300mA,Ultra-low noise, Small Package Ultra-Fast CMOS LDO Regulator

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2 GND Preliminary Datasheet 300mA,Ultra-low noise, Small Package Ultra-Fast CMOS LDO Regulator General Description The is designed for portable RF and wireless applications with demanding performance and space requirements. The performance is optimized for battery-powered systems to deliver ultra low noise and low quiescent current. A noise bypass pin is available for further reduction of output noise. Regulator ground current increases only slightly in dropout, further prolonging the battery life. The also works with low-esr ceramic capacitors, reducing the amount of board space necessary for power applications, critical in hand-held wireless devices. The consumes less than 0.01µA in shutdown mode and has fast turn-on time less than 50µs. The other features include ultra low dropout voltage, high output accuracy, current limiting protection, and high ripple rejection ratio. Available in the 5-lead of SC-70 packages. Order Information F: Pb-Free Features Ultra-Low- 2V- 6V Input Voltage Range 1.2V, 1.5V, 1.8V, 2.5V, 2.8V 3.0V and 3.3V Fixed 300mA Output Current, 550mA Peak Current High PSSR:-75 < 0.01uA Standby Current When Shutdown Available in SC-70-5 TTL-Logic- Ultra-Fast Response in Line/Load t Current Limiting and Thermal Shutdown Protection Quick start-up (typically 50uS) Applications Portable Media Players/MP3 players Cellular and Smart mobile phone LCD DSC Sensor Wireless Card Package Type J5: SC-70 Output Voltage Type 12: 1.2V 18: 1.8V 25: 2.5V 28: 2.8V 30: 3.0V 33: 3.3V Output Quick Recharge Default: Not Typical Application Circuit Vin 2.2uF ON/OFF 1 5 Vin OUT 3 4 EN BP Marking Information Vout 10nF 2.2uF Device Marking Package Shipping -04 Feb.-2010 Email: marketing@lowpowersemi.com www.lowpowersemi.com Page 1 of 8

Functional Pin Description Package Type Pin Configurations Top View VIN 1 5 VOUT SC-70 GND 2 EN 3 4 BP Pin Description Pin Name Description 1 VIN Power Input Voltage 2 GND Ground 3 EN Chip Enable (Active High). Note that this pin is high impedance. 4 BP Reference Noise Bypass 5 VOUT Output Voltage Function Diagram -04 Feb.-2010 Email: marketing@lowpowersemi.com www.lowpowersemi.com Page 2 of 8

Absolute Maximum Ratings Supply Input Voltage ----------------------------------------------------------------------------------------------------- 6V Power Dissipation, PD @ TA = 25 C SC-70 ------------------------------------------------------------------------------------------------------------------- 400mW Package Thermal Resistance SC-70, θja ---------------------------------------------------------------------------------------------------------- 250 C/W Lead Temperature (Soldering, 10 sec.) ------------------------------------------------------------------------ 260 C Storage Temperature Range -------------------------------------------------------------------------- 65 C to 165 C ESD Susceptibility HBM (Human Body Mode) --------------------------------------------------------------------------------------------- 2kV MM(Machine-Mode) --------------------------------------------------------------------------------------------------- 200V Recommended Operating Conditions Supply Input Voltage ---------------------------------------------------------------------------------------- 2.5V to 5.5V Electrical Characteristics (VIN = VOUT + 1V, CIN = COUT = 1µF,, TA = 25 C, unless otherwise specified) Parameter Symbol Test Conditions Min Typ Max Units Output Voltage Accuracy ΔV OUT I OUT = 1mA 2 -- +2 % Current Limit I LIM R LOAD = 1Ω 300 400 ma Quiescent Current I Q V EN 1.2V, I OUT = 0mA 75 130 μa Dropout Voltage V DROP I OUT = 200mA, V OUT > 2.8V 170 200 mv I OUT = 300mA, V OUT > 2.8V 220 300 mv Line Regulation ΔV LINE V IN = (V OUT + 1V) to 5.5V, I OUT = 1mA 0.3 % Load Regulation ΔV LOAD 1mA < IOUT < 300mA 2 % Standby Current I STBY V EN = GND, Shutdown 0.01 1 μa EN Input Bias Current I IBSD V EN = GND or V IN 1 5 ua Logic-Low EN Voltage V IL V IN=3V to 5.5V, Shutdown 0.4 V Threshold Logic-High Voltage V IH V IN=3V to 5.5V, Start-Up 1.2 V Output Noise Voltage 10Hz to 100kHz, I OUT=200mA C OUT=1µF 100 uvrms Power Supply f=100hz 75 db PSRR C OUT=1µF, I OUT=10mA Rejection Rate f=10khz 65 db Thermal Shutdown Temperature T SD 150 C -04 Feb.-2010 Email: marketing@lowpowersemi.com www.lowpowersemi.com Page 3 of 8

