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TPS2051BDBVT

0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 5-SOT-23 -40 to 85

Manufacturer Texas Instruments
Price Range $0.4300 / $1.3282

Part Details

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Distributors with Stock

Part Number Description Manufacturer Compare
TPS2051BDBVR Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 5-SOT-23 -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDBVR
TPS2051BDBVTG4 Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 5-SOT-23 -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDBVTG4
TPS2051BDBV Power Circuits 1-CHANNEL POWER SUPPLY SUPPORT CKT, PDSO5, PLASTIC, SOT-23, 5 PIN Texas Instruments TPS2051BDBVT vs TPS2051BDBV
Part Number Description Manufacturer Compare
TPS2051BDBV Power Circuits 1-CHANNEL POWER SUPPLY SUPPORT CKT, PDSO5, PLASTIC, SOT-23, 5 PIN Texas Instruments TPS2051BDBVT vs TPS2051BDBV
TPS2051BDBVTG4 Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 5-SOT-23 -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDBVTG4
TPS2051BDBVR Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 5-SOT-23 -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDBVR
TPS2051BDGN Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 8-HVSSOP -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDGN
TPS2051BDR Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 8-SOIC -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDR
TPS2051BDG4 Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 8-SOIC -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDG4
TPS2051BQDRQ1 Power Circuits Automotive 2.7V to 5.5V, 500mA current-limited power distribution switch 8-SOIC -40 to 125 Texas Instruments TPS2051BDBVT vs TPS2051BQDRQ1
TPS2051BD Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 8-SOIC -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BD
TPS2051BDGNR Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 8-HVSSOP -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDGNR
TPS2051BDGNG4 Power Circuits 0.7A, 2.7-5.5-V single , power switch, fault report, active-high enable 8-HVSSOP -40 to 85 Texas Instruments TPS2051BDBVT vs TPS2051BDGNG4

Global Popularity

Popularity in Power Circuits

Popularity in Power Management Circuits

Popularity by Region

Very High

Medium

Good

Low

  • 1. Poland
    100
  • 2. Estonia
    100
  • 3. India
    97
  • 4. China
    89
  • 5. Mauritius
    89
  • 6. Germany
    86
  • 7. Belgium
    86
  • 8. Bulgaria
    85
  • 9. Bhutan
    85
  • 10. Mali
    84

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. Rochester Electronics $0.4300 Buy Now
  • 2. Texas Instruments $0.8500 Buy Now
  • 3. Chip1Stop $0.9680 Buy Now
  • 4. element14 Asia-Pacific $1.0336 Buy Now
  • 5. Newark element14 $1.1400 Buy Now
  • 6. Farnell element14 $1.3282 Buy Now
  • 7. Farnell element14 $1.3282 Buy Now

