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参数资料
型号: PTH08T231WAST
厂商: TEXAS INSTRUMENTS INC
元件分类: 电源模块
英文描述: 1-OUTPUT DC-DC REG PWR SUPPLY MODULE
封装: ROHS COMPLIANT PACKAGE-10
文件页数: 10/39页
文件大小: 1281K
代理商: PTH08T231WAST
PTH08T230W, PTH08T231W
SLTS265K – NOVEMBER 2005 – REVISED JUNE 2010
www.ti.com
TURBOTRANS
TurboTrans Technology
TurboTrans technology is a feature introduced in the T2 generation of the PTH/PTV family of power modules.
TurboTrans optimizes the transient response of the regulator with added external capacitance using a single
external resistor. Benefits of this technology include reduced output capacitance, minimized output voltage
deviation following a load transient, and enhanced stability when using ultra-low ESR output capacitors. The
amount of output capacitance required to meet a target output voltage deviation will be reduced with TurboTrans
activated. Likewise, for a given amount of output capacitance, with TurboTrans engaged, the amplitude of the
voltage deviation following a load transient will be reduced. Applications requiring tight transient voltage
tolerances and minimized capacitor footprint area will benefit greatly from this technology.
TurboTrans Selection
Using TurboTrans requires connecting a resistor, RTT, between the +Sense pin (pin 5) and the TurboTrans pin
(pin 8). The value of the resistor directly corresponds to the amount of output capacitance required. All T2
products require a minimum value of output capacitance whether or not TurboTrans is used. For the
PTH08T230W, the minimum required capacitance is 200 mF. When using TurboTrans, capacitors with a
capacitance × ESR product below 10,000 mF×m are required. (Multiply the capacitance (in mF) by the ESR (in
m
) to determine the capacitance × ESR product.) See the Capacitor Selection section of the datasheet for a
variety of capacitors that meet this criteria.
Figure 12 through Figure 17 show the amount of output capacitance required to meet a desired transient voltage
deviation with and without TurboTrans for several capacitor types; Type A (e.g. ceramic), Type B (e.g.
polymer-tantalum), and Type C (e.g. OS-CON). To calculate the proper value of RTT, first determine your
required transient voltage deviation limits and magnitude of your transient load step. Next, determine what type
of output capacitors will be used. (If more than one type of output capacitor is used, select the capacitor type that
makes up the majority of your total output capacitance). Knowing this information, use the chart in Figure 12
through Figure 17 that corresponds to the capacitor type selected. To use the chart, begin by dividing the
maximum voltage deviation limit (in mV) by the magnitude of your load step (in Amps). This gives a mV/A value.
Find this value on the Y-axis of the appropriate chart. Read across the graph to the 'With TurboTrans' plot. From
this point, read down to the X-axis which lists the minimum required capacitance, CO, to meet that transient
voltage deviation. The required RTT resistor value can then be calculated using the equation or selected from the
TurboTrans table. The TurboTrans tables include both the required output capacitance and the corresponding
RTT values to meet several values of transient voltage deviation for 25% (1.5 A), 50% (3 A), and 75% (4.5 A)
output load steps.
The chart can also be used to determine the achievable transient voltage deviation for a given amount of output
capacitance. Selecting the amount of output capacitance along the X-axis, reading up to the 'With TurboTrans'
curve, and then over to the Y-axis, gives the transient voltage deviation limit for that value of output capacitance.
The required RTT resistor value can be calculated using the equation or selected from the TurboTrans table.
As an example, let's look at a 12-V application requiring a 45 mV deviation during an 3 A, 50% load transient. A
majority of 330 mF, 10 m ouput capacitors are used. Use the 12 V, Type B capacitor chart, Figure 14. Dividing
45 mV by 3 A gives 15 mV/A transient voltage deviation per amp of transient load step. Select 15 mV/A on the
Y-axis and read across to the 'With TurboTrans' plot. Following this point down to the X-axis gives us a minimum
required output capacitance of approximately 850 mF. The required RTT resistor value for 850 mF can then be
calculated or selected from Table 5. The required RTT resistor is 1.82 kΩ.
To see the benefit of TurboTrans, follow the 15 mV/A marking across to the 'Without TurboTrans' plot. Following
that point down shows that you would need a minimum of 4000 mF of output capacitance to meet the same
transient deviation limit. This is the benefit of TurboTrans. A typical TurboTrans schematic is shown in Figure 18.
18
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Copyright 2005–2010, Texas Instruments Incorporated
Product Folder Link(s): PTH08T230W PTH08T231W
相关PDF资料
PDF描述
PTH08T230WAZT 1-OUTPUT DC-DC REG PWR SUPPLY MODULE
PTH08T230WAZ 1-OUTPUT DC-DC REG PWR SUPPLY MODULE
PTH08T231WAZ 1-OUTPUT DC-DC REG PWR SUPPLY MODULE
PTH08T230WAST 1-OUTPUT DC-DC REG PWR SUPPLY MODULE
PTH08T230WAS 1-OUTPUT DC-DC REG PWR SUPPLY MODULE
相关代理商/技术参数
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PTH08T240F_08 制造商:TI 制造商全称:Texas Instruments 功能描述:10-A, 4.5-V to 14-V INPUT, NON-ISOLATED POWER MODULE FOR 3-GHz DSP SYSTEMS
PTH08T240FAD 功能描述:DC/DC转换器 10-A 4.5-14V Input Pwr Module RoHS:否 制造商:Murata 产品: 输出功率: 输入电压范围:3.6 V to 5.5 V 输入电压(标称): 输出端数量:1 输出电压(通道 1):3.3 V 输出电流(通道 1):600 mA 输出电压(通道 2): 输出电流(通道 2): 安装风格:SMD/SMT 封装 / 箱体尺寸:
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