Datasheet
Table Of Contents
- FEATURES
- DESCRIPTION
- DESCRIPTION (Continued)
- Differences Between TLK2201B, TLK2201BI, and TNETE2201
- BLOCK DIAGRAM
- DETAILED DESCRIPTION
- ABSOLUTE MAXIMUM RATINGS
- DISSIPATION RATINGS
- THERMAL CHARACTERISTICS
- RECOMMENDED OPERATING CONDITIONS
- TLK2201B REFERENCE CLOCK (REFCLK) TIMING REQUIREMENTS
- TLK2201BI REFERENCE CLOCK (REFCLK) TIMING REQUIREMENTS
- TTL ELECTRICAL CHARACTERISTICS
- TRANSMITTER/RECEIVER CHARACTERISTICS
- LVTTL OUTPUT SWITCHING CHARACTERISTICS
- TRANSMITTER TIMING REQUIREMENTS
- APPLICATION INFORMATION
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TLK2201B
TLK2201BI
SLLS585C – NOVEMBER 2003 – REVISED FEBRUARY 2008
Other requirements for thermal lands and thermal vias are detailed in the TI application note PowerPAD
Thermally Enhanced Package Application Report (SLMA002 ), available via the TI Web pages beginning at URL:
http://www.ti.com .
Figure 13. Example of a Thermal Land
For the TLK2201B, this thermal land must be grounded to the low-impedance ground plane of the device. This
improves not only thermal performance but also the electrical grounding of the device. It is also recommended
that the device ground pin landing pads be connected directly to the grounded thermal land. The land size must
be as large as possible without shorting device signal pins. The thermal land may be soldered to the exposed
PowerPAD using standard reflow soldering techniques.
While the thermal land may be electrically floated and configured to remove heat to an external heat sink, it is
recommended that the thermal land be connected to the low-impedance ground plane for the device. More
information may be obtained from the TI application note PHY Layout (SLLA020 ).
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Product Folder Link(s): TLK2201B TLK2201BI