The NCP5351 is a dual MOSFET gate driver that optimizes both high-side and low-side power MOSFETs to drive a gate-to-gate synchronous buck converter. The NCP5351 is an excellent companion to multiphase controllers without integrated gate drivers such as ON Semiconductor's CS5323, CS5305 and CS5307. This structure provides flexibility in power design to find the M...
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The NCP5355 is a dual MOSFET gate driver optimized to drive both high and low side output power gates in a synchronous MOSFET buck converter. The NCP5355 is a good companion to multiphase controllers without integrated gate drivers, such as ON Semiconductor's NCP5314 and NCP5316. This architecture provides power supply designers with greater flexibility in finding...
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The LT®1160/LT1162 are cost-effective half-/full-bridge N-channel power MOSFET drivers described. The driver can float the upper drive N-channel power MOSFET off the high voltage (HV) rail up to 60V. Internal logic prevents turning the input in the half-bridge power MOSFET at the same time. Its unique adaptive protection against shoot-through current eliminates all ...
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DESCRIPTION A single LTC1154 high-side gate driver allows high-side switching applications using low-cost N-channel FETs. An internal charge pump boosts the gate drive voltage above the active rail, fully boosting an N-channel MOS switch without external components. Micro-operation, the standby current is 8mA, and with the operating current up to 85mA, almost all systems...
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The dual high-side drivers described in the LTC1255 allow the use of low-cost N-channel FETs for high-side industrial and automotive switching applications. An internal charge pump enhances the gate drive voltage just above the rail, fully boosting an N-channel MOS switch with no external components. Low power operation, with 12mA standby current, enables almost any system use with ...
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describe The LTC®1473L provides reliable and efficient switching of two DC sources. The device drives two back-to-back N-channel MOSFET switches with an external set of low-voltage inputs from the power system. An internal boost regulator provides the voltage to fully boost the logic level of the N-channel MOSFET switches while an internal undervoltage lockout circuit keeps...
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describe The 1623 LTC® SMBus Switch Controller is a slave device which controls two high-side or N-channel MOSFETs on the SMBus or I2C bus. The LTC1623 operates on an input voltage from 2.7V to 5.5V with a low standby current of 14mA (at 3.3V). As specified in the SMBus specification, the LTC1623 maintains a VIH VIL of 0.6V and an input threshold of 1.4V...
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describe The LTC®1693 series drives high power MOSFET speeds. The 1.5A peak output current reduces switching losses with high gate capacitance MOSFETs. The LTC1693-1 contains two non-inverting drivers. The LTC1693-2 contains a non-inverting and inverting one driver. The LTC1693-1 and LTC1693-2 drivers are galvanically isolated and independent. The LTC1693-3 is...
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Radiation Hardened Dual Channel, Inverting Power MOSFET Drivers The radiation hardened Hs4423RH and HS, 4423BRH are inverting, dual channel, monolithic high speed MOSFET drivers designed to convert high current to TTL level signals at voltages up to 18V at the output. The inputs for these devices are TTL compatible and can be driven directly by our HS, 1825AR...
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Dual Radiation Hardened, Non-Inverting Power MOSFET Drivers The radiation hardened Hs4424RH and HS-4424BRH are non-phase, dual, monolithic high speed MOSFET drivers designed to convert high current to TTL level signals at voltages up to 18V at the output. The inputs for these devices are TTL compatible and can be driven directly by our HS, 1825ARH PWM or...
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General Description The Supertex HT0440 is a dual-channel high voltage isolated driver utilizing Supertex's patented HVCMOS® technology. It is designed to drive unidirectional switches in bidirectional or discrete MOSFET configurations. It can drive high N-channel MOSFET side switches up to 400V. Generates two independent HT0440 DC isolated voltage outputs, V...
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