Sample Breakout Board Configuration
Functions and definitions specific to the breakout board.
Macros |
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#define | PWRUP_CFG_SC1_TXD GPIO_P_CFGz_Pxy_OUT_ALT |
Give GPIO SC1 TXD and nRTS configurations friendly names.
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#define | PWRDN_OUT_SC1_nRTS 1 |
Custom Baud Rate Definitions |
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Application Framework NCP Configuration Board Header This board header (dev0680) is not supported in framework NCP applications. NCP applications must use either the dev0680spi or dev0680uart board headers when creating custom NCP applications through the framework. The following define is used with defining a custom baud rate for the UART. This define provides a simple hook into the definition of the baud rates used with the UART. The baudSettings[] array in uart.c links the BAUD_* defines with the actual register values needed for operating the UART. The array baudSettings[] can be edited directly for a custom baud rate or another entry (the register settings) can be provided here with this define. |
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#define | EMBER_SERIAL_BAUD_CUSTOM 13 |
This define is the register setting for generating a baud of.
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LED Definitions |
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The following are used to aid in the abstraction with the LED connections. The microcontroller-specific sources use these definitions so they are able to work across a variety of boards which could have different connections. The names and ports/pins used below are intended to match with a schematic of the system to provide the abstraction. The HalBoardLedPins enum values should always be used when manipulating the state of LEDs, as they directly refer to the GPIOs to which the LEDs are connected. Note: LEDs 0 and 1 are on the RCM. Note: LED 2 is on the breakout board (dev0680). Note: LED 3 simply redirects to LED 2. |
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enum |
HalBoardLedPins
{
BOARDLED0 = PORTA_PIN(6), BOARDLED1 = PORTA_PIN(7), BOARDLED2 = PORTC_PIN(5), BOARDLED3 = BOARDLED2, BOARD_ACTIVITY_LED = BOARDLED0, BOARD_HEARTBEAT_LED = BOARDLED1, BOARDLED0 = PORTA_PIN(6), BOARDLED1 = PORTA_PIN(7), BOARDLED2 = PORTC_PIN(5), BOARDLED3 = BOARDLED2, BOARD_ACTIVITY_LED = BOARDLED0, BOARD_HEARTBEAT_LED = BOARDLED1 } |
Assign each GPIO with an LED connected to a convenient name.
BOARD_ACTIVITY_LED
and
BOARD_HEARTBEAT_LED
provide a further layer of abstraction on top of the 3 LEDs for verbose coding.
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Button Definitions |
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The following are used to aid in the abstraction with the Button connections. The microcontroller-specific sources use these definitions so they are able to work across a variety of boards which could have different connections. The names and ports/pins used below are intended to match with a schematic of the system to provide the abstraction. The BUTTONn macros should always be used with manipulating the buttons as they directly refer to the GPIOs to which the buttons are connected.
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#define | BUTTON0 PORTB_PIN(6) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
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#define | BUTTON0_IN (GPIO->P[1].IN) |
The GPIO input register for BUTTON0.
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#define | BUTTON0_SEL () do {} while (0) |
Point the proper IRQ at the desired pin for BUTTON0.
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#define | BUTTON0_ISR halIrqBIsr |
The interrupt service routine for BUTTON0.
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#define | BUTTON0_INTCFG (EVENT_GPIO->CFGB) |
The interrupt configuration register for BUTTON0.
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#define | BUTTON0_INT_EN_IRQN IRQB_IRQn |
The interrupt enable bit for BUTTON0.
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#define | BUTTON0_INT_EN_BIT BIT32 ( BUTTON0_INT_EN_IRQN ) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
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#define | BUTTON0_FLAG_BIT EVENT_GPIO_FLAG_IRQB |
The interrupt flag bit for BUTTON0.
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#define | BUTTON0_MISS_BIT EVENT_MISS_MISS_IRQB |
The missed interrupt bit for BUTTON0.
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#define | BUTTON1 PORTC_PIN(6) |
The actual GPIO BUTTON1 is connected to. This define should be used whenever referencing BUTTON1, such as controlling if pieces are compiled in. Remember there may be other things that might want to use IRQC.
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#define | BUTTON1_IN (GPIO->P[2].IN) |
The GPIO input register for BUTTON1.
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#define | BUTTON1_SEL () do { GPIO->IRQCSEL = PORTC_PIN(6); } while (0) |
Point the proper IRQ at the desired pin for BUTTON1. Remember there may be other things that might want to use IRQC.
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#define | BUTTON1_ISR halIrqCIsr |
The interrupt service routine for BUTTON1. Remember there may be other things that might want to use IRQC.
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#define | BUTTON1_INTCFG (EVENT_GPIO->CFGC) |
The interrupt configuration register for BUTTON1.
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#define | BUTTON1_INT_EN_IRQN IRQC_IRQn |
The interrupt enable bit for BUTTON1.
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#define | BUTTON1_INT_EN_BIT BIT32 ( BUTTON1_INT_EN_IRQN ) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
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#define | BUTTON1_FLAG_BIT EVENT_GPIO_FLAG_IRQC |
The interrupt flag bit for BUTTON1.
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#define | BUTTON1_MISS_BIT EVENT_MISS_MISS_IRQC |
The missed interrupt bit for BUTTON1.
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USB Power State |
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Define if the USB is self powered or bus powered since the configuration descriptor needs to report to the host the powered state.
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#define | USB_SELFPWRD_STATE (1) |
The USB power state.
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USB Remote Wakeup Enable |
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If the USB device needs to awake the host from suspend, then it needs to have remote wakeup enable.
If the device has remote wakeup enabled the configuration descriptor needs to report this fact to the host. Additionally, the USB core in the chip needs to be directly told. Set the define USB_REMOTEWKUPEN_STATE to 0 if remote wake is disabled or 1 if enabled. |
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#define | USB_REMOTEWKUPEN_STATE (1) |
USB Remote Wakeup Enable.
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USB Maximum Power Consumption |
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The USB device must report the maximum power it will draw from the bus. This is done via the bMaxPower parameter in the Configuration Descriptor reported to the host. The value used is in units of 2mA. Self-powered devices are low power devices and must draw less than 100mA. Systems that have components such as a FEM are likely to consume more than 100mA and are considered high power and therefore must be bus-powered. |
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#define | USB_MAX_POWER (50) |
USB Max Power parameter (bMaxPower) the driver will report to the host in the Configuration Descriptor.
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USB Enumeration Control |
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The following are used to aid in the abstraction of which GPIO is used for controlloing the pull-up resistor for enumeation. The hardware setup connects the D+ signal to a GPIO via a 1.5kOhm pull-up resistor. Any GPIO can be used since it just needs to be a simple push-pull output configuration. |
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#define | ENUMCTRL PORTA_PIN(2) |
The actual GPIO ENUMCTRL is connected to. The GPIO only needs to be a simple push-pull output or input.
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#define | ENUMCTRL_SETCFG (cfg) |
Set the GPIO's configuration to the provided state. The two states used are GPIO_P_CFGz_Pxy_OUT when the device is enumerated and GPIO_P_CFGz_Pxy_IN when the device is not enumerated.
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#define | ENUMCTRL_SET () do { GPIO->P[0].SET = GPIO_P_SET_Px2; } while (0) |
When the GPIO used for enumeration is configured as push-pull, this macro makes it easy to set the output state high.
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#define | ENUMCTRL_CLR () do { GPIO->P[0].CLR = GPIO_P_CLR_Px2; } while (0) |
When the GPIO used for enumeration is configured as push-pull, this macro makes it easy to clear the output state low.
