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| STC2G15 BCMOS VOLTAGE REGULATOR DESIGNED FOR USE WITH VERY LOW ESR AND TANTALUM OUTPUT CAPACITOR s s s s s s s s INPUT VOLTAGE FROM 2.7V TO 5.02V STABLE WITH LOW ESR CERAMIC AND TANTALUM CAPACITORS VERY LOW QUIESCENT CURRENT (30A TYP. AT NO LOAD; 2A IN OFF MODE) GUARANTEED OUTPUT CURRENT UP TO 15mA OUTPUT VOLTAGE: 1.5V LOGIC-CONTROLLED ELECTRONIC SHUTDOWN INTERNAL CURRENT LIMIT JUNCTION TEMPERATURE RANGE: -40C TO 95C TSOT23-5L DESCRIPTION The STC2G15 provides up to 15mA, from 2.5V to 6V input voltage. The low quiescent current makes it suitable for low power applications and in battery powered systems. Shutdown Logic Control function is available, this means that when the device is used as local regulator, it is possible to put a part of the board in standby, decreasing the total power consumption. The STC2G15 is designed to work with low ESR ceramic and tantalum capacitors. Typical applications are in mobile phone, blue-tooth module and similar battery powered wireless systems. SCHEMATIC DIAGRAM April 2003 1/8 STC2G15 ABSOLUTE MAXIMUM RATINGS Symbol VI VO VINH IO Ptot Tstg Top ESD DC Input Voltage DC Output Voltage INHIBIT Input Voltage Output Current Power Dissipation Storage Temperature Range Operating Junction Temperature Range Electrostatic Discharge HBM (DH11C) Parameter Value -0.3 to 5.4 -0.3 to VIN +0.3 -0.3 to VIN +0.3 Internally limited Internally limited -55 to +150 -40 to +95 2 C C kV Unit V V V Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these condition is not implied. THERMAL DATA Symbol Rthj-amb Rthj-case Parameter Thermal Resistance Junction-ambient Thermal Resistance Junction-case TSOT23-5L 225 81 Unit C/W C/W APPLICATION CIRCUITS CONNECTION DIAGRAM (top view) PIN DESCRIPTION Pin N Symbol 1 2 3 IN GND SHDN Name and Function Input Pin Ground Pin Shutdown Input: Disables the regulator when < 0.4V. Not internally pulled down. Compensation Pin: Bypass with a 1F ceramic X7R capacitor to GND or leave floating if the CO is connected to OUT pin Output Pin: Bypass with a 1F tantalium capacitor to GND if ceramic X7R capacitoror is not used. 4 CMP 5 OUT 2/8 STC2G15 ORDERING CODES TYPE STC2G15 TSOT23-5L STC2G15R OUTPUT VOLTAGES 1.5V ELECTRICAL CHARACTERISTICS (CI = 1F, CO = 1F (tantalium connected between OUT pin and GND pin) or CCMP = 1F (ceramic X7R connected between CMP pin and GND pin) (unless otherwise specified) Symbol VI VO tRU tRD IO Imin Parameter Input Voltage Output Voltage VI = 2.7 to 5.2V TJ= -40 to 95C IO = 0 to 15mA Test Conditions Min. 2.7 1.41 1.5 10 10 15 0 350 100 f = 1KHz IO = 0 IO = 0 VI = 2.7 to 5.2V 2 2 30 30 60 4 4 0.4 1.15 40 50 80 60 50 B= 1kHz to 1MHz CO = 1F 10 Typ. Max. 5.2 1.59 15 15 Unit V V s s mA mA V/mA V/K dB A A A A V V s s mV mV mV mV Output Voltage Ramp-Up IO = 0 to 15mA Time (Note 1) Output Voltage Ramp-Down IO = 0 to 15mA Time (Note 2) Current Capability Minimum Load Current (Note 3) Load Regulation (Note 4) Temperature Drift (Note 4) Supply Voltage Rejection (Note 5) Quiescent Current (ON mode) Quiescent Current (OFF mode) Shutdown Pin Current Shutdown Logic Enable Low Shutdown Logic Disabled High Line Transient Response Time (Notes 9, 13) Load Transient Response Time (Notes 10, 13) Line Transient Response Peak + (Notes 9) Line Transient