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| SC630 Fixed 3.3V High Output Charge Pump Buck/Boost Regulator POWER MANAGEMENT Features Input voltage range -- 2.9V to 5.5V VOUT tolerance 3.3V 3% VOUT regulation (line + load) 2% Continuous output current -- 400mA Peak output current -- 500mA Three charge pump modes -- 1x, 1.5x and 2x Output ripple 20mVpp for IOUT 400mA Short circuit, over-voltage, and over-temperature protection Soft-start functionality Shutdown current -- 0.1A, typical Ultra thin package -- 2 x 2 x 0.6 (mm) Fully WEEE and RoHS compliant Description The SC630 is a high-current voltage regulator using Semtech's proprietary low-noise charge pump technology. Performance is optimized for use in single Li-Ion battery cell applications. The regulator provides the performance of a linear, low drop-out (LDO) voltage regulator when the battery is greater than 3.3V. Unlike an LDO, drop-out is avoided when the battery is less than 3.3V. Instead, a charge pump is activated to provide voltage boost -- the head-room needed for voltage regulation. Only two 2.2F bucket capacitors are required to deliver the full output current. The charge pump provides a low EMI solution compared to inductive buck/boost regulators. The SC630's charge pump has three modes of operation: 2x, 1.5x, and 1x modes. The 2x and 1.5x modes deliver current to the load in each of two phases. The 1x mode turns off the charge pump, delivering current through an LDO. When active, the charge pump provides low-ripple operation at 200kHz, which is typically less than 20mVpp at the output. The SC630 is capable of delivering 400mA continuous current, with peak current to 500mA. A 22F output capacitor of is used for decoupling the load and for smoothing mode transitions. Hysteresis is provided to prevent chatter between charge pump modes. The micro lead-frame package is both small and thermally efficient, measuring 2 x 2 x 0.6 (mm). Applications Mobile phones MP3 players Multi-LED backlit LCDs Compact flash/CF+ products PMPs Digital video cameras Digital still cameras PDAs Typical Application Circuit CIN 22F IN OUT VOUT = 3.3V @ 400mA COUT 22F VBAT SC630 Chip enable EN C1+ C1C2+ GND C2C1 2.2F C2 2.2F Patents Pending May 28, 2008 (c) 2008 Semtech Corporation 1 SC630 Pin Configuration Ordering Information Device SC630ULTRT(1)(2) SC630EVB Package MLPD-UT-8 2x2 Evaluation Board GND 1 TOP VIEW 8 C2- Notes: (1) Available in tape and reel only. A reel contains 3,000 devices. (2) Lead-free package only. Device is WEEE and RoHS compliant. C1+ 2 7 C2+ C1- 3 T 6 OUT IN 4 5 EN MLPD-UT-8; 2x2, 8 LEAD JA = 68C/W Marking Information 630 yw yw = Datecode 2 SC630 Absolute Maximum Ratings IN, OUT (V) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3 to +6.0 C1+, C2+ (V) . . . . . . . . . . . . . . . . . . . . . . . . . . .-0.3 to (VOUT + 0.3) Pin Voltage - All Other Pins (V) . . . . . . . . . . . -0.3 to (VIN + 0.3) OUT Short Circuit Duration . . . . . . . . . . . . . . . . . Continuous ESD Protection Level(1) (kV) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Recommended Operating Conditions Ambient Temperature Range (C) . . . . . . . . -40 < TA < +85 IN (V) ... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.9 < VIN < 5.5 Thermal Information Thermal Resistance, Junction to Ambient(2) (C/W) . . . . . 