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USB VBUS Monitoring Support |
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The following are used to aid in the abstraction of which GPIO and IRQ is used for VBUS Monitoring. Remember that IRQA and IRQB are fixed to GPIO PB0 and PB6 respectively while IRQC and IRQD can be assigned to any GPIO. Since USB's D- and D+ data pins are fixed to PA0 and PA1 respectively, SC2 can't be used so it makes sense to allocate PA2 for enumeration control and PA3 for VBUS monitoring. Therefore, using PA3 for VBUS monitoring requires IRQC or IRQD. The driver will only try to use VBUSMON functionality if USB_SELFPWRD_STATE is set to 1. |
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#define | VBUSMON GPIO_P_IN_Px3 |
The actual GPIO VBUSMON is connected to. Remember that other pieces might want to use PA3.
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#define | VBUSMON_IN (GPIO->P[0].IN) |
The GPIO input register for VBUSMON.
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#define | VBUSMON_SETCFG () |
The GPIO configuration needed for VBUSMON. The configuration needs to be a simple input that will monitor for edge tansitions.
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#define | VBUSMON_SEL () do { GPIO->IRQDSEL = PORTA_PIN(3); } while (0) |
Point the proper IRQ at the desired pin for VBUSMON. Remember that other pieces that might want to use IRQC.
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#define | VBUSMON_ISR halIrqDIsr |
The interrupt service routine for VBUSMON. Remember that other pieces that might want to use IRQC.
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#define | VBUSMON_INTCFG (EVENT_GPIO->CFGD) |
The interrupt configuration register for VBUSMON.
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#define | VBUSMON_INT_EN_IRQN IRQD_IRQn |
The interrupt enable bit for VBUSMON.
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#define | VBUSMON_INT_EN_BIT BIT32 ( VBUSMON_INT_EN_IRQN ) |
The actual GPIO VBUSMON is connected to. Remember that other pieces might want to use PA3.
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#define | VBUSMON_FLAG_BIT EVENT_GPIO_FLAG_IRQD |
The interrupt flag bit for VBUSMON.
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#define | VBUSMON_MISS_BIT EVENT_MISS_MISS_IRQD |
The missed interrupt bit for VBUSMON.
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Radio HoldOff Configuration Definitions |
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This define does not equate to anything. It is used as a trigger to enable Radio HoldOff support. The following are used to aid in the abstraction with Radio HoldOff (RHO). The microcontroller-specific sources use these definitions so they are able to work across a variety of boards which could have different connections. The names and ports/pins used below are intended to match with a schematic of the system to provide the abstraction. The Radio HoldOff input GPIO is abstracted like BUTTON0/1. |
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#define | RHO_ASSERTED 1 |
The actual GPIO used to control Radio HoldOff.
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#define | RHO_CFG (GPIO->P[0].CFGH) |
The GPIO configuration register for Radio HoldOff.
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#define | RHO_IN (GPIO->P[0].IN) |
The GPIO input register for Radio HoldOff.
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#define | RHO_OUT (GPIO->P[0].OUT) |
The GPIO output register for Radio HoldOff.
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#define | RHO_SEL () do { GPIO->IRQDSEL = RHO_GPIO ; } while (0) |
Point the proper IRQ at the desired pin for Radio HoldOff. Remember there may be other things that might want to use this IRQ.
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#define | RHO_ISR halIrqDIsr |
The interrupt service routine for Radio HoldOff. Remember there may be other things that might want to use this IRQ.
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#define | RHO_INTCFG (EVENT_GPIO->CFGD) |
The interrupt configuration register for Radio HoldOff.
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#define | RHO_INT_EN_IRQN IRQD_IRQn |
The interrupt enable bit for Radio HoldOff.
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#define | RHO_INT_EN_BIT BIT32 ( RHO_INT_EN_IRQN ) |
The actual GPIO used to control Radio HoldOff.
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#define | RHO_FLAG_BIT EVENT_GPIO_FLAG_IRQD |
The interrupt flag bit for Radio HoldOff.
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#define | RHO_MISS_BIT EVENT_MISS_MISS_IRQD |
The missed interrupt bit for Radio HoldOff.
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#define | PWRUP_CFG_DFL_RHO_FOR_RHO GPIO_P_CFGz_Pxy_IN_PUD |
Configuration of GPIO for Radio HoldOff operation.
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#define | PWRUP_OUT_DFL_RHO_FOR_RHO GPIO_P_OUT_Pxy_PULLDOWN /* Deassert */ |
The actual GPIO used to control Radio HoldOff.
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#define | PWRDN_CFG_DFL_RHO_FOR_RHO GPIO_P_CFGz_Pxy_IN_PUD |
The actual GPIO used to control Radio HoldOff.
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#define | PWRDN_OUT_DFL_RHO_FOR_RHO GPIO_P_OUT_Pxy_PULLDOWN /* Deassert */ |
The actual GPIO used to control Radio HoldOff.
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#define | PWRUP_CFG_DFL_RHO_FOR_DFL GPIO_P_CFGz_Pxy_OUT |
Configuration of GPIO for default behavior.
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#define | PWRUP_OUT_DFL_RHO_FOR_DFL 1 /* LED default off */ |
The actual GPIO used to control Radio HoldOff.
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#define | PWRDN_CFG_DFL_RHO_FOR_DFL GPIO_P_CFGz_Pxy_OUT |
The actual GPIO used to control Radio HoldOff.
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#define | PWRDN_OUT_DFL_RHO_FOR_DFL 1 /* LED off */ |
The actual GPIO used to control Radio HoldOff.
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#define | PWRUP_CFG_DFL_RHO PWRUP_CFG_DFL_RHO_FOR_DFL |
The following definitions are helpers for managing Radio HoldOff and should not be modified.
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#define | PWRUP_OUT_DFL_RHO PWRUP_OUT_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
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#define | PWRDN_CFG_DFL_RHO PWRDN_CFG_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
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#define | PWRDN_OUT_DFL_RHO PWRDN_OUT_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
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#define | halInternalInitRadioHoldOff () /* no-op */ |
The actual GPIO used to control Radio HoldOff.
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Temperature sensor ADC channel |
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Define the analog input channel connected to the LM-20 temperature sensor. The scale factor compensates for different platform input ranges. PB5/ADC0 must be an analog input. PC7 must be an output and set to a high level to power the sensor. |
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#define | TEMP_SENSOR_ADC_CHANNEL ADC_SOURCE_ADC0_VREF2 |
The analog input channel to use for the temperature sensor.
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#define | TEMP_SENSOR_SCALE_FACTOR 1 |
The scale factor to compensate for different input ranges.
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Packet Trace |
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When PACKET_TRACE is defined, ::GPIO->P[0].CFGH will automatically be setup by halInit() to enable Packet Trace support on PA4 and PA5, in addition to the configuration specified below.
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#define | PACKET_TRACE |
This define does not equate to anything. It is used as a trigger to enable Packet Trace support on the breakout board (dev0680).
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ENABLE_OSC32K |
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When ENABLE_OSC32K is defined, halInit() will configure system timekeeping to utilize the external 32.768 kHz crystal oscillator rather than the internal 1 kHz RC oscillator.
On initial powerup the 32.768 kHz crystal oscillator will take a little while to start stable oscillation. This only happens on initial powerup, not on wake-from-sleep, since the crystal usually stays running in deep sleep mode. When ENABLE_OSC32K is defined the crystal oscillator is started as part of halInit() . After the crystal is started we delay for OSC32K_STARTUP_DELAY_MS (time in milliseconds). This delay allows the crystal oscillator to stabilize before we start using it for system timing. If you set OSC32K_STARTUP_DELAY_MS to less than the crystal's startup time:
Typical 32.768 kHz crystals measured by Ember take about 400 milliseconds to stabilize. Be sure to characterize your particular crystal's stabilization time since crystal behavior can vary. |
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#define | OSC32K_STARTUP_DELAY_MS (0) |
Packet Trace Configuration Defines |
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Provide the proper set of pin configuration for when the Packet Trace is enabled (look above for the define which enables it). When Packet Trace is not enabled, leave the two PTI pins in their default configuration. If Packet Trace is not being used, feel free to set the pin configurations as desired. The config shown here is simply the Power On Reset defaults. |
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#define | PWRUP_CFG_PTI_EN GPIO_P_CFGz_Pxy_OUT_ALT |
Give the packet trace configuration a friendly name.
