make power point lecture in dental collage for symposium
We are looking for an professional electrical engineer / PCB-Designer to help us at a design of a very compact Power supply. The Power supply should be usable for 230/110VAC input and should provide a stable 3.3 VDC output at approx. 500mA / ~2W. The design could be like common designs used for USB-Chargers or a inductorless design. The whole
sharepoint, power pivot, powerview, powerBI,ssis,ssrs
...3. voltage ripple (reduction methods) 4. electromagnetic or rf interference (minimizing, filtering, meeting standards) 5. feedback control stability 6. isolation of PWM and power switching circuits 7. hybrid switching 8. storageless switching method 9. bridgeless PFC converter with isolation in a single stage 10. isolated storageless converter with output
Develop low power product using BLE(low power Bluetooth) for data acquisition
Design of Low power embedded system + apply battery management concept
build a simulation for a wireless power charge for a mobile phone, i wan step-by-step guide and diagrams.
I want a simulation of a wireless power charger with calculations and diagrams. this simulation should step by step guide.
I have a present PCB and a firmware that needs some adjustments like correcting battery consumption as there is unnecessary power drainage without any use of the pcb and needs to robust the firmware to be working without any glitches (robust embeded systems). All errors are stated in the attached file. You should be familiar with robust embedded systems
...(PDF attached). The PDF contains references to other low power receiver designs. The job is to create a module (schematics, PCB layout, and PCB) using this or a similar design and containing a [url removed, login to view] transceiver including a printed antenna, as well as a microcontroller. (1) The following power consumption targets must be achieved: a) <50uW (microw...
Two dc power sources are connected to an electric distribution system via VSCs separately. Each of them is connected to the IEEE399-1997 model via a 480V/[url removed, login to view] transformer on bus 21. The VSCs are in P/Q control mode. You need to build model by the following steps. 1. Test the blocks you will use in your model, such as PLL blocks, abc to dq blocks
we are using the proposed techniques to reduce leakage power such as MTCMOS ( Multi threshold CMOS technique), Power Gating, Dual Stack, GALEOR and LECTOR. RCA and CLA circuita designed by using the above mentioned techniques, power dissipation is calculated for each technique and is compared with general CMOS logic of RCA and CLA. Simulation results