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FAN48630BUC34X

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FAN48630BUC34X

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Part Number FAN48630BUC34X
Manufacturer ON Semiconductor
Description IC REG BOOST PROG 1.5A 16WLCSP
Datasheet FAN48630BUC34X Datasheet
Package 16-UFBGA, WLCSP
In Stock 2,780 piece(s)
Unit Price $ 0.4900 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jan 30 - Feb 4 (Choose Expedited Shipping)
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Part Number # FAN48630BUC34X (PMIC - Voltage Regulators - DC DC Switching Regulators) is manufactured by ON Semiconductor and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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FAN48630BUC34X Specifications

ManufacturerON Semiconductor
CategoryIntegrated Circuits (ICs) - PMIC - Voltage Regulators - DC DC Switching Regulators
Datasheet FAN48630BUC34XDatasheet
Package16-UFBGA, WLCSP
SeriesTinyBoost®
FunctionStep-Up
Output ConfigurationPositive
TopologyBoost
Output TypeProgrammable
Number of Outputs1
Voltage - Input (Min)2.35V
Voltage - Input (Max)5.5V
Voltage - Output (Min/Fixed)3.2V, 3.4V
Voltage - Output (Max)-
Current - Output1.5A (Switch)
Frequency - Switching2.5MHz
Synchronous RectifierYes
Operating Temperature-40°C ~ 85°C (TA)
Mounting TypeSurface Mount
Package / Case16-UFBGA, WLCSP
Supplier Device Package16-WLCSP (1.8x1.8)

FAN48630BUC34X Datasheet

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To learn more about ON Semiconductor, please visit our website at www.onsemi.com Please note: As part of the Fairchild Semiconductor integration, some of the Fairchild orderable part numbers will need to change in order to meet ON Semiconductor’s system requirements. Since the ON Semiconductor product management systems do not have the ability to manage part nomenclature that utilizes an underscore (_), the underscore (_) in the Fairchild part numbers will be changed to a dash (-). This document may contain device numbers with an underscore (_). Please check the ON Semiconductor website to verify the updated device numbers. The most current and up-to-date ordering information can be found at www.onsemi.com. Please email any questions regarding the system integration to Fairchild_questions@onsemi.com. Is Now Part of ON Semiconductor and the ON Semiconductor logo are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries. ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor’s product/patent coverage may be accessed at www.onsemi.com/site/pdf/Patent-Marking.pdf. ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Buyer is responsible for its products and applications using ON Semiconductor products, including compliance with all laws, regulations and safety requirements or standards, regardless of any support or applications information provided by ON Semiconductor. “Typical” parameters which may be provided in ON Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. ON Semiconductor does not convey any license under its patent rights nor the rights of others. ON Semiconductor products are not designed, intended, or authorized for use as a critical component in life support systems or any FDA Class 3 medical devices or medical devices with a same or similar classification in a foreign jurisdiction or any devices intended for implantation in the human body. Should Buyer purchase or use ON Semiconductor products for any such unintended or unauthorized application, Buyer shall indemnify and hold ON Semiconductor and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that ON Semiconductor was negligent regarding the design or manufacture of the part. ON Semiconductor is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.