68 Maximum Junction Temperature (C) . . . . . . . . . . . . . . +150 Storage Temperature Range (C) . . . . . . . . . . . . -65 to +150 Peak IR Reflow Temperature (10s to 30s) (C) . . . . . . . +260 Exceeding the above specifications may result in permanent damage to the device or device malfunction. Operation outside of the parameters specified in the Electrical Characteristics section is not recommended. NOTES (1) Tested according to JEDEC standard JESD22-A114-B. (2) Calculated from package in still air, mounted to 3 x 4.5 (in), 4 layer FR4 PCB with thermal vias under the exposed pad per JESD51 standards. Electrical Characteristics Unless otherwise specified: TA = +25C for Typ, -40C to +85C for Min and Max; C1 = C2 = 2.2F (ESR < 0.03); CIN = COUT = 22F; VIN = 2.9V to 5.5V Parameter Input Supply Voltage Output Voltage Output Voltage Ripple Symbol VIN VOUT VPP Condition Min 2.9 Typ Max 5.5 Units V V mV mA VIN = 4.2V, IOUT = 1mA IOUT 400mA Peak Load - thermally limited(1), TJ <150C, 2.85V VIN 5.5V Continuous Load, 3.1V VIN 5.5V, 1x or 1.5x mode 3.2 3.3 20 3.4 500 Maximum Output Current IOUT 400 0.1 1.5 1.5 140 200 400 21 25 2 2.0 2.5 260 mA A mA mA kHz s mV mV Shutdown Current ISD Shutdown (EN = GND), VIN = 3.6V EN high, 1x mode, IOUT = 1mA, VIN = 4.2V Total Quiescent Current IQ EN high, 1.5x or 2x mode, IOUT = 1mA, VIN = 3.3V Charge Pump Frequency Start-Up Time Line Regulation Load Regulation fPUMP tSU VLINE VLOAD VIN = 3.2V (EN transitions from low to high), 3.2V VOUT 3.4V, No load IOUT = 1mA, 2.85V VIN 4.2V VIN Fixed, 1mA IOUT 500mA 3 SC630 Electrical Characteristics (continued) Parameter EN Input High Threshold EN Input Low Threshold EN Input High Current EN Input Low Current Symbol VIH VIL IIH IIL Condition VIN = 5.5V VIN = 2.7V VIN = 5.5V VIN = 5.5V 1x mode Min 1.6 Typ Max Units V 0.4 2 2 0.3 3 2.4 3.3 2.93 V A A V V Open-Loop Output Resistance ROUT 1.5x mode, VIN = 3.15V 2x mode, VIN = 2.93V V TRANS 1X Mode Transition Voltage (2) V TRANS 1.5X Fault Protection Short-Circuit Current ISC IOUT = 300mA IOUT = 300mA VOUT = 0V, IOUT = IIN 1x mode 300 0.6 1.2 600 1.2 2.0 700 165 20 980 2.0 2.8 mA A A mA C C Input Current Limit ILIMIT 1.5x and 2x modes VOUT 2V, IOUT = IIN TOTP Over Temperature (3) THYS Rising Threshold Hysteresis Notes: (1) Thermal limitation is dependent upon the thermal performance of the printed circuit board in support of the package standard of 68 C/W. (2) Voltage at the IN pin where a mode transition takes place in the charge pump with VIN falling. (3) Guaranteed by design - not tested in production. 4 SC630 Typical Characteristics Load Regulation 25 VOUT = 3.3V, VIN = 3.6V 20 VOUT = 3.3V, IOUT = 1mA Line Regulation Output Voltage Variation -- VLOAD (mV) 20 TA=85C 15 TA=25C 10 Output Voltage Variation -- VLINE (mV) 15 85C 10 3.6V, 0mV 5 -40C 0 -5 -10 -15 -20 2.7 25C 5 TA=-40C 0 0 90 180 270 Output Current (mA) 360 450 3.1 3.5 3.9 4.3 4.7 5.1 5.5 Input Voltage (V) Efficiency versus Load Current 100 VOUT = 3.3V VIN = 3.4V 90 VIN = 3.6V VIN = 3.8V Efficiency (%) 0 -10 -20 -30 Gain (dB) PSRR -- 1x Mode VIN = 4.2V, VOUT = 3.3V, IOUT = 50mA CIN=COUT=22F (0805) C1=C2=2.2F (0603) VIN = 4.0V 80 -40 -50 -60 -70 70 60 -80 -90 50 0 90 180 270 360 450 Load Current (mA) -100 10 100 Frequency (Hz) 1000 10000 PSRR -- 1.5x Mode 0 -10 -20 -30 VIN = 3.2V, VOUT = 3.3V, IOUT = 50mA CIN=COUT=22F (0805) C1=C2=2.2F (0603) Gain (dB) -40 -50 -60 -70 -80 -90 -100 10 100 Frequency (Hz) 1000 10000 5 SC630 Typical Characteristics (continued) Efficiency -- 10mA 100 VOUT = 3.3V, IOUT = 10mA Efficiency -- 50mA 100 VOUT = 3.3V, IOUT = 50mA 90 1x Mode 90 1x Mode Efficiency(%) 80 Mode Transition Hysteresis 1.5x Mode 60 Efficiency(%) 80 Mode Transition Hysteresis 1.5x Mode 60 70 70 50 4.2 3.9 3.6 3.3 Input Voltage (V) 3.0 2.7 50 4.2 3.9 3.6 3.3 Input Voltage (V) 3.0 2.7 Efficiency -- 100mA 100 VOUT = 3.3V, IOUT = 100mA 