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L6928D Scheda tecnica(PDF) 5 Page - STMicroelectronics |
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L6928D Scheda tecnica(HTML) 5 Page - STMicroelectronics |
5 / 9 page 5/9 L6928D 4.1.2 Low Noise Mode If for noise reasons, the very low frequencies of the low consumption mode are undesirable, the low noise mode can be selected. In low noise mode, the efficiency is a little bit lower compared with the low consumption mode in very light load conditions but for medium-high load currents the efficiency values are very similar. Basically, the device switches with its internal free running frequency of 1.4MHz. Obviously, in very light load conditions, the device could skip some cycles in order to keep the output voltage in regulation. 4.1.3 Synchronization The device can also be synchronized with an external signal from 1MHz up to 2MHz. In this case the low noise mode is automatically selected. The device will eventually skip some cycles in very light load conditions. The internal synchronization circuit is inhibited in shortcircuit and overvoltage conditions in order to keep the protections effective (see relative sections). 4.2 Short Circuit Protection During the device operation, the inductor current increases during the high side turn on phase and decrease during the high side turn off phase based on the following equations: In strong overcurrent or shortcircuit conditions the VOUT can be very close to zero. In this case ∆ION increases and ∆IOFF decreases. When the inductor peak current reaches the current limit, the high side mosfet turns off and so the TON is reduced down to the minimum value (250ns typ.) in order to reduce as much as possible ∆ION. Anyway, if VOUT is low enough it can be that the inductor peak current further increases because during the TOFF the current decays very slowly. Due to this reason a second protection that fixes the maximum inductor valley current has been introduced. This protection doesn't allow the high side MOSFET to turn on if the current flowing through the inductor is higher that a specified threshold (valley current limit). Basically the TOFF is increased as much as required to bring the inductor current down to this threshold. So, the maximum peak current in worst case conditions will be: Where IPEAK is the valley current limit (1.4A typ.) and TON_MIN is the minimum TON of the high side MOSFET. 4.3 Slope Compensation In current mode architectures, when the duty cycle of the application is higher than approximately 50%, a pulse- by-pulse instability (the so called sub harmonic oscillation) can occur. To allow loop stability also in these conditions a slope compensation is present. This is realized by reducing the current flowing through the inductor necessary to trigger the COMP comparator (with a fixed value for the COMP pin voltage). With a given duty cycle higher than 50%, the stability problem is particularly present with an higher input voltage (due to the increased current ripple across the inductor), so the slope compensation effect increases as the input voltage increases. From an application point of view, the final effect is that the peak current limit depends both on the duty cycle (if higher than approximately 40%) and on the input voltage. ∆I ON V IN V OU T – () L ----------------------------------- T ON ⋅ = ∆I OFF V OUT () L ------------------- T OFF ⋅ = I PEAK I VALL EY V IN L --------- T ON_MIN ⋅ + = |
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