nes-proj/platform/zoul/remote/board.h

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/*
* Copyright (c) 2012, Texas Instruments Incorporated - http://www.ti.com/
* Copyright (c) 2015, Zolertia
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* 3. Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
* OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/**
* \addtogroup zoul-platforms
* @{
*
* \defgroup remote RE-Mote platform
*
* The RE-Mote was designed jointly with universities and industry partners in
* RERUM European project, to ease the development of private and secure
* applications for IoT and Smart City applications. The RE-Mote packs several
* on-board resources, like a RTC, external WDT, Micro-SD, RF switch and a
* Shutdown mode to reduce its power consumption down to 300nA.
*
* This file provides connectivity information on LEDs, Buttons, UART and
* other RE-Mote peripherals
*
* This file can be used as the basis to configure other platforms using the
* cc2538 SoC.
* @{
*
* \file
* Header file with definitions related to the I/O connections on the Zolertia's
* RE-Mote platform, cc2538-based
*
* \note Do not include this file directly. It gets included by contiki-conf
* after all relevant directives have been set.
*/
#ifndef BOARD_H_
#define BOARD_H_
#include "dev/gpio.h"
#include "dev/nvic.h"
/*---------------------------------------------------------------------------*/
/** \name Connector headers
*
* The RE-Mote features two 2.54 mm header rows over which exposes the following
* pins (facing up, Zolertia/RERUM logo above, buttons and micro USB at bottom):
* ----------------------+---+---+---------------------------------------------
* PIN_NAME |JP6|JP5| PIN_NAME
* ----------------------+---+---+---------------------------------------------
* LED1/EXT_WDT/PD5 |-01|18-| PC6/SPI1.MISO/USD.MISO
* LED2/UART1.CTS/PD4 |-02|17-| PC5/SPI1.MOSI/USD.MOSI
* LED3/UART1.RTS/PD3 |-03|16-| PC4/SPI1.SCLK/USD.SCLK
* UART0.RX/PA0 |-04|15-| PA3/BUTTON.USER
* UART0.TX/PA1 |-05|14-| RESET/JTAG.RESET/BUTTON.RESET
* SHUTDOWN_ENABLE/PD1 |-06|13-| DGND
* RTC.SDA/I2C.SDA/PC2 |-07|12-| D+3.3
* RTC.SCL/I2C.SCL/PC3 |-08|11-| PA5/AIN5/ADC1
* DGND |-09|10-| PA4/RTC_INT1/AIN4/ADC2
* D+3.3 |-10|09-| DGND
* USD.CS/AIN7/PA7 |-11|08-| D+5.1
* SHUTDOWN_DONE/PD0 |-12|07-| PA2/AIN2/ADC3
* UART1.RX/PC1 |-13|06-| JTAG.TMS
* UART1.TX/PC0 |-14|05-| JTAG.TCK
* DGND |-15|04-| PB7/JTAG.TDO
* D+3.3 |-16|03-| PB6/JTAG.TDI
* DGND |-17|02-| PS+EXT
* +VBAT |-18|01-| DGND
* ----------------------+---+---+---------------------------------------------
*/
/*---------------------------------------------------------------------------*/
/** \name RE-Mote LED configuration
*
* LEDs on the RE-Mote are connected as follows:
* - LED1 (Red) -> PD5
* - LED2 (Green) -> PD4
* - LED3 (Blue) -> PD3
*
* LED1 pin shared with EXT_WDT and exposed in JP6 connector
* LED2 pin shared with UART1 CTS, pin exposed in JP6 connector
* LED3 pin shared with UART1 RTS, exposed in JP6 connector
* @{
*/
/*---------------------------------------------------------------------------*/
/* Some files include leds.h before us, so we need to get rid of defaults in
* leds.h before we provide correct definitions */
#undef LEDS_GREEN
#undef LEDS_YELLOW
#undef LEDS_BLUE
#undef LEDS_RED
#undef LEDS_CONF_ALL
/* In leds.h the LEDS_BLUE is defined by LED_YELLOW definition */
#define LEDS_GREEN (1 << 4) /**< LED1 (Green) -> PD4 */
#define LEDS_BLUE (1 << 3) /**< LED2 (Blue) -> PD3 */
#define LEDS_RED (1 << 5) /**< LED3 (Red) -> PD5 */
#define LEDS_CONF_ALL (LEDS_GREEN | LEDS_BLUE | LEDS_RED)
#define LEDS_LIGHT_BLUE (LEDS_GREEN | LEDS_BLUE) /**< Green + Blue (24) */