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June 2015 © 2011 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN48630 • Rev. 1.13 F A N 4 8 6 3 0 — 2 .5 M H z , 1 5 0 0 m A S y n c h ro n o u s T in y B o o s t® R e g u la to r w ith B y p a s s M o d e FAN48630 — 2.5 MHz, 1500 mA, Synchronous TinyBoost ® Regulator with Bypass Mode Features  Few External Components: 0.47 µH Inductor and 0603 Case Size Input and Output Capacitors  Input Voltage Range: 2.35 V to 5.5 V  Fixed Output Voltage Options: 3.0 V to 5.0 V  Maximum Continuous Load Current: 1500 mA at VIN of 2.6 V Boosting VOUT to 3.5 V  Up to 96% Efficient  True Bypass Operation when VIN > VOUT_TARGET  Internal Synchronous Rectifier  Soft-Start with True Load Disconnect  Forced Bypass Mode  VSEL Control to Optimize Target VOUT  Short-Circuit Protection  Low Operating Quiescent Current  16-Bump, 0.4 mm Pitch WLCSP Applications  Boost for Low-Voltage Li-ion Batteries, Brownout Prevention, Boosted Audio, USB OTG, and LTE / 3G RF Power  Cell Phones, Smart Phones, Portable Instruments Description The FAN48630 allows systems to take advantage of new battery chemistries that can supply significant energy when the battery voltage is lower than the required voltage for system power ICs. By combining built-in power transistors, synchronous rectification, and low supply current; this IC provides a compact solution for systems using advanced Li-Ion battery chemistries. The FAN48630 is a boost regulator designed to provide a minimum output voltage from a single-cell Li-Ion battery, even when the battery voltage is below system minimum. Output voltage regulation is guaranteed to a maximum load current of 1500 mA. Quiescent current in Shutdown Mode is less than 3 µA, which maximizes battery life. The regulator transitions smoothly between Bypass and normal Boost Mode. The device can be forced into Bypass Mode to reduce quiescent current. The FAN48630 is available in a 16-bump, 0.4 mm pitch, Wafer-Level Chip-Scale Package (WLCSP). FAN48630 VOUT PGND COUT L 1 PG 0.47H 20F VIN 4.7F SW VSEL EN BYP CIN + Battery SYSTEM LOAD AGND Figure 1. Typical Application

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© 2011 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN48630 • Rev. 1.13 2 FA N 4 8 6 3 0 — 2 .5 M H z , 1 5 0 0 m A S y n c h ro n o u s T in y B o o s t ® R e g u la to r w ith B y p a s s M o d e Ordering Information Part Number Output Voltage (1) VSEL0 / VSEL1 Soft-Start Forced Bypass Operating Temperature Package Packing FAN48630UC315X 3.15 / 3.33 FAST Low IQ -40°C to 85°C 16-Ball, 4x4 Array, 0.4 mm Pitch, 250 µm Ball, Wafer-Level Chip-Scale Package (WLCSP) Tape and Reel FAN48630BUC315X (2) 3.15 /3.33 FAST Low IQ FAN48630UC33X 3.30 / 3.49 FAST Low IQ FAN48630BUC34X (2) 3.20 / 3.40 FAST Low IQ FAN48630UC35X 3.50 / 3.70 FAST Low IQ FAN48630UC37AX 3.70 / 3.77 FAST Low IQ FAN48630UC45X 4.50 / 4.76 SLOW OCP On FAN48630UC50X 5.00 / 5.29 SLOW OCP On Notes: 1. Other output voltages are available on request. Please contact a Fairchild Semiconductor representative. 2. The FAN48630BUC315X and FAN48630BUC34X include backside lamination. Typical Application EN L 1 Q2 VIN SW CIN GND Q1 Q1B Q1A PG COUT Q3 Q3B Q3A VSEL BYP BYPASS CONTROL MODULATOR LOGIC AND CONTROL VOUT Synchronous Rectifier Control Figure 2. Block Diagram Table 1. Recommended Components Component Description Vendor Parameter Typ. Unit L1 0.47 µH, 30% Toko: DFE201612C DFR201612C Cyntec: PIFE20161B L 0.47 µH DCR (Series R) 40 m CIN 4.7 µF, 10%, 6.3 V, X5R, 0603 Murata: GRM188R60J475K TDK: C1608X5R0J475K C 4.7 µF COUT 2 x 10 µF, 20%, 10 V, X5R, 0603 TDK: C1608X5R1A106M C 20 µF

