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Overview of TPS6102 by Texas Instruments
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Available Datasheets
| Part # | Manufacturer | Description | Datasheet |
|---|---|---|---|
| TPS61024DRCR | Texas Instruments | 3.0-V Output, 1.5-A Switch, 96% Efficient Boost Converter w/ LDO Down-Mode, QFN-10 10-VSON -40 to 85 | |
| TPS61027DRCRSY | Texas Instruments | 5-V Output, 1.5-A Switch, 96% Efficient Boost Converter w/ LDO Down-Mode, QFN-10 10-VSON -40 to 85 | |
| TPS61020DRCRG4 | Texas Instruments | Adjustable, 1.5-A Switch, 96% Efficient Boost Converter with Down-Mode, QFN-10 10-VSON -40 to 85 |
CAD Models for TPS6102 by Texas Instruments
Resources and Additional Insights for TPS6102
Reference Designs related to TPS6102
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Noise-immune Capacitive Proximity Sensor System Reference Design
The FDC2214 proximity and capacitive sensing design demonstrates the use of TI's capacitive sensing technology to sense and detect the presence of various objects. The design is a complete hardware and firmware solution. The firmware processes the data from one proximity sensor and two capacitive touch buttons via the FDC2214 to determine whether an object is in the intended sensing area. Dedicated colored LEDs light up once the device detects a target in close proximity to the board or detects a press on the buttons. The design is powered by one AA-battery.
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PMP11312 适用于 ASIC 处理器的高效、高功率密度、4 相 1V/120A 参考设计
The PMP11312 reference design is a 4-phase PMBus converter for high current ASIC core rail regulation. It utilizes TPS53647 4-phase controller for 120A high current rail, which employs DCAP+ control for fast transient response and TI's proprietary AutoBalance for tight steady and dynamic ph
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High Brightness Single LED Driver Reference Design for 1- to 2-Cell AA Battery Applications
This reference design delivers a high efficiency LED driver circuit with dimming function using the boost converter TPS61021A. The PWM dimming method can be used in one or two cell AA battery input applications: and the analog dimming method can be used in one cell AA battery input applications. PMP15037 can realize the dimming function through the addition of several resistors and one MOSFET into the circuit: making it an cost-effective and high efficiency solution for LED driver applications.
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Energy Harvesting and Fault Indicator Subsystem for Overhead Fault Indicators Reference Design
This reference design shows multiple architectures for extending primary battery life using a secondary battery or supercapacitor with energy harvested from a current transformer (CT) or solar cells. Optimal power management is done using efficient LED drivers to drive series or parallel strings of LEDs to control intensity for uniform 360 ° visibility.
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PMP4392 具有 PCB 变压器绕组的 48V 输入电压、5V/3A 隔离式电源模块
This reference design demonstrates a high effeiciency DC power module solution, which converts 36V-72V input voltatge to an isolated 5V@3A. The full featured PWM controller LM5020 and S.R controller UCC24610 are used in the solution and achieve high efficiency up to 87.4% at full load 48Vin. The
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Power Supply Reference Design for GPRS Modems using LiSoCL2 Batteries
This design demonstrates how to power GPRS modems in smart meters using LiSoCL2 batteries. GPRS modems require peak current of up to 2A during transmission. This design reduces the peak load requirements on the battery by using the TPS61021A boost converter and a 20F super capacitor to provide the required transmit current. This reduces the overall cost of the system by allowing the use of lower cost LiCoCL2 batteries while maintaining a 10-year lifetime.
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Power Stage Reference Design for Power Stealing Thermostat
TIDA-01574 is a reference design for high-efficiency power stealing for smart thermostats and other building automation equipment. In general: power stealing enables to extend battery life of Wi-Fi enabled smart thermostats by drawing power from 24-V AC when the HVAC load is off. This power-stealing design provides smooth and highly-efficient way to steal power from 24-V AC without interrupting the operation of HVAC load. In this design: TPS2662 - 60V eFuse provides accurate current-limiting and over-voltage protection to enable highly-efficient power stealing.
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0.8V-4.2Vin to 3.3V@100mA Boost+Buck Reference Design
The PMP21055 reference design converts a 0.8V to 4.2V input to a 3.3V/100mA output in a small form factor measuring 12mmx8mm. The design is built on a 2 layer: 1oz board and is a low-cost: small size design intended for battery powered applications.
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PMP8921 由单节或双节锂离子电池供电的 12V@4A 同步升压转换器
This synchronous boost converter efficiently operates from 3.0V - 8.6V (one or two Li-Ion cells) and regulates a 12V@4A output. Efficiency of greater than 97% is achieved when running from two cells.
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PMP8670 具有成本效益的降压转换器,针对 12V 总线提供内核电压
This buck converter is able to provide 12Amps continuous current to a FPGA, ASIC or processor core out of a 12V bus. Due to DCAP2 control dynamic performance is outstanding, ultrafast transient response - well suited for low voltage medium power cores.
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Energy Harvesting from Current Transformer with Super Capacitor for Fault Indicator Reference Design
Power management for the energy harvesting: energy buffering and back-up power is a key challenge in the fault indicator design. The TIDA-01385 introduces a circuit about harvesting energy from a current transformer for the system load of a fault indicator while storing the extra energy in a super capacitor. A primary Li/SOCl2 battery is used as back-up power to extend the fault indicator operating time after the power grid fails. With input current from 3mA to 2A: the reference design provides a stable 3.6V to system load within two seconds.
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PMP20440 适用于汽车音频应用的双相同步降压转换器参考设计
PMP20440 是一款双相同步降压转换器参考设计,在输入电压为 6V 至 17V 且电流为 11A 时的输出值为 12V。在输入电压为 12V 或更低时,输出将会伴随一个小的电压降。此设计使用 LM5140-Q1 双相同步降压控制器,自由运行的开关频率为 440kHz。特性包括外部频率同步、使能和电源正常。
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