osd-contiki/platform/zoul/remote-revb
Benoît Thébaudeau ab1491be69 CC2538: Use CMSIS-CORE
Switch to CMSIS-CORE and remove the duplicate code.

Signed-off-by: Benoît Thébaudeau <benoit.thebaudeau.dev@gmail.com>
2016-11-24 22:30:26 +01:00
..
board.c Zoul: created RE-Mote rev.B platform 2016-09-02 16:53:09 +02:00
board.h CC2538: Use CMSIS-CORE 2016-11-24 22:30:26 +01:00
leds-res-arch.c Zoul: created RE-Mote rev.B platform 2016-09-02 16:53:09 +02:00
Makefile.remote-revb Zoul: power management driver for the RE-Mote revision B 2016-09-22 21:45:54 +02:00
power-mgmt.c Zoul: power management driver for the RE-Mote revision B 2016-09-22 21:45:54 +02:00
power-mgmt.h Zoul: power management driver for the RE-Mote revision B 2016-09-22 21:45:54 +02:00
README.md Zoul: updated ADC[4-5] info and link to wiki with RevA-B delta 2016-09-05 10:34:37 +02:00

Zolertia RE-Mote platform (revision B)

The RE-Mote is a hardware development platform to build real IoT (Internet of Things) applications and products, aimed to high skilled developers as well as Makers (Do-It-Yourself enthusiasts) and early beginners, providing an industry-ready and resilient hardware solution for most Smart Cities, Home Comfort, eHealth and Industrial applications. The RE-Mote conciliates an ultra-low power consumption with a high performance design, meeting specifications of processing resources, security and resilient operation.

The RE-Mote platform was designed jointly with universities and industrial partners from different countries in the context of RERUM https://ict-rerum.eu European Project.

The RE-Mote features a Zoul as its core module and it is bundled with the following features:

  • ARM Cortex-M3 with 512KB flash and 32KB RAM (16KB retention), 32MHz.
  • ISM 2.4-GHz IEEE 802.15.4 & Zigbee/Thread compliant.
  • ISM 868-, 915-, 920-, 950-MHz ISM/SRD Band.
  • On-board RF switch to programatically select RF itnerfaces. Above RF interfaces can be used alternatively over a single RP-SMA connector for external antenna, or simultaneously by using an UFl pigtail or soldering an internal ceramic chip antenna (available on request).
  • AES-128/256, SHA2 Hardware Encryption Engine.
  • ECC-128/256, RSA Hardware Acceleration Engine for Secure Key Exchange.
  • Power consumption down to 150nA using our shutdown mode.
  • Programming over BSL without requiring to press any button to enter bootloader mode.
  • Built-in battery charger (500mA), Energy Harvesting and Solar Panels to be connected to standards LiPo batteries.
  • Power input with wide range 3.7-16VDC.
  • On-board micro USB connector for USB 2.0 applications.
  • RGB LED to allow more than 7 colour combinations.
  • On-board nano-watt Real Time Clock Calendar (RTCC).
  • User and Reset buttons.
  • On-board Micro-SD for external storage.
  • On-board external Watchdog Timer (WDT) for resilient operation.
  • Small form-factor of 73x40 mm.
  • Available with enclosure for indoor use

The changes from Revision A to this new Revision B are summarized in the Wiki

The most prominent feature of the RE-Mote is its ultra low-power implementation, allowing a flexible and time/date-aware control of the platform operation modes by using its real-time clock (RTCC) and an ultra-low power PIC governing the battery manager.

The RE-Mote features an optional custom-made enclosure to fit most scenarios, allowing to easily connect sensors, actuators and rechargeable LiPo batteries. Its on-board RP-SMA antenna eliminates the need to mechanize an external antenna, allowing to alternatively use either a sub-1GHz or 2.4GHz antenna, or a multiband one. For dual band applications it is possible to use both sub-GHz and 2.4GHz interfaces simultaneously.

The external WDT with battery monitor allows a robust and resilience operation for most critical applications.

Zoul pin-out

![RE-Mote pin-out (front)][remote-pinout-front] ![RE-Mote pin-out (back)][remote-pinout-back]