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© 2011 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN48630 • Rev. 1.13 3 FA N 4 8 6 3 0 — 2 .5 M H z , 1 5 0 0 m A S y n c h ro n o u s T in y B o o s t ® R e g u la to r w ith B y p a s s M o d e Pin Configuration AGND VIN VSEL PG AGND PGND SW VOUT EN B1 B2 C2 A1 A2 B3 A3 C3 D1 D2 D3 C1 A4 B4 C4 D4 BYP B4 A4 D4 C4 B3 C3 D3 A3 B2 A2 C2 D2 A1 C1 D1 B1 Figure 3. Top Through View (Bumps Down) Figure 4. Bottom View (Bumps Up) Pin Definitions Pin # Name Description A1 EN Enable. When this pin is HIGH, the circuit is enabled. (3) A2 PG Power Good. This is an open-drain output. PG is actively pulled LOW if output falls out of regulation due to overload or if thermal protection threshold is exceeded. A3–A4 VIN Input Voltage. Connect to Li-Ion battery input power source. (3) B1 VSEL Output Voltage Select. When boost is running, this pin can be used to select output voltage. B2, C2 D1 AGND Analog Ground. This is the signal ground reference for the IC. All voltage levels are measured with respect to this pin. B3–B4 VOUT Output Voltage. Place COUT as close as possible to the device. C1 BYP Bypass. This pin can be used to activate Forced Bypass Mode. When this pin is LOW, the bypass switches (Q3 and Q1) are turned on and the IC is otherwise inactive. C3–C4 SW Switching Node. Connect to inductor. D2–D4 PGND Power Ground. This is the power return for the IC. The COUT bypass capacitor should be returned with the shortest path possible to these pins. Note: 3. Do not connect the EN pin to VIN. A logic voltage of 1.8 V should control the EN pin and enable / disable the device.

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© 2011 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN48630 • Rev. 1.13 4 FA N 4 8 6 3 0 — 2 .5 M H z , 1 5 0 0 m A S y n c h ro n o u s T in y B o o s t ® R e g u la to r w ith B y p a s s M o d e Absolute Maximum Ratings 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 Parameter Min. Max. Unit VIN VIN Input Voltage -0.3 6.5 V VOUT VOUT Output Voltage 6.0 V SW Node DC -0.3 8.0 V Transient: 10 ns, 3 MHz -1.0 8.0 V Other Pins -0.3 6.5 (4) V ESD Electrostatic Discharge Protection Level Human Body Model per JESD22-A114 3.0 kV Charged Device Model per JESD22-C101 1.5 kV TJ Junction Temperature -40 +150 °C TSTG Storage Temperature -65 +150 °C TL Lead Soldering Temperature, 10 Seconds +260 °C Note: 4. Lesser of 6.5 V or VIN + 0.3 V. 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. Symbol Parameter Min. Max. Unit VIN Supply Voltage 2.35 5.50 V IOUT Output Current 0 1500 mA TA Ambient Temperature -40 +85 °C TJ Junction Temperature -40 +125 °C Thermal Properties Junction-to-ambient thermal resistance is a function of application and board layout. This data is measured with four-layer Fairchild evaluation boards (1 oz copper on all layers). Special attention must be paid not to exceed junction temperature TJ(max) at a given ambient temperate TA. Symbol Parameter Typical Unit JA Junction-to-Ambient Thermal Resistance 80 °C/W JB Junction-to-Board Thermal Resistance 42