#define LEDS_YELLOW (LEDS_GREEN | LEDS_RED) /**< Green + Red (48) */
#define LEDS_PURPLE (LEDS_BLUE | LEDS_RED) /**< Blue + Red (40) */
#define LEDS_WHITE LEDS_ALL /**< Green + Blue + Red (56) */
/* Notify various examples that we have LEDs */
#define PLATFORM_HAS_LEDS 1
/** @} */
/*---------------------------------------------------------------------------*/
/** \name USB configuration
*
* The USB pullup is enabled by an external resistor, not mapped to a GPIO
*/
#ifdef USB_PULLUP_PORT
#undef USB_PULLUP_PORT
#endif
#ifdef USB_PULLUP_PIN
#undef USB_PULLUP_PIN
#endif
/** @} */
/*---------------------------------------------------------------------------*/
/** \name UART configuration
*
* On the RE-Mote, the UARTs are connected to the following ports/pins:
*
* - UART0:
* - RX: PA0, connected to CP2104 serial-to-usb converter TX pin
* - TX: PA1, connected to CP2104 serial-to-usb converter RX pin
* - UART1:
* - RX: PC1
* - TX: PC0
* - CTS: PD4, shared with LED2 (Green), disabled as default
* - RTS: PD3, shared with LED3 (Blue), disabled as default
*
* We configure the port to use UART0 and UART1, CTS/RTS only for UART1,
* both without a HW pull-up resistor
* UART0 and UART1 pins are exposed over the JP6 connector
* @{
*/
#define UART0_RX_PORT GPIO_A_NUM
#define UART0_RX_PIN 0
#define UART0_TX_PORT GPIO_A_NUM
#define UART0_TX_PIN 1
#define UART1_RX_PORT GPIO_C_NUM
#define UART1_RX_PIN 1
#define UART1_TX_PORT GPIO_C_NUM
#define UART1_TX_PIN 0
#define UART1_CTS_PORT (-1)
#define UART1_CTS_PIN (-1)
#define UART1_RTS_PORT (-1)
#define UART1_RTS_PIN (-1)
/** @} */
/*---------------------------------------------------------------------------*/
/** \name RE-Mote Button configuration
*
* Buttons on the RE-Mote are connected as follows:
* - BUTTON_USER -> PA3, S1 user button, shared with bootloader and RTC_INT1
* - BUTTON_RESET -> RESET_N line, S2 reset both CC2538 and CoP
* - BUTTON_PIC1W -> shared with SHUTDOWN_ENABLE, not mounted.
* @{
*/
/** BUTTON_USER -> PA3 */
#define BUTTON_USER_PORT GPIO_A_NUM
#define BUTTON_USER_PIN 3
#define BUTTON_USER_VECTOR NVIC_INT_GPIO_PORT_A
/* Notify various examples that we have Buttons */
#define PLATFORM_HAS_BUTTON 1
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name ADC configuration
*
* These values configure which CC2538 pins and ADC channels to use for the ADC
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* inputs. By default the RE-Mote allows two out-of-the-box ADC ports with a
* phidget-like 3-pin connector (GND/VDD/ADC)
*
* The RE-Mote allows both 3.3V and 5V analogue sensors as follow:
*
* - ADC1: up to 3.3V.
* - ADC2: up to 3.3V, shared with RTC_INT
* - ADC3: up to 5V, by means of a 2/3 voltage divider.
*
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* ADC inputs can only be on port A.
* All ADCx are exposed in JP5 connector, but only ADC1 and ADC3 have GND and
* VDD (3/5V) pins next to it, so these can be exposed into a 3-pin phidget-like
* connector, for ADC2 either solder a wire to connect, or use a 4-pin connector
* to expose both ADC1 and ADC2 in a single connector, but this will leave no
* space for a ADC3 connector.
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* The internal ADC reference is 1190mV, use either a voltage divider as input,
* or a different voltage reference, like AVDD5 or other externally (AIN7), but
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* note the PA7 is shared with the Micro-SD CSn pin, likewise for PA6 (AIN6)
* shared witht the Micro-SD select pin
* To use the ADC2 pin, remove the resistor on the Zoul's PA4 pin (JP1, pin 10)
* and enable below (replace -1 with 4).
