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Reference Designs related to LM4040

  • 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.
  • PMP7769 700V-860V 输入转换为 16.5V、0.5A
    其为高电压非隔离反向转换器。该电路采用 LMC7101BIM5 作为误差信号放大器,从输出获得反馈,然后转至任一输入。Q101、U101 和 R100 提供 UVLO 保护。其具有自举电源。其在轻载时具有滞后模式。
  • 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.
  • Shunt-Based 200A Peak Current Measurement Reference Design Using Isolation Amplifier
    This reference design is for isolated current measurement using a shunt and isolated amplifier. By limiting the shunt voltage to 25 mV: this design is able to reduce power dissipation in the shunt and achieve a high-current measurement range of up to 200 A. Shunt voltage is further amplified by precision op amps in instrumentation amplifier-based configuration with a gain of 10 to match the input range of isolation amplifier. The output of isolation amplifier is level shifted and scaled to utilize the complete input range of 3.3-V ADC. This design uses a free-running transformer driver to generate isolated supply voltage for the high-voltage side of the circuit. Small form factor for the power supply is achieved by the operation of driver at 400 KHz.
  • Simple 6LoWPAN Mesh Data Collector Improves Network Performance Reference Design
    TIDA-01547 reference design implements a simple mesh network data collector for smart meter Advanced Metering Infrastructure (AMI) networks. The network is an IPv6 over Low-Power Wireless Personal Area Networks (6LoWPAN) solution. The data collector implements a complete software stack split across a 32-bit host MCU and a separate Wireless MCU in order to optimize performance and flexibility. Network performance is improved by the TI-15.4 stack which implements IEEE 802.15.4e/g protocols. This stack implements an un-slotted channel hopping (USCH) mode that provides protection against in-band interference.
  • High-Eff 2Stage Univ Input Pwr Supply Using Trans Mode PFC/LLC Resonant Conv Reference Design
    Low EMI: high efficiency: high power factor and reliable power supply are main focus of the PMP8920 design for telecom applications. Transient mode (TM) power factor correction (PFC) with UCC28051 and LLC series resonant converter (SRC) with UCC25600 are applied in PMP8911. In addition: synchronous rectifier (SR) IC UCC24610 is applied to LLC output rectifier stage. Low EMI is expected with zero voltage switching on TM-PFC and LLC-SRC switches. An overall 91% efficiency is achieved at 100W full load. In addition: several protections are embedded into this design which includes input under-voltage protection: input over-voltage protection: output over-voltage protection: and output hic-cup over-power protection.
  • High Efficiency and Low Total Harmonic Distortion 200W AC-DC LED Driver Reference Design
    The PMP20612 reference design is a high efficiency AC-DC LED driver reference design with very low total harmonic distortion (THD). This design uses CCM PFC with the UCC28180 controller to provide power factor correction (PFC) functionality from 108VAC to 305VAC input. A two-switch Flyback converter with the UCC28740 controller is used to provide 200V/1A constant current (CC)/ constant voltage (CV). The voltage sensing and current sensing circuit at the output side with the TL431 and INA180 allow an external circuit to process a dimming function. As a result this design achieves 92.9% peak efficiency at 230VAC/50Hz input. At 277VAC: the board also has less than 20% THD with 20% load.
  • 200W Natural Interleaving Transition-Mode PFC Flyback LED Driver Reference Design
    The PMP10116 reference design uses the UCC28063A transition-mode pfc controller to drive LEDs up to 700mA current from an AC input. This flyback PFC topology provides isolation and uses quasi-resonant mode control. It supports analog dimming on the output side.  Refer to LED Driver Based on UCC28060 Interleaved ACDC Single Stage Flyback for design guide
  • High Efficiency 180W AC/DC Power Supply Reference Design
    PMP20694 is high-efficiency AC/DC power supply reference design with 85VAC-300VAC input and 36V/5A output. Transition mode PFC is applied with UCC28051 to prove high power factor and boost input voltage to 450VDC.  LLC resonant converter with UCC25600 is applied to step down the 450V to 36V output.  This design has over 92% peak efficiency. 