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© 2011 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN48630 • Rev. 1.13 5 FA N 4 8 6 3 0 — 2 .5 M H z , 1 5 0 0 m A S y n c h ro n o u s T in y B o o s t ® R e g u la to r w ith B y p a s s M o d e Electrical Specifications Recommended operating conditions, unless otherwise noted, circuit per Figure 1, VIN = 2.35 V to VOUT, TA = -40˚C to 85˚C. Typical values are given VIN = 3.0 V and TA = 25˚C. Symbol Parameter Conditions Min. Typ. Max. Unit IQ VIN Quiescent Current Bypass Mode VOUT=3.5 V, VIN=4.2 V 140 190 A Boost Mode VOUT=3.5 V, VIN=2.5 V 150 250 A Shutdown: EN=0, VIN=3.0 V 1.5 5.0 A Forced Bypass Mode VOUT=3.5 V, VIN=3.5 V Low IQ 4 10 A OCP On 45 90 A ILK VOUT to VIN Reverse Leakage VOUT=5 V, EN=0 0.2 1.0 A ILK_OUT VOUT Leakage Current VOUT=0, EN=0, VIN=4.2 V 0.1 1.0 A VUVLO Under-Voltage Lockout VIN Rising 2.20 2.35 V VUVLO_HYS Under-Voltage Lockout Hysteresis 200 mV VPG(OL) PG Low IPG=5 mA 0.4 V IPG_LK PG Leakage Current VPG=5 V 1 µA VIH Logic Level High EN, VSEL, BYP 1.2 V VIL Logic Level Low EN, VSEL, BYP 0.4 V RLOW Logic Control Pin Pull Downs (LOW Active) BYP, VSEL, EN 300 k IPD Weak Current Source Pull-Down BYP, VSEL, EN 100 nA VREG Output Voltage Accuracy Referred to GND, DC, VOUT-VIN > 100 mV –2 4 % VTRSP Load Transient Response 500 – 1250 mA, VIN=3.6 V, VOUT=5.0 V ±4 % tON On-Time VIN=3.0 V, VOUT=3.5 V, Load >1000 mA 80 ns fSW Switching Frequency VIN=3.6 V, VOUT=5.0 V, Load=1000 mA 2.0 2.5 3.0 MHz IV_LIM Boost Valley Current Limit VIN=2.6 V 2.6 2.9 3.1 A IV_LIM_SS Boost Valley Current Limit During SS VIN=2.6 V 1.6 A VMIN_1.5A Minimum VIN for 1500 mA Load (Short Term) VOUT=5.0 V, TJ < 120˚C 3.0 V VOUT=4.5 V, TJ < 120˚C 2.8 V VOUT=3.5 V, TJ < 120˚C 2.35 V VOUT=3.15 V, TJ < 120˚C 2.35 V ISS_PK Soft-Start Input Peak Current Limit LIN1 Slow 350 mA Fast 800 mA LIN2 Slow 700 mA Fast 1600 mA tSS Soft-Start EN HIGH to Regulation Slow, 50  Load 1300 s Fast, 50  Load 600 s VOCP OCP Comparator Threshold VIN=5.0 V, VIN-VOUT 200 mV VOVP Output Over-Voltage Protection Threshold 6.0 6.3 V VOVP_HYS Output Over-Voltage Protection Hysteresis 300 mV Continued on the following page…

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© 2011 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN48630 • Rev. 1.13 6 FA N 4 8 6 3 0 — 2 .5 M H z , 1 5 0 0 m A S y n c h ro n o u s T in y B o o s t ® R e g u la to r w ith B y p a s s M o d e Electrical Specifications (Continued) Recommended operating conditions, unless otherwise noted, circuit per Figure 1, VIN = 2.35 V to VOUT, TA = -40˚C to 85˚C. Typical values are given VIN = 3.0 V and TA = 25˚C. Symbol Parameter Conditions Min. Typ. Max. Unit RDS(ON)N N-Channel Boost Switch RDS(ON) VIN=3.5 V, VOUT=3.5 V 85 120 mΩ RDS(ON)P P-Channel Sync Rectifier RDS(ON) VIN=3.5 V, VOUT=3.5 V 65 85 mΩ RDS(ON)P_BYP P-Channel Bypass Switch RDS(ON) VIN=3.5 V, VOUT=3.5 V 65 85 mΩ T120A T120 Activation Threshold 120 °C T120R T120 Release Threshold 100 °C T150T T150 Threshold 150 °C T150H T150 Hysteresis 20 °C tRST FAULT Restart Timer 20 ms

