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LTC4357 Datasheet(PDF) 6 Page - Linear Technology |
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LTC4357 Datasheet(HTML) 6 Page - Linear Technology |
6 / 14 page LTC4357 4357fd operation High availability systems often employ parallel-connected power supplies or battery feeds to achieve redundancy and enhance system reliability. ORing diodes have been a popular means of connecting these supplies at the point of load. The disadvantage of this approach is the forward voltagedropandresultingefficiencyloss.Thisdropreduces the available supply voltage and dissipates significant power. Using an N-channel MOSFET to replace a Schottky diode reduces the power dissipation and eliminates the need for costly heat sinks or large thermal layouts in high power applications. The LTC4357 controls an external N-channel MOSFET to form an ideal diode. The voltage across the source and drain is monitored by the IN and OUT pins, and the GATE pin drives the MOSFET to control its operation. In effect the MOSFET source and drain serve as the anode and cathode of an ideal diode. At power-up, the load current initially flows through the body diode of the MOSFET. The resulting high forward voltage is detected at the IN and OUT pins, and the LTC4357 drives the GATE pin to servo the forward drop to 25mV. If the load current causes more than 25mV of voltage drop when the MOSFET gate is driven fully on, the forward voltage is equal to RDS(ON) • ILOAD. If the load current is reduced causing the forward drop to fall below 25mV, the MOSFET gate is driven lower by a weak pull-down in an attempt to maintain the drop at 25mV. If the load current reverses and the voltage across IN to OUT is more negative than –25mV the LTC4357 responds by pulling the MOSFET gate low with a strong pull-down. In the event of a power supply failure, such as if the output of a fully loaded supply is suddenly shorted to ground, reversecurrenttemporarilyflowsthroughtheMOSFETthat is on. This current is sourced from any load capacitance andfromtheothersupplies.TheLTC4357quicklyresponds to this condition turning off the MOSFET in about 500ns, thus minimizing the disturbance to the output bus. MOSFET Selection The LTC4357 drives an N-channel MOSFET to conduct the load current. The important features of the MOSFET are on-resistance, RDS(ON), the maximum drain-source voltage, VDSS, and the gate threshold voltage. Gate drive is compatible with 4.5V logic-level MOSFETs in low voltage applications (VDD = 9V to 20V). At higher voltages (VDD=20Vto80V)standard10VthresholdMOS- FETs may be used. An internal clamp limits the gate drive to 15V between the GATE and IN pins. An external Zener clamp may be added between GATE and IN for MOSFETs with a VGS(MAX) of less than 15V. The maximum allowable drain-source voltage, BVDSS, must be higher than the power supply voltage. If an input is connected to GND, the full supply voltage will appear across the MOSFET. ORing Two-Supply Outputs Where LTC4357s are used to combine the outputs of two power supplies, the supply with the highest output voltage sources most or all of the load current. If this supply’s output is quickly shorted to ground while delivering load current, the flow of current temporarily reverses and flows backwards through the LTC4357’s MOSFET. When the reverse current produces a voltage drop across the MOSFETofmorethan–25mV,theLTC4357’sfastpull-down activates and quickly turns off the MOSFET. If the other, initially lower, supply was not delivering load current at the time of the fault, the output falls until the body diode of its ORing MOSFET conducts. Meanwhile, the LTC4357 charges its MOSFET gate with 20µA until the forwarddropisreducedto25mV.Ifinsteadthissupplywas delivering load current at the time of the fault, its associ- ated ORing MOSFET was already driven at least partially on, and the LTC4357 will simply drive the MOSFET gate harder in an effort to maintain a drop of 25mV. applications inForMation |
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Similar Description - LTC4357 |
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