Part Details for TPS7A8101 by PennEngineering (PEM)
Overview of TPS7A8101 by PennEngineering (PEM)
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Part Details for TPS7A8101
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Reference Designs related to TPS7A8101
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TIDA-00752 具有脉冲计数接口的双线电隔离式 IC 温度传感器参考设计
In order to provide system designers a new cost-effective and easy alternative to assured precision temperature measurement, this reference design discusses the new tiny 2-pin digital output IC temperature sensor with single wire pulse count interface that enhances reliability and greatly simplif
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TIPD159 电压模式乘法 DAC 参考设计
This multiplying DAC (MDAC) circuit creates a unipolar voltage output from 0 V to 2.5 V. This design does not require dual supplies to realize a unipolar, positive output voltage as with typical MDAC circuits. This design removes the need for a negative rail by using the MDAC in “reverse&rd
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PMP20128 4.5V-60V 输入电压 SEPIC 转换器 (6.5V@2.5A) 参考设计
此 6.5V/2.5A SEPIC 转换器设计为在极宽的输入电压范围内运行。使用 6V 输入初次加电之后,通过采用电压倍增器,转换器可使用降低到 4.5V 的输入运行,从而提供偏置电源。它需要的组件数目最少,具有较小的 PCB 面积,并提供极佳的效率。
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TIDA-00666 支持 BLE 连接、由 4mA 至 20mA 电流回路供电的现场发送器参考设计
TI 参考设计 TIDA-00666 支持蓝牙低功耗 (BLE) 通信,并通过电流为 4-20mA 的双线回路供电。对于工业过程控制仪表,4mA 至 20mA 模拟电流回路通常用于传输模拟信号。20mA 和 4mA 分别表示信号范围的上限和下限。TIDA-00666 参考设计测量湿度和温度并通过蓝牙低功耗技术播报测量的值。TIDA-00666 设计采用回路供电方式,且回路中的电流值随湿度值而变化(0% 为 4mA,100% 为 20mA)。
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Power Supply Reference Design for Optimizing Spur and Phase Noise in RF-sampling DACs
This reference design provides an efficient power supply scheme to power-up the RF-sampling DAC38RF8x digital-to-analog data converter (DAC) without sacrificing performance and also reduces board area and BOM. The reference design uses both DC/DC switchers and an LDO to power-up the DAC38RF8x while achieving high analog performance (spurious and phase noise) and minimizing power efficiency trade-offs. The design method outlined here can be extended to the power supply design of other RF-sampling data converters.
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PMP10852 12V/15A 输出高功率小尺寸同步降压参考设计
The PMP10852 reference design uses the LM5117, CSD18563 for the high side MOSFET and CSD18532 (x2) for the low side MOSFETs. PMP10852 takes input voltages between 27V to 41V and outputs 180W(12V @15A). The size is very small, total area is 1,200mm2 (30mm x 40mm) solution size. The des
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Wideband Receiver Reference Design for Upstream DOCSIS 3.1 Applications
This reference design consists of an analog front-end (AFE) signal chain for wideband receiver applications using the LMH2832 digitally controlled variable gain amplifier (DVGA) and ADS54J40 analog-to-digital converter (ADC). The design is primarily targeted for upstream DOCSIS 3.1 receiver applications specified for cable modem termination systems (CMTS) and supports up to 196 MHz of upstream signal bandwidth. The circuit solves the filtering and analog signal processing requirements for the DOCSIS 3.1 standard: which makes it easier for system designers to readily incorporate the design on the CMTS-side of the upstream signal path.
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Power optimization for 77GHz-level transmitter reference design
TIDEP-0091 highlights strategies for power optimization of IWR14xx 76- to 81-GHz mmWave sensors in tank level-probing applications: displacement sensors: 4- to 20-mA sensors and other low-power applications for detecting range with high accuracy in a minimal power envelope. In these applications: the system often operates on a low-voltage data line that provides less power than the operational power consumption. Duty cycling is critical to reducing the average power to meet the power input restrictions. Power optimization is achieved through MSP432 external duty cycling the IWR14xx device for periodic sensing. Additionally: this reference design provides a sample configuration for single-dimensional range detection.Read more about fluid-level sensing using 77-GHz millimeter wave (SPYY004).
