20V, 2A Buck Switching Regulator

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20V, 2A Buck Switching Regulator FP6101 General Description The FP6101 is a buck switching regulator for wide operating voltage application fields. The FP6101 includes a high current P-MOSFET, high precision reference (0.5V) for comparing output voltage with a feedback amplifier, an internal dead-time controller and oscillator for controlling the maximum duty cycle and PWM frequency. It also has power-on programmable soft start time, short circuit PMOS turn-off and auto re-start protection functions. Features Precision Feedback Reference Voltage: 0.5V (2%) Wide Supply Voltage Operating Range: 3.6 to 20V Low Current Consumption: 3mA Internal Fixed Oscillator Frequency: 340KHz (Typ.) Internal Soft-Start Function (SS) Short Circuit Shutdown and Auto Re-start function (ARSCP) Built-in P-MOSFET for 2A Loading Capability Over Current Protection Package: SOP-8L Typical Application Circuit 1/12

Function Block Diagram Pin Descriptions SOP-8L Name No. I / O Description V CC 1 Top View 8 LX V CC 1 P Power Supply (PMOS Source) SS / SCP 2 I Connecting with a Soft-start & ARSCP Timing Capacitor IN- 3 I Error Amplifier Inverting Input SS / SCP IN- FB 2 3 4 FP6101 9Fa-86L 7 6 5 LX GND GND FB 4 O Error Amplifier Compensation Output GND 5 P IC Ground GND 6 P IC Ground LX 7 O PMOS High Current Output LX 8 O PMOS High Current Output 2/12

Marking Information Halogen Free: Halogen free product indicator Lot Number: Wafer lot number s last two digits For Example: 132386TB 86 Mass Production Version: Mass production mask version Per-Half Month: Production period indicated in half month time unit For Example: January A (Front Half Month), B (Last Half Month) February C (Front Half Month), D (Last Half Month) Year: Production year s last digit 3/12

Ordering Information Part Number Operating Temperature Package MOQ Description FP6101DR-LF -25 C ~ +85 C SOP-8L 2500 EA Tape & Reel Absolute Maximum Ratings Parameter Symbol Conditions Min. Typ. Max. Unit Power Supply Voltage V CC 21 V Output Source Current 3 A Error Amplifier Inverting Input -0.3 1.2 V Allowable Power Dissipation P D SOP-8L T A +25 C 650 mw Junction to Ambient Thermal Resistance Junction to Case Thermal Resistance θ JA +175 C / W θ JC +45 C / W Operating Temperature -25 +85 C ESD Susceptibility HBM (Human Body Mode) 2 KV MM (Machine Mode) 200 V Storage Temperature T S SOP-8L -55 +125 C SOP-8L Lead Temperature (soldering, 10 sec) +260 C Suggested IR Re-flow Soldering Curve 4/12

Recommended Operating Conditions Parameter Symbol Conditions Min. Typ. Max. Unit Supply Voltage V CC 3.6 20 V Operating Temperature -25 85 C DC Electrical Characteristics (V CC =6V, T A = 25 C, unless otherwise noted) Parameter Symbol Conditions Min. Typ. Max. Unit Reference Output Voltage V REF IN- connected to FB 0.490 0.5 0.510 V Input Regulation Output Voltage Change with Temperature Soft Start Section (S.S.) V REF V CC =3.6 to 20 V 2 12.5 mv V REF / T A = -25 to +25 C 1 2 % V REF T A = +25 to +85 C 1 2 % S.C.P. Source Current I SS V SS =0V -17-12 -7 µa Soft Start Threshold Voltage V SST 0.9 1.0 1.1 V Short Circuit Protection Section (S.C.P.) S.C.P. Source Current I SCP V SCP = 0V -17-12 -7 µa SCP Re-start / Hold Time S.C.P. Threshold Voltage Output Section T RE /T HOLD V FB =0V 1/8 V SCP V FB >450mV 1.0 1.15 1.2 V V SB V FB <450mV 0.1 0.15 V Oscillation Frequency f 340 KHz Frequency Change with Voltage Δf / ΔV V CC =3.6V to 20V 5 % Frequency Change with Temperature Δf / ΔT T A = -25 to +85 5 % Thermal Shutdown Section Thermal Shutdown Temperature +145 Idle Period Adjustment Section Maximum Duty Cycle T DUTY V IN =0.2V 90 % Total Device Section Average Supply Current I AVE 3.8 5 ma Output Section PMOS D-S Voltage V DSS V=0.1V -20 V PMOS Source Current I D -2 A PMOS On Resistance R DS(ON) V CC =5.0V,V IN =0V 70 150 V CC =10V,V IN =0V 42 90 Output Leakage Current I L 5 µa Over Current Protection Section PMOS OCP Current I OCP 3 A mω 5/12

Parameter Symbol Conditions Min. Typ. Max. Unit Error Amplifier Section Input Bias Current I B -1.0-0.2 1.0 μa Voltage Gain Av 100 V / V Frequency Bandwidth BW Av=0 db 6 2 MHz Output voltage Swing Positive V POS V IN- =0.3V 0.78 0.87 V Output voltage Swing Negative V NEG V IN- =0.7V 0.05 0.2 V Output Source Current I SOURCE -45-30 μa V FB =500mV Output Sink Current 30 45 μa I SINK 6/12