100 Efficiency -- 200mA VOUT = 3.3V, IOUT = 200mA 90 1x Mode Efficiency(%) 90 1x Mode Efficiency(%) 80 Mode Transition Hysteresis 1.5x Mode 60 80 Mode Transition Hysteresis 1.5x Mode 60 2x Mode 70 70 50 4.2 3.9 3.6 3.3 Input Voltage (V) 3.0 2.7 50 4.2 3.9 3.6 3.3 Input Voltage (V) 3.0 2.7 Efficiency -- 300mA 100 VOUT = 3.3V, IOUT = 300mA Efficiency -- 400mA 100 VOUT = 3.3V, IOUT = 400mA 1x Mode 88 1x Mode 88 Efficiency(%) 76 Efficiency(%) Mode Transition Hysteresis 76 1.5x Mode 1.5x Mode 64 64 Mode Transition Hysteresis 52 2x Mode 52 2x Mode 40 4.2 3.9 3.6 3.3 Input Voltage (V) 3.0 2.7 40 4.2 3.9 3.6 3.3 Input Voltage (V) 3.0 2.7 6 SC630 Typical Characteristics (continued) Ripple -- 1x Mode VIN=3.6V, VOUT=3.3V, IOUT=400mA Ripple -- 1.5x Mode VIN=3.2V, VOUT=3.3V, IOUT=400mA VIN -PP (20mV/div) VIN -PP (100mV/div) VOUT -PP (20mV/div) IOUT (200mA/div) 400mA VOUT -PP (50mV/div) IOUT (200mA/div) 400mA CIN=COUT=22F (0805) 0mA Time (10s/div) C1=C2=2.2F (0603) 0mA CIN=COUT=22F (0805) C1=C2=2.2F (0603) Time (10s/div) Ripple -- 2x Mode VIN=2.85V, VOUT=3.3V, IOUT=400mA Startup (No Load) VIN=3.6V, IOUT=0mA VIN -PP (50mV/div) VEN (2V/div)- 0V-- VOUT -PP (50mV/div) IOUT (200mA/div) 400mA VOUT (2V/div)- 0V-- CIN=COUT=22F (0805) CIN=COUT=22F (0805) 0mA Time (10s/div) C1=C2=2.2F (0603) IOUT (200mA/div)- 0V-- C1=C2=2.2F (0603) Time (200s/div) Startup (400mA) VIN=3.6V, IOUT=400mA 2.25 Quiescent Current VOUT = 3.3V, IOUT = 1mA 2.00 VEN (2V/div)- 0V -- IQ(mA) 1.75 VOUT (2V/div)- 0V-- 1.50 25C 1.25 -45C 85C IOUT (200mA/div)- 0V-- CIN=COUT=22F (0805) C1=C2=2.2F (0603) Time (200s/div) 1.00 0.75 5.50 4.98 4.46 VIN (V) 3.94 3.42 2.90 7 SC630 Pin Descriptions Pin 1 2 3 4 5 6 7 8 T Pin Name GND C1+ C1IN EN OUT C2+ C2Thermal Pad Pin Function Ground -- connect to ground plane with multiple vias Positive terminal of bucket capacitor 1 Negative terminal of bucket capacitor 1 Input supply voltage Chip enable -- active-high Output Positive terminal of bucket capacitor 2 Negative terminal of bucket capacitor 2 This pad is for heat sinking and is not connected internally. It must be connected to a ground plane using multiple vias. 8 SC630 Block Diagram IN 4 LDO 200kHz 2 C1+ 3 C17 C2+ EN 5 Logic Control CHARGE PUMP 8 C26 OUT Reference Voltage Generator 1 GND 9 SC630 Applications Information General Description The SC630 is a 3.3V output charge pump regulator designed to support up to 400mA (TA 85C, 3.15V VIN 5.5V) of continuous current. It is used for powering Micro HDDs (Hard Disk Drives) and other 3.3V devices in portable handheld equipment including Compact Flash and CF+ products. The SC630 has three operating modes -- 1x, 1.5x, and 2x. The 1x mode is a linear series regulation mode with a low output resistance of only 300m. The 1x mode functions as a low noise series linear regulator. The 1.5x and 2x modes are a low noise constant frequency, constant duty cycle switch mode, using two bucket capacitors. One bucket supports the full output current while the other bucket charges from the input. The two buckets exchange roles in the next phase, supplying continuous output current in both phases and reducing the need for a large output decoupling capacitor. The constant frequency, constant duty cycle operation also produces predictable constant frequency harmonics. page 6 to determine if 2x mode is required by the application. The data provided in the following derating curve for 2x mode is based on the peak power dissipation that could occur while in 2x mode. 1x and 1.5x modes do not require derating. 