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#define | PWRUP_OUT_PTI_EN 0 |
Give the packet trace configuration a friendly name.
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#define | PWRDN_CFG_PTI_EN GPIO_P_CFGz_Pxy_IN_PUD |
Give the packet trace configuration a friendly name.
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#define | PWRDN_OUT_PTI_EN GPIO_P_OUT_Pxy_PULLDOWN |
Give the packet trace configuration a friendly name.
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#define | PWRUP_CFG_PTI_DATA GPIO_P_CFGz_Pxy_OUT_ALT |
Give the packet trace configuration a friendly name.
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#define | PWRUP_OUT_PTI_DATA 1 |
Give the packet trace configuration a friendly name.
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#define | PWRDN_CFG_PTI_DATA GPIO_P_CFGz_Pxy_IN_PUD |
Give the packet trace configuration a friendly name.
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#define | PWRDN_OUT_PTI_DATA GPIO_P_OUT_Pxy_PULLUP |
Give the packet trace configuration a friendly name.
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32kHz Oscillator and nTX_ACTIVE Configuration Defines |
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Since the 32kHz Oscillator and nTX_ACTIVE both share PC6, their configuration defines are linked and instantiated together. Look above for the defines that enable the 32kHz Oscillator and nTX_ACTIVE.
When using the 32kHz, configure PC6 and PC7 for analog for the XTAL. When using nTX_ACTIVE, configure PC6 for alternate output while awake and a low output when deepsleeping. Also, configure PC7 for TEMP_EN. When not using the 32kHz or nTX_ACTIVE, configure PC6 and PC7 for Button1 and TEMP_EN. |
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#define | PWRUP_CFG_BUTTON1 GPIO_P_CFGz_Pxy_IN_PUD |
Give GPIO PC6 configuration a friendly name.
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#define | PWRUP_OUT_BUTTON1 GPIO_P_OUT_Pxy_PULLUP /* Button needs a pullup */ |
Give GPIO PC6 configuration a friendly name.
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#define | PWRDN_CFG_BUTTON1 GPIO_P_CFGz_Pxy_IN_PUD |
Give GPIO PC6 configuration a friendly name.
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#define | PWRDN_OUT_BUTTON1 GPIO_P_OUT_Pxy_PULLUP /* Button needs a pullup */ |
Give GPIO PC6 configuration a friendly name.
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#define | CFG_TEMPEN GPIO_P_CFGz_Pxy_OUT |
Give GPIO PC7 configuration a friendly name.
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TX_ACTIVE Configuration Defines |
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Provide the proper set of pin (PC5) configurations for when TX_ACTIVE is enabled (look above for the define which enables it). When TX_ACTIVE is not enabled, configure the pin for LED2. |
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#define | PWRUP_CFG_LED2 GPIO_P_CFGz_Pxy_OUT |
Give the TX_ACTIVE configuration a friendly name.
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#define | PWRUP_OUT_LED2 1 /* LED default off */ |
Give the TX_ACTIVE configuration a friendly name.
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#define | PWRDN_CFG_LED2 GPIO_P_CFGz_Pxy_OUT |
Give the TX_ACTIVE configuration a friendly name.
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#define | PWRDN_OUT_LED2 1 /* LED default off */ |
Give the TX_ACTIVE configuration a friendly name.
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USB Configuration Defines |
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Provide the proper set of pin configuration for when USB is not enumerated. Not enumerated primarily refers to the driver not being configured or deep sleep. The configuration used here is only for keeping the USB off the bus. The GPIO configuration used when active is controlled by the USB driver since the driver needs to control the enumeration process (which affects GPIO state.)
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#define | PWRUP_CFG_USBDM GPIO_P_CFGz_Pxy_OUT_ALT |
Give the USB configuration a friendly name.
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#define | PWRUP_OUT_USBDM 0 |
Give the USB configuration a friendly name.
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#define | PWRUP_CFG_USBDP GPIO_P_CFGz_Pxy_IN |
Give the USB configuration a friendly name.
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#define | PWRUP_OUT_USBDP 0 |
Give the USB configuration a friendly name.
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#define | PWRUP_CFG_ENUMCTRL GPIO_P_CFGz_Pxy_OUT_ALT |
Give the USB configuration a friendly name.
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#define | PWRUP_OUT_ENUMCTRL 0 |
Give the USB configuration a friendly name.
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#define | PWRUP_CFG_VBUSMON GPIO_P_CFGz_Pxy_OUT |
Give the USB configuration a friendly name.
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#define | PWRUP_OUT_VBUSMON 1 |
Give the USB configuration a friendly name.
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#define | PWRDN_CFG_USBDM GPIO_P_CFGz_Pxy_IN_PUD |
Give the USB configuration a friendly name.
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#define | PWRDN_OUT_USBDM GPIO_P_OUT_Pxy_PULLUP |
Give the USB configuration a friendly name.
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#define | PWRDN_CFG_USBDP GPIO_P_CFGz_Pxy_IN_PUD |
Give the USB configuration a friendly name.
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#define | PWRDN_OUT_USBDP GPIO_P_OUT_Pxy_PULLUP |
Give the USB configuration a friendly name.
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#define | PWRDN_CFG_ENUMCTRL GPIO_P_CFGz_Pxy_IN_PUD |
Give the USB configuration a friendly name.
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#define | PWRDN_OUT_ENUMCTRL GPIO_P_OUT_Pxy_PULLUP |
Give the USB configuration a friendly name.
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#define | PWRDN_CFG_VBUSMON GPIO_P_CFGz_Pxy_OUT |
Give the USB configuration a friendly name.
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#define | PWRDN_OUT_VBUSMON 1 |
Give the USB configuration a friendly name.
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GPIO Configuration Macros |
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These macros define the GPIO configuration and initial state of the output registers for all the GPIO in the powerup and powerdown modes. |
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uint16_t | gpioCfgPowerUp [6] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
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uint16_t | gpioCfgPowerDown [6] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
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uint8_t | gpioOutPowerUp [3] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
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uint8_t | gpioOutPowerDown [3] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
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GpioMaskType | gpioRadioPowerBoardMask |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
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#define | DEFINE_GPIO_RADIO_POWER_BOARD_MASK_VARIABLE () GpioMaskType gpioRadioPowerBoardMask = 0 |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
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#define | DEFINE_POWERUP_GPIO_CFG_VARIABLES () |
Initialize GPIO powerup configuration variables.
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#define | DEFINE_POWERUP_GPIO_OUTPUT_DATA_VARIABLES () |
Initialize GPIO powerup output variables.
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#define | DEFINE_POWERDOWN_GPIO_CFG_VARIABLES () |
Initialize powerdown GPIO configuration variables.
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#define | DEFINE_POWERDOWN_GPIO_OUTPUT_DATA_VARIABLES () |
Initialize powerdown GPIO output variables.
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#define | SET_POWERUP_GPIO_CFG_REGISTERS () |
Set powerup GPIO configuration registers.
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#define | SET_POWERUP_GPIO_OUTPUT_DATA_REGISTERS () |
Set powerup GPIO output registers.
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#define | SET_POWERDOWN_GPIO_CFG_REGISTERS () |
Set powerdown GPIO configuration registers.
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#define | SET_POWERDOWN_GPIO_OUTPUT_DATA_REGISTERS () |
Set powerdown GPIO output registers.