Typical Operating Characteristics Supply Voltage VS Reference Output Voltage Reference Output Votlage VS Temperature 0.506 0.507 Reference Output Voltage (V) 0.505 0.504 0.503 0.502 0.501 0.5 0.499 0.498 0.497 Reference Output Voltage (V) 0.506 0.505 0.504 0.503 0.502 0.501 0.5 0.499 0.498 3.6 6 10 12 15 17 20-25 25 45 65 85 100 Pow er Supply Voltage (V) Temperature ( ) Oscillator Frequency VS Power Supply Voltage Oscillator Frequency V S Temperature 400 Oscillator Frequency (KHz) 348 345 342 339 336 333 Oscillator Frequency (KHz) 380 360 340 320 300 330 3.6 6 10 12 15 17 20 Pow er Supply V oltage (V ) 280-25 25 45 65 85 100 Temperature ( ) Effciency V S Output Current Output Load Regulation Effciency (%) 93% 92% 91% 90% 89% 88% 87% 86% 85% 84% 83% 82% 81% 80% 79% V CC =10V, V OUT =3.3V V CC =10V, V OUT =5.0V 0.5 1 1.5 2 2.5 3 Output Voltage (V) 6 5.5 5 4.5 4 3.5 3 2.5 2 1.5 1 0.5 0 V CC =10V, V OUT =3.3V V CC =10V, V OUT =5.0V 0 0.5 1 1.5 2 2.5 3 Output Current (A ) Output Current (A ) Pow er Supply V S OCP OCP V S Tempature 5 5 4.5 4.5 4 4 3.5 3.5 OCP(A) 3 2.5 2 1.5 OCP (A) 3 2.5 2 1.5 V CC =10V,V OUT =3.3V 1 1 0.5 0.5 0 5 5.5 7 9 12 15 18 20 0-10 25 50 70 85 Pow er Supply (V ) Tempature ( ) 7/12

Timing Waveform VCC 3.6V S.S/ARSCP VSST ARSCP Charge Current VARSCP OSC Soft Start Stage COMP TRE ~ THOLD ~ Soft Start Stage 0.8V LX Restart Timing ~ Restart Timing ~ VARSCP ARSCP Charge Current ARSCP TRE THOLD OSC LX CH1 LX CH2 SS / SCP CH3 V OUT CH1 LX CH2 SS / SCP CH3 V OUT 8/12

Function Description Voltage Reference FP6101 includes a 1.25V reference generator. This reference voltage is divided by a resistive divider to provide a 0.5V precision reference voltage for the non-inverting terminal of error amplifier and a 1.0V threshold voltage for the SCP comparator. Error Amplifier The error amplifier compares a sample of the DC-DC converter output voltage with the 0.5V reference (V REF ) to generate an error signal for the PWM comparator. Output voltage of the DC-DC converter is setting by the external resistor divider with following equation (see figure 1): V OUT R 1 R 1 2 V REF V OUT T R1 Error Amplifier 3 36KΩ R2 0.5V 500Ω FP6101 4 C1 Figure 1 Error Amplifier with Feedback Resistor Divider Oscillator The fixed PWM frequency is generated by an internal RC oscillator. Its typical value is 340KHz. Website: http://www.feeling-tech.com.tw Rev. 0.91 9/12

Soft Start/ Short-circuit protection (S.S. / S.C.P.) The Soft Start function works after power on. The interval of Soft Start time is determined by a capacitor connected to SCP pin (pin 2). After Soft Start function finished, the internal Soft Start clamp voltage is setting high, but external SCP pin is discharged to low. Thus FP6101 turns on short circuit detection / protection function. The Soft Start time is: Tss(Sec) 0.07 CSCP(in F) When a heavy loading or short circuit condition make output voltage to drop too much, the error amplifier output (FB pin) will rise to very high. Once FB pin voltage exceeds V POS (typ. 1.0V), the short circuit protection function is triggered. The output switching MOS will be turned off. The SCP capacitor will be charged until its potential exceeds SCP threshold voltage (typ. 1.2V) and then discharged to low. The time of short circuit protection is: T RE (Sec) V C I SCP V TH Restart timing of short circuit protection is: T HOLD (Sec) 8 T RE (Sec) VSSStart C Isource SCP 0.09 C SCP (in F) Thermal Protection When a heavy loading makes chip internal temperature exceeds 145 C, the thermal protection function is triggered. The FP6101 turns off its output and starts Short Circuit Protection function. After the IC is cooled down to its internal temperature below 145 C, it will turn on the output and execute Soft-Start function again. Over Current Protection When FP6101 senses driver current over 3A, it will initiate OCP function and enters ARSCP function. After current drops below 3A, FP6101 turns on the output and continues PWM operation. Website: http://www.feeling-tech.com.tw Rev. 0.91 10/12

Typical Application FP6101 Basic DC-DC Regulator Circuit For example: The V IN power supply is 12V and the V OUT is designed for 3.3V / 2A solution. The output voltage equation is: V OUT R 1 R 1 2 V REF 56K 1 0.5V 3.30V 10K Website: http://www.feeling-tech.com.tw Rev. 0.91 11/12

Package Outline SOP-8L Symbols Min. (mm) Max. (mm) A 1.346 1.752 A1 0.101 0.254 A2 1.092 1.498 D 4.800 4.978 E 3.810 3.987 H 5.791 6.197 L 0.406 1.270 θ 0 8 Note: 1. Package dimensions are in compliance with JEDEC Outline: MS-012 AA. 2. Dimension D does not include molding flash, protrusions or gate burrs. 3. Dimension E does not include inter-lead flash, or protrusions. Website: http://www.feeling-tech.com.tw Rev. 0.91 12/12

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