SC605

POWER MANAGEMENT Description The SC605 is a high-current charge pump designed specifically for use with white LEDs used in camera flash applications. Only two small bucket capacitors are required to develop the output drive, providing a low EMI solution compared to inductive boost regulators. The SC605 has two modes of operation: Flash mode and Spotlight mode. In Flash mode, the SC605 is capable of delivering 500mA of regulated current for a duration of 500ms or up to 700mA for a reduced duration. In Spotlight mode the SC605 can output 20%, 30%, or 40% of the Flash mode current and remain enabled continuously. An external resistor is connected in series with the LED to set the current. In Flash mode, this resistor can dissipate up to 0.75mW, reducing the power dissipation requirement of the SC605. The Flash input (FLASH) overrides the control inputs (CTRL0 and CTRL1) to ensure the Flash function has the highest priority. The thermally efficient MLPD-12 package and ceramic bypass and bucket capacitors help make the SC605 a high output current driver that requires a minimal amount of PCB area. Typical Application Circuit Charge Pump Flash LED Driver Features SC605  selectable modes - Flash and Spotlight Two  to 700mA output - Flash mode Up  to 280mA output - Spotlight mode Up  500mA output over specified temperature and voltage ranges - Flash mode  Spotlight mode selectable to 20%, 30% and 40% of Flash current  3.0V to 5.25V input range  Flash control pin for synchronization to a camera module or graphics controller  Short circuit, over-voltage and over-temperature protection  Soft-start functionality  Three control inputs for maximum versatility  Shutdown current < 2μA  Micro-lead package MLPD-12, 3mm x 3mm Applications  Mobile Camera Phones  Digital Cameras  PDAs with Built-in Cameras Typical Application Circuit SC605 1 VIN VOUT 11 VBAT 0µF 3 GND ISET C1+ 7 10 4 12 2 µF white LED FLASH CTRL0 CTRL 6 8 9 5 FLASH CTRL0 CTRL1 NC C1C2+ C2- µF 0.5W µF December , 2005  www.semtech.com SC605 POWER MANAGEMENT Absolute Maximum Ratings Exceeding the specifications below may result in permanent damage to the device or device malfunction. Operation outside the parameters specified in the Electrical Characteristics section is not implied. Exposure to Absolute Maximum rated conditions for extended periods of time may affect device reliability. Parameter Supply Voltage Output Voltage Pin Voltage - FLASH, CTRL0, CTRL1, ISET, C1-, C2Pin Voltage - C1+, C2+ VOUT Short Circuit Duration Thermal Resistance, Junction to Ambient (JESD51 Standard Method)(1) Operating Ambient Temperature Range Junction Temperature Range Storage Temperature Range IR Reflow Temperature ESD Protection Level(2) Symbol VIN VOUT Maximum -0.3 to 6.5 -0.3 to 6.5 -0.3 to VIN + 0.3 -0.3 to VOUT + 0.3 Units V V V V SC θJA TA TJC TSTG TLEAD VESD Indefinite 40 -40 to +85 -40 to +150 -65 to +150 260 2 °C/W °C °C °C °C kV Notes: 1) Calculated from package in still air, mounted to 3” x 4.5”, 4 layer FR4 PCB with thermal vias under the exposed pad per JESD51 standards. 2) Tested according to JEDEC standard JESD22-A114-B Electrical Characteristics Unless otherwise specified: TA = 25°C for TYP, -40°C to +60°C for MIN and MAX; CIN = 0µF, CBUCKET = COUT = 1.0µF (ESR < 0.1Ω); VIN = 3.0V to 5.25V; VOUT = 2.8V to 4.25V; RISET = 0.5Ω 0.1%. Parameter Symbol Conditions FLASH high, RISET = 0.357W, 3.7V < VIN < 4.2V, VOUT = 3.7V (1) Min Typ 700 Max Units Flash Mode Output Current IOUT FLASH high, RISET = 0.5W, 3.3V < VIN < 4.2V, 2.8V < VOUT < 4.25V FLASH low, CTRL0 high, CTRL1 high, RISET = 0.357W, 3.7V < VIN < 4.2V, VOUT = 3.4V (1) FLASH low, CTRL0 high, CTRL1 high, RISET = 0.5W, 3.0V < VIN < 4.5V, 2.8V < VOUT < 4.5V 460 500 280 540 mA 170 120 70 200 150 100 230 180(2) 130(2) Spotlight Mode Output Current IOUT FLASH low, CTRL0 low, CTRL1 high, RISET = 0.5W, 3.0V < VIN < 4.5V, 2.8V < VOUT < 4.5V FLASH low, CTRL0 high, CTRL1 low, RISET = 0.5W, 3.0V < VIN < 4.5V, 2.8V < VOUT < 4.5V  2005 Semtech Corp. 2 www.semtech.com SC605 POWER MANAGEMENT Electrical Characteristics (Cont.) Parameter Flash Mode ISET Reference