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| ST5R00 SERIES MICROPOWER VFM STEP-UP DC/DC CONVERTER I I I I I I I I I I VERY LOW SUPPLY CURRENT REGULATED OUTPUT VOLTAGE WIDE RANGE OF OUTPUT VOLTAGE AVAILABLE (2.5V, 2.8V, 3.0V, 3.3V, 5.0V) OUTPUT VOLTAGE ACCURACY 5% OUTPUT CURRENT UP TO 100mA LOW RIPPLE AND LOW NOISE VERY LOW START-UP VOLTAGE HIGH EFFICIENCY (VOUT = 5V TYP. 87%) FEW EXTERNAL COMPONENTS VERY SMALL PACKAGE: SOT23-5L SOT23-5L DESCRIPTION The ST5R00 is an high efficiency VFM Step-up DC/DC converter for small, low input voltage or battery powered systems with ultra low quiescent supply current. The ST5Rxx accept a positive input voltage from start-up voltage to VOUT and convert it to a higher output voltage in the 2.5 to 5V range. The ST5R00 combine ultra low quiescent supply current and high efficiency to give maximum battery life. The high switching frequency and the internally limited peak inductor current, permits the use of small, low cost inductors. Only three external components are needed: an inductor a diode and an output capacitor. The ST5R00 is suitable to be used in a battery powered equipment where low noise, low ripple and ultra low supply current are required. The ST5R00 is available in very small packages: SOT23-5L. Typical applications are pagers, cameras & video camera, cellular telephones, wireless telephones, palmtop computer, battery backup supplies, battery powered equipment. Figure 1: Schematic Diagram June 2005 Rev. 6 1/15 ST5R00 SERIES Table 1: Absolute Maximum Ratings Symbol VOUT VIN VLX ILX PTOT TSTG TOP Output Voltage Input Voltage LX Pin Voltage LX Pin Output Current Power Dissipation at 25C Storage Temperature Range Operating Junction Temperature Range Parameter Value 5.5 5.5 5.5 Internally limited 170 (*) -55 to 125 -25 to 85 mW C C Unit V V V (*) Reduced by 1.7 mW for increasing in TA of 1C over 25C Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these condition is not implied. Table 2: Thermal Data Symbol Rthj-case Parameter Thermal Resistance Junction-case SOT23-5L 63 Unit C/W Figure 2: Connection Diagram (top view) Table 3: Order Codes SOT23-5L ST5R25MTR ST5R28MTR ST5R30MTR ST5R33MTR ST5R50MTR OUTPUT VOLTAGES 2.5 V 2.8 V 3.0 V 3.3 V 5.0 V 2/15 ST5R00 SERIES OPERATION The ST5Rxx architecture is built around a VFM CONTROL logic core: switching frequency is set through a built in oscillator: TON time is fixed (Typ. 5ms) while TOFF time is determined by the error amplifier output, a logic signal coming from the comparison made by the Error Amplifier Stage between the signal coming from the output voltage divider network and the internal Band-Gap voltage reference (Vref). TOFF reaches a minimum (Typ. 1.7ms) when heavy load conditions are met (Clock frequency 150KHz). An over current conditions, through the internal power switch, causes a voltage drop VLX=R DSONxISW and the VLX limiter block forces the internal switch to be off, so narrowing TON time and limiting internal power dissipation. In this case the switching frequency may be higher than the 150KHz set by the internal clock generator. VFM control ensures very low quiescent current and high conversion efficiency even with very light loads. Since the Output Voltage pin is also used as the device Supply Voltage, the versions with higher output voltage present an higher internal supply voltage that results in lower power switch RDSON, slightly greater output power and higher efficiency. Moreover, bootstrapping allows the input voltage to sag to 0.6V (at IOUT=1mA) once the system is started. If the input voltage exceeds the output voltage, the output will follow the input, however, the input or output voltage must not be forced above 5.5V. Figure 3: Typical Application Circuit (*) See application info. Figure 4: Typical Application