English
Language : 

PTH08T240W_07 Datasheet, PDF (14/38 Pages) Texas Instruments – 10-A, 4.5-V to 14-V INPUT, NON-ISOLATED, WIDE-OUTPUT, ADJUSTABLE POWER MODULE WITH TURBOTRANS
PTH08T240W, PTH08T241W
SLTS264E – NOVEMBER 2005 – REVISED FEBRUARY 2007
www.ti.com
Output Capacitor (Required)
The PTH08T241W requires a minimum output capacitance of 300 µF of ceramic type.
The PTH08T240W requires a minimum output capacitance of 220 µF of aluminum, polymer-aluminum, tantulum,
or polymer-tantalum type.
The required capacitance above the minimum will be determined by actual transient deviation requirements. See
the TurboTrans Technology application section within this document for specific capacitance selection.
Output Capacitor Information
When selecting output capacitors, the main considerations are capacitor type, temperature stability, and ESR.
When using the TurboTrans feature, the capacitance X ESR product should also be considered (see the
following section).
Ceramic output capacitors added for high-frequency bypassing should be located as close as possible to the
load to be effective. Ceramic capacitor values below 10 µF should not be included when calculating the total
output capacitance value.
When the operating temperature is below 0°C, the ESR of aluminum electrolytic capacitors increases. For these
applications, OS-CON, poly-aluminum, and polymer-tantalum types should be considered.
TurboTrans Output Capacitance
TurboTrans allows the designer to optimize the output capacitance according to the system transient design
requirement. High quality, ultra-low ESR capacitors are required to maximize TurboTrans effectiveness. When
using TurboTrans, the capacitor's capacitance (µF) × ESR (mΩ) product determines its capacitor type; Type A,
B, or C. These three types are defined as follows:
Type A = (100 ≤ capacitance × ESR ≤ 1000) (e.g. ceramic)
Type B = (1000 < capacitance × ESR ≤ 5000) (e.g. polymer-tantalum)
Type C = (5000 < capacitance × ESR ≤ 10,000) (e.g. OS-CON)
When using more than one type of output capacitor, select the capacitor type that makes up the majority of your
total output capacitance. When calculating the C×ESR product, use the maximum ESR value from the capacitor
manufacturer's datasheet.
The PTH08T241W should be used when only Type A (ceramic) capacitors are used on the output.
Working Examples:
A capacitor with a capacitance of 330 µF and an ESR of 5 mΩ, has a C × ESR product of 1650 µF x mΩ
(330 µF × 5 mΩ). This is a Type B capacitor. A capacitor with a capacitance of 1000 µF and an ESR of 8 mΩ,
has a C × ESR product of 8000 µF x mΩ (1000 µF × 8 mΩ). This is a Type C capacitor.
See the TurboTrans Technology application section within this document for specific capacitance selection.
Table 3 includes a preferred list of capacitors by type and vendor. See the Output Bus / TurboTrans column.
Non-TurboTrans Output Capacitance
If the TurboTrans feature is not used, minimum ESR and maximum capacitor limits must be followed. System
stability may be effected and increased output capacitance may be required without TurboTrans.
When using the PTH08T240W, observe the minimum ESR of the entire output capacitor bank. The minimum
ESR limit of the output capacitor bank is 7 mΩ. A list of preferred low-ESR type capacitors, are identified in
Table 3.
When using the PTH08T241W without the TurboTrans feature, the maximum amount of capacitance is 3000 µF
of ceramic type. Large amounts of capacitance may reduce system stability.
Utilizing the TurboTrans feature improves system stability, improves transient response, and reduces
the amount of output capacitance required to meet system transient design requirements.
14
Submit Documentation Feedback