Voltage Symbol VISET Conditions FLASH high, RISET = 0.5W, 3.3V < VIN < 4.2V, 2.8V < VOUT < 4.25V FLASH low, CTRL0 high, CTRL1 high 3.0V < VIN < 4.5V, 2.8V < VOUT < 4.5V Spotlight Mode ISET Reference Voltage VISET FLASH low, CTRL0 low, CTRL1 high 3.0V < VIN < 4.5V, 2.8V < VOUT < 4.5V FLASH low, CTRL0 high, CTRL1 low 3.0V < VIN < 4.5V, 2.8V < VOUT < 4.5V Quiescent Current FLASH High IQ FLASH low, CTRL0 and/or CTRL1 High FLASH low, CTRL0 low, CTRL1 Low Flash Mode Pulse Duration (4) Flash Mode Start-Up Time (4) Spotlight Mode Start-Up Time (4) Oscillator Frequency Oscillator Frequency Accuracy Short-Circuit Ouput Current Limit Input Current Limit Over-Temperature Protection (4) Logic Input High Threshold Logic Input Low Threshold Logic Input High Current Logic Input Low Current ISET Ripple Voltage(4) tFLASH tF-ST tS-ST fOSC DfOSC ISC ILIMIT TOT Hysteresis VIH VIL IIH IIL VPP FLASH, CTRL0, CTRL1 FLASH, CTRL0, CTRL1 FLASH, CTRL0, CTRL1 FLASH, CTRL0, CTRL1 Spotlight Mode, IOUT = 200mA Flash Mode, IOUT = 500mA 1 20 0.1 25 100 VOUT = 0V 3.3V < VIN < 4.2V VIN = 3.7V, VOUT = 3.7V, TA = 25°C 1.0 1.38 150 10 1.5 0.4 35 2 1.53 3.3V < VIN < 4.2V IOUT = 500mA from t = 0 when FLASH goes high to IOUT = 90% of final value from t = 0 when CTRL0 and/or CTRL1 transition high to IOUT = 90% of final value Device Enabled -15 250 15 465 2.1 Min 230 85 60 35 Typ 250 100 75 50 3.4 2.0 0.1 Max 270 115 mV 90(3) 65(3) 5 4.5 2 500 1 1 mA mA µA ms ms ms kHz % mA Units A °C °C V V µA µA mV Notes: (1) VOUT required by the typical LED at this current. (2) Values do not overlap with the next higher spotlight mode for any single device. Expect Spotlight Modes to be separated by about 50mA. (3) Values do not overlap with the next higher spotlight mode for any single device. Expect Spotlight Modes to be separated by about 25mV. (4) Guaranteed by design - not tested in production.  2005 Semtech Corp. 3 www.semtech.com SC605 POWER MANAGEMENT Pin Configuration Ordering information DEVICE PACKAGE MLPD-12 3x3 Evaluation Board SC605MLTRT(1)(2) SC605EVB VIN C2GND CNC FLASH  2 3  5 6 T MLPD - 12: 3X3 12 LEAD TOP VIEW 2 C2+  VOUT 0 C+  8 7 CTRL CTRL0 ISET Notes: (1) Available in Tape and Reel only. A reel contains 3000 devices. (2) Available in lead-free package only. This product is fully WEEE and RoHS compliant. Pin Descriptions Pin 1 2 3 4 5 6 7 8 9 10 11 12 T Pin Name VIN C2GND C1NC FLASH ISET CTRL0 CTRL1 C1+ VOUT C2+ Thermal Pad Pin Function (also see Suggested Layout guidelines on page 10) Input voltage. Decouple with a 10µF or larger ceramic capacitor near pin 1. Negative terminal of bucket capacitor 2 - use a 1µF ceramic capacitor. Ground - connect through multiple vias to the ground plane. Negative terminal of bucket capacitor 1 - use a 1µF ceramic capacitor. Not connected - leave this pin floating. Flash mode enable pin - puts the device in active Flash mode when high. Current-setting reference pin - connect to the LED cathode and the current setting resistor. Control input bit 0 - used with CTRL1 to enable and set the output current in Spotlight mode (see Table 1). Control input bit 1 - used with CTRL0 to enable and set the output current in Spotlight mode (see Table 1). Positive terminal of bucket capacitor 1 - use a 1µF ceramic capacitor. Output pin - connect to LED anode. Decouple with a 1µF ceramic capacitor near pin 11. Positive terminal of bucket capacitor 2 - use a 1µF ceramic capacitor. Pad for heat sinking purposes - not connected internally. Connect to ground plane using multiple vias.  2005 Semtech Corp.  www.semtech.com SC605 POWER MANAGEMENT Applications Information General Operation The SC605 is a powerful 2x charge pump designed to drive a high-intensity white LED with a constant current (Spotlight mode) or with a pulsed current of higher intensity (Flash mode) used for camera flash. In Flash mode the SC605 output can drive 500mA at 4.25V into an LED for up to 500ms. The FLASH pin is used to trigger Flash mode. In spotlight mode the SC605 regulates the output current to the value selected by the CTRL0 and CTRL1 inputs. Note that Flash mode has priority over Spotlight