Response Peak - (Notes 10) Load Transient Response Peak (Notes 11) Output Noise Voltage SVR Id Id ISHDN VSHDN VSHDN eN Note 1:Time for the output Voltage to rise from 50% to 85% of nominal value. Note 2: Time for the output Voltage to fall from 85% to 50 of nominal value. Note 3: Regulator must be able to sustain Regulated Output Voltage without load. Note 4: Parameters are uncritical as long as the output voltage stays within limits. Note 5: A sudden voltage rise/drop of 500mV mustn't bring the output Voltage out of limits. Note 6: Ceramic Capacitors can be used if connected between CMP pin and GNG, instead of VOUT pin and GND. Note 8: Maximum and minimum values are guaranteed in full temperature range. Note 9: Line transient is tested when the input voltage changes from 2.7 to 3.2V in 10s in full load range. Note 10: Line transient is tested when the input voltage changes from 3.2 to 2.7V in 10s in full load range. Note 11: Load transient is tested when the load changes from 0.1 to 15mA in 10s in all the input range Note 13: Response time is defined as the time form the load line step until the output reaches a value within specification (1.41V, 1.59V). Note 14: The maximum power dissipation for the operation depends on the ambient temperature. For TJ =95C, TA=85C and RTJA=220C/W the maximum power can be 0.045W. The maximum power dissipation for operation can be increased by 4.5mW each degree below TA=85C, and it must be derated by 4.5mW for each degree above 85C 3/8 STC2G15 TYPICAL PERFORMANCE CHARACTERISTICS (unless otherwise specified CIN = C COMP = SMD X5R COUT = Tant., Tj = 25C) Figure 1 : Output Voltage vs Temperature Figure 4 : Output Voltage vs Temperature Figure 2 : Output Voltage vs Temperature Figure 5 : Line Regulation vs Temperature Figure 3 : Output Voltage vs Temperature Figure 6 : Load Regulation vs Temperature 4/8 STC2G15 Figure 7 : Inhibit Threshold Voltage vs Temperature Figure 10 : Supply Voltage Rejection vs Output Current Figure 8 : Quiescent Current vs Temperature Figure 11 : Dynamic Precharge Mode VI=5V, I O=0.1 to 15mA, CI = 1FSMD X7R, CO=2.2F(tant) Figure 9 : Supply Voltage Rejection vs Temperature Figure 12 : Dynamic Precharge Mode VI=2.7 to 3.7V, I O=15mA, CI = 1FSMD X7R, CO=2.2F(tant), t=1ms 5/8 STC2G15 Figure 13 : Dynamic Precharge Mode Figure 15 : Dynamic Precharge Mode VINH=0 to 2V, No load, C I = 1FSMD X7R, CO=2.2F(tant) VINH=0 to 2V, I O=15mA, CI = 1FSMD X7R, CO=1F(tant) Figure 14 : Dynamic Precharge Mode VINH=0 to 2V, I O=15mA, CI = 1FSMD X7R, CO=2.2F(tant) 6/8 STC2G15 TSOT23-5L MECHANICAL DATA mm. DIM. MIN. A A1 A2 b C D E E1 e e1 L 0.3 0 0 0.7 0.3 0.08 2.9 2.8 1.6 .95 1.9 0.6 11.8 TYP MAX. 1.1 0.1 1.0 0.5 0.2 27.6 11.8 3.1 114.2 110.2 63.0 37.4 74.8 23.6 MIN. TYP. MAX. 43.3 3.9 39.4 19.7 7.9 mils 7282780/A 7/8 STC2G15 Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. (c) The ST logo is a registered trademark of STMicroelectronics (c) 2003 STMicroelectronics - Printed in Italy - All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia - Brazil - Canada - China - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan - Malaysia - Malta - Morocco Singapore - Spain - Sweden - Switzerland - United Kingdom - United States. (c) http://www.st.com 8/8 |
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