIN Input Voltage IQ Quiescent Current VUVLO Conditions IOUT = 0mA VIN Rising UVLO Threshold RON_NMOS NMOS On Resistance 3.4 Max. Units 5.5 V 10 16 mA 3.7 4.0 V Hysteresis 150 mV VIN = VGS = 5V 90 mΩ VIN = VGS = 5V P-Channel Current Limit 90 4.5V < VIN < 5.5V Over-Temperature Protection fSW Typ. 4.5 RON_PMOS PMOS On Resistance ILIMIT Min. 2.8 3.5 150 °C Hysteresis 20 °C Switching Frequency 1000 1200 Line Regulation VIN = 4.5 to 5.5V, IOUT = 100mA 0.16 RLOAD Load Regulation 0mA ≤ IOUT ≤ 2000mA 0.3 VOUT Output Voltage During Load (4) Transition IOUT from 1500mA to 100mA, COUT = 60µF IOUT from 100mA to 1500mA, COUT = 60µF 0.1 VREF Reference Voltage 0.8 Power Good Output Threshold and Hysteresis kHz %/V 0.6 % 5 % % Reverse Leakage Current into VIN = Open, EN = GND, VSW = 5.5V Pin SW VPG 1400 -5 ILEAK Output Voltage Accuracy A Rising Temperature RLINE VOUT mΩ 4.2 1.0 µA V VIN = 4.5 to 5.5V, 0mA ≤ IOUT ≤ 2000mA, TA= 0°C to +85°C -2 2 % VIN = 4.5 to 5.5V, 0mA ≤ IOUT ≤ 2000mA, TA= -40°C to +85°C -3 3 % FB Voltage Rising 0.9 xVOUT V 1 % Hysteresis tPG Power Good Output Delay VPG_LOW Power Good Voltage Low Isink=6mA, Open-Drain Output 100 VOVP Over-Voltage Protection Threshold and Hysteresis FB Voltage Rising µs 0.4 V 1.07 xVOUT V 2 % Hysteresis FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator Electrical Characteristics ILOAD (mA) Note: 4. Please refer to the load transient response test waveform shown in Figure 3. ss 1500 tr = 100ns 100 ss 0 Figure 3. © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 tf = 100ns ss ss 0.6 4.6 Time (ms) Load Transient Response Test Waveform www.fairchildsemi.com 4 TA = 25°C, CIN = 10µF, COUT = 40µF, L = 2.2µH, VIN = 5V, VOUT = 1.2V, unless otherwise noted. Figure 4. Startup with 100mA Resistive Load Figure 5. Startup with 2A Resistive Load ILOAD VOUT IL Figure 6. Load Transient Response, 1.2VOUT (100mA to 1500mA, 20µs/div) Figure 7. Load Transient Response, 3.3VOUT V(100mA to 1500mA, 20µs/div) FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator Typical Performance Characteristics 1.203 Output Voltage(V) 1.202 1.201 1.2 5VIN 1.199 4.5VIN 5.5VIN 1.198 0 0.5 1 1.5 2 Load Current(m A) Figure 8. Output Voltage Regulation © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 Figure 9. Power Efficiency www.fairchildsemi.com 5 Figure 10. Block Diagram Detailed Operation Description The FAN2013B is a step-down pulse-width modulated (PWM) current mode converter with a fixed switching frequency of 1.2MHz. At the rising edge of each clock cycle, the P-channel transistor is turned on until the PWM comparator trips or the current limit is reached. During the ON time, the inductor current ramps up and is monitored by the internal current-mode control loop. After a minimum dead time, the N-channel transistor is turned ON and the inductor current ramps down. As the clock cycle is completed, the N-channel switch is turned OFF and the next clock cycle starts. The duty cycle is given by the ratio of output voltage and input voltage. The converter runs at minimum duty cycle when the output voltage is at minimum and input voltage is at maximum. The duty cycle increases proportionally as the input voltage approaches the output voltage. Output Over-Voltage Protection UVLO and Soft-Start The switch peak current is limited cycle by cycle to a typical value of 3.5A. In the event of an output voltage short circuit, the device operates with a frequency of 400kHz and minimum duty cycle, making the average typical input current 0.45A. When output voltage, VOUT, reaches approximately 7% above the nominal value, the device turns OFF the Pchannel switch and turns ON part of the N-channel transistor with a built-in current limit of about 400mA. When VOUT reaches the hysteresis of about 2%, the device starts switching normally in closed loop. If output voltage is pulled up by an external voltage source with a current limit higher than typical 400mA, the output voltage stays up at the external voltage source level. The over-voltage protection is designed to limit the output voltage excursion in case of a transient response from full load to a minimum load. Output Short-Circuit Protection The internal voltage reference, VREF, and the IC remain reset until VIN reaches the UVLO threshold. The FAN2013B has an internal soft-start circuit that