mode, i.e., the FLASH pin triggers Flash mode regardless of the state of the CTRL0 and CTRL1 pins. Output current is regulated by attaching the ISET pin to the cathode(s) of the LED package and a load sense resistor (typically 0.5W). The ISET pin monitors the voltage at the cathode and signals the charge pump to increase or decrease the output current until the ISET voltage reaches the programmed setting. Programmed settings are shown in Table 1: CTRL1 0 0 1 1 x CTRL0 0 1 0 1 x FLASH 0 0 0 0 1 VISET 0mV 50mV 75mV 100mV 250mV Mode Disabled Spotlight Spotlight Spotlight Flash Flash Mode Flash mode is enabled whenever the FLASH pin is pulled high and remains active until the FLASH pin is released. While in Flash mode the reference voltage on the ISET pin is set to 250mV. During Flash mode the charge pump develops enough output current to drive an LED with 500mA for a duration up to 500ms. The duration of the pulse is limited by the amount of power that can be dissipated in the SC605 before it exceeds the maximum operating temperature. Note that if an output current less than the rated 500mA is desired the duration of the pulse can increase proportionally. However, great care should be taken to insure the FLASH pin is not held high for an extended amount of time so that overheating does not occur. Extending flash mode beyond the 500ms pulse limit could adversely affect the long-term reliability of the SC605. Flash duration must be derated at higher currents, for example, 700mA derates to a maximum of 350ms. The plot below shows maximum Flash mode current for extended duration times. 800 700 600 Flash Current [mA] 500 400 300 200 100 0 0 500 1000 1500 2000 Flash Duration [ms] Table 1 - Control State Table The resistor value is chosen to set the current through the LED based on this reference voltage. The resistor should not be less than 0.35W due to the output current limitations of the device. Note that the resistor sets both the Flash mode current and the Spotlight mode current. In Flash mode, IOUT = VISET / RISET = 250mV / RISET. In Spotlight mode, IOUT = VISET / RISET. Spotlight Mode Spotlight mode is enabled by setting the CTRL0 and CTRL1 pins as shown in Table . When in Spotlight mode, the SC605 can maintain a constant current indefinitely to drive an LED or bank of LEDs. The ISET pin voltage is the reference VISET and has three different settings - 50mV, 75mV, and 100mV. These settings allow the designer the flexibility to select the output level needed to suit the application.  2005 Semtech Corp. 5 Maximum Flash Duration Protection Circuitry The SC605 also provides protection circuitry that prevents the device from operating in an unspecified state. These include Input Over-Voltage Protection (IOVP), Output OverVoltage Protection (OVP), Over-Temperature Protection (OTP), Over-Current Protection (OCP), and Short-Circuit Current Protection (SCCP). Input Over-Voltage Protection Input over-voltage protection is included to prevent operation at high input voltages that could damage the device. The IOVP circuit senses the input voltage and determines when the supply exceeds 6V. When the voltage rises above this threshold, the device is disabled until the input voltage drops to a level within the specified input range. Hysteresis is included in this circuit to avoid chattering between states. www.semtech.com SC605 POWER MANAGEMENT Applications Information (Cont.) Output Over-Voltage Protection Output over-voltage protection is included to prevent the SC605 from generating an output voltage that could damage other devices connected to it such as load LEDs and bypass capacitors. When the output voltage exceeds 5.5V, the OVP circuit disables the charge pump until the voltage decreases to a level within the acceptable range. This circuit allows the device to drive LEDs with high forward volt ages at a reduced level without exceeding the output voltage limits specified for the device. This is a consequence of over-voltage protection, not the function of OVP. Over-Temperature Protection The OT circuit helps prevent the device from overheating and