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#define | SET_RESUME_GPIO_CFG_REGISTERS () |
Set resume GPIO configuration registers. Identical to SET_POWERUP.
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#define | SET_RESUME_GPIO_OUTPUT_DATA_REGISTERS () |
Set resume GPIO output registers. Identical to SET_POWERUP.
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#define | SET_SUSPEND_GPIO_CFG_REGISTERS () |
Set suspend GPIO configuration registers. SET_POWERDOWN minus USB regs.
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#define | SET_SUSPEND_GPIO_OUTPUT_DATA_REGISTERS () |
Set suspend GPIO output registers. SET_POWERDOWN minus USB regs.
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#define | CONFIGURE_EXTERNAL_REGULATOR_ENABLE () GPIO->DBGCFG &= ~GPIO_DBGCFG_EXTREGEN; |
External regulator enable/disable macro.
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GPIO Wake Source Definitions |
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A convenient define that chooses if this external signal can be used as source to wake from deep sleep. Any change in the state of the signal will wake up the CPU. |
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#define | WAKE_ON_PA0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PA1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PA2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PA3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PA4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PA5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PA6 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PA7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PB0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PB1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PB2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PB3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PB4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PB5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PB6 true |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PB7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
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#define | WAKE_ON_PC0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
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#define | WAKE_ON_PC1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC6 true |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
Custom Baud Rate Definitions |
|
The following define is used with defining a custom baud rate for the UART. This define provides a simple hook into the definition of the baud rates used with the UART. The baudSettings[] array in uart.c links the BAUD_* defines with the actual register values needed for operating the UART. The array baudSettings[] can be edited directly for a custom baud rate or another entry (the register settings) can be provided here with this define. |
|
#define | EMBER_SERIAL_BAUD_CUSTOM 13 |
This define is the register setting for generating a baud of.
|
LED Definitions |
|
The following are used to aid in the abstraction with the LED connections. The microcontroller-specific sources use these definitions so they are able to work across a variety of boards which could have different connections. The names and ports/pins used below are intended to match with a schematic of the system to provide the abstraction. The HalBoardLedPins enum values should always be used when manipulating the state of LEDs, as they directly refer to the GPIOs to which the LEDs are connected. Note: LEDs 0 and 1 are on the RCM. Note: LED 2 is on the breakout board (dev0680). Note: LED 3 simply redirects to LED 2. |
|
enum |
HalBoardLedPins
{
BOARDLED0 = PORTA_PIN(6), BOARDLED1 = PORTA_PIN(7), BOARDLED2 = PORTC_PIN(5), BOARDLED3 = BOARDLED2, BOARD_ACTIVITY_LED = BOARDLED0, BOARD_HEARTBEAT_LED = BOARDLED1, BOARDLED0 = PORTA_PIN(6), BOARDLED1 = PORTA_PIN(7), BOARDLED2 = PORTC_PIN(5), BOARDLED3 = BOARDLED2, BOARD_ACTIVITY_LED = BOARDLED0, BOARD_HEARTBEAT_LED = BOARDLED1 } |
Assign each GPIO with an LED connected to a convenient name.
BOARD_ACTIVITY_LED
and
BOARD_HEARTBEAT_LED
provide a further layer of abstraction on top of the 3 LEDs for verbose coding.
|
Button Definitions |
|
The following are used to aid in the abstraction with the Button connections. The microcontroller-specific sources use these definitions so they are able to work across a variety of boards which could have different connections. The names and ports/pins used below are intended to match with a schematic of the system to provide the abstraction. The BUTTONn macros should always be used with manipulating the buttons as they directly refer to the GPIOs to which the buttons are connected.
|
|
#define | BUTTON0 PORTB_PIN(6) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
|
|
#define | BUTTON0_IN (GPIO->P[1].IN) |
The GPIO input register for BUTTON0.
|
|
#define | BUTTON0_SEL () do {} while (0) |
Point the proper IRQ at the desired pin for BUTTON0.
|
|
#define | BUTTON0_ISR halIrqBIsr |
The interrupt service routine for BUTTON0.
|
|
#define | BUTTON0_INTCFG (EVENT_GPIO->CFGB) |
The interrupt configuration register for BUTTON0.
|
|
#define | BUTTON0_INT_EN_IRQN IRQB_IRQn |
The interrupt enable bit for BUTTON0.
|
|
#define | BUTTON0_INT_EN_BIT BIT32 ( BUTTON0_INT_EN_IRQN ) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
|
|
#define | BUTTON0_FLAG_BIT EVENT_GPIO_FLAG_IRQB |
The interrupt flag bit for BUTTON0.
|
|
#define | BUTTON0_MISS_BIT EVENT_MISS_MISS_IRQB |
The missed interrupt bit for BUTTON0.
|
|
#define | BUTTON1 PORTC_PIN(6) |
The actual GPIO BUTTON1 is connected to. This define should be used whenever referencing BUTTON1.
|
|
#define | BUTTON1_IN (GPIO->P[2].IN) |
The GPIO input register for BUTTON1.
|
|
#define | BUTTON1_SEL () do { GPIO->IRQCSEL = PORTC_PIN(6); } while (0) |
Point the proper IRQ at the desired pin for BUTTON1.
|
|
#define | BUTTON1_ISR halIrqCIsr |
The interrupt service routine for BUTTON1.
|
|
#define | BUTTON1_INTCFG (EVENT_GPIO->CFGC) |
The interrupt configuration register for BUTTON1.
|
|
#define | BUTTON1_INT_EN_IRQN IRQC_IRQn |
The interrupt enable bit for BUTTON1.
|
|
#define | BUTTON1_INT_EN_BIT BIT32 ( BUTTON1_INT_EN_IRQN ) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
|
|
#define | BUTTON1_FLAG_BIT EVENT_GPIO_FLAG_IRQC |
The interrupt flag bit for BUTTON1.
|
|
#define | BUTTON1_MISS_BIT EVENT_MISS_MISS_IRQC |
The missed interrupt bit for BUTTON1.
|
Radio HoldOff Configuration Definitions |
|
This define does not equate to anything. It is used as a trigger to enable Radio HoldOff support. The following are used to aid in the abstraction with Radio HoldOff (RHO). The microcontroller-specific sources use these definitions so they are able to work across a variety of boards which could have different connections. The names and ports/pins used below are intended to match with a schematic of the system to provide the abstraction. The Radio HoldOff input GPIO is abstracted like BUTTON0/1. |
|
#define | RHO_GPIO PORTA_PIN(6) |
The actual GPIO used to control Radio HoldOff.
|
|
#define | RHO_ASSERTED 1 |
The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
|
|
#define | RHO_CFG (GPIO->P[0].CFGH) |
The GPIO configuration register for Radio HoldOff.
|
|
#define | RHO_IN (GPIO->P[0].IN) |
The GPIO input register for Radio HoldOff.
|
|
#define | RHO_OUT (GPIO->P[0].OUT) |
The GPIO output register for Radio HoldOff.
|
|
#define | RHO_SEL () do { GPIO->IRQDSEL = RHO_GPIO ; } while (0) |
Point the proper IRQ at the desired pin for Radio HoldOff. Remember there may be other things that might want to use this IRQ.
|
|
#define | RHO_ISR halIrqDIsr |
The interrupt service routine for Radio HoldOff. Remember there may be other things that might want to use this IRQ.
|
|
#define | RHO_INTCFG (EVENT_GPIO->CFGD) |
The interrupt configuration register for Radio HoldOff.
|
|
#define | RHO_INT_EN_IRQN IRQD_IRQn |
The interrupt enable bit for Radio HoldOff.
|
|
#define | RHO_INT_EN_BIT BIT32 ( RHO_INT_EN_IRQN ) |
The actual GPIO used to control Radio HoldOff.
