Key Facts:

  • Framework provides short-range, low-data-rate communication solution for securely connecting to wide range of wireless applications
  • Supports bidirectional authentication for advanced encryption technologies
  • Increases battery life by eliminating the need for a wireless transceiver or high-power inductive fields
  • BodyCom Development Kit  and free BodyCom Development V1.0 Framework available now

Microchip announces, from the Embedded World conference in Germany, its BodyCom™ technology, which provides designers with the world’s first framework for using the human body as a secure communication channel.  Compared to existing wireless methods, BodyCom technology provides lower energy consumption, whilst further increasing security via bidirectional authentication.  Because no

RF antennas are required, BodyCom technology simplifies circuit-level design and lowers the bill of materials (BOM).  All of this is enabled by the BodyCom Development V1.0 Framework, which is supplied through free software libraries that work on all of Microchip’s 8-, 16- and 32-bit PIC® microcontrollers, of which there are more than 900.

Watch a short video:  http://www.microchip.com/get/9TMM

BodyCom technology is activated by capacitively coupling to the human body.  The system then begins communicating bidirectionally between a centralised controller and one or more wireless units.  There are many applications where secure wireless communication is essential, and there is no more secure channel than the human body.  This is especially true when bidirectional authentication is added to support advanced encryption, such as KeeLoq® technology and AES.  For example, BodyCom technology helps to prevent the “Relay Attack” problem that is typical in automotive passive-keyless-entry security systems. 

Most secure, short-range communication designs are battery powered and highly cost constrained.  BodyCom technology significantly increases battery life by eliminating the need for a wireless transceiver or high-power inductive fields.  It also simplifies development and lowers BOM costs by making antenna design unnecessary and by using a low-frequency framework with a common microcontroller and standard AFE frequencies (125 kHz and 8 MHz), with no need for external crystals.  BodyCom technology also eliminates the cost and complexity of certification because it complies with FCC Part 15-B for radiated emissions.

Example applications include Access Control such as security systems, home/industrial door locks, pet doors; Personal Safety & Security including equipment access/disable, power tools, firearms and computer systems; Medical equipment for patient monitoring, hospital-room access or equipment tracking; and Consumer electronics such as profile management for gaming consoles and exercise equipment.

To further enable development and speed time to market, Microchip is also announcing the BodyCom Development Kit (DM160213) priced at $149, which includes a central controller unit and two wireless mobile units.

The free BodyCom Development V1.0 Framework is also available today and includes a communication library, application code examples and a development GUI for use on personal computers.  Application note AN1391 offers an introduction to BodyCom technology.

For more information, visit Microchip’s Web site at http://www.microchip.com/get/GA5E