  • PMP6516 Isolated discontinuous mode isolated flyback 3.3V @ 1.5A
    This compact and low-cost (5W) isolated flyback regulator produces a 3.3V output from a 48V input, such as Telecom. A full-load efficiency of 82% was achieved from a 48V nominal input.
  • High Eff 2Stage Univ Input Power Supply-Transition Mode PFC LLC Resonant Conv Reference Design
    Low EMI: high efficiency: high power factor and reliable power supply are main focus of the PMP8911 design for telecom applications. Transient mode (TM) power factor correction (PFC) with UCC28051 and LLC series resonant converter (SRC) with UCC25600 are applied in PMP8911. Low EMI is expected with zero voltage switching on TM-PFC and LLC-SRC switches. An overall 92% efficiency is achieved at 100W full load. In addition: several protections are embedded into this design which includes input under-voltage protection: input over-voltage protection: output over-voltage protection: and output hic-cup over-power protection.
  • 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.
  • High Availability High Speed Counter (HSC) and Pulse Train Output (PTO) Reference Design
    This reference design provides firmware and test platform for two different industrial input/output functions related to motion control: high-speed counter (HSC) and pulse-train output (PTO). The design is based on a microcontroller platform that is suitable for use in industrial applications where high availability and/or functional safety are important requirements.
  • Isolated power architecture reference design for communication and analog input/output modules
    This reference design provides a means to isolate I2C or SPI communication lines. This is often required in grid infrastructure applications such as protection relays and circuit breakers where high voltages are involved. This reference design provides both power isolation and signal isolation.
  • 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.
  • PMP4332 5V80A 高功率密度高效电源
    此参考设计显示了采用 PFC+S.R. LLC 解决方案的高效率、低截面 (<1") 电源。采用 5V80A 输出时,整体效率高达 88%。
  • Class 6 PoE PD flyback converter (12 V: 3.8 A) with input-power limiting and PSR reference design
  • 4-kW interleaved CCM totem pole bridgeless PFC reference design using C2000&trade; MCU and GaN
    This reference design is a 4-kW interleaved CCM totem pole (TTPL) bridgeless PFC reference design using a 64-pin C2000™ microcontroller: LM3410 gallium nitride device and TMCS1100 hall sensor. It is based on TIDM-02008 bidirectional interleaved CCM TTPL bridgeless PFC reference design using C2000™ MCU : and reduces the dimension of the total PCB to 145 mm by 105 mm by 35 mm. Gallium nitride (GaN) devices are used in power stage: achieving peak 98.73 % efficiency. The design includes advanced functions such as phase shedding: adaptive dead time: input cap compensation to improve PF and efficiency on the load range: and non-linear voltage loop to reduce the voltage overshoot and undershoot under load transient.
  • Simple 6LoWPAN mesh end-node improves network performance reference design
    This reference design implements a simple RF mesh network end node for smart meter Advanced Metering Infrastructure (AMI) networks. The network is an IPv6 over low-power wireless personal area networks (6LoWPAN) solution. The design implements this network in a single CC1310 SimpleLink™ Wireless MCU to optimize performance and minimize system cost. The complete 6LoWPAN mesh network runs on top of the TI-15.4 stack based on IEEE-802.15.4e/g protocols and implements an un-slotted channel hopping (USCH) mode to provide protection against network interference.
  • 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.
  • Secured 6LoWPAN mesh end-node with enhanced network capacity reference design
    This reference design implements an RF mesh network end node with DTLS security for smart meter Advanced Metering Infrastructure (AMI) networks. The network is an IPv6 over low-power wireless personal area networks (6LoWPAN) solution. The design implements this network in a single CC1312R SimpleLink™ Wireless MCU to enhanceperformance and minimize system cost. The complete 6LoWPAN mesh network runs on top of the TI-15.4 stack based on IEEE 802.15.4e/g protocols and implements an un-slotted channel hopping (USCH) mode to provide protection against network interference. Network capacity is improved and the security is enhanced compared to TIDA-010003 end node design with the inclusion of larger neighbor and routing tables that optimize packet routing decisions.