|
|
#define | RHO_FLAG_BIT EVENT_GPIO_FLAG_IRQD |
The interrupt flag bit for Radio HoldOff.
|
|
#define | RHO_MISS_BIT EVENT_MISS_MISS_IRQD |
The missed interrupt bit for Radio HoldOff.
|
|
#define | PWRUP_CFG_DFL_RHO_FOR_RHO GPIO_P_CFGz_Pxy_IN_PUD |
Configuration of GPIO for Radio HoldOff operation.
|
|
#define | PWRUP_OUT_DFL_RHO_FOR_RHO GPIO_P_OUT_Pxy_PULLDOWN /* Deassert */ |
The actual GPIO used to control Radio HoldOff.
|
|
#define | PWRDN_CFG_DFL_RHO_FOR_RHO GPIO_P_CFGz_Pxy_IN_PUD |
The actual GPIO used to control Radio HoldOff.
|
|
#define | PWRDN_OUT_DFL_RHO_FOR_RHO GPIO_P_OUT_Pxy_PULLDOWN /* Deassert */ |
The actual GPIO used to control Radio HoldOff.
|
|
#define | PWRUP_CFG_DFL_RHO_FOR_DFL GPIO_P_CFGz_Pxy_OUT |
Configuration of GPIO for default behavior.
|
|
#define | PWRUP_OUT_DFL_RHO_FOR_DFL 1 /* LED default off */ |
The actual GPIO used to control Radio HoldOff.
|
|
#define | PWRDN_CFG_DFL_RHO_FOR_DFL GPIO_P_CFGz_Pxy_OUT |
The actual GPIO used to control Radio HoldOff.
|
|
#define | PWRDN_OUT_DFL_RHO_FOR_DFL 1 /* LED off */ |
The actual GPIO used to control Radio HoldOff.
|
|
#define | PWRUP_CFG_DFL_RHO PWRUP_CFG_DFL_RHO_FOR_DFL |
The following definitions are helpers for managing Radio HoldOff and should not be modified.
|
|
#define | PWRUP_OUT_DFL_RHO PWRUP_OUT_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
|
|
#define | PWRDN_CFG_DFL_RHO PWRDN_CFG_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
|
|
#define | PWRDN_OUT_DFL_RHO PWRDN_OUT_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
|
|
#define | halInternalInitRadioHoldOff () /* no-op */ |
The actual GPIO used to control Radio HoldOff.
|
|
#define | ADJUST_GPIO_CONFIG_DFL_RHO (enableRadioHoldOff) |
The actual GPIO used to control Radio HoldOff.
|
Temperature sensor ADC channel |
|
Define the analog input channel connected to the LM-20 temperature sensor. The scale factor compensates for different platform input ranges. PB5/ADC0 must be an analog input. PC7 must be an output and set to a high level to power the sensor. |
|
#define | TEMP_SENSOR_ADC_CHANNEL ADC_SOURCE_ADC0_VREF2 |
The analog input channel to use for the temperature sensor.
|
|
#define | TEMP_SENSOR_SCALE_FACTOR 1 |
The scale factor to compensate for different input ranges.
|
Packet Trace |
|
When PACKET_TRACE is defined, ::GPIO->P[0].CFGH will automatically be setup by halInit() to enable Packet Trace support on PA4 and PA5, in addition to the configuration specified below.
|
|
#define | PACKET_TRACE |
This define does not equate to anything. It is used as a trigger to enable Packet Trace support on the breakout board (dev0680).
|
ENABLE_OSC32K |
|
When ENABLE_OSC32K is defined, halInit() will configure system timekeeping to utilize the external 32.768 kHz crystal oscillator rather than the internal 1 kHz RC oscillator.
On initial powerup the 32.768 kHz crystal oscillator will take a little while to start stable oscillation. This only happens on initial powerup, not on wake-from-sleep, since the crystal usually stays running in deep sleep mode. When ENABLE_OSC32K is defined the crystal oscillator is started as part of halInit() . After the crystal is started we delay for OSC32K_STARTUP_DELAY_MS (time in milliseconds). This delay allows the crystal oscillator to stabilize before we start using it for system timing. If you set OSC32K_STARTUP_DELAY_MS to less than the crystal's startup time:
Typical 32.768 kHz crystals measured by Ember take about 400 milliseconds to stabilize. Be sure to characterize your particular crystal's stabilization time since crystal behavior can vary. |
|
#define | OSC32K_STARTUP_DELAY_MS (0) |
ENABLE_ALT_FUNCTION_TX_ACTIVE |
|
This define does not equate to anything. It is used as a trigger to enable the REG_EN alternate function on PA7. Default is to not enable REG_EN functionality on PA7. When ENABLE_ALT_FUNCTION_TX_ACTIVE is defined, halInit() and halPowerUp() will enable the TX_ACTIVE alternate functionality of PC5. halPowerDown() will configure PC5 to be a low output. TX_ACTIVE can be used for external PA power management and RF switching logic. In transmit mode the Tx baseband drives TX_ACTIVE high. In receive mode the TX_ACTIVE signal is low. This define will override any settings for PC5. |
|
#define | ENABLE_ALT_FUNCTION_TX_ACTIVE |
This define does not equate to anything. It is used as a trigger to enable the TX_ACTIVE alternate function on PC5. It is enabled by default in this board file because the SiGe SE2432L requires the TX_ACTIVE alternate function to operate properly.
|
EEPROM_USES_SHUTDOWN_CONTROL |
|
This define does not equate to anything. It is used as a trigger to enable the nTX_ACTIVE alternate function on PC6. Default is to not enable nTX_ACTIVE functionality on PC6. When EEPROM_USES_SHUTDOWN_CONTROL is defined, logic is enabled in the EEPROM driver which drives PB7 high upon EEPROM initialization. In Ember reference designs, PB7 acts as an EEPROM enable pin and therefore must be driven high in order to use the EEPROM. This option is intended to be enabled when running app-bootloader on designs based on current Ember reference designs. |
|
#define | EEPROM_USES_SHUTDOWN_CONTROL |
This define does not equate to anything. It is used as a trigger to enable the logic that drives PB7 high in the EEPROM driver.
|
Packet Trace Configuration Defines |
|
Provide the proper set of pin configuration for when the Packet Trace is enabled (look above for the define which enables it). When Packet Trace is not enabled, leave the two PTI pins in their default configuration. If Packet Trace is not being used, feel free to set the pin configurations as desired. The config shown here is simply the Power On Reset defaults. |
|
#define | PWRUP_CFG_PTI_EN GPIO_P_CFGz_Pxy_OUT_ALT |
Give the packet trace configuration a friendly name.
|
|
#define | PWRUP_OUT_PTI_EN 0 |
Give the packet trace configuration a friendly name.
|
|
#define | PWRDN_CFG_PTI_EN GPIO_P_CFGz_Pxy_IN_PUD |
Give the packet trace configuration a friendly name.
|
|
#define | PWRDN_OUT_PTI_EN GPIO_P_OUT_Pxy_PULLDOWN |
Give the packet trace configuration a friendly name.
|
|
#define | PWRUP_CFG_PTI_DATA GPIO_P_CFGz_Pxy_OUT_ALT |
Give the packet trace configuration a friendly name.
|
|
#define | PWRUP_OUT_PTI_DATA 1 |
Give the packet trace configuration a friendly name.
|
|
#define | PWRDN_CFG_PTI_DATA GPIO_P_CFGz_Pxy_IN_PUD |
Give the packet trace configuration a friendly name.
|
|
#define | PWRDN_OUT_PTI_DATA GPIO_P_OUT_Pxy_PULLUP |
Give the packet trace configuration a friendly name.
|
32kHz Oscillator and nTX_ACTIVE Configuration Defines |
|
Since the 32kHz Oscillator and nTX_ACTIVE both share PC6, their configuration defines are linked and instantiated together. Look above for the defines that enable the 32kHz Oscillator and nTX_ACTIVE.