* @{
*/
#define ADC_SENSORS_PORT GPIO_A_NUM /**< ADC GPIO control port */
#define ADC_SENSORS_ADC1_PIN 5 /**< ADC1 to PA5, 3V3 */
#define ADC_SENSORS_ADC2_PIN (-1) /**< ADC2 to PA4, 3V3 */
#define ADC_SENSORS_ADC3_PIN 2 /**< ADC3 to PA2, 5V0 */
#define ADC_SENSORS_ADC4_PIN (-1) /**< Not present */
#define ADC_SENSORS_ADC5_PIN (-1) /**< Not present */
#define ADC_SENSORS_MAX 2 /**< PA2, PA5 */
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name SPI (SSI0) configuration
*
* These values configure which CC2538 pins to use for the SPI (SSI0) lines,
* reserved exclusively for the CC1200 RF transceiver. These pins are not
* exposed to any connector, and should be avoid to use it.
* TX -> MOSI, RX -> MISO
* @{
*/
#define SPI0_CLK_PORT GPIO_B_NUM
#define SPI0_CLK_PIN 2
#define SPI0_TX_PORT GPIO_B_NUM
#define SPI0_TX_PIN 1
#define SPI0_RX_PORT GPIO_B_NUM
#define SPI0_RX_PIN 3
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name SPI (SSI1) configuration
*
* These values configure which CC2538 pins to use for the SPI (SSI1) lines,
* shared with the microSD and exposed over JP5 connector.
* It is advisable to use a CSn pin other than the Micro-SD's.
* TX -> MOSI, RX -> MISO
* @{
*/
#define SPI1_CLK_PORT GPIO_C_NUM
#define SPI1_CLK_PIN 4
#define SPI1_TX_PORT GPIO_C_NUM
#define SPI1_TX_PIN 5
#define SPI1_RX_PORT GPIO_C_NUM
#define SPI1_RX_PIN 6
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name I2C configuration
*
* These values configure which CC2538 pins to use for the I2C lines, exposed
* over JP6 connector, also available as testpoints T2 (PC2) and T3 (PC3).
* The I2C bus is shared with the on-board RTC.
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* The I2C is exposed over the JP6 header, using a 5-pin connector with 2.54 mm
* spacing, providing also D+3.3V, GND and a generic pin that can be used as an
* interrupt pin
* @{
*/
#define I2C_SCL_PORT GPIO_C_NUM
#define I2C_SCL_PIN 3
#define I2C_SDA_PORT GPIO_C_NUM
#define I2C_SDA_PIN 2
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#define I2C_INT_PORT GPIO_D_NUM
#define I2C_INT_PIN 1
#define I2C_INT_VECTOR NVIC_INT_GPIO_PORT_D
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name Antenna switch configuration
*
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* These values configure the required pin to drive the RF antenna switch, to
* either enable the sub-1Ghz RF interface (power-up the CC1200) or the 2.4GHz
* RF interface of the CC2538, both alternatively routed to a RP-SMA connector
* to allow using an external antenna for both cases.
*
* Note it is also possible to enable both RF interfaces at the same time, by
* switching On the sub-1GHz RF interface, and placing an 0Ohm resistor (R19),
* to select between using a ceramic chip antenna (not mounted), or to connect
* and external antenna over a pigtail to the U.Fl connector (not mounted).
*
* RF switch state:
* - LOW: 2.4GHz RF interface on RP-SMA connector, CC1200 powered-off.
* - HIGH: Sub-1GHz RF interface on RP-SMA connector.
* @{
*/
#define ANTENNA_RF_SW_PORT GPIO_D_NUM
#define ANTENNA_RF_SW_PIN 2
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name Dual RF interface support
*
* Enables support for dual band operation (both CC1200 and 2.4GHz enabled).
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* The driver checks the selected Radio stack, and forces the antenna switch to
* either position. Enabling the definition below forces to skip this check.