Efficiency 3/15 ST5R00 SERIES Figure 5: Typical Demoboard Note: drawing not in scale. Table 4: Electrical Characteristics For ST5R25 (VIN = 1.5V, IOUT = 10mA, TA = 25C, unless otherwise specified. For external components value, unless otherwise notes, refer to the typical operating circuit.) Symbol VOUT VHOLD ISUPPLY ILX(leak) fOSC Dty Parameter Output Voltage IOUT = 1mA, VIN = rising from 0 to 2V IOUT = 1mA, VIN = falling from 2 to 0V To be measured at VIN, no load ILX = 150mA VLX = 4V, forced VOUT = 3V 150 to be measure on LX pin IOUT = 50mA 77 82 0.6 16 850 0.5 Hold-on Voltage Supply Current Internal Leakage Current Maximum oscillator Frequency Oscillator Duty Cycle Efficiency Test Conditions Min. 2.375 Typ. 2.5 0.8 Max. 2.625 1.2 Unit V V V A m A KHz % % VSTART-UP Start-up Voltage (VIN-VF) (1) RLX(DSON) Internal Switch RDSON (1): The minimum input voltage for the IC start-up is strictly a function of the VF catch diode. Table 5: Electrical Characteristics For ST5R28 (VIN = 1.7V, IOUT = 10mA, TA = 25C, unless otherwise specified. For external components value, unless otherwise notes, refer to the typical operating circuit.) Symbol VOUT VHOLD ISUPPLY ILX(leak) fOSC Dty Parameter Output Voltage IOUT = 1mA, VIN = rising from 0 to 2V IOUT = 1mA, VIN = falling from 2 to 0V To be measured at VIN, no load ILX = 150mA VLX = 4V, forced VOUT = 3.3V 150 to be measure on LX pin IOUT = 50mA 77 82 0.6 16 850 0.5 Hold-on Voltage Supply Current Internal Leakage Current Maximum oscillator Frequency Oscillator Duty Cycle Efficiency Test Conditions Min. 2.66 Typ. 2.8 0.8 Max. 2.94 1.2 Unit V V V A m A KHz % % VSTART-UP Start-up Voltage (VIN-VF) (1) RLX(DSON) Internal Switch RDSON (1): The minimum input voltage for the IC start-up is strictly a function of the VF catch diode. 4/15 ST5R00 SERIES Table 6: Electrical Characteristics For ST5R30 (VIN = 1.8V, IOUT = 10mA, TA = 25C, unless otherwise specified. For external components value, unless otherwise notes, refer to the typical operating circuit.) Symbol VOUT VHOLD ISUPPLY ILX(leak) fOSC Dty Parameter Output Voltage IOUT = 1mA, VIN = rising from 0 to 2V IOUT = 1mA, VIN = falling from 2 to 0V To be measured at VIN, no load ILX = 150mA VLX = 4V, forced VOUT = 3.5V 150 to be measure on LX pin IOUT = 50mA 77 82 0.6 17 850 0.5 Hold-on Voltage Supply Current Internal Leakage Current Maximum oscillator Frequency Oscillator Duty Cycle Efficiency Test Conditions Min. 2.85 Typ. 3 0.8 Max. 3.15 1.2 Unit V V V A m A KHz % % VSTART-UP Start-up Voltage (VIN-VF) (1) RLX(DSON) Internal Switch RDSON (1): The minimum input voltage for the IC start-up is strictly a function of the VF catch diode. Table 7: Electrical Characteristics For ST5R33 (VIN = 2V, IOUT = 10mA, TA = 25C, unless otherwise specified. For external components value, unless otherwise notes, refer to the typical operating circuit.) Symbol VOUT VHOLD ISUPPLY ILX(leak) fOSC Dty Parameter Output Voltage IOUT = 1mA, VIN = rising from 0 to 2V IOUT = 1mA, VIN = falling from 2 to 0V To be measured at VIN, no load ILX = 150mA VLX = 4V, forced VOUT = 3.8V 150 to be measure on LX pin IOUT = 50mA 77 83 0.6 17 850 0.5 Hold-on Voltage Supply Current Internal Leakage Current Maximum oscillator Frequency Oscillator Duty Cycle Efficiency Test Conditions Min. 3.135 Typ. 3.3 0.8 Max. 3.465 1.2 Unit V V V A m A KHz % % VSTART-UP Start-up Voltage (VIN-VF) (1) RLX(DSON) Internal Switch RDSON (1): The minimum input voltage for the IC start-up is strictly a function of the VF catch diode. Table 8: Electrical Characteristics For ST5R50 (VIN = 3V, IOUT = 10mA, TA = 25C, unless otherwise specified. For external components value, unless otherwise notes, refer to the typical operating circuit.) Symbol VOUT VHOLD ISUPPLY Parameter Output Voltage IOUT = 1mA, VIN = rising from 0 to 2V IOUT = 1mA, VIN = falling from 2 to 0V To be measured at VIN, no load ILX = 150mA VLX = 4V, forced VOUT = 3.8V 160 to be measure on LX pin IOUT = 50mA 77 87 0.6 18 700 0.5 Hold-on Voltage Supply Current Test Conditions Min. 4.75 Typ. 5.0 0.8 Max. 5.25 1.2 Unit V V V A m A KHz % % VSTART-UP Start-up Voltage (VIN-VF) (1) RLX(DSON) Internal Switch RDSON ILX(leak) Internal Leakage Current fOSC Dty Maximum oscillator Frequency Oscillator Duty Cycle Efficiency (1): The minimum input voltage for the IC start-up is strictly a function of the VF catch diode. 