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february 2009 rev 1 1/12 12 AN2837 application note positive to negative buck-boost converter using st1s03 asynchronous switching regulator abstract the st1s03 is a 1.5 a, 1.5 mhz adjustable step-down switching regulator housed in a dfn6 package with internal power switch. the device is a complete 1.5 a switching regulator with internal compensation that eliminates the need for additional components. in this document the design of a polarity inverting converter is discussed. figure 1. polarity-inverting re gulator using the st1s03, 5 v in to - 5 v out , 500 ma c1 c4 c3 c2 r1 r2 l1 d1 v out = -5v v in = 5v r3 c1 c4 c3 c2 r1 r2 l1 d1 v out = -5v v in = 5v r3 www.st.com
principle of operation AN2837 2/12 1 principle of operation the polarity-inverting converter uses the basic principle of energy storage in the inductor l during the on time of the operating period ( figure 2 ), and then transfers the energy via the freewheeling diode d to the output during the off time ( figure 3 ). when the switch turns on, the diode is reve rse-biased and current flows only in the inductor. when the switch is turned off, the reverses its polarity, thus the freewheeling diode is forward-biased, and the energy stored in the inductance is transferred to the load as well as the capacitor. the output voltage across the capacitor becomes negative because the inductor current is negative with respect to ground. this circuit is also known as a buck-boost conv erter because this type of converter can step- up and step-down the magnitude of the input voltage.
AN2837 principle of operation 3/12 figure 2. basic configuration of a po larity-inverting converter (buck-boost) (1) 1. energy is stored in inductor l duri ng the on time of the operating period. sw close cntl c in gnd gnd c out d l sw close cntl c in gnd gnd c out d l sw close energy storage in the inductor v in -v l gnd i pk sw close energy storage in the inductor v in -v l gnd i pk
principle of operation AN2837 4/12 figure 3. basic configuration of a po larity-inverting converter (buck-boost) (1) 1. energy is transferred via fr eewheeling diode d to the output during the off time of the operating period with polarity inverted referred to gnd. sw open cntl c in gnd gnd c out d l sw open transfers the energy via the free-wheeling diode d i pk v in -v l gnd sw open cntl c in gnd gnd c out d l sw open cntl c in gnd gnd c out d l sw open transfers the energy via the free-wheeling diode d i pk v in -v l gnd sw open transfers the energy via the free-wheeling diode d i pk v in -v l gnd
AN2837 design considerations 5/12 2 design considerations figure 1 shows the typical configuration of a polarity inverting regulator using the st1s03. note that the ground is connected to the negative output and the feedback is referred to gnd, so the device is supplied by v in plus the magnitude of v out (i.e. for 5 v in and -5 v out , the total v in for device is 10 v). for this reason, the amr of device cannot be exceeded. for example, 12 v in and -12 v out for a 24 v total it not possible due to the 18 v amr (see figure 4 ). the output voltage is programmed by connecting feedback resistors from gnd to -v out (close the output capacitor to have best performance in terms of stability). small capacitor c2 is connected from the input to the negative output in order to provide more phase margin to stabilize th e regulator loop. r3 and c4 form a simple r-c filter on the analog input, which he lps to reduce noise on the supply voltage, as well as improve stability. figure 4. total voltage of inductor +5v in -5.5v out v total 0v +5v in -5.5v out v total 0v
design considerations AN2837 6/12 figure 5 and figure 6 show the typical waveforms of the switching regulator. figure 5. typical waveform of the switching regulator, 5 v in , - 5.5 v out , no load switch voltage, 5v/div inductor current, 500ma/div switch voltage, 5v/div inductor current, 500ma/div figure 6. typical waveform of the switching regulator, 5 v in , - 5.5 v out , 500 ma i out switch voltage, 5v/div inductor current, 500ma/div switch voltage, 5v/div inductor current, 500ma/div
AN2837 design considerations 7/12 the following figures show how the application functions well in step-down mode 12 v in -> - 5 v out ( figure 7 ) and in step-up mode 3.3 v in -> -5 v out ( figure 8 ). figure 7. step-down mode, 12 v in , - 5.5 v out , 500 ma i out switch voltage, 5v/div inductor current, 500ma/div switch voltage, 5v/div inductor current, 500ma/div figure 8. step-up mode, 3.3 v in , - 5.5 v out , 500 ma i out switch voltage, 5v/div inductor current, 500ma/div switch voltage, 5v/div inductor current, 500ma/div
pcb layout guidelines AN2837 8/12 3 pcb layout guidelines a recommended printed circuit board (pcb) layout for the st1s03 inverting regulator is shown in figure 9 . it is very important to place the input capacitor as close as possible to the input pin of the regulator. in order to achieve the best performance, special care must be taken to ensure proper grounding. a good prac tice is to always use a separate ground plane, or at a minimum a single point ground structure. high switching currents may cause voltage drops in the pcb metal trace, and long metal traces and component leads cause unwanted parasitic inductance as well, especially at switching frequencies of 1.5 mhz. this parasitic inductance is very often the main source of emi problems and high voltage spikes at input and output lines. therefore, place the inductor, freewheeling diode, and especially th e input capacitor as close as possible to the device. use big lines for the metal traces to these components. wire the feedback circuit away from the inductor to avoid flux intersection. the use of a ground ring guard is recommended. use shielded cores for better emi performance. capacitors with low esr are recommended the for inputs and outputs. figure 9. pcb layout - top side
AN2837 pcb layout guidelines 9/12 figure 10. pcb layout - bottom side table 1. component list reference value description manufacturer r1 10 k resistor r2 52 k resistor r3 100 resistor c1 4.7 f ceramic x5r or x7r c2 4.7 f ceramic x5r or x7r c3 22 f ceramic x5r or x7r c4 0.1 f ceramic x5r or x7r d1 2 a (0.3 v or less) schottky diode stps2l25 stmicroelectronics l1 4.7 h dr734r7 coiltronics ic1 st1s03 ic stmicroelectronics cn1 4 pins strip line male c.s. cn2 4 pins strip line male c.s.
pcb layout guidelines AN2837 10/12 in polarity-inverting mode the st1s03 is capable of supplying more output current, as shown in figure 11 and figure 12 . with a 12 v input voltage ( figure 12 ), the st1s03 should be able to provide up to 1.3 a of output current with good stabilit y and performance. it is im portant not to exceed the maximum switching current limitation of 2.5 a that flows in the inductor. choosing a good inductor, in terms of curren t capability and low series resistance, can help to improve efficiency. figure 11. polarity-inverting mode, 5 v in , - 5.5 v out , 950 ma i out switch voltage, 5v/div inductor current, 500ma/div switch voltage, 5v/div inductor current, 500ma/div figure 12. polarity-inverting mode, 12 v in , - 5.5 v out , 1.3 a i out switch voltage, 5v/div inductor current, 500ma/div switch voltage, 5v/div inductor current, 500ma/div
AN2837 revision history 11/12 4 revision history table 2. document revision history date revision changes 26-feb-2009 1 initial release.
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