  • PMP11099 48V 输入转 5V@10A 同步降压转换器参考设计
    This synchronous buck converter operates over a 36V - 51V input range and delivers 5V @ 10A continuous. It achieves a peak efficiency of 92% at 8A and 48Vin. Other features include low output ripple voltage, excellent transient response and small size.
  • 93% Efficiency: 400-W AC/DC reference design for avionics
    This is a compact: 30-V DC: 400-W reference design for avionics applications: accepting main frequencies between 400 Hz and 800 Hz. This design consists of a front-end: two-phase interleaved transition mode (TM) power factor correction (PFC) based on UCC28064A. This minimizes the PFC inductor size and reduces EMI filter requirements. The DC/DC is implemented by employing HB-LLC stage: using UCC256404. For efficiency improvement: synchronous rectification is used at secondary side with FETs driven by UCC24612.
  • 6-12V Input to 1.5V/1.5A Output Reference Design with CC/CV Controls
    The PMP10928 reference design uses the TPS5402 non-synchronous Buck controller along with INA213 current shunt monitor to achieve CC/CV control for an 1.5V/1.5A output from 6-12V input voltage.  +/-5% voltage regulation in CV mode and +/-5% in CC mode is achieved in this design. It is notable that this design allow the output voltage as low as 0.4V in CC mode.
  • Shunt based Ground Fault Protection for Inverters Powered from 220Vac Supply Reference Design
    This referene design detects ground fault in inverter-based drives. Inverter current is measured on both DC-positive and DC-negative bus using shunt resistors. Current on DC-positive bus is measured using INA170 which is powered by a low-side switched buck converter. Current on DC-negative bus is sensed using precision op amps. The difference between the two measured currents is compared against a fixed threshold to determine the ground-fault condition using high-speed comparators.
  • TIDA-01474 1080p 激光电视参考设计
    This projection reference design presents a DLP® technology subsystem that is capable of creating displays up to 120 frames-per-second (fps) at only a single frame delay. The design focuses on the DLP470NE 1080p digital micromirror device (DMD) within the design to create a 1920×1080 display at 120 Hz, which can be integrated into a variety of end equipments such as gaming, home theater, laser TV, and simulation. Many personal electronics and video simulation applications require high-frame-rate, lowlatency solutions to display high-quality, fast-moving data and avoid introducing system delay between the video source and the projected image.
  • SEPIC reference design suitable for battery chargers
  • PMP4394 24Vin、+/-5V、1W 隔离式 SIP DC/DC 模块 - 参考设计
    PMP4394 is a 24Vin, +/-5V, 1W reference design which is implemented in the standard industrial SIP pinout.  It includes a constant on-time synchronous Fly-Buck controller LM25018.  The solution has high efficiency, good line, load regulation with 1500V DC isolation.  The power modu
  • Grid IoT Reference Design: Connecting Fault Indicators: Data Collector: Mini-RTU Using Sub-1GHz RF
    The TIDA-00816 reference design has wireless sub-1 GHz communication in a star network between multiple sensor nodes (in this case: fault passage indicators) and a collector using the TI 15.4-stack. This design is optimized for low power consumption for short range (< 50 m) using overhead fault passage indicator (FPI) and a data collector in distribution automation as an application scenario. The CC1310 device from TI's Simplelink family is a highly-integrated: single-chip solution incorporating a sub-1 GHz radio frequency (RF) transceiver and an ArmTM CortexTM M3 MCU. TI 15.4-stack is used to configure beacon mode communication over the US: ETSI: and China frequency bands. Current consumption data is available for a single packet data transfer of 1–300 bytes at a 50-kbps data rate by optimizing transmit power levels (0 to +10 dBm) and beacon intervals (0.3–5 s).
