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LM2595TADJG датащи(PDF) 8 Page - ON Semiconductor |
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LM2595TADJG датащи(HTML) 8 Page - ON Semiconductor |
8 / 25 page LM2595 http://onsemi.com 8 PCB LAYOUT GUIDELINES As in any switching regulator, the layout of the printed circuit board is very important. Rapidly switching currents associated with wiring inductance, stray capacitance and parasitic inductance of the printed circuit board traces can generate voltage transients which can generate electromagnetic interferences (EMI) and affect the desired operation. As indicated in the Figure 16, to minimize inductance and ground loops, the length of the leads indicated by heavy lines should be kept as short as possible. For best results, single−point grounding (as indicated) or ground plane construction should be used. On the other hand, the PCB area connected to the Pin 1 (emitter of the internal switch) of the LM2595 should be kept to a minimum in order to minimize coupling to sensitive circuitry. Another sensitive part of the circuit is the feedback. It is important to keep the sensitive feedback wiring short. To assure this, physically locate the programming resistors near to the regulator, when using the adjustable version of the LM2595 regulator. DESIGN PROCEDURE Buck Converter Basics The LM2595 is a “Buck” or Step−Down Converter which is the most elementary forward−mode converter. Its basic schematic can be seen in Figure 17. The operation of this regulator topology has two distinct time periods. The first one occurs when the series switch is on, the input voltage is connected to the input of the inductor. The output of the inductor is the output voltage, and the rectifier (or catch diode) is reverse biased. During this period, since there is a constant voltage source connected across the inductor, the inductor current begins to linearly ramp upwards, as described by the following equation: IL(on) + VIN * VOUT ton L During this “on” period, energy is stored within the core material in the form of magnetic flux. If the inductor is properly designed, there is sufficient energy stored to carry the requirements of the load during the “off” period. Figure 17. Basic Buck Converter D Vin RLoad L Cout Power Switch The next period is the “off” period of the power switch. When the power switch turns off, the voltage across the inductor reverses its polarity and is clamped at one diode voltage drop below ground by the catch diode. The current now flows through the catch diode thus maintaining the load current loop. This removes the stored energy from the inductor. The inductor current during this time is: IL(off) + VOUT * VD toff L This period ends when the power switch is once again turned on. Regulation of the converter is accomplished by varying the duty cycle of the power switch. It is possible to describe the duty cycle as follows: d + ton T , where T is the period of switching. For the buck converter with ideal components, the duty cycle can also be described as: d + Vout Vin Figure 18 shows the buck converter, idealized waveforms of the catch diode voltage and the inductor current. Power Switch Figure 18. Buck Converter Idealized Waveforms Power Switch Off Power Switch Off Power Switch On Power Switch On Von(SW) VD(FWD) Time Time ILoad(AV) Imin Ipk Diode Diode Power Switch |
Аналогичный номер детали - LM2595TADJG |
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Аналогичное описание - LM2595TADJG |
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