5/15 ST5R00 SERIES TYPICAL PERFORMANCE CHARACTERISTICS (the following plots are referred to the typical application circuit and, unless otherwise noted, at TA = 25C) Figure 6: Output Voltage vs Output Current Figure 9: Output Voltage vs Temperature Figure 7: Output Voltage vs Output Current Figure 10: Efficiency vs Temperature Figure 8: Output Voltage vs Temperature Figure 11: Efficiency vs Temperature 6/15 ST5R00 SERIES Figure 12: Efficiency vs Output Current Figure 15: Maximum Oscillator Frequency vs Temperature Figure 13: Efficiency vs Output Current Figure 16: Oscillator Duty Cycle (@ MAX Freq.) vs Temperature Figure 14: Maximum Oscillator Frequency vs Temperature Figure 17: Oscillator Duty Cycle (@ MAX Freq.) vs Temperature 7/15 ST5R00 SERIES Figure 18: LX Switching Current Limit vs Temperature Figure 21: Start-up Voltage (VIN - VF) vs Temperature Figure 19: LX Switching Current Limit vs Temperature Figure 22: Start-up Voltage (VIN - VF) vs Output Current Figure 20: Start-up Voltage (VIN - VF) vs Temperature Figure 23: Start-up Voltage (VIN - VF) vs Output Current 8/15 ST5R00 SERIES Figure 24: Minimum Input Voltage vs Output Current Figure 27: Internal Switch RDSON vs Temperature Figure 25: Minimum Input Voltage vs Output Current Figure 28: Hold-on Voltage vs Temperature Figure 26: Internal Switch RDSON vs Temperature Figure 29: Hold-on Voltage vs Temperature 9/15 ST5R00 SERIES Figure 30: No Load Input Current vs Temperature Figure 31: No Load Input Current vs Temperature APPLICATION INFORMATION PC LAYOUT AND GROUNDING HINTS The ST5R00 high frequency operation makes PC layout important for minimizing ground bounce and noise. Place external components as close as possible to the device pins. Take care to the Supply Voltage Source connections that have to be very close to the Input of the application. Set the Output Load as close as possible to the output capacitor. If possible, use a Star ground connection with the centre point on the Device Ground pin. To maximize output power and efficiency and minimize output ripple voltage, use a ground plane and solder the ICs ground pin directly to the ground plane. Remember that the LX Switching Current flows through the Ground pin, so, in order to minimize the series resistance that may cause power dissipation and decrease of the Efficiency conversion, the Ground pattern has to be as large as possible. INDUCTOR SELECTION An inductor value of 47H performs well in most ST5R00 applications. However, the inductance value is not critical, and the ST5R00 will work with inductors in the 33H to 120H. Smaller inductance values typically offer a smaller physical size for a given series resistance, allowing the smallest overall circuit dimensions. However, due to higher peak inductor currents, the output voltage ripple (Ipeak x output filter capacitors ESR) also tends to be higher. Circuits using larger inductance values exhibit higher output current capability and larger physical dimensions for a given series resistance. In order to obtain the best application performances the inductor must respect the following condition: - The DC resistance has to be as little as possible, a good value is <0.25. This choice will reduce the lost power as heat in the