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| ST619LB SERIES DC-DC CONVERTER REGULATED 5V CHARGE PUMP s s s s s s s REGULATED 5V 4% CHARGE PUMP OUTPUT CURRENT GUARANTEED OVER TEMPERATURE : 20mA (VI 2V ), 30mA (VI 3V ) NO INDUCTORS; VERY LOW EMI NOISE USES SMALL, INEXPENSIVE CAPACITORS LOGIC CONTROLLED 1A MAX SHUT-DOWN SUPPLY CURRENT SHUT DOWN DISCONNECTS LOAD FROM INPUT AVAILABLE IN SO-8 AND DIP-8 PACKAGES DIP-8 SO-8 DESCRIPTION The ST619LB is a step-up charge pump DC-DC converter which delivers a regulated 5V 4% output at 30mA and over temperature. The input voltage range is 2V to 3.6V (two battery cells). It requires only four external capacitor: two 0.22F flying capacitors, and 10F capacitors at the input and output. Low operating supply current (typ 200A) make the device ideal for small, portable and battery powered applications. When shut down the load is disconnected from the input and the supply current is typically 0.02A. The ST619LB is available in SO-8 and DIP-8 packages. SCHEMATIC DIAGRAM May 2001 1/9 ST619LB SERIES OPERATING PRINCIPLE The ST619LB is able to provide a regulated 5V output from a 2V to 3.6V (two battery cells) input. Internal charge pump and external capacitors generate the 5V output, eliminating the need for inductors. The output voltage is regulated to 5V, 4% by a pulse skipping controller that turns on the charge pump when the output voltage begins to drop. To maintain the greatest efficiency the internal charge pump of the device operates as a voltage doubler when VI ranges from 3.0V to 3.6V and as a voltage tripler when VI ranges from 2.0V to 2.5V. When VI ranges from 2.5V to 3.0V , the ST619LB switches between doubler and tripler mode on alternating cycles, making a 2.5 x VI charge pump. To further enhance the efficiency over the input range, an internal comparator selects the higher of VI or VO to run the ST619LB's circuitry. With VI = 2V and IO = 20mA the typical efficiency value is 80%. In tripler mode (see block diagram), when the S1 switches close, the S2 switches open and ABSOLUTE MAXIMUM RATINGS Symbol VI VO VSHDN IO Tstg Top DC Input Voltage Output Voltage Shutdown Input Voltage Output Current Continuous Storage Temperature Range Operating Junction Temperature Range Parameter Value -0.3 to 5.5 -0.3 to 5.5 -0.3 to (VI + 0.3) 120 -55 to +150 -40 to +85 Unit V V V mA C C capacitors C1 and C2 charge up to VI. On the second half of the cycle, C1 and C2 are connected in series between IN and OUT when the S1 switches open and S2 switches close. In the doubler mode only C2 is used. During one oscillator cycle, energy is transferred from the input to the charge pump capacitors, and then from the charge pump capacitors to the output capacitors and load. The number of cycles within a given time frame increases as the load increases or as the input supply voltage decreases. In the limiting case , the charge pumps operate continuously, and the oscillator frequency is nominally 500kHz. Shut Down Mode The ST619LB enters low power shut down mode when SHDN is a logic high. In shut down mode, OUT is disconnected from the IN and VO falls to 0V. The SHDN pin is connected to ground for normal operation. SHDN is a CMOS compatible input. 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 Parameter Thermal Resistance Junction-ambient (*) SO-8 160 DIP-8 100 Unit C/W (*) This value depends from thermal design of PCB on which the device is mounted. 2/9 ST619LB SERIES CONNECTION DIAGRAM (top view) PIN DESCRIPTION Pin N Symbol 1 2 3 4 5 6 7 C1+ IN OUT C2+ C2GND SHDN Name and Function Positive terminal for the first charge pump capacitor Input supply voltage 5V output voltage. VO=0V when in shutdown mode. Positive terminal for the second charge pump capacitor Negative terminal for the second charge pump capacitor Ground Active high C-MOS logic level shutdown input. SHDN is connected to GND for normal operation. Negative terminal for the first charge pump capacitor ORDERING CODES TYPE ST619LB DIP-8 ST619LBN SO-8 ST619LBD SO-8 (T&R) ST619LBDR 8 C1- ELECTRICAL CHARACTERISTICS (VI=2 to 3.6V, C1 = C2 =0.22F, C3 = C4 =10F, TA = -40 to 85C, unless otherwise specified. Typical value are referred at TA = 25C) Symbol VI VO Parameter Input Voltage Output Voltage VI = 2 to 3.6V VI = 3 to 3.6V No load, Full Load VI = 2 to 3V VI = 3 to 3.6V VI = 2 to 3.6V VSHDN = VI VI = 3V VI = 3V VI = 2V Full Load 0.7VI 0.4 VSHDN = VI 0.005 1 No Load No Load No Load IO =20mA IO =30mA IO =20mA IO =0 to 20mA IO =0 to 30mA Test Conditions Min. 2 4.8 4.8 5 5 100 200 75 0.02 82 82 80 500 300 150 1 Typ. Max. 3.6 5.2 5.2 Unit V V V mV A A A % % % KHz V V A VRIPPLE Output Voltage Ripple Ii ISHDN No Load Supply Current Shutdown Supply Current Efficency fOSC VIH VIL IIH Switching Frequency SHDN Input Threshold SHDN Input Threshold SHDN Input Current Note: Do not overload or short the Output to Ground. If the above conditions are not observed the device may be damaged. 3/9 ST619LB SERIES TYPICAL PERFORMANCE CHARACTERISTICS (unless otherwise specified TA = 25C) Figure 1 : No Load Supply Current vs Input Voltage Figure 4 : Output Voltage vs Output Current Figure 2 : Shutdown Supply Current vs Input Voltage Figure 5 : Efficency vs Output Current Figure 3 : Maximum Output Current vs Input Voltage Figure 6 : Efficency vs Input Voltage 4/9 ST619LB SERIES Figure 7 : Output Voltage vs Input Voltage Figure 10 : Line Transient Response RL=250 Figure 8 : Start-up Figure 11 : Load Transient Response VI=3V, IO=0 to 25mA Figure 9 : Output Voltage vs Temperature 5/9 ST619LB SERIES APPLICATION INFORMATION Charge pump capacitors C1 and C2 The values of charge pump capacitors C1 and C2 are critical to ensure adequate output current and avoid excessive peak currents. It is suggested to use values in the range of 0.22F to 1.0F and avoid the use of higher values of CO capacitors, in order to obtain best performance. Ceramic or tantalum capacitors are recommended. Input and output capacitors C3 and C4 The type of input capacitor (C3) and output filter capacitor (C4) used is not critical, but it does affect performance. Tantalums, ceramics or aluminium electrolytic are suggested. For lowest ripple, use large, low effective series resistance (ESR) ceramic tantalum capacitors. If the input supply TYPICAL APPLICATION CIRCUIT source impedance is very low, C3 can be omitted. The typical application circuit shows the component values for proper operation using minimal board space. The input bypass capacitor (C3) and output filter capacitor (C4) should be at least 10F. Many capacitors exhibit 40% to 50% variation over temperature. Compensate for capacitor temperature coefficient by selecting a large nominal value to ensure proper operation over temperature. Layout Consideration In the below figure, the typical application demoboard of ST619LB is reported. A good layout ensures stability and helps maintain the output voltage under heavy loads. For best performance, use very short connections to the capacitors. TYPICAL APPLICATION DEMOBOARD 6/9 ST619LB SERIES Plastic DIP-8 MECHANICAL DATA mm. DIM. MIN. A a1 B B1 b b1 D E e e3 e4 F I L Z 0.44 3.3 1.6 0.017 8.8 2.54 7.62 7.62 7.1 4.8 0.130 0.063 0.38 0.7 1.39 0.91 0.5 0.5 9.8 0.346 0.100 0.300 0.300 0.280 0.189 0.015 1.65 1.04 TYP 3.3 0.028 0.055 0.036 0.020 0.020 0.386 0.065 0.041 MAX. MIN. TYP. 0.130 MAX. inch P001F 7/9 ST619LB SERIES SO-8 MECHANICAL DATA DIM. A a1 a2 a3 b b1 C c1 D E e e3 F L M S 3.8 0.4 4.8 5.8 1.27 3.81 4.0 1.27 0.6 8 (max.) 0.149 0.015 5.0 6.2 0.65 0.35 0.19 0.25 0.1 mm. MIN. TYP MAX. 1.75 0.25 1.65 0.85 0.48 0.25 0.5 45 (typ.) 0.189 0.228 0.050 0.150 0.157 0.050 0.023 0.196 0.244 0.025 0.013 0.007 0.010 0.003 MIN. inch TYP. MAX. 0.068 0.009 0.064 0.033 0.018 0.010 0.019 0016023 8/9 ST619LB 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. (c) The ST logo is a registered trademark of STMicroelectronics (c) 2000 STMicroelectronics - Printed in Italy - All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia - Brazil - China - Finland - France - Germany - Hong Kong - India - Italy - Japan - Malaysia - Malta - Morocco Singapore - Spain - Sweden - Switzerland - United Kingdom (c) http://www.st.com 9/9 |
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