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TIDC-EVSE-WIFI 支持 Wi-Fi 的 1 级和 2 级电动汽车维护设备参考设计
经过 TIDC-EVSE-WIFI 验证的 TI 参考设计详细说明了如何采用添加的 Wi-Fi® 功能实施符合 J1772 标准的 1 级和 2 级电动车辆维修设备 (EVSE) 方案。CC3100 网络处理器可让 EVSE 等高度嵌入式器件轻松连接至现有无线网络或直接连接至器件。通过在 EVSE 中集成此功能,此设计可实现针对已连接的电动车辆充电状态的远程功率监测和控制。
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TIDA-01353 适用于 HVAC 风机、BOM 成本较低的电气换相电机参考设计
TIDA-01353 参考设计是一种基于 MOSFET 的分立式三相 ECM 控制模块,适用于在 HVAC 风机应用中使用无传感器梯形控制方法驱动额定功率高达 375W 的无刷 (BLDC) 电机。逐周期过流保护功能可保护功率级不受过流影响,而且板可以在高达 85°C 的环境温度下工作。此设计还针对用户可用的 5 个预设风机转速端子包含光电隔离,并且是对永久分相式电容器 (PSC) 电机的一种直接替代参考设计。
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Dallas Logic Corp high performance active interface for high-speed ADCs reference design
This reference design uses the ADC34J22 12b 50Msps JESD204B data converter and the THS4541 fully differential amplifer to demonstrate how to design a high performance active interface for high speed ADCs. This type of circuit can be used in sensor front end: motor control: and test and measurement applications. The circuit model and derivation of the design equations is presented along with the actual implementation on a PCB. Results of this implementation are presented to show very similar performance as compared to a passive AC coupled transformer interface.
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Continuous Wave Phase-aligned Multitone Generator: DC-to-6-GHz RF-Sampling DAC Reference Design
The TIDA-01084 reference design demonstrates the use of RF sampling DAC to generate continuous phase-aligned multitone waveforms. With four 48-bit independent NCOs: the 14-bit: 9GSPS DAC38RF83 can generate four CW tones placed anywhere within the first Nyquist zone or up to 6 GHz in the second.This reference design covers the theory of operations: explanation of the GUI: and directions for programming NCOs to generate the tones without the requirement of an external pattern generator. This design demonstrates an easy-to-use method which greatly simplifies and reduces the bill of materials (BOM) for continuos waveform generation.
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High efficiency power supply architecture reference design for protection relay processor module
This reference design showcases various power architectures for generating multiple voltage rails for an application processor module: requiring >1A load current and high efficiency . The required power supply is generated using 5-: 12- or 24-V DC input from the backplane. Power supplies are generated using DC-DC converters with an integrated FET and a power module with an integrated inductor for size. The design features a HotRod™ package type for applications requiring low EMI. It is also optimal for design time constrained applications. Additional features include DDR termination regulator: input supply OR-ing: voltage sequencing: eFuse for overload protection: and voltage and load current monitoring. This design can be used with a processor: digital signal processor and field-programmable gate array. It has been tested for radiated emission: per CISPR22 meeting class A and B requirements.
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TI USB Type-C Dock Reference Design
The Type-C Dock Board is designed to help evaluate Type-C Dock implementations with video and charging support. The Type-C Dock offers data and video port expansion and a charging capability for Type-C systems that support USB PD/Alternate mode protocol. The dock comes with three downstream facing ports: two Type C DFP only ports with max of 5V@3A VBUS power: one Type-A DFP port with BC1.2 support. A DisplayPort connector is also provided for video sink connection: A direct connect to a DisplayPort monitor: connection to a MST HUB or a DP protocol converter to a monitor.
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RF-Sampling S-Band Radar Transmitter Reference Design
Synthesis of waveforms appropriate for an S-band multifunction phased array radar (MPAR) is demonstrated with an RF sampling architecture utilizing the DAC38RF80: a 9GSPS 16-bit digital-to-analog converter (DAC). The RF sampling transmit architecture simplifies the signal chain: bringing the data converter closer to the antenna: allowing flexibility with high performance.
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Obstacle detection reference design using 77-GHz mmWave sensor
This reference design demonstrates the use of the AWR1642 single-chip mmWave sensor with integrated DSP as an obstacle-detection sensor for the car door and trunk: enabling applications like automatic car door openers and intelligent car doors that can accurately detect obstacles/objects in a wide field of view (FoV). The evaluation kit comes with a single patch antenna for wider FoV detection in azimuth (±70 °) and elevation (±40º): and a detection range of up to 15 m. A reference software implementation on the device is provided: which enables high-resolution detection of objects with clustering. A MATLAB®-based GUI is provided for visualization of detected objects.
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PMP4350 不含 CT 的通用交流输入、150W 单串 200V/700mA 输出 LLC 转换器
The reference design is a high effiency (>94%) isolated AC/DC single string output LED lighting solution for high watt (>100W) general LED lighting. The topology uses Transition Mode (TM) PFC plus LLC control, which can support PWM dimming and analog dimming on the output side. The target application for this reference design is TV LED backlight, outdoor and high-bay general LED lighting. CT is eliminated in the design and the PSR controller UCC28700 is used for aux power in order to reduce overall cost.
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TIDA-01400 电池组控制器通信网桥参考设计
The Bridge BoosterPack demonstrates the bq76PL455A-Q1 configured as a dedicated communications bridge to translate MCU UART communications to the bq76PL455A-Q1 daisy chain. The bq76PL455 Bridge BoosterPack also offers an isolated current sense input for measuring battery pack current, as well as an isolated voltage measurement.