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© 2011 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN48630 • Rev. 1.13 7 FA N 4 8 6 3 0 — 2 .5 M H z , 1 5 0 0 m A S y n c h ro n o u s T in y B o o s t ® R e g u la to r w ith B y p a s s M o d e Typical Characteristics Unless otherwise specified; VIN = 3.6 V, and VOUT = 5 V, and TA = 25°C; circuit and components according to Figure 1. 80% 84% 88% 92% 96% 100% 0 250 500 750 1000 1250 1500 E ff ic ie n c y Load Current (mA) 2.5 VIN 3.0 VIN 3.3 VIN 4.2 VIN 80% 82% 84% 86% 88% 90% 92% 94% 96% 0 250 500 750 1000 1250 1500 E ff ic ie n c y Load Current (mA) - 40C +25C +85C Figure 5. Efficiency vs. Load Current and Input Voltage, VOUT=3.5 V Figure 6. Efficiency vs. Load Current and Temperature, VIN=3.0 V, VOUT=3.5 V 72% 76% 80% 84% 88% 92% 96% 0 250 500 750 1000 1250 1500 E ff ic ie n c y Load Current (mA) 2.5 VIN 3.0 VIN 3.6 VIN 4.2 VIN 76% 80% 84% 88% 92% 96% 0 250 500 750 1000 1250 1500 E ff ic ie n c y Load Current (mA) - 40C +25C +85C Figure 7. Efficiency vs. Load Current and Input Voltage Figure 8. Efficiency vs. Load Current and Temperature 80% 84% 88% 92% 96% 100% 2.0 2.5 3.0 3.5 4.0 4.5 E ff ic ie n c y Input Voltage (V) 5.0 VOUT 4.5 VOUT 3.5 VOUT 3.15 VOUT 76% 80% 84% 88% 92% 96% 100% 2.0 2.5 3.0 3.5 4.0 4.5 E ff ic ie n c y Input Voltage (V) 5.0 VOUT 4.5 VOUT 3.5 VOUT 3.15 VOUT Figure 9. Efficiency vs. Input Voltage and Output Voltage, 200 mA Load Figure 10. Efficiency vs. Input Voltage and Output Voltage, 1000 mA Load

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© 2011 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN48630 • Rev. 1.13 8 FA N 4 8 6 3 0 — 2 .5 M H z , 1 5 0 0 m A S y n c h ro n o u s T in y B o o s t ® R e g u la to r w ith B y p a s s M o d e Typical Characteristics (Continued) Unless otherwise specified; VIN = 3.6 V, VOUT = 5 V, and TA = 25°C; circuit and components according to Figure 1. -2 -1 0 1 2 3 0 250 500 750 1000 1250 1500 O u tp u t R e g u la ti o n ( % ) Load Current (mA) 2.5 VIN 3.0 VIN 3.6 VIN 4.2 VIN -2 -1 0 1 2 3 0 250 500 750 1000 1250 1500 O u tp u t R e g u la ti o n ( % ) Load Current (mA) - 40C +25C +85C Figure 11. Output Regulation vs. Load Current and Input Voltage (Normalized to 3.6 VIN, 500 mA Load) Figure 12. Output Regulation vs. Load Current and Temperature (Normalized to 3.6 VIN, 500 mA Load, TA=25°C) 0 50 100 150 200 250 2.0 2.5 3.0 3.5 4.0 4.5 In p u t C u rr e n t ( A ) Input Voltage (V) - 40C Auto +25C Auto +85C Auto - 40C Bypass +25C Bypass +85C Bypass 0 50 100 150 200 250 2.0 2.5 3.0 3.5 4.0 4.5 In p u t C u rr e n t ( A ) Input Voltage (V) - 40C Auto +25C Auto +85C Auto - 40C Bypass +25C Bypass +85C Bypass Figure 13. Quiescent Current vs. Input Voltage, Temperature and Mode, VOUT=5.0 V, Forced Bypass, OCP Active Figure 14. Quiescent Current vs. Input Voltage, Temperature and Mode, VOUT=3.5 V, Forced Bypass, Low IQ 0 10 20 30 40 50 60 0 250 500 750 1000 1250 1500 O u tp u t R ip p le ( m V p p ) Load Current (mA) 2.5 VIN 3.0 VIN 3.6 VIN 4.2 VIN 0 500 1,000 1,500 2,000 2,500 3,000 0 250 500 750 1000 1250 1500 S w it c h in g F re q u e n c y ( K H z ) Load Current (mA) 2.5 VIN 3.0 VIN 3.6 VIN 4.2 VIN Figure 15. Output Ripple vs. Load Current and Input Voltage Figure 16. Frequency vs. Load Current and Input Voltage

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