Datasheets & Reference Designs

Reference Designs

  • Data Concentrator Reference Design
    TIDEP0006: The data concentrator reference design gives developers the ultimate level of flexibility and scalability with numerous performance, cost and connectivity options for their data concentrator designs. It includes advanced hardware and software that reduce development time by up to nine months while still supporting connectivity to more than 1,000 smart meters. Developers can easily plug in different connectivity modules, including Sub-1GHz (LPRF), general packet radio service (GPRS), near field communication (NFC) and TI's power line communication (PLC) system-on-module robust G3 and PRIME support.
  • 32-bit ARM® Cortex™-M4F MCU based Small form factor Serial-to-Ethernet Converter
    TIDA-00226: Serial communications have been widely used in grid infrastructure equipments. But the limitation of transmission distance and bandwidth of serial communication leads to demand for a more flexible and high-speed method to meet modern smart grid network migration. Ethernet has been accepted as an efficient communications method across industries in the last decade. This design demonstrates bi-directional switching and transmission between serial ports and Ethernet ports, which can enable legacy equipment that has only serial communication in their power grid to communicate with modern, Ethernet-based equipment without any changes to the existing hardware or software.
  • Smart Home and Energy Gateway Reference Design
    TIEP-SMART-ENERGY-GATEWAY: The Smart Home and Energy Gateway Reference Design provides example implementation for measurement, management and communication of energy systems for smart homes and buildings. This example design is a bridge between different communication interfaces, such as WiFi, Ethernet, ZigBee or Bluetooth, that are commonly found in residential and commercial buildings. Since objects in the house and buildings are becoming more and more connected, the gateway design needs to be flexible to accommodate different RF standard, since no single RF standard is dominating the market. This example gateway addresses this problem by supporting existing legacy RF standards (WiFi, Bluetooth) and newer RF standards (ZigBee, BLE).
  • Embedded USB 2.0 Reference Design
    TIDEP0013: The USB 2.0 reference design guidelines are extremely important for designers who want to ensure that their design will pass USB2.0 electrical compliance testing. The guidelines are applicable to AM335x and AM437x but also generic to other processors. The approach taken for these guidelines is highly practical, without complex formulas or theory.
  • Interfacing SDRAM Memory on High Performance Microcontrollers
    TIDM-TM4C129XSDRAM: This reference design demonstrates how to implement and interface SDRAM Memory to the performance microcontroller TM4C129XNCZAD. The implementation is made possible by using the EPI Interface of the Microcontroller to interface a 256Mbit SDRAM at 60MHz which allows developers to implement additional memory for code and data when interfacing with High Speed LCD Panels.
  • CC2531EM-IOT-LIGHTING-GATEWAY-RD Residential Lighting Gateway for IoT Applications Reference Design | TI.com
    CC2531EM-IOT-LIGHTING-GATEWAY-RD: This design provides a reference ZigBee® gateway for IoT lighting applications. Feature-rich, Linux-based Network & GUI applications powered by Sitara™ AM335x processor can control and monitor ZigBee lighting nodes using the SimpleLink™ ZigBee CC2531 wireless MCU. This design includes example applications for local and remote control of ZigBee nodes, including Android (phones/tablets/set top boxes), Java-script for cloud connectivity agents and C-clients.
  • TIDEP0006 Data Concentrator Reference Design | TI.com
    TIDEP0006: The data concentrator reference design gives developers the ultimate level of flexibility and scalability with numerous performance, cost and connectivity options for their data concentrator designs. It includes advanced hardware and software that reduce development time by up to nine months while still supporting connectivity to more than 1,000 smart meters. Developers can easily plug in different connectivity modules, including Sub-1GHz (LPRF), general packet radio service (GPRS), near field communication (NFC) and TI's power line communication (PLC) system-on-module robust G3 and PRIME support.
  • TIDEP0013 Embedded USB 2.0 Reference Design | TI.com
    TIDEP0013: The USB 2.0 reference design guidelines are extremely important for designers considering USB2.0 electrical compliance testing. The guidelines are applicable to AM335x and AM437x but also generic to other processors. The approach taken for these guidelines is highly practical, without complex formulas or theory.
  • PMP7986 Analog solution for Virtex 7 - VC707 development kit | TI.com
    PMP7986: Xilinx chose TI as the power solution vendor to power Virtex 7 FPGA (along with other analog solution from TI). You will find Schematic and bill of material fo the solution Xilinx used on the development kits (VC707).
  • TIDEP0059 G3-PLC (CENELEC Band) Data Concentrator Reference Design | TI.com
    TIDEP0059: The TIDEP0059 reference design implements a complete Power Line Communications (PLC) Data Concentrator based upon the G3-PLC industry standard. It operates in the 36 kHz – 91 kHz band defined by the CENELEC for Smart Grid communications. The reference design includes G3-PLC software which supports the management of up to 1000 G3-PLC end points in a neighborhood area network. The reference design supports the full 312 Kbps data throughput specified by the G3-PLC standard.