limits the inrush current during start-up. This prevents possible voltage drops of the input voltage and eliminates the output voltage overshoot. The soft-start is implemented as a digital circuit, increasing the switch current in four steps to the P-channel current limit. Typical start-up time for a 40µF output capacitor with a load current of 2.0A is 800µs. © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator Block Diagram Thermal Shutdown When the die temperature exceeds 150°C, a reset occurs and remains in effect until the die cools to 130°C, when the circuit is allowed to re-initiate a softstart cycle.. www.fairchildsemi.com 6 Setting the Output Voltage PCB Layout Recommendations The internal voltage reference is 0.8V. The output is divided down by a voltage divider, R1 and R2 to the FB pin. The output voltage is: The inherently high peak currents and switching frequency of power supplies require a careful PCB layout design. For best results, use wide traces for highcurrent paths and place the input capacitor, the inductor, and the output capacitor as close as possible to the integrated circuit terminals. To minimize voltage stress to the device resulting from ever-present switching spikes, use an input bypass capacitor with low ESR. Note that the peak amplitude of the switching spikes depends upon the load current; the higher the load current, the higher the switching spikes. V O UT = V REF R 1 + -----1R (2) 2 According to this equation, assuming desired output voltage of 1.2V, and given R2 = 10KΩ as the recommended resistance for any output voltage setting, the calculated value of R1 is 5KΩ. Maximum VOUT = 2.5V. Inductor Selection The resistor divider that sets the output voltage should be routed away from the inductor to avoid RF coupling. The ground plane at the bottom side of the PCB acts as an electromagnetic shield to reduce EMI. The recommended PCB layout is shown below in Figure 11. The inductor parameters directly related to device performance are saturation current and DC resistance. The FAN2013B operates with a typical inductor value of 2.2µH. The lower the DC resistance, the higher the efficiency. For saturation current, the inductor should be rated higher than the maximum load current, plus half of the inductor ripple current, calculated by: 1 – ( VO U T ⁄ VIN) ∆ IL = VO U T × ------------------------------------------L×f (3) where: ΔIL = Inductor Ripple Current f = Switching Frequency L = Inductor Value Recommended inductors are listed in Table1. Table 1. Recommended Inductors Inductor Value Vendor Part Number 2.2µH Coiltronics SD25 2R2 2.2µH Murata LQH66SN2R2M03L Capacitor Selection For best performance, a low-ESR input capacitor is required. A ceramic capacitor of at least 10µF, placed as close to the VIN and AGND pins as possible is recommended. Figure 11. Recommended PCB Layout FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator Applications Information The output capacitor determines the output ripple and the transient response. A minimum of 20µF output capacitor is required for the FAN2013B to operate in stable conditions. Table 2. Recommended Capacitors Capacitor Value Vendor Taiyo Yuden 10µF TDK Murata © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 Part Number JMK212BJ106MG JMK316BJ106KL C2012X5ROJ106K C3216X5ROJ106M GRM32ER61C106K www.fairchildsemi.com 7 FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator Physical Dimensions Figure 12. 3x3mm 6-Lead Molded Leadless Package (MLP) Package drawings are provided as a service to customers considering Fairchild components. Drawings may change in any manner without notice. Please note the revision and/or date on the drawing and contact a Fairchild Semiconductor representative to verify or obtain the most recent revision. Package specifications do not expand the terms of Fairchild’s worldwide terms and conditions, specifically the warranty therein, which covers Fairchild products. Always visit Fairchild Semiconductor’s online packaging area for the most recent package drawings: http://www.fairchildsemi.com/packaging/. © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 www.fairchildsemi.com 8 FAN2013B — 2A Low-Voltage, Current-Mode Synchronous PWM Buck Regulator © 2008 Fairchild Semiconductor Corporation FAN2013B • Rev. 1.0.2 www.fairchildsemi.com 9