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| TS39105 1A Ultra Low LDO with Enable TO-252-4L (PPAK) TO-252-5L Pin Definition: 1. Input 2. Enable 3. Output (tab) 4. N/C 5. Ground General Description The TS39105 are 1A ultra low dropout linear voltage regulators that provide low voltage, high current output from an extremely small package. These regulators offers extremely low dropout (typically 400mV at 1A) and very low ground current (typically 12mA at 1A). The TS39105 are fully protected against over current faults, reversed input polarity, reversed lead insertion, over temperature operation, positive and negative transient voltage spikes, logic level enable control and error flag which signals whenever the output falls out of regulation. On the TS39105, the enable pin may be tied to Vin if it is not required for enable control. Features Dropout voltage typically 0.4V @Io=1.0A Output Current up to 1A Low Ground Current Extremely Fast Transient Response Reversed Leakage & Reverse Battery Protection Current Limit & Thermal Shutdown Protection Ordering Information Part No. Package Packing TS39105CP4xx RO TO-252-4L 2.5Kpcs / 13" Reel TS39105CP5xx RO TO-252-5L 2.5Kpcs / 13" Reel Note: Where xx denotes voltage option, available are 18=1.8V, 25=2.5V, 33=3.3V, 50=5.0V Application ULDO Linear Regulator for PC add-in Cards TM PowerPC Power Supplies Battery Powered Equipment Consumer and Personal Electronics High Efficiency Linear Power Supplies SMPS Post Regulator and DC to DC Modules High-efficiency Post Regulator for Switching Supply Portable Application Low-Voltage microcontrollers and Digital Logic Typical Application Circuit Absolute Maximum Rating (Note 1) Parameter Supply Voltage Enable Voltage Operation Input Voltage Operation Enable Voltage Power Dissipation (Note 4) Operating Junction Temperature Range Storage Temperature Range Lead Soldering Temperature (260 C) ESD 1/7 o Symbol VIN VEN VIN (operate) VEN (operate) PD TJ TSTG Value -20V ~ +20 +20 +2.25 ~ +16 +2.25 ~ +16 Internally Limited -40 ~ +125 -65 ~ +150 5 (Note 3) Units V V V V W o o C C S Version: A08 TS39105 1A Ultra Low LDO with Enable Electrical Characteristics Parameter Conditions 10mA IL 1.0A, Vo+1V VIN 8V 10mA IL 1.0A, 2.5V VIN 16V IL=10mA, Vo+1V VIN 16V VIN =Vout+1V, 8mAIL300mA VIN =Vout+1V, 10mAIL1A IL=100mA IL=500mA IL=1.0A IL=100mA IL=500mA IL=1.0A VIN = VOUT + 1V, VIN =2.5V for fixed reference output voltage, Venable= 2.25V, Ta = 25 C, unless otherwise specified. o Min 0.980|Vo| Typ Max 1.020|Vo| Unit V V % % ppm/ C mV o Output Voltage VOUT 0.970|Vo| ------------2.25 --0.05 0.05 0.2 40 100 275 400 0.7 4.0 12.0 1.8 ----1.030|Vo| 0.5 0.1 1.0 100 250 350 630 2 6 20 -0.8 -75 4 Line Regulation Load Regulation Output Voltage Temp. Coefficient Dropout Voltage (Note 5) VOUT = -1% Quiescent Current (Note 6) Current Limited VIN= VOUT +1V mA A VOUT =0, VIN = VOUT +1V Low (OFF) High (ON) VEN =2.25V VEN =0.8V Enable Input Input Logic Voltage Enable Pin Input Current V uA Thermal Performance Condition Thermal Resistance Junction to Case Package type TO-252-4L TO-252-5L Typ 10 10 Unit o C/W Note 1: Absolute Maximum Rating is limits beyond which damage to the device may occur. For guaranteed specifications and test conditions see the Electrical Characteristics. Note 2: The device is not guaranteed to operate outside its operating rating. Note 3: Devices are ESD sensitive. Handling precautions recommended. Note 4: The maximum allowable power dissipation is a function of the maximum junction temperature, TJ, the junction to ambient thermal resistance, JA, and the ambient temperature, Ta. Exceeding the maximum allowable power dissipation will cause excessive die temperature, and the regulator will go into thermal shutdown. The effective value of JA can be reduced by using a heat sink, Pd(max) = (TJ(max) - Ta) / JA. Note 5: Dropout voltage is defined as the input to output differential at which the output voltage drops -1% below its nominal value measured at 1V differential. Note 6: Ground pin current is the regulator quiescent current. The total current drawn from the source is the sum of the