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Bionic Organs/Devices/Limbs Wireless Charging

Life of an electronic device depends on its battery life. Wireless charging propels the limits of Bionic Electronics to be eternal.

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Bionic devices/organs has a limited lifetime where its battery needs to be replaced in order for it to function continually. The limited battery life causes the patient to be subjected to an operation every time the battery life comes to its end. This puts the patient in great danger and discomfort. To solve this problem, wireless charging becomes a very crucial asset. If wireless charging is integrated with bionic organs/devices, the only operation the patient would undergo is to only implant a bionic organ/device. In my opinion, I think that this could be a life saver for humans in the future of electronics to come.

Bionic devices/organs has a limited lifetime where its battery needs to be replaced in order for it to function continually. The limited battery life causes the patient to be subjected to an operation every time the battery life comes to its end. This puts the patient in great danger and discomfort. To solve this problem, wireless charging becomes a very crucial asset. If wireless charging is integrated with bionic organs/devices, the only operation the patient would undergo is to only implant a bionic organ/device. In my opinion, I think that this could be a life saver for humans in the future of electronics to come.

IDT's wireless Transmitter and the Receiver is a huge step forward for Electronics. It is small, compact and programmable. This provides the capability to custom build your own wireless power unit.

The wireless transmitter and receiver can be used in bio medical industry to take a huge leap forward. Using IDT's wireless power platform, bionic devices no longer needs to have batteries that needs to be running for years.

The bionic device can be charged wireless, performance can be monitored, and how much remaining charge it has. Not only IDT's wireless power a great product, but it can also be used as a lifesaver!

In this Project, it is focused on wireless charging of bionic devices inside human beings. Transmitter is controlled by an ATmega328 Micro-controller with an ultrasonic proximity sensor. Proximity sensor is used to activate transmitter only when the Receiver coil is present over the transmitter. This is done to save unnecessary power dissipation in the transmitter coil.

The Transmitter block diagram from Schemeit is shown below:

http://www.digikey.com/schemeit/#2sxs



The Receiver Side block diagram from Schemeit is shown below:

http://www.digikey.com/schemeit/#2sxs




Receiver side.zip

Receiver Side Circuit Gerber File

Zip Archive - 96.77 kB - 05/27/2016 at 04:48

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Transmitter Controller Circuit.zip

Transmitter Side Circuit Gerber File

Zip Archive - 36.75 kB - 05/27/2016 at 04:48

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BOM.JPG

Bill of Materials

JPEG Image - 54.84 kB - 05/27/2016 at 04:47

Preview
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Transmitter Controller Circuit.cad

Transmitter side CAD Circuit for PCBWeb

cad - 164.87 kB - 05/27/2016 at 04:46

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Receiver side.cad

Receiver Side CAD Circuit for PCBWeb

cad - 710.24 kB - 05/27/2016 at 04:46

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View all 6 files

  • 1 × IDT Qi 5W Transmitter Prototype kit Discrete Semiconductors / Diodes and Rectifiers
  • 1 × IDT Qi 5W Receiver Prototype kit
  • 1 × Atlem Atmega 328p
  • 1 × HC-SR04 Ultrasonic Sensor

  • 1
    Step 1
    Program the ATmega328. This can be done using an Arduino Uno R3 board. Inset the ATmega328 into the socket where the ATmega328 in the Arduino Uno R3 board is.

    Open the Arduino cc. Use the Transmitter Controller code given below, compile and upload it to the board.

    Remove the ATmega328 chip from the Arduino board and inset it to the transmitter board.

  • 2
    Step 2

    Connect the controller circuit to the IDT’s P9038-R-EVK wireless Power Transmitter Board as shown below

    Transmitter circuit connection
  • 3
    Step 3

    Connect the Bionic Device to the IDT's P9025AC-R-EVK Wireless Power Receiver Board as shown below.

    Receiver Circuit connection

    The transmitter circuit must be sealed properly in surgical cover to be implanted on the lower back of the body of a person. Charging most suitable will be done when lying down facing upwards.

    Charging Orientation

    The charging system can be customized widely. At the receiver side, the receiver circuit can be programmed to request for a battery status and a working diagnostic from the bionic device. This can pre-identify if there is a problem in the bionic device, or whether the battery is dripping low before the bionic device shuts down. The system can provides extra care for the patient who's life depends on bionics.

    Using wireless charging and communication through IDT wireless charging boards will reduce the power consumption that will be used if the bionic device and data is to be collected wireless using modes like WiFi or Bluetooth. This capability will take the bio-medical industry to another level, where devices can be implanted in humans to perform self-Screening.

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Discussions

Lilanka Udawatta wrote 05/27/2016 at 09:15 point

This project is about charging of prosthetic limbs, organs or devices wireless. For example, a person with a pacemaker could benefit largely from this, or a person with any other implanted device. Wireless charging can eliminate the need for a person undergoing through surgery to change the batteries of a device implanted inside the body.

  Are you sure? yes | no

davedarko wrote 05/27/2016 at 08:14 point

Was there ever an experiment where a full body was replaced by artificial organs? 

  Are you sure? yes | no

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