Typical Operating Characteristics -04 Feb.-2010 Email: marketing@lowpowersemi.com www.lowpowersemi.com Page 4 of 8

-04 Feb.-2010 Email: marketing@lowpowersemi.com www.lowpowersemi.com Page 5 of 8

Applications Information Like any low-dropout regulator, the external capacitors used with the must be carefully selected for regulator stability and performance. Using a capacitor whose value is > 1µF on the input and the amount of capacitance can be increased without limit. The input capacitor must be located a distance of not more than 0.5 inch from the input pin of the IC and returned to a clean analog ground. Any good quality ceramic or tantalum can be used for this capacitor. The capacitor with larger value and lower ESR (equivalent series resistance) provides better PSRR and line-transient response. The output capacitor must meet both requirements for minimum amount of capacitance and ESR in all LDOs application. The is designed specifically to work with low ESR ceramic output capacitor in space-saving and performance consideration. Using a ceramic capacitor whose value is at least 1µF with ESR is > 25mΩ on the output ensures stability. The still works well with output capacitor of other types due to the wide stable ESR range. Figure 1 shows the curves of allowable ESR range as a function of load current for various output capacitor values. Output capacitor of larger capacitance can reduce noise and improve load transient response, stability, and PSRR. The output capacitor should be located not more than 0.5 inch from the VOUT pin of the and returned to a clean analog ground. Start-up Function Enable Function The features an LDO regulator enable/disable function. To assure the LDO regulator will switch on, the EN turn on control level must be greater than 1.2 volts. The LDO regulator will go into the shutdown mode when the voltage on the EN pin falls below 0.4 volts. For to protecting the system, the have a quick-discharge function. If the enable function is not needed in a specific application, it may be tied to VIN to keep the LDO regulator in a continuously on state. Bypass Capacitor and Low Noise Connecting a 10nF between the BP pin and GND pin significantly reduces noise on the regulator output, it is critical that the capacitor connection between the BP pin and GND pin be direct and PCB traces should be as short as possible. There is a relationship between the bypass capacitor value and the LDO regulator turn on time. DC leakage on this pin can affect the LDO regulator output noise and voltage regulation performance. -04 Feb.-2010 Email: marketing@lowpowersemi.com www.lowpowersemi.com Page 6 of 8

Thermal Considerations Thermal protection limits power dissipation in. When the operation junction temperature exceeds 150 C, the OTP circuit starts the thermal shutdown function turn the pass element off. The pass element turns on again after the junction temperature cools by 25 C. For continue operation, do not exceed absolute maximum operation junction temperature 125 C. The power dissipation definition in device is : PD = (VIN VOUT) x IOUT + VIN x IQ The maximum power dissipation depends on the thermal resistance of IC package, PCB layout, the rate of surroundings airflow and temperature difference between junction to ambient. The maximum power dissipation can be calculated by following formula : PD(MAX) = ( TJ(MAX) TA ) /θja Where TJ(MAX) is the maximum operation junction temperature 125 C, TA is the ambient temperature and the θja is the junction to ambient thermal resistance. For recommended operating conditions specification of, where TJ(MAX) is the maximum junction temperature of the die (125 C) and TA is the maximum ambient temperature. The junction to ambient thermal resistance (θja is layout dependent) for SC-70-5 package is 250 C/W. PD(MAX) = (125 C 25 C) / 250 = 400mW (SC-70-5) The maximum power dissipation depends on operating ambient temperature for fixed TJ(MAX) and thermal resistance θja. -04 Feb.-2010 Email: marketing@lowpowersemi.com www.lowpowersemi.com Page 7 of 8

Packaging Information -04 Feb.-2010 Email: marketing@lowpowersemi.com www.lowpowersemi.com Page 8 of 8

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