ground pin current and output load current, IGND = IIN - IOUT for fix output voltage, , IGND = IIN - IOUT +10mA for fix reference output voltage in full load regulation. o Note 8: Output voltage temperature coefficient is VOUT (worse cast) / (TJ(max) - TJ(MIN)) where is TJ(max) +125 C and o TJ(MIN) is 0 C. 2/7 Version: A08 TS39105 1A Ultra Low LDO with Enable Functional Diagram Application Information The TS39105 are high performance with low dropout voltage regulator suitable for moderate to high current and voltage regulator application. Its 630mV dropout voltage at full load and over temperature makes it especially valuable in battery power systems and as high efficiency noise filters in post regulator applications. Unlike normal NPN transistor design, where the base to emitter voltage drop and collector to emitter saturation voltage limit the minimum dropout voltage, dropout performance of the PNP output of these devices is limited only by low VCE saturation voltage. The TS39105 is fully protected from damage due to fault conditions. Linear current limiting is provided. Output current during overload conditions is constant. Thermal shutdown the device when the die temperature exceeds the maximum safe operating temperature. Transient protection allows device survival even when the input voltage spikes above and below nominal. The output structure of these regulators allows voltages in excess of the desired output voltage to be applied without reverse current flow. Output Capacitor Requirement The TS39105 requires an output capacitor to maintain stability and improve transient response is necessary. The value of this capacitor is dependent upon the output current, lower currents allow smaller capacitors. TS39105 output capacitor selection is dependent upon the ESR of the output capacitor to maintain stability. When the output capacitor is 10uF or greater, the output capacitor should have an ESR less than 2. This will improve transient response as well as promote stability. Ultra low ESR capacitors (<100m), such as ceramic chip capacitors, may promote instability. These very low ESR levels may cause an oscillation and/or under damped transient response. A low ESR solid tantalum capacitor works extremely well and provides good transient response and stability over temperature aluminum electrolytes can also be used, as long as the ESR of the capacitor is <2. The value of the output capacitor can be increased without limit. Higher capacitance values help to improve transient response and ripple rejection and reduce output noise. Input Capacitor Requirement An input capacitor of 1uF or greater is recommended when the device is more than 4" away from the bulk AC supply capacitance or when the supply is a battery. Small, surface mount, ceramic chip capacitors can be used for bypassing. Larger values will help to improve ripple rejection by bypassing the input to the regulator, further improving the integrity of the output voltage. Minimum Load Current The TS39105 is specified between finite loads. If the output current is too small leakage currents dominate and the output voltage rises. A 10mA minimum load current is necessary for proper regulation 3/7 Version: A08 TS39105 1A Ultra Low LDO with Enable Application Information (Continue) Enable Input TS39105 versions feature an active-high enable (EN) input that allows ON/OFF control of the regulator. Current drain reduces to "zero" when the device is shutdown, with only micro-amperes of leakage current. The EN input has TTL/CMOS compatible thresholds for simple interfacing with logic interfacing. EN may be directly tied to ViN and pulled up to the maximum supply voltage. Transient Response and 3.3V to 2.5V or 2.5V to 1.8V Conversion TS39105 has excellent transient response to variations in input voltage and load current. The device have been designed to respond quickly to load current variations and input voltage variations. Large output capacitors are not required to obtain this performance. A standard 10uF output capacitor, preferably tantalum, is all that is required. Larger values help to improve performance