If the processor and the field programmable gate array FPGA are all powered by the same voltage and do not require special features such as sequencing and control, will it be simple? Unfortunately, most processors and FPGAs require different supply voltages, startup/shutdown sequences, and different types of control. Fortunately, power management IC integrated circuits (PMICs) can control and power existing advanced processors, FPGAs, and systems, greatly simplifying overall system design. Now, you may want to know which PMIC can power your system-on-a-chip (SoC), and where to do it, where to start. Choosing the right power solution for your SoC and system is one of the most common challenges for system designers. So, TI has introduced several new tools that simplify device selection, evaluation, and design when using our PMIC. Some of these tools are TI Designs reference designs that help designers get started, validate, and speed up design. Several TI Designs have been released, giving many different SoCs that can be powered by TI PMIC - here is the current list: The TIDA-00478 uses the TPS65218 to power the Xilinx Zynq 7010. Figure 1 is a block diagram of the TPS65911 that powers the ARM processor. Like all TI PMICs, the TPS65911 is very flexible and can be used in several devices. Figure 2 shows the TPS65911 that powers the Xilinx Zynq 7015 FPGA. Figure 1: Block diagram of the TPS65911 Figure 2: Block diagram of the TPS65911 that powers the Xilinx Zynq 7015 Also provided with these designs are schematics, block diagrams, printed circuit board (PCB) files, and test results. These tests enable designers to evaluate the performance of the PMICs they are trying to use for a particular SoC and provide them with sample design files that can be used in their own designs. Test results include startup sequencing, load transients, efficiency testing, and other things shown in Figure 3. Figure 3: Example Start Timing for the TPS65911 To get access to TI's PMIC, TI Designs, accompanying technical support, technical documentation, and more, visit . We would like to know how you plan to use TI Designs to validate and speed up your design process when you use TI PMIC for your next power supply design. Over time, battery cables have to be replaced due to corrosion or damage. A bad battery cable can cause intermittent starting issues or lack of power to the vehicle, including arcing or power drains.A battery cable consists of multiple stands of wire encased in synthetic material with different types of battery terminals on each end for a reliable connection. Corrosion is the number one cause of battery cable failure, stopping the flow of electricity. Battery cable, power cable, battery cable assembly, battery wiring ETOP WIREHARNESS LIMITED , https://www.wireharness-assembling.com
The TIDA-00551 uses the TPS65911 to power the Xilinx Zynq 7015.
The TIDA-00604 uses the TPS65023 to power the Altera Cyclone III.
The TIDA-00605 uses the TPS65023 to power the Altera Cyclone IV.
The TIDA-00607 uses the TPS65218 to power the Altera MAX 10.
TIDA-00621 uses the TPS65911. 