* @{
*/
#define REMOTE_DUAL_RF_ENABLED 0
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name CC1200 configuration
*
* These values configure the required pins to drive the CC1200
* None of the following pins are exposed to any connector, kept for internal
* use only
* @{
*/
#define CC1200_SPI_INSTANCE 0
#define CC1200_SPI_SCLK_PORT SPI0_CLK_PORT
#define CC1200_SPI_SCLK_PIN SPI0_CLK_PIN
#define CC1200_SPI_MOSI_PORT SPI0_TX_PORT
#define CC1200_SPI_MOSI_PIN SPI0_TX_PIN
#define CC1200_SPI_MISO_PORT SPI0_RX_PORT
#define CC1200_SPI_MISO_PIN SPI0_RX_PIN
#define CC1200_SPI_CSN_PORT GPIO_B_NUM
#define CC1200_SPI_CSN_PIN 5
#define CC1200_GDO0_PORT GPIO_B_NUM
#define CC1200_GDO0_PIN 4
#define CC1200_GDO2_PORT GPIO_B_NUM
#define CC1200_GDO2_PIN 0
#define CC1200_RESET_PORT GPIO_C_NUM
#define CC1200_RESET_PIN 7
#define CC1200_GPIOx_VECTOR NVIC_INT_GPIO_PORT_B
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name microSD configuration
*
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* These values configure the required pins to drive the built-in microSD
* external module, to be used with SSI1
* @{
*/
#define USD_CLK_PORT SPI1_CLK_PORT
#define USD_CLK_PIN SPI1_CLK_PIN
#define USD_MOSI_PORT SPI1_TX_PORT
#define USD_MOSI_PIN SPI1_TX_PIN
#define USD_MISO_PORT SPI1_RX_PORT
#define USD_MISO_PIN SPI1_RX_PIN
#define USD_CSN_PORT GPIO_A_NUM
#define USD_CSN_PIN 7
#define USD_SEL_PORT GPIO_A_NUM
#define USD_SEL_PIN 6
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name Power management and shutdown mode
*
* The shutdown mode is an ultra-low power operation mode that effectively
* powers-down the entire RE-Mote (CC2538, CC1200, attached sensors, etc) and
* only keeps running a power gating timer (NanoTimer), the on-board RTC and
* an ultra-low power consumption MCU (PIC12F635). The Shutdown mode allows:
*
* - Put the RE-Mote in an ultra-low power sleep (shutdown) drawing <200nA avg.
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* - Periodically awake and execute tasks, being the shutdown period selectable
* via R47 resistor value (22KOhm as default for 1 minute shutdown period).
* - Enter shutdown mode before the shutdown period expiration, by invoking the
* PM_SHUTDOWN_NOW macrp
*
* The shutdown mode can be disabled by hardware by short-circuiting or placing
* an 0Ohm resistor across W1 pad.
* @{
*/
#define PM_DONE_PORT GPIO_D_NUM
#define PM_DONE_PIN 0
#define PM_CMD_PORT GPIO_D_NUM
#define PM_CMD_PIN 1
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name On-board RTC
*
* The shutdown mode can be disabled by hardware by short-circuiting or placing
* an 0Ohm resistor across W1 pad. As the RTC_INT1 pin is also shared with the
* BUTTON_USER, so either disable or not use the user button, or upon receiving
* an interrupt, poll the RTC.
*
* The RTC_INT1 can be used to exit the CC2538's LPM3 mode.
* A second interruption pin is connected to the PIC12F635, for applications
* requiring to put the PIC into deep-sleep and waking up at a certain time.
* @{
*/
#define RTC_SDA_PORT I2C_SDA_PORT
#define RTC_SDA_PIN I2C_SDA_PIN
#define RTC_SCL_PORT I2C_SCL_PORT
#define RTC_SCL_PIN I2C_SCL_PIN
#define RTC_INT1_PORT GPIO_A_NUM
#define RTC_INT1_PIN 4
#define RTC_INT1_VECTOR NVIC_INT_GPIO_PORT_A
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name On-board external WDT
* The RE-Mote features an on-board external WDT and battery monitor, which
* adds more robustness and prevents the mote to run wild if any unexpected
* problem shows-up.
* The external WDT requires a short pulse (<1ms) to be sent before a 2-second
* period. The battery monitor keeps the device in Reset if the voltage input
* is lower than 2.5V.
* The external WDT can be disabled by removing the R40 0Ohm resistor.
* The EXT_WDT pin is shared with LED1 (Red). For long-time operation, it is
* advised to remove R14 resistor to disable LED1.
* As default the Texas Instrument's TPS3823 WDT is not mounted.
* @{
*/
#define EXT_WDT_PORT GPIO_D_NUM
#define EXT_WDT_PIN 5
/** @} */
/*---------------------------------------------------------------------------*/
/**
* \name Device string used on startup
* @{
*/
#define BOARD_STRING "Zolertia RE-Mote platform"
/** @} */
#endif /* BOARD_H_ */
/**
* @}
* @}
*/