When using the 32kHz, configure PC6 and PC7 for analog for the XTAL. When using nTX_ACTIVE, configure PC6 for alternate output while awake and a low output when deepsleeping. Also, configure PC7 for TEMP_EN. When not using the 32kHz or nTX_ACTIVE, configure PC6 and PC7 for Button1 and TEMP_EN. |
|
#define | PWRUP_CFG_BUTTON1 GPIO_P_CFGz_Pxy_IN_PUD |
Give GPIO PC6 configuration a friendly name.
|
|
#define | PWRUP_OUT_BUTTON1 GPIO_P_OUT_Pxy_PULLUP /* Button needs a pullup */ |
Give GPIO PC6 configuration a friendly name.
|
|
#define | PWRDN_CFG_BUTTON1 GPIO_P_CFGz_Pxy_IN_PUD |
Give GPIO PC6 configuration a friendly name.
|
|
#define | PWRDN_OUT_BUTTON1 GPIO_P_OUT_Pxy_PULLUP /* Button needs a pullup */ |
Give GPIO PC6 configuration a friendly name.
|
|
#define | CFG_TEMPEN GPIO_P_CFGz_Pxy_OUT |
Give GPIO PC7 configuration a friendly name.
|
TX_ACTIVE Configuration Defines |
|
Provide the proper set of pin (PC5) configurations for when TX_ACTIVE is enabled (look above for the define which enables it). When TX_ACTIVE is not enabled, configure the pin for LED2. |
|
#define | PWRUP_CFG_LED2 GPIO_P_CFGz_Pxy_OUT_ALT |
Give the TX_ACTIVE configuration a friendly name.
|
|
#define | PWRUP_OUT_LED2 0 |
Give the TX_ACTIVE configuration a friendly name.
|
|
#define | PWRDN_CFG_LED2 GPIO_P_CFGz_Pxy_OUT |
Give the TX_ACTIVE configuration a friendly name.
|
|
#define | PWRDN_OUT_LED2 0 |
Give the TX_ACTIVE configuration a friendly name.
|
GPIO Configuration Macros |
|
These macros define the GPIO configuration and initial state of the output registers for all the GPIO in the powerup and powerdown modes. |
|
uint16_t | gpioCfgPowerUp [6] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
|
|
uint16_t | gpioCfgPowerDown [6] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
|
|
uint8_t | gpioOutPowerUp [3] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
|
|
uint8_t | gpioOutPowerDown [3] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
|
|
GpioMaskType | gpioRadioPowerBoardMask |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
|
|
#define | FEM_CTX_BIT ( BIT32 (PORTC_PIN(5))) |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
|
|
#define | FEM_CRX_BIT (0) |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
|
|
#define | DEFINE_GPIO_RADIO_POWER_BOARD_MASK_VARIABLE () |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking
halStackRadioPowerUpBoard()
or
halStackRadioPowerDownBoard()
.
|
|
#define | DEFINE_POWERUP_GPIO_CFG_VARIABLES () |
Initialize GPIO powerup configuration variables.
|
|
#define | DEFINE_POWERUP_GPIO_OUTPUT_DATA_VARIABLES () |
Initialize GPIO powerup output variables.
|
|
#define | DEFINE_POWERDOWN_GPIO_CFG_VARIABLES () |
Initialize powerdown GPIO configuration variables.
|
|
#define | DEFINE_POWERDOWN_GPIO_OUTPUT_DATA_VARIABLES () |
Initialize powerdown GPIO output variables.
|
|
#define | SET_POWERUP_GPIO_CFG_REGISTERS () |
Set powerup GPIO configuration registers.
|
|
#define | SET_POWERUP_GPIO_OUTPUT_DATA_REGISTERS () |
Set powerup GPIO output registers.
|
|
#define | SET_POWERDOWN_GPIO_CFG_REGISTERS () |
Set powerdown GPIO configuration registers.
|
|
#define | SET_POWERDOWN_GPIO_OUTPUT_DATA_REGISTERS () |
Set powerdown GPIO output registers.
|
|
#define | CONFIGURE_EXTERNAL_REGULATOR_ENABLE () GPIO->DBGCFG &= ~GPIO_DBGCFG_EXTREGEN; |
External regulator enable/disable macro.
|
GPIO Wake Source Definitions |
|
A convenient define that chooses if this external signal can be used as source to wake from deep sleep. Any change in the state of the signal will wake up the CPU. |
|
#define | WAKE_ON_PA0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PA1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PA2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PA3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PA4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PA5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PA6 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PA7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PB0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PB1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PB2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PB3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PB4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PB5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PB6 true |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PB7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC6 true |
true if this GPIO can wake the chip from deep sleep, false if not.
|
|
#define | WAKE_ON_PC7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
|
Detailed Description
Functions and definitions specific to the breakout board.
- Note
-
The file
dev0680.h
is intended to be copied, renamed, and customized for customer-specific hardware.
The file
dev0680.h
is the default BOARD_HEADER file used with the breakout board of the development kit.
The EM35x on a dev0680 BoB has the following example GPIO configuration. This board file and the default HAL setup reflects this configuration.
- PA0 - SC2MOSI
- PA1 - SC2MISO
- PA2 - SC2SCLK
- PA3 - SC2nSSEL
- PA4 - PTI_EN
- PA5 - PTI_DATA
- PA6 - LED (on RCM), or Radio HoldOff
- PA7 - LED (on RCM)
- PB0 - Power Amplifier shutdown control / TRACEDATA2
- PB1 - SC1TXD
- PB2 - SC1RXD
- PB3 - SC1nCTS
- PB4 - SC1nRTS
- PB5 - TEMP_SENSE
- PB6 - Button (IRQB fixed to PB6)
- PB7 - Buzzer (also used for DataFlash Enable)
- PC0 - JTAG (JRST) / TRACEDATA1
- PC1 - Power Amplifier antenna select control / TRACEDATA3
- PC2 - JTAG (JTDO) / SWO / TRACEDATA0
- PC3 - JTAG (JTDI) / TRACECLK
- PC4 - JTAG (JTMS) / SWDIO
- PC5 - LED (on BoB)
- PC6 - Button (IRQC pointed to PC6)
- PC7 - TEMP_EN
- Note
-
The file
ref0657.h
is a special variant ofdev0680.h
intended only for use with the SiGe SE2432L reference design.
The file
dev0680.h
is the default BOARD_HEADER file used with the breakout board of the development kit.
The EM35x on a dev0680 BoB has the following example GPIO configuration. This board file and the default HAL setup reflects this configuration.
- PA0 - SC2MOSI
- PA1 - SC2MISO
- PA2 - SC2SCLK
- PA3 - SC2nSSEL
- PA4 - PTI_EN
- PA5 - PTI_DATA
- PA6 - LED (on RCM), or Radio HoldOff
- PA7 - LED (on RCM)
- PB0 - Power Amplifier shutdown control
- PB1 - SC1TXD
- PB2 - SC1RXD
- PB3 - SC1nCTS
- PB4 - SC1nRTS
- PB5 - TEMP_SENSE (also used for SiGe SE2432L CPS)
- PB6 - Button (IRQB fixed to PB6)
- PB7 - Buzzer (also used for DataFlash Enable)
- PC0 - JTAG (JRST)
- PC1 - Power Amplifier antenna select control
- PC2 - JTAG (JTDO) / SWO
- PC3 - JTAG (JTDI)
- PC4 - JTAG (JTMS)
- PC5 - TX_ACTIVE (FEM CTX)
- PC6 - Button (IRQC pointed to PC6)
- PC7 - TEMP_EN
Macro Definition Documentation
◆ ADJUST_GPIO_CONFIG_DFL_RHO
#define ADJUST_GPIO_CONFIG_DFL_RHO | ( |
enableRadioHoldOff
|
) |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ BUTTON0 [1/2]
#define BUTTON0 PORTB_PIN(6) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
◆ BUTTON0 [2/2]
#define BUTTON0 PORTB_PIN(6) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
◆ BUTTON0_FLAG_BIT [1/2]
#define BUTTON0_FLAG_BIT EVENT_GPIO_FLAG_IRQB |
The interrupt flag bit for BUTTON0.
