TD8228

Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 General Description Features TD8228 is a high efficiency, current-mode control Boost DC to DC regulator with an integrated 120mΩ RDS(ON) N-channel MOSFET. The fixed 1MHz switching frequency and internal compensation reduce external component count and save the PCB space. The build-in internal soft start circuitry minimizes the inrush current at start-up.          Wide input range:2-6V 1MHz switching frequency Minimum on time: 100ns typical Minimum off time: 100ns typical Max output voltage: 6V Low RDS(0N): 120mΩ Adjustable Over Current Protection:0.5~4.5A RoHS Compliant and Halogen Free Compact package: SOT23-6 Applications    Cell Phone and Smart Phone PDA, PMP, MP3 Digital Camera Package Types SOT23-6 Figure 1. Package Types of TD8228 October, 20, 2011. Techcode Semiconductor Limited 1 www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 Pin Configurations Figure 2 Pin Configuration of TD8228(Top View) Pin Description Pin Number Pin Name Description 1 LX Inductor node. Connect an inductor between IN pin and LX pin. 2 GDN GND 3 FB Feedback pin. Connect a resistor R1 between VOUT and FB, and a resistor R2 between FB and GND to program the output voltage: VOUT=0.6V*(R1/R2+1) 4 EN Enable control. High to turn on the part. Don’t leave it floated. 5 IN Power Input pin. 6 OC Adjustable Over Current Protection IOC=120000/R Ordering Information TD8228 □ □ Circuit Type Packing: Blank：Tube R:Type and Reel T: SOT23-6 October, 20, 2011. Techcode Semiconductor Limited 2 www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 Function Block Figure 3 Function Block Diagram of TD8228 October, 20, 2011. Techcode Semiconductor Limited 3 www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 Absolute Maximum Ratings EN, VDD, LX--------------------------------------------------------------------------------------------------------------------------7V FB-------------------------- --------------------------------------------------------------------------------------------------------3.6V Power Dissipation, PD @ TA = 25°C, SOT23-6 -------------------------------------------------------------------------- 0.6W Package Thermal Resistance (Note 2) SOT23-6, θJA ---------------------------------------------------------------------------------------------------------------- 200°C/W SOT23-6, θJC ---------------------------------------------------------------------------------------------------------------- 130°C/W Junction Temperature Range ----------------------------------------------------------------------------------------------- 125°C Lead Temperature (Soldering, 10 sec.) ------------------------------------------------------------------------------------ 260°C Storage Temperature Range ------------------------------------------------------------------------------------- -65°C to 150°C Recommended Operating Conditions VDD pin-------------------------- ----------------------------------------------------------------------------------------- 2V to 6V FB----------------------------------------------- ---------------------------------------------------------------------------- 0V to 1V Junction Temperature Range ------------------------------------------------------------------------------------ -40°C to 125°C Ambient Temperature Range -------------------------------------------------------------------------------------- -40°C to 85°C October, 20, 2011. Techcode Semiconductor Limited 4 www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 Electrical Characteristics (VIN = 3.3V, VOUT=5V, IOUT=100mA, TA = 25°C unless otherwise specified) Parameters Symbol Test Condition Min. Typ. Max. Unit Input Voltage Range VIN Quiescent Current IQ Low Side Main FET Rds(on) Main FET Current ILIM1 3 Switching Frequency Fsw 0.8 1 1.2 MHz Feedback Reference VREF 0.588 0.6 0.612 V IN UVLO Rising VIN,UVLO 1.9 V OCP Current Iocp Adjustable OCP Current Iocp Thermal Shutdown TSD October, 20, 2011. 2 VFB=0.66V 6 200 µA 120 mΩ A 4.5 With External Resistor:26K~240K 0.5 A 4.5 150 Techcode Semiconductor Limited 5 V A °C www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 Typical Performance Characteristics October, 20, 2011. Techcode Semiconductor Limited 6 www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 October, 20, 2011. Techcode Semiconductor Limited 7 www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 October, 20, 2011. Techcode Semiconductor Limited 8 www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 Typical Application Circuit October, 20, 2011. Techcode Semiconductor Limited 9 www.techcodesemi.com Techcode® DATASHEET High Efficiency 1MHz, 2A Step Up Regulator TD8228 Function Description Because of the high integration in the TD8228 IC, the application circuit based on this regulator IC is rather simple. Only input capacitor CIN, output capacitor COUT, inductor L and feedback resistors (R1 and R2) need to be selected for the targeted applications specifications. Feedback resistor dividers R1 and R2: Choose R1 and R2 to program the proper output voltage. To minimize the power consumption under light loads, it is desirable to choose large resistance values for both R1 and R2. A value of between 10k and 1M is recommended for both resistors. If R1=200k is chosen, then R2 can be calculated to be: Output capacitor COUT: The output capacitor is selected to handle the output ripple noise requirements. Both steady state ripple and transient requirements must be taken into consideration when selecting this capacitor. For the best performance, it is recommended to use X5R or better grade ceramic capacitor with 25V rating and more than two pcs 10uF capacitor. Input capacitor CIN: The ripple current through input capacitor is calculated as: To minimize the potential noise problem, place a typical X5R or better grade ceramic capacitor really close to the VDD and GND pins. Care should be taken to minimize the loop area formed by CIN, and VDD/GND pins. In this case a 22uF low ESR ceramic capacitor is recommended. October, 20, 2011. Boost inductor L: There are several considerations in choosing this inductor. 1) Choose the inductance to provide the desired ripple current. It is suggested to choose the ripple current to be about 40% of the maximum average input current. The inductance is calculated as: where FSW is the switching frequency and IOUT,MAX is the maximum load current. The TD8228 regulator IC is quite tolerant of different ripple current amplitude. Consequently, the final choice of inductance can be slightly off the calculation value without significantly impacting the performance. 2) The saturation current rating of the inductor must be selected to be greater than the peak inductor current under full load conditions. 3) The DCR of the inductor and the core loss at the switching frequency must be low enough to achieve the desired efficiency requirement. It is desirable to choose an inductor with DCR