windings. - The inductor core must not saturate at the forecast maximum LX current. This is mainly a function of the Input Voltage, Inductor value and Output Current. However, it is generally acceptable to bias the inductor into saturation by as much as 20%, although this will slightly reduce efficiency. In order to calculate this parameter we have to distinguish two cases: 1) When a light load is applied on the output (discontinuous mode operation) the inductor core must not saturate at ILX(max)= (VIN x TON)/L. 2) For heavy load (continuos mode operation) the inductor core must not saturate at ILX(max)= (IOUT x T)/TOFF(min) + (VIN x TON)/2L Where: VIN is the Input Voltage, Ton is the switch on period (typ. 5ms), L is the inductance value, IOUT is the maximum forecast Output Current, T = TON+TOFF(min) and TOFF(min) is the minimum switch off period (typ. 1.7s), - Choose an inductance value in the 47H to 82H range. - For application sensitive to Electromagnetic Interference (EMI), a pot core inductor is recommended. 10/15 ST5R00 SERIES DIODE SELECTION A Schottky diode with an high switching speed and a very low Forward Voltage (VF) is needed. Higher VF may cause lost power as heat in the diode, with a decrease of the Efficiency. Moreover, since the Output Voltage pin is also used as the device Supply Voltage, the Start-up Voltage (see related plots) is strictly due to the diode Forward Voltage at the rated Forward Current. A good diode choice is a STPS1L30A. INPUT/OUTPUT CAPACITORS SELECTION The Output Ripple Voltage, as well as the Efficiency, is strictly related to the behavior of these elements. The output ripple voltage is the product of the peak inductor current and the output capacitor Equivalent Series Resistance (ESR). Best performances are obtained with good high frequency characteristics capacitors and low ESR. The best compromise for the value of the Output Capacitance is 47F Tantalum Capacitor, Lower values may cause higher Output Ripple Voltage and lower Efficiency without compromising the functionality of the device. An Input Capacitor is required to compensate, if present, the series impedance between the Supply Voltage Source and the Input Voltage of the Application. A value of 4.7F is enough to guarantee stability for distances less than 2". It could be necessary (depending on VIN, VOUT, IOUT values) to proportionally increase the input capacitor value up to 100A for major distances. In any case we suggest to connect both capacitors, CIN and COUT, as close as possible to the device pins. 11/15 ST5R00 SERIES SOT23-5L MECHANICAL DATA mm. DIM. MIN. A A1 A2 b C D E e H L 2.60 0.10 0.90 0.00 0.90 0.35 0.09 2.80 1.50 0.95 3.00 0.60 102.3 3.9 TYP MAX. 1.45 0.10 1.30 0.50 0.20 3.00 1.75 MIN. 35.4 0.0 35.4 13.7 3.5 110.2 59.0 37.4 118.1 23.6 TYP. MAX. 57.1 3.9 51.2 19.7 7.8 118.1 68.8 mils . 7049676C 12/15 ST5R00 SERIES Tape & Reel SOT23-xL MECHANICAL DATA mm. DIM. MIN. A C D N T Ao Bo Ko Po P 3.13 3.07 1.27 3.9 3.9 3.23 3.17 1.37 4.0 4.0 12.8 20.2 60 14.4 3.33 3.27 1.47 4.1 4.1 0.123 0.120 0.050 0.153 0.153 0.127 0.124 0.054 0.157 0.157 13.0 TYP MAX. 180 13.2 0.504 0.795 2.362 0.567 0.131 0.128 0.0.58 0.161 0.161 0.512 MIN. TYP. MAX. 7.086 0.519 inch 13/15 ST5R00 SERIES Table 9: Revision History Date 14-Jun-2005 Revision 6 Description of Changes The SOT-89 package has been removed, mistake on Fig. 3 IN ==> LX, on Tables 4, 5, 6, 7, 8 Output Noise Voltage ==> Efficiency. 14/15 ST5R00 SERIES 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. The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners (c) 2005 STMicroelectronics - All Rights Reserved STMicroelectronics group of companies Australia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America www.st.com 15/15 |
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