◆ BUTTON0_FLAG_BIT [2/2]
#define BUTTON0_FLAG_BIT EVENT_GPIO_FLAG_IRQB |
The interrupt flag bit for BUTTON0.
◆ BUTTON0_IN [1/2]
#define BUTTON0_IN (GPIO->P[1].IN) |
The GPIO input register for BUTTON0.
◆ BUTTON0_IN [2/2]
#define BUTTON0_IN (GPIO->P[1].IN) |
The GPIO input register for BUTTON0.
◆ BUTTON0_INT_EN_BIT [1/2]
#define BUTTON0_INT_EN_BIT BIT32 ( BUTTON0_INT_EN_IRQN ) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
◆ BUTTON0_INT_EN_BIT [2/2]
#define BUTTON0_INT_EN_BIT BIT32 ( BUTTON0_INT_EN_IRQN ) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
◆ BUTTON0_INT_EN_IRQN [1/2]
#define BUTTON0_INT_EN_IRQN IRQB_IRQn |
The interrupt enable bit for BUTTON0.
◆ BUTTON0_INT_EN_IRQN [2/2]
#define BUTTON0_INT_EN_IRQN IRQB_IRQn |
The interrupt enable bit for BUTTON0.
◆ BUTTON0_INTCFG [1/2]
#define BUTTON0_INTCFG (EVENT_GPIO->CFGB) |
The interrupt configuration register for BUTTON0.
◆ BUTTON0_INTCFG [2/2]
#define BUTTON0_INTCFG (EVENT_GPIO->CFGB) |
The interrupt configuration register for BUTTON0.
◆ BUTTON0_ISR [1/2]
#define BUTTON0_ISR halIrqBIsr |
The interrupt service routine for BUTTON0.
◆ BUTTON0_ISR [2/2]
#define BUTTON0_ISR halIrqBIsr |
The interrupt service routine for BUTTON0.
◆ BUTTON0_MISS_BIT [1/2]
#define BUTTON0_MISS_BIT EVENT_MISS_MISS_IRQB |
The missed interrupt bit for BUTTON0.
◆ BUTTON0_MISS_BIT [2/2]
#define BUTTON0_MISS_BIT EVENT_MISS_MISS_IRQB |
The missed interrupt bit for BUTTON0.
◆ BUTTON0_SEL [1/2]
#define BUTTON0_SEL | ( |
|
) | do {} while (0) |
Point the proper IRQ at the desired pin for BUTTON0.
- Note
- IRQB is fixed and as such does not need any selection operation.
◆ BUTTON0_SEL [2/2]
#define BUTTON0_SEL | ( |
|
) | do {} while (0) |
Point the proper IRQ at the desired pin for BUTTON0.
- Note
- IRQB is fixed and as such does not need any selection operation.
◆ BUTTON1 [1/2]
#define BUTTON1 PORTC_PIN(6) |
The actual GPIO BUTTON1 is connected to. This define should be used whenever referencing BUTTON1.
◆ BUTTON1 [2/2]
#define BUTTON1 PORTC_PIN(6) |
The actual GPIO BUTTON1 is connected to. This define should be used whenever referencing BUTTON1, such as controlling if pieces are compiled in. Remember there may be other things that might want to use IRQC.
◆ BUTTON1_FLAG_BIT [1/2]
#define BUTTON1_FLAG_BIT EVENT_GPIO_FLAG_IRQC |
The interrupt flag bit for BUTTON1.
◆ BUTTON1_FLAG_BIT [2/2]
#define BUTTON1_FLAG_BIT EVENT_GPIO_FLAG_IRQC |
The interrupt flag bit for BUTTON1.
◆ BUTTON1_IN [1/2]
#define BUTTON1_IN (GPIO->P[2].IN) |
The GPIO input register for BUTTON1.
◆ BUTTON1_IN [2/2]
#define BUTTON1_IN (GPIO->P[2].IN) |
The GPIO input register for BUTTON1.
◆ BUTTON1_INT_EN_BIT [1/2]
#define BUTTON1_INT_EN_BIT BIT32 ( BUTTON1_INT_EN_IRQN ) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
◆ BUTTON1_INT_EN_BIT [2/2]
#define BUTTON1_INT_EN_BIT BIT32 ( BUTTON1_INT_EN_IRQN ) |
The actual GPIO BUTTON0 is connected to. This define should be used whenever referencing BUTTON0.
◆ BUTTON1_INT_EN_IRQN [1/2]
#define BUTTON1_INT_EN_IRQN IRQC_IRQn |
The interrupt enable bit for BUTTON1.
◆ BUTTON1_INT_EN_IRQN [2/2]
#define BUTTON1_INT_EN_IRQN IRQC_IRQn |
The interrupt enable bit for BUTTON1.
◆ BUTTON1_INTCFG [1/2]
#define BUTTON1_INTCFG (EVENT_GPIO->CFGC) |
The interrupt configuration register for BUTTON1.
◆ BUTTON1_INTCFG [2/2]
#define BUTTON1_INTCFG (EVENT_GPIO->CFGC) |
The interrupt configuration register for BUTTON1.
◆ BUTTON1_ISR [1/2]
#define BUTTON1_ISR halIrqCIsr |
The interrupt service routine for BUTTON1.
◆ BUTTON1_ISR [2/2]
#define BUTTON1_ISR halIrqCIsr |
The interrupt service routine for BUTTON1. Remember there may be other things that might want to use IRQC.
◆ BUTTON1_MISS_BIT [1/2]
#define BUTTON1_MISS_BIT EVENT_MISS_MISS_IRQC |
The missed interrupt bit for BUTTON1.
◆ BUTTON1_MISS_BIT [2/2]
#define BUTTON1_MISS_BIT EVENT_MISS_MISS_IRQC |
The missed interrupt bit for BUTTON1.
◆ BUTTON1_SEL [1/2]
#define BUTTON1_SEL | ( |
|
) | do { GPIO->IRQCSEL = PORTC_PIN(6); } while (0) |
Point the proper IRQ at the desired pin for BUTTON1.
- Note
- For this board, IRQC is pointed at PC6
◆ BUTTON1_SEL [2/2]
#define BUTTON1_SEL | ( |
|
) | do { GPIO->IRQCSEL = PORTC_PIN(6); } while (0) |
Point the proper IRQ at the desired pin for BUTTON1. Remember there may be other things that might want to use IRQC.
- Note
- For this board, IRQC is pointed at PC6
◆ CFG_TEMPEN [1/2]
#define CFG_TEMPEN GPIO_P_CFGz_Pxy_OUT |
Give GPIO PC7 configuration a friendly name.
ENABLE_OSC32K
◆ CFG_TEMPEN [2/2]
#define CFG_TEMPEN GPIO_P_CFGz_Pxy_OUT |
Give GPIO PC7 configuration a friendly name.
ENABLE_OSC32K
◆ CONFIGURE_EXTERNAL_REGULATOR_ENABLE [1/2]
#define CONFIGURE_EXTERNAL_REGULATOR_ENABLE | ( |
|
) | GPIO->DBGCFG &= ~GPIO_DBGCFG_EXTREGEN; |
External regulator enable/disable macro.
