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| 型号: | TPS2065CDBVR |
| 厂商: | TEXAS INSTRUMENTS INC |
| 元件分类: | 模拟信号调理 |
| 英文描述: | SPECIALTY ANALOG CIRCUIT, PDSO5 |
| 封装: | PLASTIC, SOT-23, 5 PIN |
| 文件页数: | 7/28页 |
| 文件大小: | 1476K |
| 代理商: | TPS2065CDBVR |
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SLVSAU6B
– JUNE 2011 – REVISED SEPTEMBER 2011
APPLICATION INFORMATION
INPUT AND OUTPUT CAPACITANCE
Input and output capacitance improves the performance of the device; the actual capacitance should be
optimized for the particular application. For all applications, a 0.1
F or greater ceramic bypass capacitor
between IN and GND is recommended as close to the device as possible for local noise decoupling.
All protection circuits such as the TPS20xxC will have the potential for input voltage overshoots and output
voltage undershoots.
Input voltage overshoots can be caused by either of two effects. The first cause is an abrupt application of input
voltage in conjunction with input power bus inductance and input capacitance when the IN terminal is high
impedance (before turn on). Theoretically, the peak voltage is 2 times the applied. The second cause is due to
the abrupt reduction of output short circuit current when the TPS20xxC turns off and energy stored in the input
inductance drives the input voltage high. Input voltage droops may also occur with large load steps and as the
TPS20xxC output is shorted. Applications with large input inductance (e.g. connecting the evaluation board to the
bench power-supply through long cables) may require large input capacitance reduce the voltage overshoot from
exceeding the absolute maximum voltage of the device. The fast current-limit speed of the TPS20xxC to hard
output short circuits isolates the input bus from faults. However, ceramic input capacitance in the range of 1
F to
22
F adjacent to the TPS20xxC input aids in both speeding the response time and limiting the transient seen on
the input power bus. Momentary input transients to 6.5V are permitted.
Output voltage undershoot is caused by the inductance of the output power bus just after a short has occurred
and the TPS20xxC has abruptly reduced OUT current. Energy stored in the inductance will drive the OUT
voltage down and potentially negative as it discharges. Applications with large output inductance (such as from a
cable) benefit from use of a high-value output capacitor to control the voltage undershoot. When implementing
USB standard applications, a 120
F minimum output capacitance is required. Typically a 150 F electrolytic
capacitor is used, which is sufficient to control voltage undershoots. However, if the application does not require
120
F of capacitance, and there is potential to drive the output negative, a minimum of 10 F ceramic
capacitance on the output is recommended. The voltage undershoot should be controlled to less than 1.5 V for
10
s.
POWER DISSIPATION AND JUNCTION TEMPERATURE
It is good design practice to estimate power dissipation and maximum expected junction temperature of the
TPS20xxC. The system designer can control choices of package, proximity to other power dissipating devices,
and printed circuit board (PCB) design based on these calculations. These have a direct influence on maximum
junction temperature. Other factors, such as airflow and maximum ambient temperature, are often determined by
system considerations. It is important to remember that these calculations do not include the effects of adjacent
heat sources, and enhanced or restricted air flow.
Addition of extra PCB copper area around these devices is recommended to reduce the thermal impedance and
maintain the junction temperature as low as practical. The lower junction temperatures achieved by soldering the
pad improve the efficiency and reliability of both TPS20xxC parts and the system. The following examples were
used to determine the
θJACustom thermal impedances noted in the THERMAL INFORMATION table. They were
based on use of the JEDEC high-k circuit board construction (2 signal and 2 plane) with 4, 1oz. copper weight,
layers.
While it is recommended that the DGN package PAD be soldered to circuit board copper fill and vias for low
thermal impedance, there may be cases where this is not desired. For example, use of routing area under the IC.
The TPS20xxC will operate properly with the pad not connected to GND.
θJA for a 4 layer board with the pad not
soldered is approximately 141
°C/W for the 0.5-A and 1-A rated parts and 139°C/W for the 1.5-A and 2-A rated
parts. These values may be used in Equation 1 below to determine the maximum junction temperature.
Copyright
2011, Texas Instruments Incorporated
15
Product Folder Link(s) :TPS20xxC
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| TPS2065CDBVR-2 | 功能描述:电源开关 IC - 配电 Sgl Ch Current-Ltd USB Pwr Disti Switch RoHS:否 制造商:Exar 输出端数量:1 开启电阻(最大值):85 mOhms 开启时间(最大值):400 us 关闭时间(最大值):20 us 工作电源电压:3.2 V to 6.5 V 电源电流(最大值): 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:SOT-23-5 |
| TPS2065CDBVT | 功能描述:电源开关 IC - USB SGL CHANNEL,CRNT-LTD USB PWR DIST SWITCH RoHS:否 制造商:Micrel 电源电压-最小:2.7 V 电源电压-最大:5.5 V 最大工作温度:+ 85 C 最小工作温度:- 40 C 封装 / 箱体:SOIC-8 封装:Tube |
| TPS2065CDBVT-2 | 功能描述:电源开关 IC - 配电 Sgl Ch Current-Ltd USB Pwr Disti Switch RoHS:否 制造商:Exar 输出端数量:1 开启电阻(最大值):85 mOhms 开启时间(最大值):400 us 关闭时间(最大值):20 us 工作电源电压:3.2 V to 6.5 V 电源电流(最大值): 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:SOT-23-5 |
| TPS2065CDGN | 功能描述:电源开关 IC - USB SGL CH,CURRENT-LTD USB PWR DISTR SWITCH RoHS:否 制造商:Micrel 电源电压-最小:2.7 V 电源电压-最大:5.5 V 最大工作温度:+ 85 C 最小工作温度:- 40 C 封装 / 箱体:SOIC-8 封装:Tube |
| TPS2065CDGN-2 | 功能描述:电源开关 IC - 配电 Sgl Ch Current-Ltd USB Pwr Disti Switch RoHS:否 制造商:Exar 输出端数量:1 开启电阻(最大值):85 mOhms 开启时间(最大值):400 us 关闭时间(最大值):20 us 工作电源电压:3.2 V to 6.5 V 电源电流(最大值): 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:SOT-23-5 |
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