450 400 350 IOUT (mA) Derating for applications requiring only 1x and 1.5x modes 300 250 200 150 100 35 45 55 65 75 85 Ambient Temperature (C) 95 105 Derating for applications requiring 2x mode Maximum Continuous Output Mode Transition Hysteresis Hysteresis is provided to prevent chatter between charge pump modes for input steps of up to 120mV. Decouple the input to prevent steps greater than 120mV, for optimum transient performance, when the input voltage reaches the mode transition thresholds. Protection Circuitry The SC630 also provides protection circuitry that prevents the device from operating in an unspecified state. These functions include: Thermal Resistance The SC630 package is thermally efficient when the circuit board layout connects the thermal pad through multiple vias to the ground plane. The thermal resistance is dependent upon the connection between the thermal pad and the ground plane. A layout that is done correctly should keep the junction temperature below the over-temperature limit while operating the SC630 within the specified electrical conditions. A poor layout may allow the junction temperature to reach the over temperature limit, so it is important to maintain adequate ground plane around the device to maximize heat transfer to the PCB. * * * Over-Current Protection (OCP) Short-Circuit Current Protection (SCCP) Over-Temperature Protection (OTP) Over-Current Protection Over-current protection is provided to limit the output current. When VOUT is greater than 2V, OCP limits the output to 1A typical. The threshold at 2V allows the device to recover from excessive voltage droop during an over current. Short-Circuit Current Protection Short-circuit current protection is provided to limit the current that can be sourced when the output is shorted to ground. When a short circuit forces VOUT to drop below 2V, the SCCP detects the condition and limits the output current to 250mA (typical). Temperature Derating The load current and battery voltage range of the application should be compared with the efficiency plots on 10 SC630 Applications Information (continued) Over-Temperature Protection The over-temperature circuit helps prevent the device from overheating and experiencing a catastrophic failure. When the junction temperature exceeds 165C the device is disabled. It remains disabled until the junction temperature drops below this threshold. Hysteresis is included that prevents the device from re-enabling until the junction temperature is reduced by 20C. The following capacitors are recommended for best performance. Use only X5R ceramic with a voltage rating of 6.3V or higher. Table 1 -- Recommended Capacitors Capacitor Value F Case Size Notes Typical output VPP 20mV in all charge pump modes CIN , COUT 22 0805 Typical input ripple 100mV in all charge pump modes Typical performance is similar to the 22uF if 0805 capacitor size is used, due to the weaker DC voltage coefficient of the 22uF 0805. Typical output VPP as high as 75mV in boosting charge pump modes Typical input ripple as high as 175mV in boosting charge pump modes For a lower profile design, two 10uF 0603's may be substituted in place of one 10uF or 22uF 0805. Two are needed, due to the weaker DC voltage coefficient of the 0603 package size. CBUCKET CBUCKET CBUCKET 2.2 0603 Required for the full rated output current Useful for load current up to 300mA Useful for load current up to 100mA Capacitor Selection The SC630 is designed to use low-ESR ceramic capacitors for the input and output bypass capacitors as well as the charge pump bucket capacitors. Ideal performance is achieved when the bucket capacitors are exactly equal. The