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TPS562210A Datasheet(PDF) 11 Page - Texas Instruments |
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TPS562210A Datasheet(HTML) 11 Page - Texas Instruments |
11 / 31 page FBTH Css V 0.86 Tss(ms) Iss ´ ´ = 11 TPS562210A, TPS563210A www.ti.com SLVSDP9 – NOVEMBER 2016 Product Folder Links: TPS562210A TPS563210A Submit Documentation Feedback Copyright © 2016, Texas Instruments Incorporated 7.3 Feature Description 7.3.1 The Adaptive On-Time Control and PWM Operation The main control loop of the TPS562210A and TPS563210A are adaptive on-time pulse width modulation (PWM) controller that supports a proprietary D-CAP2™ mode control. The D-CAP2™ mode control combines adaptive on-time control with an internal compensation circuit for pseudo-fixed frequency and low external component count configuration with both low ESR and ceramic output capacitors. It is stable even with virtually no ripple at the output. At the beginning of each cycle, the high-side MOSFET is turned on. This MOSFET is turned off after internal one shot timer expires. This one shot duration is set proportional to the converter input voltage, VIN, and inversely proportional to the output voltage, VO, to maintain a pseudo-fixed frequency over the input voltage range, hence it is called adaptive on-time control. The one-shot timer is reset and the high-side MOSFET is turned on again when the feedback voltage falls below the reference voltage. An internal ramp is added to reference voltage to simulate output ripple, eliminating the need for ESR induced output ripple from D-CAP2™ mode control. 7.3.2 Soft Start and Pre-Biased Soft Start The TPS562210A and TPS563210A have adjustable soft-start. When the EN pin becomes high, the SS charge current (ISS) begins charging the capacitor which is connected from the SS pin to GND (CSS). Smooth control of the output voltage is maintained during start up. The equation for the soft start time, Tss is shown in Equation 1. (1) where VFBTH is 0.765 V and Iss is 6 µA. If the output capacitor is pre-biased at startup, the devices initiate switching and start ramping up only after the internal reference voltage becomes greater than the feedback voltage VFB. This scheme ensures that the converters ramp up smoothly into regulation point. 7.3.3 Power Good The power good output, PG is an open drain output. The power good function becomes active after 1.7 times soft-start time. When the output voltage becomes within –10% of the target value, internal comparators detect power good state and the power good signal becomes high. If the feedback voltage goes under 15% of the target value, the power good signal becomes low. 7.3.4 Current Protection The output over-current limit (OCL) is implemented using a cycle-by-cycle valley detect control circuit. The switch current is monitored during the OFF state by measuring the low-side FET drain to source voltage. This voltage is proportional to the switch current. To improve accuracy, the voltage sensing is temperature compensated. During the on time of the high-side FET switch, the switch current increases at a linear rate determined by VIN, VOUT, the on-time and the output inductor value. During the on time of the low-side FET switch, this current decreases linearly. The average value of the switch current is the load current IOUT. If the monitored current is above the OCL level, the converter maintains low-side FET on and delays the creation of a new set pulse, even the voltage feedback loop requires one, until the current level becomes OCL level or lower. In subsequent switching cycles, the on-time is set to a fixed value and the current is monitored in the same manner. If the over current condition exists consecutive switching cycles, the internal OCL threshold is set to a lower level, reducing the available output current. When a switching cycle occurs where the switch current is not above the lower OCL threshold, the counter is reset and the OCL threshold is returned to the higher value. There are some important considerations for this type of over-current protection. The load current is higher than the over-current threshold by one half of the peak-to-peak inductor ripple current. Also, when the current is being limited, the output voltage tends to fall as the demanded load current may be higher than the current available from the converter. This may cause the output voltage to fall. When the VFB voltage falls below the UVP threshold voltage, the UVP comparator detects it. And then, the device will shut down after the UVP delay time (typically 14 µs) and re-start after the hiccup time. When the over current condition is removed, the output voltage returns to the regulated value. |
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