experiencing a catastrophic failure. When the junction temperature exceeds 150°C the device is disabled. It remains disabled until the junction temperature drops below this threshold. As with the OVP circuit, hysteresis is included to prevent toggling between states. Over-Current Protection When the SC605 is in 2X charge pump mode, the input current will be approximately double the required output. When the steady-state load requires the maximum current available in 2X mode, the OCP circuit prevents the device from overheating due to excessive power dissipation. Short-Circuit Current Protection SCCP is provided to limit the current that can be sourced when the output is shorted to ground. When the output voltage drops below 2V, the SCCP detects the condition as a short to ground and limits the output current. Resistor Selection The ISET resistor selection is critical to generating the correct current. The value can be chosen to set the Spotlight mode current or the Flash mode current, but it must be noted that the two current settings are dependent on the same resistor. It is recommended that the resistor be selected to match the LEDs desired current for Flash mode. This will allow the designer to set the maximum current out of the SC605. The typical application circuit shown on page  uses a 0.5W resistor to set a Flash mode current of 500mA and Spotlight mode options of 100mA, 150mA, and 200mA. A precision resistor should be used to ensure the specified accuracy for LED current. To avoid malfunction of the charge pump, it is recommended that the resistance seen at the ISET pin remain constant while the device is active (Flash or Spotlight mode). Changing the resistance value or the load current while the device is active could cause instability or voltage transients that would result in non-compliant behavior. The load current return path is from the ISET sense point through the resistor and back to the ground pin. Resistance in this path adds to the total resistance and has the effect of reducing the LED current by about 4% per 10mV of DC drop across the return copper trace in Flash mode. For this reason, it is crucial to have a low resistance return path. Place and ground the resistor as close as possible to the ground pin of the SC605. The trace from ISET has virtually no current. The ISET trace should make contact at the pad of the power sense resistor to minimize the effect of voltage drop between the LED cathode and the resistor. Capacitor Selection The SC605 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 C1 is exactly equal to C2. It is recommended that X5R or X7R ceramic capacitors be used for best performance. Thermal Resistance The SC605 package is thermally efficient when the circuit board layout connects the thermal pad through multiple vias to the ground plane. The thermal resistance is rated at 0°C/W, but this rating is dependent on the connection between the thermal pad and the ground plane. A layout that is done correctly should keep the junction temperature below the OT limit while operating the SC605 within the specifed electrical conditions for IOUT and VISET. A poor layout may allow the junction temperature to reach the OT limit while in Flash or Spotlight mode.  2005 Semtech Corp. 6 www.semtech.com SC605 POWER MANAGEMENT Block Diagram VIN 0µF VBAT LDO C+ µF CC2+ 250kHz CTRL0 CTRL FLASH CTRL0 CTRL FLASH Logic Control µF CHARGE PUMP C2VOUT white LED µF GND Reference Voltage Generator NC ISET 0.5W Figure 1 - SC605 Block Diagram with Support Components  2005 Semtech Corp. 7 www.semtech.com SC605 POWER MANAGEMENT Typical Characteristics 510 Flash Duration, RISET=500mW, VOUT=3.52V(start) to 3.38V(LED heated 500ms) Flash Current at 500ms, RISET= 500mW, VOUT=3.38V 540 LED Current [mA] 505 VIN=4.2V 520 500 VIN=3.3V VIN=3.7V 495 490 0 100 200 300 400 500 Current [mA] 500 480 460 3.30 3.45 3.60 3.75 3.90 4.05 4.20 Pulse Duration [ms] VIN [V] 755 Flash Duration, RISET=350mW, VOUT=3.62V (start) to 3.40V(LED heated 500ms) Flash Current at 100ms, RISET=500mW, VOUT=3.46V 540 735 VIN=4.2V 520 Current [mA] VIN=3.7V 715 Current [mA] 400 