value of input and output decoupling capacitors will vary with system requirements. CIN and COUT are normally 22F and the bucket capacitors C1 and C2 are 2.2F. For low profile designs, two parallel 10F capacitors may be used in place of each 22F. For applications with load currents below 100 mA, the bucket capacitors may be reduced to 1F and the input and output capacitors may be reduced to 10F. The following table lists recommended capacitor values. Note that the smallest available capacitor packages have very poor DC voltage characteristics. 0402 and 0603 size capacitors may be as low as 50% of rated value at 3.3V. CIN , COUT 10 0805 CIN , COUT 10 0603 2.2 0402 1.0 0402 NOTE: Use only X5R type capacitors, with a 6.3V rating or higher The highest capacitance values in the smallest package sizes tend to have poor DC voltage characteristics. The highest value 0402 size capacitor retains as little as 35% of its rated value at 5VDC. The same value chosen in the next larger package size (0603) retains about 60% of its rated value at 5VDC. 11 SC630 Applications Information (continued) PCB Layout Considerations Poor layout can degrade the performance of the regulator and can be a contributory factor in EMI problems, ground bounce, thermal issues, and resistive voltage losses. Poor regulation and instability can result. The following design rules are recommended: 1. Place the bucket capacitors as close to the device as possible and on the same side of the board. Use short wide copper areas between the capacitor pins and the device pins. 2. Place the input and output decoupling capacitors as close as possible to the device and connect these capacitors' ground pads together to the ground plane using multiple vias through a short wide copper area. 3. Connect pin 1 directly to the copper area under the thermal pad. 4. The thermal pad at the center of the device is not electrically connected. Connect this pad to the ground plane using multiple vias. 5. Use a ground plane to further reduce noise interference on sensitive circuit nodes. SC630 GND C2C2+ GND OUT EN C2 C1 C1+ C1IN COUT CIN EN 12 SC630 Outline Drawing -- MLPD-UT-8 2x2 A D B DIMENSIONS DIM PIN 1 INDICATOR (LASER MARK) E A A1 A2 b D D1 E E1 e L N aaa bbb INCHES MIN .020 .000 .007 .075 .061 .075 .026 NOM (.006) .010 .012 .079 .083 .067 .071 .079 .083 .031 .035 .020 BSC .012 .014 .016 8 .003 .004 MAX .024 .002 MILLIMETERS MIN 0.50 0.00 NOM MAX 0.60 0.05 0.30 2.10 1.80 2.10 0.90 0.40 A aaa C A1 A2 C SEATING PLANE (0.1524) 0.18 0.25 1.90 2.00 1.55 1.70 1.90 2.00 0.65 0.80 0.50 BSC 0.30 0.35 8 0.08 0.10 D1 1 LxN E/2 E1 2 N bxN e e/2 D/2 bbb C AB NOTES: 1. 2. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). COPLANARITY APPLIES TO THE EXPOSED PAD AS WELL AS THE TERMINALS. 13 SC630 Land Pattern -- MLPD-UT-8 2x2 H R DIM C G (C) K G Z H K P R Y X Y P X Z DIMENSIONS INCHES (.077) .047 .067 .031 .020 .006 .012 .030 .106 MILLIMETERS (1.95) 1.20 1.70 0.80 0.50 0.15 0.30 0.75 2.70 NOTES: 1. 2. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). THIS LAND PATTERN IS FOR REFERENCE PURPOSES ONLY. CONSULT YOUR MANUFACTURING GROUP TO ENSURE YOUR COMPANY'S MANUFACTURING GUIDELINES ARE MET. THERMAL VIAS IN THE LAND PATTERN OF THE EXPOSED PAD SHALL BE CONNECTED TO A SYSTEM GROUND PLANE. FAILURE TO DO SO MAY COMPROMISE THE THERMAL AND/OR FUNCTIONAL PERFORMANCE OF THE DEVICE. 3. Contact Information Semtech Corporation Power Management Products Division 200 Flynn Road, Camarillo, CA 93012 Phone: (805) 498-2111 Fax: (805) 498-3804 www.semtech.com 14 |
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