  • 45-W high-power-density active clamp flyback with GaN reference design for server auxiliary power
  • Isolated active clamp-forward converter (19-V: 4-A to 40-V: 2.5-A) reference design
  • Bluetooth Low Energy for Energy Monitoring Reference Design
    The TIDC-BLE-METER-READING reference design focuses on an application for reading an energy monitor device over a Bluetooth® low energy (BLE) link using the SimpleLink™ CC2650 multi-standard wireless MCU and corresponding SensorTag module. The module is then connected to the hardware (with a minor modification) from the design TIDM-3OUTMSTSTRP as the metering data source. This reference design also includes an Android application that functions as a remote reader and control terminal.
  • 54-VDC input: 12-V 42-A output half-bridge reference design
    This 12-V: 42-A output half-bridge reference design is for bus converters in wired networking campus and branch switches. The design features high efficiency and various fault protections (over-current: short-circuit). The guide provides a efficiency comparison using 3kVrms basic and functional isolated gate driver UCC21220D: UCC21220AD: UCC21222D and 5.7-kVrms reinforced isolated gate driver UCC21540D: UCC21540DWK and UCC21541DW.
  • 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.
  • Non-isolated power architecture with diagnostics reference design for protection relay modules
    This reference design showcases non-isolated power supply architectures for protection relays with analog input/output and communication modules generated from 5-: 12-: or 24-V DC input. To generate the power supplies the design uses DC/DC converters with an integrated FET: a power module with an integrated inductor for size- and design-time-constrained applications: a HotRod™ package type for applications requiring low EMI and linear regulators (LDOs) for low ripple. Protections include a flat clamp TVS for input transient protection: an eFuse with configurable load current for overload protection and an ideal diode controller for input reversal protection. Additional features include an auto-switching power MUX: an analog temperature sensor: an input OK indication: a “no load” detection and a voltage supervisor.
  • 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.
  • 400-W AC/DC reference design for avionics
  • PMP7848 多路输出反激转换器 (-24V@.7A)
    This is a flyback converter with an input voltage range of 10.8V-to-14.4Vin and three outputs: 80Vout @ 0.4A, -58Vout @ 0.7A, and -24Vout @ 0.7A
  • LED driver with dimming 140V...170V@0.35A
    The PMP5652 combines together the cascode Flyback topology (fast startup) and the constant ON time modulation to achieve high power factor and constant current driving: suitable for LED lighting application. The input voltage is the high line and a 0…10V analog input is used as dimming control voltage.
  • Universal data concentrator reference design supporting Ethernet: 6LoWPAN RF mesh &amp; more
    IPv6-based grid communications are becoming the standard choice in industrial markets and applications like smart meters and grid automation. The universal data concentrator design provides a complete IPv6-based network solution integrated with Ethernet backbone communication: 6LoWPAN RF mesh networking: RS-485 and more. The 6LoWPAN mesh networking addresses key concerns such as standard-based interoperability: reliability: security and long-distance connectivity. This design allows controlling and monitoring end devices remotely with a web server accessible via Ethernet backbone communication. It also provides 3.3V and 5V voltage rails and various peripheral interfaces to extend to additional connectivity such as broadband power-line communication (PLC): cellular and Wi-Fi®.
  • Factory Automation (FA) Isolated Sensor Reference Design
    Dual isolated half-bridge converters are implemented using a single DRV8801 motor driver controller. The DRV8801 controller operates from a 24Vdc input and at a fixed 50% duty: generated using the low cost LMC555 timer. Transformer secondaries are rectified and regulated to 5V and 15V outputs using TPS7A4901 linear regulators: which supply 0.15A each. This method allows the opto-coupler to be eliminated: reducing cost and complexity. Design options allow single or dual outputs per transformer.
  • 200W PFC + LCC resonant converter reference design for LED lighting
    This reference design uses the UCC28180 CCM PFC controller and the UCC256301 Wide Vin resonant controller as an LCC controller with an integrated driver. It provides up to 200-W constant current or constant voltage output from a universal AC input. An external analog dimming voltage signal can be applied to dynamically adjust output current for dimming LED loads.