even further. By virtue of its low dropout voltage, this device does not saturate into dropout as readily as similar NPN base designs. When converting from 3.3V to 2.5V or 2.5V to 1.8V, the NPN based regulators are already operating in dropout, with typical dropout requirements of 1.2V or greater,. To convert down to 2.5V or 1.8V without operating in dropout, NPN based regulators require an input voltage of 3.7V at the very least. The TS39105 will provide excellent performance with an input as low as 3.0V or 2.5V respectively. This gives the PNP based regulators a distinct advantage over older, NPN based linear regulators. Power Dissipation From under curves, the minimum area of copper necessary for the par to operate safely can be determined. The maximum allowable temperature rise must be calculated to determine operation along which curve. Copper area lay out information Determine the power dissipation requirements for the design along with the maximum ambient temperature at which the device will be operated. Refer to power dissipation with copper area curve, which shows safe operating curves for o o o three different ambient temperatures with 25 C, 50 C, 85 C. From these curves, the minimum amount of copper can be determined by knowing the maximum power dissipation required. PD = (VIN- VOUT) * IOUT + VIN * IGND If we used a 5.0V output device and a 6V input at an output current of 350mA, then the power dissipation is as follows: PD = (6.0V- 5.0V) * 350mA + 5V * 4mA PD = 350mW + 20mW PD = 370mW If the maximum ambient temperature is 85 C and the power dissipation is as above 375mW, the curve is shows that 2 the required area of copper is 80mm . 4/7 Version: A08 o TS39105 1A Ultra Low LDO with Enable TO-252-4L Mechanical Drawing DIM A A1 b b1 b2 b3 C C1 C2 D D1 E E1 e H L L1 L2 L3 L4 1 TO-252-4L DIMENSION MILLIMETERS INCHES MIN MAX MIN MAX. 2.210 2,387 0.087 0.093 0.010 0.127 0.000 0.005 0.584 0.660 0.023 0.026 0.559 0.635 0.022 0.025 0.500 0.510 0.020 0.020 5.232 5.436 0.206 0.214 0.509 0.559 0.020 0.022 0.457 0.533 0.018 0.021 0.483 0.584 0.019 0.023 6.000 6.200 0.236 0.244 5.415 5.515 0.213 0.217 6.400 6.604 0.252 0.260 4.902 5.004 0.193 0.197 1.27 BSC 0.05 BSC 9.601 10.21 0.377 0.402 1.397 1.651 0.055 0.065 2.743 REF 0.108 REF 0.508 REF 0.02 REF 1.100 REF 0.043 REF 0.660 0.940 0.025 0.037 0 8 0 8 7 REF 7 REF Marking Diagram Y M = Year Code = Month Code (A=Jan, B=Feb, C=Mar, D=Apl, E=May, F=Jun, G=Jul, H=Aug, I=Sep, J=Oct, K=Nov, L=Dec) = Lot Code = Output Voltage (18=1.8V, 25=2.5V, 33=3.3V, 50=5V) L XX 5/7 Version: A08 TS39105 1A Ultra Low LDO with Enable TO-252-5L Mechanical Drawing TO-252-5L DIMENSION MILLIMETERS INCHES MIN MAX MIN MAX. 6.350 6.730 0.250 0.265 9.080 10.440 0.357 0.411 0.460 0.640 0.018 0.025 1.27BSC 0.05BSC 2.19 2.380 0.086 0.094 0.460 0.570 0.018 0.022 1.400 1.780 0.055 0.070 0.460 0.570 0.018 0.022 5.34 5.550 0.210 0.219 1.520 2.030 0.060 0.080 DIM A B C D E F G H I J Marking Diagram Y M = Year Code = Month Code (A=Jan, B=Feb, C=Mar, D=Apl, E=May, F=Jun, G=Jul, H=Aug, I=Sep, J=Oct, K=Nov, L=Dec) = Lot Code = Output Voltage (18=1.8V, 25=2.5V, 33=3.3V, 50=5V) L XX 6/7 Version: A08 TS39105 1A Ultra Low LDO with Enable Notice Specifications of the products displayed herein are subject to change without notice. TSC or anyone on its behalf, assumes no responsibility or liability for any errors or inaccuracies. Information contained herein is intended to provide a product description only. No license, express or implied, to any intellectual property rights is granted by this document. Except as provided in TSC's terms and conditions of sale for such products, TSC assumes no liability whatsoever, and disclaims any express or implied warranty, relating to sale and/or use of TSC products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright, or other intellectual property right. The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications. Customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify TSC for any damages resulting from such improper use or sale. 7/7 Version: A08 |
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