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Zoul: updated ADC[4-5] info and link to wiki with RevA-B delta

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This commit is contained in:
Antonio Lignan 2016-09-05 10:34:37 +02:00
parent 5d4b7de426
commit 448c78da5f
2 changed files with 5 additions and 3 deletions
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2
platform/zoul/remote-revb/README.md
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@ -26,6 +26,8 @@ The RE-Mote features a Zoul as its core module and it is bundled with the follow
* Small form-factor of 73x40 mm. * Small form-factor of 73x40 mm.
* Available with enclosure for indoor use * Available with enclosure for indoor use
The changes from Revision A to this new Revision B are summarized in the [Wiki](https://github.com/Zolertia/Resources/wiki/RE-Mote:-Enhancements-from-Rev.A-to-Rev.B)
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 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 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.

6
platform/zoul/remote-revb/board.h
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@ -70,7 +70,7 @@
* LED1.R/PD4 |-01|17-| PB2/SPIO0.SCLK/CC1200.SCLK * LED1.R/PD4 |-01|17-| PB2/SPIO0.SCLK/CC1200.SCLK
* LED2.G/JTAG.TDO/PB7 |-02|16-| PB1/SPIO0.MOSI/CC1200.MOSI * LED2.G/JTAG.TDO/PB7 |-02|16-| PB1/SPIO0.MOSI/CC1200.MOSI
* LED3.B/JTAG.TDI/PB6 |-03|15-| PB3/SPIO0.MISO/CC1200.MISO * LED3.B/JTAG.TDI/PB6 |-03|15-| PB3/SPIO0.MISO/CC1200.MISO
* UART0.RX/PA0 |-04|14-| PA7/AIN7/USD.CS * UART0.RX/PA0 |-04|14-| PA7/AIN7/USD.CS|ADC5
* UART0.TX/PA1 |-05|13-| DGND * UART0.TX/PA1 |-05|13-| DGND
* PD0 |-06|12-| D+3.3 * PD0 |-06|12-| D+3.3
* I2C.SDA/PC2 |-07|11-| PA5/AIN5/ADC1 * I2C.SDA/PC2 |-07|11-| PA5/AIN5/ADC1
@ -78,7 +78,7 @@
* DGND |-09|09-| DGND * DGND |-09|09-| DGND
* D+3.3 |-10|08-| D+5.0 * D+3.3 |-10|08-| D+5.0
* CC1200.GPIO0/PB4 |-11|07-| PA2/AIN2/ADC3 * CC1200.GPIO0/PB4 |-11|07-| PA2/AIN2/ADC3
* CC1200.GPIO2/PB0 |-12|06-| PA6/AIN6/USD.SEL * CC1200.GPIO2/PB0 |-12|06-| PA6/AIN6/USD.SEL|ADC4
* UART1.RX/PC1 |-13|05-| PC6/SPI1.MISO * UART1.RX/PC1 |-13|05-| PC6/SPI1.MISO
* UART1.TX/PC0 |-14|04-| PC5/SPI1.MOSI * UART1.TX/PC0 |-14|04-| PC5/SPI1.MOSI
* DGND |-15|03-| PC4/SPI1.SCLK * DGND |-15|03-| PC4/SPI1.SCLK
@ -90,7 +90,7 @@
* access to the RESET/user buttons: * access to the RESET/user buttons:
* *
* - JP4 (placed below JP6 connector): |1-| DGND, |2-| VBAT * - JP4 (placed below JP6 connector): |1-| DGND, |2-| VBAT
* - JP9 (placed above JP5 connector): |1-| BUTTON.RESET, |2-| BUTTON.USER * - JP9 (placed above JP5 connector): |1-| BUTTON.RESET, |2-| BUTTON.USER|ADC6
*/ */
/*---------------------------------------------------------------------------*/ /*---------------------------------------------------------------------------*/
/** \name RE-Mote LED configuration /** \name RE-Mote LED configuration