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Beamsteering for corner radar reference design
This reference design provides a foundation for blind-spot detection (BSD): cross-traffic alert (CTA): lane-change assist (LCA): and traffic-jam assist (TJA) applications using the AWR1843BOOST evaluation module (EVM). This design allows the estimation (in the azimuthal and elevation plane): tracking of the position (in the azimuthal plane): and the velocity of objects in its field of view (FoV) for up to 150 m.This design also allows transmit (TX) beamforming by turning on all of the 3TX operations simultaneously. Beamsteering is also supported by using the 6-bit TX phase shifter to steer the beam toward different angles in the azimuthal direction.
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PMP6857 使用 TPS40322 的 9 - 15V 输入,3.3V@25A 和 5V@25A
PMP6857 参考设计采用 TPS40322 生成 5V 和 3.3V 输出。每个电源输出都能达到 25A。设计还利用高性能紧凑型 MOSFET (CSD87353),在大多数负载范围内达到 95% 以上的效率。
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mmWave diagnostic and monitoring reference design
This reference design showcases the inbuilt autonomous monitoring functionality in mmWave radar sensors that enhances system efficiency by minimizing the processing load on the host. The design uses a safety diagnostic library (SDL) to run diagnostic tests on programmable digital cores: peripherals and memories. The reference design also configures and enables RF/analog monitor features of different hardware components. By assisting the user to implement their ASIL-B/SIL2-compliant products with various safety resources: this design lessens overall development time and time to market.
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Short-range radar (SRR) reference design
The TIDEP-0092 reference design provides a foundation for short-range radar (SRR) applications using the AWR1642 evaluation module (EVM). This design allows the estimation and tracking of the position (in the azimuthal plane) and velocity of objects in its field of view up to 80 m: travelling as fast as 90kmph. The AWR1642 is configured to be a multi-mode radar: meaning that: while it tracks objects at 80m: it can also generate a rich point cloud of objects at 20m: so that both cars at a distance: and smaller obstacles close-by can be detected. Learn more with the TI Resource Explorer for Short Range Radar.
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People Counting and Tracking Reference Design Using mmWave Radar Sensor
This reference design demonstrates the use of IWR6843: which is a single-chip mmWave radar sensor with integrated DSP for an indoor and outdoor people counting application. This reference design uses the IWR6843ISK evaluation module (EVM) and integrates a complete radar processing chain onto the IWR6843 device. This solution can detect up to 250 objects: and point and track up to 20 people with a field of view (FOV) of ±60º in the azimuth (horizontal) plane.
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Automated parking system reference design using 77-GHz mmWave sensor
This reference design demonstrates the use of AWR1843: a 77-GHz single-chip mmWave sensor with integrated DSP: MCU: and hardware accelerator as an automated parking sensor: which enables robust detection of objects around a car in challenging parking and environmental conditions. With a range resolution of less than 4 cm and 10-MHz IF bandwidth: objects moving at high speed can be detected at good resolution. The evaluation kit comes with an antenna design that enables detection in a field of view of ±50 ° in azimuth and ±15 ° in elevation: with a detection range from 4 cm to 40+ m. A reference software implementation on the device is provided: which enables high-resolution detection of objects with clustering. A MATLAB®-based GUI is provided for visualization of detected objects.
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Vehicle occupant detection reference design
This reference design demonstrates the use of the AWR6843 60GHz single-chip mmWave sensor with integrated DSP: as a Vehicle Occupant Detection (VOD) and Child Presence Detection (CPD) Sensor enabling the detection of life forms in a vehicle. This design provides a reference software processing chain which runs on the C674x DSP: enabling the generation of a heat map to detect occupants in a Field of View (FOV) of ±60 degrees. Watch Vehicle Occupant Detection using mmWave Sensors Video.Additional informationReference software processing chain to detect the occupants inside a car using radar.
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Traffic Monitoring Object Detection and Tracking Reference Design Using mmWave Radar Sensor
This reference design demonstrates how our single-chip millimeter-wave (mmWave) technology can be used for robust: long-range sensing in traffic monitoring and other applications. The reference design can use the IWR1642BOOST evaluation module (EVM) or the IWR1843BOOST evaluation module (EVM) and integrates a complete radar processing chain onto the IWR1642: IWR6843 or IWR8143 device. The processing chain includes the analog radar configuration: analog-to-digital converter (ADC) capture: low-level FFT processing: and high level clustering and tracking algorithms. This reference design is intended to be built on top of our mmWave SDK for a cohesive software experience including APIs: libraries and tools for evaluation: development and data visualization.
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80m-Range Object Detection Reference Design With Integrated Single-Chip mmWave Sensor
TIDEP-0094 provides a foundation to evaluate object detection using the IWR1642 evaluation module (EVM). This reference design integrates a complete radar processing chain onto the IWR1642 device to enable the estimation of the position (in the azimuthal plane) and the velocity of objects in its field of view up to 84 meters. The software example is integrated and provided with the mmWave software development kit (SDK) for a cohesive software experience including APIs: libraries and tools for evaluation: development and data visualization.
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