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B120

Genesis Microchip

Display Controllers

Description:

CRT/Flat Panel Graphics Controller, CMOS, PQFP160, PLASTIC, QFP-160

Part Details Export to CSV

  • Manufacturer Part Number B120
  • Description CRT/Flat Panel Graphics Controller, CMOS, PQFP160, PLASTIC, QFP-160
  • Manufacturer Genesis Microchip
  • Risk Rank 5.55
  • Part Life Cycle Code private
  • Ihs Manufacturer private
  • Package Description private
  • Distributor private
  • JESD-30 Code private
  • Number of Terminals private
  • Package Body Material private
  • Package Shape private
  • Package Style private
  • Qualification Status private
  • Surface Mount private
  • Technology private
  • Terminal Form private
  • Terminal Position private
  • uPs/uCs/Peripheral ICs Type private

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Datasheets & Reference Design

  • Rectifier Diode, Schottky, 1 Element, 1A, 20V V(RRM), Silicon, PLASTIC, SMA, 2 PIN

  • RECTIFIER DIODE,SCHOTTKY,20V V(RRM),DO-214AC / SMA

  • Rectifier Diode, Schottky, 1 Element, 1A, 20V V(RRM), Silicon, SMA, 2 PIN

  • Rectifier Diode, Schottky, 1 Element, 1A, 20V V(RRM)

  • Passive Delay Line, 1-Func, 10-Tap, True Output, PDIP14

  • CRT/Flat Panel Graphics Controller, CMOS, PQFP160, PLASTIC, QFP-160

  • Rectifier Diode, Schottky, 1 Element, 1A, 20V V(RRM),

  • Rectifier Diode, Schottky, 1 Element, 1A, 30V V(RRM), Silicon, DO-214AC, PLASTIC, SMA, 2 PIN

  • Rectifier Diode, Schottky, 1 Element, 1A, 60V V(RRM), Silicon, PLASTIC, SMA, 2 PIN

  • Rectifier Diode, Schottky, 1 Element, 1A, 20V V(RRM), Silicon, DO-214AC, PLASTIC, SMA, 2 PIN

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    PMP10379: This supply uses the TPS562209 buck converter to generate a 5V/0.5A regulated output and an auxilliary 5V/0.2A unregulated output. A two winding coupled inductor is used to generate the auxilliary output. The auxilliary output is left floating, and could be used as a -5V output or as a second +5V output. This simple design results in an efficient, yet low cost solution for a dual output system. The peak efficiency is over 92%.

  • 12V Input 3W Dual 5V Output Buck Regulator Reference Design

    PMP9091.2: This supply uses the TPS54160 buck regulator to generate a 5V/0.5A regulated output and an auxilliary 5V/0.2A unregulated output. A two winding coupled inductor is used to generate the auxilliary output. The auxilliary output is left floating, and could be used as a -5V output or as a second +5V output. This simple design results in an efficient, yet low cost solution for a dual output system. The peak efficiency is over 88%.

  • 12V Input 3W Dual 5V Output Buck Regulator Reference Design

    PMP9091.1: This supply uses the TPS54160 buck regulator to generate a 5V/0.5A regulated output and an auxilliary 5V/0.2A unregulated output. A two winding coupled inductor is used to generate the auxilliary output. The auxilliary output is left floating, and could be used as a -5V output or as a second +5V output. This simple design results in an efficient, yet low cost solution for a dual output system. The peak efficiency is over 88%.

  • 14-Channel Active Cell Balance Battery Management Reference Design

    TIDA-00239: Active Balance chipset for use in large format Lithium-ion batteries that provides monitoring, balancing, and communications. With precise and robust active balancing, the Active Balance BMS is capable of bidirection power transfer at each cell. Each EM1401EVM can manage 6 to 14 cells (60V max) for Li-ion battery applications. The EM1401EVM modules can be stacked up to 1300V. The system provides fast cell balancing, diagnostics, and module to controller communication. Independent protection circuitry is also provided.

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  • High Efficiency Isolated CAN & Profibus Interface Reference Design

    TIDA-00012: The High Efficiency Isolated CAN & Profibus Interface Solution TI Design is intended for use in industrial systems that require isolated power for CAN and/or Profibus transceivers. This TI Design highlights the ability to completely shut off both the power converter and data transceivers with just one GPIO signal from a microcontroller (when dropping into low power modes, for example). This isolated interface solution delivers accurately regulated rails for both primary and secondary power to TI’s Profibus and CAN transceivers without costly opto-coupler feedback circuits – making this the simplest, most efficient and flexible isolated interface solution for industrial automation on the market today. Other solutions using transformer drivers are not efficient and do not have the ability to be easily turned off and require additional components to regulated the secondary rail. Lastly, this TI Design has the additional feature of allowing the MCU to wait until power is good before transmitting data or to stop transmitting data if a power fault has occured on the interface. The Tiva C Series Launch Pad form factor of this TI Design allows easy connection to the LaunchPad board for use of the Tiva C microcontroller in handling the communications protocol to the interface. The combination of the two boards provides a complete, low cost CAN and Profibus communication solution.

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