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SI9988 Datasheet PDF - Vishay Semiconductors The Si9988 is an integrated, buffered H-bridge with TTL compatible inputs and the capability of delivering a continuous 0.65 A at VDD = 5 V (room temperature) at switching rates up to 200 kHz. Internal logic prevents the upper and lower outputs of either half-bridge from being turned on simultaneously. MOSFET Drivers | MOSFET Gate Drivers, IGBT, Power MOSFET A MOSFET driver is a type of power amplifier that accepts a low-power input from a controller IC and produces a high-current drive input for the gate of a high-power transistor such as an Insulated-Gate Bipolar Transistor (IGBT) or power MOSFET. MOSFET drivers are beneficial to MOSFET operation because the high-current drive provided to the MOSFET gate decreases the switching time between … Integrated Power H -Bridge Controller For 80-Watt

Si9986 Buffered H-Bridge The Si9986 is a buffered H-bridge that will eliminate all the external discretes that are normally needed to prevent shoot-through in low-voltage brushed motor, stepper motor, and actuator applications. Key features include the following: The output FETs are complementary, thus requiring no high-side drive power supply.

Advanced Driver Assistance Systems MOSFETs: H-Bridge MOSFETs; Protection Devices: Data Line Protection; P Channel: P Channel 31V - 99V; Rectifiers: High Performance (SBRT) Special Function Devices: High-Voltage Linear Regulators; Performance (SBR): SBR; Protocol Switches: USB Switches; Connectivity & Timing: Signal Integrity - ReDrivers/Repeaters/Signal Conditioners; PCIe Switch SI9986 datasheet(2/4 Pages) VISHAY | Buffered H-Bridge Si9986Vishay Siliconixwww.vishay.com2Document Number: 70007S-40131—Rev. E, 16-Feb-04ABSOLUTE MAXIMUM RATINGSaVoltage on any pin with respect to ground−0.3 V to

SI9986 datasheet(1/4 Pages) VISHAY | Buffered H-Bridge

The Si9987 is an integrated, buffered H-bridge with TTL compatible inputs and the capability of delivering a continuous 1.0 A @ V DD = 5.0 V (room temperature) at switching rates up to 500 kHz. Internal logic prevents the upper and lower outputs of either half-bridge from being turned on simultaneously.