  • 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.
  • 200W 92% Efficient Low THD 10% Dimmable AC/DC LED Driver Reference Design With Adjustable Output
    This reference design is a 200-W: dimmable: low THD AC/DC LED power supply with a tunable output voltage from 100 to 200 V. It is designed for use in outdoor lighting applications such as street lighting: road lighting: and so on. This design uses a CCM PFC as front end to achieve low  THD and high power factor and proposes two-switch flyback architecture as second stage which helps to meet the cost: efficiency : and design simplicity aspects of LED power supply with adjustable output voltage.
  • Peak efficiency at 99%: 585-W high-voltage buck reference design with standard Si-MOSFETs
    This reference design converts a DC-input source in the range of 450 V to 780 V into non-isolated 390 V at 1.5 A. This is an alternative solution to SiC-FET and SiC-Diode buck converter: since the actual power stage uses only standard silicon components. In order to employ 600 V rated devices: the input source has been split so that two identical buck stages share the center point. A single coupled inductor (1:1) balances automatically the center point. Two small-series inductors limit the current in each branch in case of voltage imbalance and any small variation in the gate drive delay time of the two FETs. The converter minimizes the switching loss as a result of CRM mode (critical conduction mode): achieving peak efficiency of 99% at 450 V input voltage and full load.
  • TIDM-BLE-REEDMTR 使用磁簧开关和 BLE 的流量测量参考设计
  • PMP5694 使用 TPS40210 产生 5V (700mA) 的采用反激式配置的不连续导电模式
    Simple, low cost, industrial and isolated flyback 5V @700mA w/ TPS40210
  • 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。
  • 25W: 100-264VAC Input: 0-10V Dimmable LED Driver for Downlights: Troffers and Modules
    This is an isolated: 25W: 0-10V dimmable LED driver design with >0.9 power factor (PF) which meets or exceeds commercial lighting PF and total harmonic distortion (THD) requirements.  It is well suited for integral LED luminaires: or ballasts: that use high-brightness LED emitters.  This design is optimized for a 500mA (max) LED output current and LED stack voltages ranging from 45 V to 55 V.
  • CC1125EM-868-915-RD CC1125EM 868/915MHz 参考设计
    This RF Layout Reference Design demonstrates good decoupling and layout techniques for a low power RF device operating in the 868 MHz and 915 MHz frequency bands.
  • Resolver-Based Motor Control Reference Design With a BLDC Motor and C2000&trade; MCU
    The TIDA-01507 reference design is a generic development platform for motor-control applications. Control for the system comes from the C2000™ TMS320F28069M microcontroller (MCU). The 3-phase BLDC gte driver: DRV8305-Q1 drives a BLDC motor whereas the resolver-to-digital converter PGA411-Q1 senses the motor shaft position and velocity. Power management integrated circuit (PMIC) TPS65381A-Q1 spplies the MCU and additional circuits on the board. Additionally: an isolated Controlled Area Network (CAN) interface allows connection to various host systems.The implementation of multiple subsystems on a single printed-circuit board (PCB) allows instant development start and validation of the in-system performance of TI's motor control solutions. This reduces learning time: speeds up practical development: and reduces time-to-market.
  • TPS61013EVM-157 固定 2.5V 高效升压转换器
    The Texas Instruments TPS6101x evaluation modules (EVM) helps designers evaluate the different operating modes and the performance of high-efficiency boost converters. If any other output voltage is to be evaluated, the TPS61010 adjustable version can be set up to provide an output voltage betwee
  • TIDA-00425 12Gbps SAS-3 链路扩展器参考设计
    This reference design extends the link distance and loss budget of high speed SAS-3 data paths, using configurable equalization, de-emphasis, and output voltage. It supports SAS and SATA interfaces from 1.5 Gbps to 12 Gbps using a miniSAS-HD interface.
  • 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.
  • 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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