  • TIDM-TM4C129XSDRAM Interfacing SDRAM Memory on High Performance Microcontrollers | TI.com
    TIDM-TM4C129XSDRAM: This reference design demonstrates how to implement and interface SDRAM Memory to the performance microcontroller TM4C129XNCZAD. The implementation is made possible by using the EPI Interface of the Microcontroller to interface a 256Mbit SDRAM at 60MHz which allows developers to implement additional memory for code and data when interfacing with High Speed LCD Panels.
  • Residential Lighting Gateway for IoT Applications Reference Design
    CC2531EM-IOT-LIGHTING-GATEWAY-RD: This design provides a reference ZigBee® gateway for IoT lighting applications. Feature-rich, Linux-based Network & GUI applications powered by Sitara™ AM335x processor can control and monitor ZigBee lighting nodes using the SimpleLink™ ZigBee CC2531 wireless MCU. This design includes example applications for local and remote control of ZigBee nodes, including Android (phones/tablets/set top boxes), Java-script for cloud connectivity agents and C-clients.
  • Analog solution for Virtex 7 - VC707 development kit
    PMP7986: Xilinx chose TI as the power solution vendor to power Virtex 7 FPGA (along with other analog solution from TI). You will find Schematic and bill of material fo the solution Xilinx used on the development kits (VC707).
  • TIDM-SERVODRIVE Industrial Servo Drive and AC Inverter Drive Reference Design | TI.com
    TIDM-SERVODRIVE: The DesignDRIVE Development Kit is a reference design for a complete industrial drive directly connecting to a three phase ACI or PMSM motor. Many drive topologies can be created from the combined control, power and communications technologies included on this single platform. Includes multiple position sensor interfaces, diverse current sensing techniques, hot-side partitioning options and expansion for safety and industrial Ethernet.
  • TIDEP0058 G3-PLC (FCC Band) Data Concentrator Reference Design | TI.com
    TIDEP0058: The TIDEP0058 reference design implements a complete Power Line Communications (PLC) Data Concentrator based upon the G3-PLC industry standard. It operates in the 157 kHz – 487 kHz band defined by the FCC for Smart Grid communications. The reference design includes G3-PLC software which supports the management of up to 1000 G3-PLC end points in a neighborhood area network. The reference design supports the full 312 Kbps data throughput specified by the G3-PLC standard.
  • Industrial Servo Drive and AC Inverter Drive Reference Design
    TIDM-SERVODRIVE: The DesignDRIVE Development Kit is a reference design for a complete industrial drive directly connecting to a three phase ACI or PMSM motor. Many drive topologies can be created from the combined control, power and communications technologies included on this single platform. Includes multiple position sensor interfaces, diverse current sensing techniques, hot-side partitioning options and expansion for safety and industrial Ethernet.
  • TIEP-SMART-ENERGY-GATEWAY Smart Home and Energy Gateway Reference Design | TI.com
    TIEP-SMART-ENERGY-GATEWAY: The Smart Home and Energy Gateway Reference Design provides example implementation for measurement, management and communication of energy systems for smart homes and buildings. This example design is a bridge between different communication interfaces, such as WiFi, Ethernet, ZigBee or Bluetooth, that are commonly found in residential and commercial buildings. Since objects in the house and buildings are becoming more and more connected, the gateway design needs to be flexible to accommodate different RF standard, since no single RF standard is dominating the market. This example gateway addresses this problem by supporting existing legacy RF standards (WiFi, Bluetooth) and newer RF standards (ZigBee, BLE).
  • Compact CAN-to-Ethernet Converter using 32-bit ARM Cortex-M4F MCU Reference Design
    TIDA-00203: This reference design demonstrates a small form-factor Controller Access Network (CAN)-to-Ethernet converter using the TM4C129XNCZAD 32-bit ARM® Cortex™-M4F MCU. Supporting 10/100 Base-T compliant with IEEE 802.3 standard, this reference design is useful for industrial drives monitoring and control, as well as Supervisory Control and Data Acquisition (SCADA) systems. The same hardware can be used as a CAN-to-Ethernet gateway or bridge with simple changes in the firmware. The gateway application is useful for monitoring remote CAN networks over Ethernet, while the bridge application is useful for coupling CAN networks via the the internet or local area netowork (LAN).
  • TIDEP0078 OPC UA Data Access Server for AM572x Reference Design | TI.com
    TIDEP0078: OPC UA is an industrial machine-to-machine protocol designed to allow interoperability and communication between all machines connected under Industry 4.0. The TIDEP0078 TI Design demonstrates use of the MatrikonOPC™ OPC UA server development kit (SDK) to allow communications using an OPC UA data access (DA) server running embedded in a project or design. The OPC UA DA deals with real-time data and is best suited for industrial automation applications where time is an important aspect of the data. A reference OPC UA server implementation is provided that accesses the GPIO capabilities of the AM572x IDK. The reference code can be extended to provide an OPC UA interface to any data the AM572x IDK board can access including data acquired through Profibus, RS-485, CAN bus, and industrial Ethernet-based protocols such as EtherCAT™ or PROFINET™ using the Programmable Real-time Unit Industrial Communication Subsystems (PRU-ICSS).

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