order_bg

products

Electronic ic chip Support BOM Service TPS54560BDDAR brand new ic chips electronics components

short description:


Product Detail

Product Tags

Product Attributes

TYPE DESCRIPTION
Category Integrated Circuits (ICs)

Power Management (PMIC)

Voltage Regulators - DC DC Switching Regulators

Mfr Texas Instruments
Series Eco-Mode™
Package Tape & Reel (TR)

Cut Tape (CT)

Digi-Reel®

SPQ 2500T&R
Product Status Active
Function Step-Down
Output Configuration Positive
Topology Buck, Split Rail
Output Type Adjustable
Number of Outputs 1
Voltage - Input (Min) 4.5V
Voltage - Input (Max) 60V
Voltage - Output (Min/Fixed) 0.8V
Voltage - Output (Max) 58.8V
Current - Output 5A
Frequency - Switching 500kHz
Synchronous Rectifier No
Operating Temperature -40°C ~ 150°C (TJ)
Mounting Type Surface Mount
Package / Case 8-PowerSOIC (0.154", 3.90mm Width)
Supplier Device Package 8-SO PowerPad
Base Product Number TPS54560

 

1.IC naming, package general knowledge and naming rules:

Temperature range.

C=0°C to 60°C (commercial grade); I=-20°C to 85°C (industrial grade); E=-40°C to 85°C (extended industrial grade); A=-40°C to 82°C (aerospace grade); M=-55°C to 125°C (military grade)

Package type.

A-SSOP; B-CERQUAD; C-TO-200, TQFP; D-Ceramic copper top; E-QSOP; F-Ceramic SOP; H- SBGAJ-Ceramic DIP; K-TO-3; L-LCC, M-MQFP; N-Narrow DIP; N-DIP; Q PLCC; R - Narrow Ceramic DIP (300mil); S - TO-52, T - TO5, TO-99, TO-100; U - TSSOP, uMAX, SOT; W - Wide Small Form Factor (300mil) W-Wide small form factor (300 mil); X-SC-60 (3P, 5P, 6P); Y-Narrow copper top; Z-TO-92, MQUAD; D-Die; /PR-Reinforced plastic; /W-Wafer.

Number of pins:

a-8; b-10; c-12, 192; d-14; e-16; f-22, 256; g-4; h-4; i -4; H-4; I-28; J-2; K-5, 68; L-40; M-6, 48; N 18; O-42; P-20; Q-2, 100; R-3, 843; S-4, 80; T-6, 160; U-60 -6,160; U-60; V-8 (round); W-10 (round); X-36; Y-8 (round); Z-10 (round). (round).

Note: The first letter of the four letter suffix of the interface class is E, which means that the device has antistatic function.

2.Development of packaging technology

The earliest integrated circuits used ceramic flat packages, which continued to be used by the military for many years because of their reliability and small size. Commercial circuit packaging soon shifted to dual in-line packages, starting with ceramic and then plastic, and in the 1980s the pin count of VLSI circuits exceeded the application limits of DIP packages, eventually leading to the emergence of pin grid arrays and chip carriers.

The surface mount package emerged in the early 1980s and became popular in the later part of that decade. It uses a finer pin pitch and has a gull-wing or J-shaped pin shape. The Small-Outline Integrated Circuit (SOIC), for example, has 30-50% less area and is 70% less thick than the equivalent DIP. This package has gull-wing-shaped pins protruding from the two long sides and a pin pitch of 0.05".

Small-Outline Integrated Circuit (SOIC) and PLCC packages. in the 1990s, although the PGA package was still often used for high-end microprocessors. the PQFP and thin small-outline package (TSOP) became the usual package for high pin count devices. Intel and AMD's high-end microprocessors moved from PGA (Pine Grid Array) packages to Land Grid Array (LGA) packages.

Ball Grid Array packages began to appear in the 1970s, and in the 1990s the FCBGA package was developed with a higher pin count than other packages. In the FCBGA package, the die is flipped up and down and connected to the solder balls on the package by a PCB-like base layer rather than wires. In today's market, the packaging is also now a separate part of the process, and the technology of the package can also affect the quality and yield of the product.


  • Previous:
  • Next:

  • Write your message here and send it to us