500 500 695 VIN=3.3V 480 675 0 100 200 300 460 3.30 3.45 3.60 Time [ms] VIN [V] 3.75 3.90 4.05 4.20 200mA Spotlight Current, RISET=500mW, VOUT=3.0V 212.5 Flash Current at 10ms, RISET=500mW, VOUT=3.52V 540 207.5 520 Current [mA] Current [mA] 202.5 500 197.5 480 192.5 187.5 3.00 3.45 3.90 4.35 4.80 5.25 460 3.30 3.45 3.60 3.75 3.90 4.05 4.20 VIN [V] VIN [V]  2005 Semtech Corp. 8 www.semtech.com SC605 POWER MANAGEMENT Typical Characteristics (Cont.) Flash Current at 350ms, RISET=350mW, VOUT=3.45V 755 Flash Mode VISET Ripple 735 Current [mA] 715 695 675 3.30 3.45 3.60 VIN [V] 3.75 3.90 4.05 4.20 Ch 00mV/div Ch2 2V/div Ch3 2V/div us/div Flash Current at 100ms, RISET=350mW, VOUT=3.53V 755 Startup Flash Mode 500mA 735 Current [mA] 715 695 675 3.30 Ch 00mV/div Ch2 2V/div Ch3 2V/div 0us/div 3.45 3.60 3.75 3.90 4.05 4.20 VIN [V] Flash Current at 10ms, RISET=350mW, VOUT=3.62V 755 100mA Spotlight Current, RISET=500mW, VOUT=2.92V 115.0 110.0 735 Current [mA] Current [mA] 105.0 715 100.0 95.0 695 90.0 675 3.30 3.45 3.60 3.75 3.90 4.05 4.20 85.0 3.00 3.45 3.90 4.35 4.80 5.25 VIN [V] VIN [V]  2005 Semtech Corp.  www.semtech.com SC605 POWER MANAGEMENT Suggested Layout The following layout is suggested for a two layer design with one component side. The capacitors C and C2 are the bucket capacitors and each of these capacitors conducts the full load current of up to 700mA pulsed on for one half clock cycle per capacitor. C3 is the output decoupling capacitor, placed near the SC605. C is the input decoupling capacitor, placed near the SC605. Multiple vias should be used whenever it is necessary to change layers on nets connecting to pins VIN, VOUT, GND, C1-, C1+, C2-, C2+. Resistor R1 is routed with a very low resistance connection between ISET and GND pin 3. The sense trace between pin 7 and R1 is connected to R1 at the terminal pad for the most accurate sensing possible. The bottom copper layer is primarily a ground plane providing a return path between the ground vias at R1 and the ground vias connecting pin 3 to the ground plane. The SC605’s center thermal pad is tied to the ground plane through a heat spreading copper shape with multiple vias. There are 0 vias shown in this layout connecting the thermal pad and pin 3 together to the ground plane. All 0 vias help spread heat and conduct ground current. Note that the thermal pad does not conduct current. Pin 3 conducts the full ground current. Four signal traces routed on the bottom layer are CTRL1, CTRL0, FLASH and ISET. These traces are routed horizontally on the bottom layer. Carefully route these traces so they do no block the ground path from R1 to the ground pin 3. Top Copper Bottom Copper  2005 Semtech Corp. 0 www.semtech.com SC605 POWER MANAGEMENT Outline Drawing - MLPD-12 Pin A D B DIMENSIONS INCHES MILLIMETERS DIM MIN NOM MAX MIN NOM MAX A A1 A2 b D D1 E E1 e L N aaa bbb .039 .002 (.008) .006 .008 .010 .114 .118 .122 .074 .079 .083 .114 .118 .122 .042 .048 .052 .018 BSC .012 .016 .020 12 .003 .004 .031 .000 1.00 0.05 (0.20) 0.15 0.20 0.25 2.90 3.00 3.10 1.87 2.02 2.12 2.90 3.00 3.10 1.06 1.21 1.31 0.45 BSC 0.30 0.40 0.50 12 0.08 0.10 0.80 0.00 E PIN 1 INDICATOR (LASER MARK) A aaa C D1 1 LxN E/2 E1 2 e/2 A1 A2 SEATING PLANE C N e D/2 bxN bbb CAB NOTES: 1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). 2. COPLANARITY APPLIES TO THE EXPOSED PAD AS WELL AS TERMINALS. Marking Information Top Marking 605 yyww xxxxx yyww = Datecode (Example: 0552) xxxxx = Semtech lot number  2005 Semtech Corp.  www.semtech.com SC605 POWER MANAGEMENT Land Pattern - MLPD-12 Pin K DIM G Y Z C G H K P X Y Z DIMENSIONS INCHES MILLIMETERS (.112) .075 .055 .087 .018 .010 .037 .150 (2.85) 1.90 1.40 2.20 0.45 0.25 0.95 3.80 (C) H X NOTES: 1. P THIS LAND PATTERN IS FOR REFERENCE PURPOSES ONLY. CONSULT YOUR MANUFACTURING GROUP TO ENSURE YOUR COMPANY'S MANUFACTURING GUIDELINES ARE MET. 2. 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. Contact Information Semtech Corporation Power Management Products Division 200 Flynn Road, Camarillo, CA 93012 Phone: (805) 498-2111 FAX (805)498-3804  2005 Semtech Corp. 2 www.semtech.com