PMP7208, 5V In 33W Univ 4-Bit VID I/F AVS power Supply for TCI6636K2H/6638K2H

Reference Design using part TPS40303DRC by Texas Instruments

Enlarge
PMP7208 Image
PMP7208 Schematic
Image 1 / 2

Manufacturer

Texas Instruments
  • Application Category
    Power Supplies
  • Product Type
    DC to DC Single Output Power Supplies

Associated Documents

For End Products

  • Digital TV
  • Polyphase Electricity Meter
  • Printers
  • Telecom Infrastructure

Description

  • PMP7208, 5V In 33W Univ 4-Bit VID I/F AVS power Supply for TCI6636K2H/6638K2H. This reference design aims to supply the AVS core supply for Kepler DSPs like the C6638. The C66x series uses Smart Reflex technology to enable the DSP to control its supply voltage. In order to meet this requirement, this design combines the TPS40303 Synchronous PWM Buck Controller with external CSD16325Q5 NexFETs and a low-cost, four-transistor circuit to generate the required VID for the Core Supply AVS requirement. This solutions enables a universal 4-bi VID power supply for processors that need AVS implementation through 4-bit VID programming

Key Features

  • Conversion Type
    DC to DC
  • Input Voltage
    4.5 to 6 V
  • Output Voltage
    1 V
  • Output Current
    25 A
  • Output Power
    33 W
  • Efficiency
    89 %
  • Topology
    Buck

Featured Parts (2)

Featured Parts
Part Number Manufacturer Type Description
TPS40303DRCR Texas Instruments DC to DC Controllers DC/DC Cntrlr Single-OUT Step Down 330kHz 10-Pin VSON EP T/R Buy
TPS40303DRCT Texas Instruments DC to DC Controllers DC/DC Cntrlr Single-OUT Step Down 330kHz 10-Pin VSON EP T/R Buy

Research and Events

State of the Art DC to DC Converters Webinar Series

Analog Devices LTM8052EV DEMO CIRCUIT 1866A

See the Analog Devices demo board DC1866 featuring the LTM8052, a 36-volt input step down micro module regulator with adjustable output voltage and output current limit. This means the LTM8052 will regulate either the user set output voltage or the output current, which can be a useful protection feature as this video demonstrates.

6 years ago

Wide-band Gap Semiconductors Are Ready Now for Tomorrow’s Challenges

The future for wide-band gap material such as GaN is bright because it will be able to offer solutions to designs that Si technology simply can’t provide.

9 years ago
Sorry, your filter selection returned no results.

Connect with Electronic Components

Facebook LinkedIn Instagram YouTube
Contact Us

Contact and Support

Programs and Partners

Featured Products

Product Categories

Manufacturers

Verticals & Trends

We've updated our privacy policy. Please take a moment to review these changes. By clicking I Agree to Arrow Electronics Terms Of Use  and have read and understand the Privacy Policy and Cookie Policy.

See Short Policy

Our website places cookies on your device to improve your experience and to improve our site. Read more about the cookies we use and how to disable them here. Cookies and tracking technologies may be used for marketing purposes.
By clicking “Accept”, you are consenting to placement of cookies on your device and to our use of tracking technologies. Click “Read More” below for more information and instructions on how to disable cookies and tracking technologies. While acceptance of cookies and tracking technologies is voluntary, disabling them may result in the website not working properly, and certain advertisements may be less relevant to you.
We respect your privacy. Read our privacy policy here