PDF SC220Q Data sheet ( Hoja de datos )

Número de pieza	SC220Q
Descripción	Synchronous Step-Down Regulator
Fabricantes	Semtech
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SC220 x SC220Q POWER MANAGEMENT 20MHz, 650mA, X-EMI™-Enabled Synchronous Step-Down Regulator Features  Patented X-EMITM Inductor Technology  Enables Trace Inductors in PC Board Material  Excellent EMI Performance  Efficiency up to 90%  19µA Quiescent Current under Very Light Loads  Wide Input Voltage Range — 2.7V to 5.5V  Adjustable Output Voltage Down to 1.0V  Output DC Current — up to 650mA  High Light-load Efficiency via Automatic PSAVE Mode  Ultra-fast Transient Response — <1µs  Temperature Range — -40 to +85°C  Shutdown Current — 0.1µA (typical)  Requires Tiny 220nH Inductor  Requires Only 1μF of Output Capacitance  External Switching Frequency Synchronization  Protection Features Including  Over-Current Protection  Output Short-Circuit Protection  Thermal Shutdown Protection  Offered in SOIC 8 Lead Package  Lead-free, halogen-free, and RoHS/WEEE Compliant  AEC-Q100 Qualified Version Available Applications  HDTV, Set Top Boxes, Gaming Consoles  POL Applications  White Goods  Automotive AEC-Q100 Qualified Applications Typical Application Circuit Description The SC220/Q is a 20MHz X-EMI™(1)-enabled step-down regulator optimized for power low voltage rails from 2.7 to 5.5V input voltage. X-EMI™ inductor technology enables inductors to be drawn directly on the PC board. This technology meets or exceeds the EMI performance of chip inductors and eliminates the need for discrete inductors. The SC220/Q uses a unique constant frequency, self- oscillating control loop architecture to provide excellent transient performance. Under light loads, the device operates in Power Save mode(PSAVE) maintaining a typical quiescent current of 19µA. At moderate to heavy loads, this part operates in PWM mode with a constant switching frequency of 20MHz. This high switching fre- quency offers the advantages of using small and low cost external components like a 1µF external capacitor and a small 220nH inductor (including X-EMITM PCB trace inductors). http://www.DataSheet4U.net/ The device provides adjustable output voltages down to 1.0V and an output current up to 650mA. An EN pin can be used to synchronize to an external source and includes de-glitching to reduce noise sensitivity. The SC220/Q is available in SOIC 8 lead package. The SC220Q is an AEC-Q100 qualified version. Note 1: Purchase of SC220/Q includes royalty-free right to use X-EMITM inductor technology with no addi- tional cost. V IN 2.7~5.5V C IN 1 µF E n a b le P V IN SW A V IN VOUT SC220 SC220Q EN PGND AGND FB L, 220nH V OUT= 1 .8 V up to 650mA R1 COUT 1 µF R2 January 15, 2013 datasheet pdf - http://www.DataSheet4U.net/ 1 page SC220 x SC220Q Pin Descriptions Pin # Pin Name Pin Function 1 SW Switching output node — connect to the output LC filter. 2 PVIN Power input supply voltage (2.7 to 5.5V). 3 VOUT Input for sensing the output of LC filter. 4 FB Input for regulation of output LC filter — Using R1 and R2 to set the output voltage, VOUT = VFB x (1+ R1/R2). (Please refer to the typical application circuit diagram on page 1). 5 EN Enable Input — when low, circuit draws <1µA. Apply a square wave clock at EN to synchronize the switching frequency with an external clock. It is recommended that the externally applied clock frequency should not be above 20MHz. 6 AVIN Input supply voltage 7 AGND Analog ground 8 PGND Power ground Block Diagram EN 8 REF 1.0V OSC Therm al S hutdow n E xternal Freq . S ynchronization 20 M H z F re q u e n c y C ontrol http://www.DataSheet4U.net/ AVIN 7 S oft-S tart C LIM 1 .0 V + E rror FB 1 Amp - + C om p - C ontrol Logic D river ZCD 6 AGND C om pensator 5 PGND PVIN 3 4 SW 2 VOUT datasheet pdf - http://www.DataSheet4U.net/ 5 Page SC220 x SC220Q Applications Information (Cont.) PCB Layout Considerations Fundamental layout rules must be followed since the layout is critical for achieving the desirable performance. Poor layout can degrade the performance of the DC-DC converter and can contribute to EMI problems, ground bounce, and resistive voltage losses, and possibly poor regulation and instability. The following guidelines are recommended when devel- oping a PCB layout: . The input capacitor, CIN should be placed as close to the PVIN and PGND pins as possible. This capacitor provides a low impedance loop for the pulsed currents present at the buck converter’s input. Use short wide traces to connect this capacitor as close to the IC as possible. This will minimize EMI and input voltage ripple by localizing the high frequency current pulses. 2. Keep the SW pin traces as short as possible to minimize pickup of high frequency switching edges to other parts of the circuit. COUT and L should be connected as close as possible between the SW and GND pins, with a direct return to the GND pin from COUT. 3. Route the output voltage feedback/sense path away from the inductor and SW node to minimize noise and magnetic interference to the output feedback/ sense path. 4. Use a ground plane referenced to the PGND pin, and the ground connection of the input and output capacitors should be put on this plane and close to each other if possible, and as close to the PGND pin as possible. Use several vias to connect to the component side ground to further reduce noise and interference on sensitive circuit nodes. 5. If possible, minimize the resistance from the VOUT and AGND pin to the load. This will reduce the voltage drop on the ground plane and improve the load regulation. And it will also improve the overall efficiency by reducing the copper losses on the output and ground planes. http://www.DataSheet4U.net/ 11 datasheet pdf - http://www.DataSheet4U.net/ 11 Page

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