◆ CONFIGURE_EXTERNAL_REGULATOR_ENABLE [2/2]
#define CONFIGURE_EXTERNAL_REGULATOR_ENABLE | ( |
|
) | GPIO->DBGCFG &= ~GPIO_DBGCFG_EXTREGEN; |
External regulator enable/disable macro.
◆ DEFINE_GPIO_RADIO_POWER_BOARD_MASK_VARIABLE [1/2]
#define DEFINE_GPIO_RADIO_POWER_BOARD_MASK_VARIABLE | ( |
|
) |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ DEFINE_GPIO_RADIO_POWER_BOARD_MASK_VARIABLE [2/2]
#define DEFINE_GPIO_RADIO_POWER_BOARD_MASK_VARIABLE | ( |
|
) | GpioMaskType gpioRadioPowerBoardMask = 0 |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ DEFINE_POWERDOWN_GPIO_CFG_VARIABLES [1/2]
#define DEFINE_POWERDOWN_GPIO_CFG_VARIABLES | ( |
|
) |
Initialize powerdown GPIO configuration variables.
◆ DEFINE_POWERDOWN_GPIO_CFG_VARIABLES [2/2]
#define DEFINE_POWERDOWN_GPIO_CFG_VARIABLES | ( |
|
) |
Initialize powerdown GPIO configuration variables.
◆ DEFINE_POWERDOWN_GPIO_OUTPUT_DATA_VARIABLES [1/2]
#define DEFINE_POWERDOWN_GPIO_OUTPUT_DATA_VARIABLES | ( |
|
) |
Initialize powerdown GPIO output variables.
◆ DEFINE_POWERDOWN_GPIO_OUTPUT_DATA_VARIABLES [2/2]
#define DEFINE_POWERDOWN_GPIO_OUTPUT_DATA_VARIABLES | ( |
|
) |
Initialize powerdown GPIO output variables.
◆ DEFINE_POWERUP_GPIO_CFG_VARIABLES [1/2]
#define DEFINE_POWERUP_GPIO_CFG_VARIABLES | ( |
|
) |
Initialize GPIO powerup configuration variables.
◆ DEFINE_POWERUP_GPIO_CFG_VARIABLES [2/2]
#define DEFINE_POWERUP_GPIO_CFG_VARIABLES | ( |
|
) |
Initialize GPIO powerup configuration variables.
◆ DEFINE_POWERUP_GPIO_OUTPUT_DATA_VARIABLES [1/2]
#define DEFINE_POWERUP_GPIO_OUTPUT_DATA_VARIABLES | ( |
|
) |
Initialize GPIO powerup output variables.
◆ DEFINE_POWERUP_GPIO_OUTPUT_DATA_VARIABLES [2/2]
#define DEFINE_POWERUP_GPIO_OUTPUT_DATA_VARIABLES | ( |
|
) |
Initialize GPIO powerup output variables.
◆ EEPROM_USES_SHUTDOWN_CONTROL
#define EEPROM_USES_SHUTDOWN_CONTROL |
This define does not equate to anything. It is used as a trigger to enable the logic that drives PB7 high in the EEPROM driver.
◆ EMBER_SERIAL_BAUD_CUSTOM [1/2]
#define EMBER_SERIAL_BAUD_CUSTOM 13 |
This define is the register setting for generating a baud of.
- Refer to the EM35x datasheet's discussion on UART baud rates for the equation used to derive this value.
◆ EMBER_SERIAL_BAUD_CUSTOM [2/2]
#define EMBER_SERIAL_BAUD_CUSTOM 13 |
This define is the register setting for generating a baud of.
- Refer to the EM35x datasheet's discussion on UART baud rates for the equation used to derive this value.
◆ ENABLE_ALT_FUNCTION_TX_ACTIVE
#define ENABLE_ALT_FUNCTION_TX_ACTIVE |
This define does not equate to anything. It is used as a trigger to enable the TX_ACTIVE alternate function on PC5. It is enabled by default in this board file because the SiGe SE2432L requires the TX_ACTIVE alternate function to operate properly.
◆ ENUMCTRL
#define ENUMCTRL PORTA_PIN(2) |
The actual GPIO ENUMCTRL is connected to. The GPIO only needs to be a simple push-pull output or input.
◆ ENUMCTRL_CLR
#define ENUMCTRL_CLR | ( |
|
) | do { GPIO->P[0].CLR = GPIO_P_CLR_Px2; } while (0) |
When the GPIO used for enumeration is configured as push-pull, this macro makes it easy to clear the output state low.
◆ ENUMCTRL_SET
#define ENUMCTRL_SET | ( |
|
) | do { GPIO->P[0].SET = GPIO_P_SET_Px2; } while (0) |
When the GPIO used for enumeration is configured as push-pull, this macro makes it easy to set the output state high.
◆ ENUMCTRL_SETCFG
#define ENUMCTRL_SETCFG | ( |
cfg
|
) |
Set the GPIO's configuration to the provided state. The two states used are GPIO_P_CFGz_Pxy_OUT when the device is enumerated and GPIO_P_CFGz_Pxy_IN when the device is not enumerated.
◆ FEM_CRX_BIT
#define FEM_CRX_BIT (0) |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ FEM_CTX_BIT
#define FEM_CTX_BIT ( BIT32 (PORTC_PIN(5))) |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ halInternalInitRadioHoldOff [1/2]
#define halInternalInitRadioHoldOff | ( |
|
) | /* no-op */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ halInternalInitRadioHoldOff [2/2]
#define halInternalInitRadioHoldOff | ( |
|
) | /* no-op */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ OSC32K_STARTUP_DELAY_MS [1/2]
#define OSC32K_STARTUP_DELAY_MS (0) |
◆ OSC32K_STARTUP_DELAY_MS [2/2]
#define OSC32K_STARTUP_DELAY_MS (0) |
◆ PACKET_TRACE [1/2]
#define PACKET_TRACE |
This define does not equate to anything. It is used as a trigger to enable Packet Trace support on the breakout board (dev0680).
◆ PACKET_TRACE [2/2]
#define PACKET_TRACE |
This define does not equate to anything. It is used as a trigger to enable Packet Trace support on the breakout board (dev0680).
◆ PWRDN_CFG_BUTTON1 [1/2]
#define PWRDN_CFG_BUTTON1 GPIO_P_CFGz_Pxy_IN_PUD |
Give GPIO PC6 configuration a friendly name.
◆ PWRDN_CFG_BUTTON1 [2/2]
#define PWRDN_CFG_BUTTON1 GPIO_P_CFGz_Pxy_IN_PUD |
Give GPIO PC6 configuration a friendly name.
◆ PWRDN_CFG_DFL_RHO [1/2]
#define PWRDN_CFG_DFL_RHO PWRDN_CFG_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRDN_CFG_DFL_RHO [2/2]
#define PWRDN_CFG_DFL_RHO PWRDN_CFG_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRDN_CFG_DFL_RHO_FOR_DFL [1/2]
#define PWRDN_CFG_DFL_RHO_FOR_DFL GPIO_P_CFGz_Pxy_OUT |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRDN_CFG_DFL_RHO_FOR_DFL [2/2]
#define PWRDN_CFG_DFL_RHO_FOR_DFL GPIO_P_CFGz_Pxy_OUT |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRDN_CFG_DFL_RHO_FOR_RHO [1/2]
#define PWRDN_CFG_DFL_RHO_FOR_RHO GPIO_P_CFGz_Pxy_IN_PUD |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRDN_CFG_DFL_RHO_FOR_RHO [2/2]
#define PWRDN_CFG_DFL_RHO_FOR_RHO GPIO_P_CFGz_Pxy_IN_PUD |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRDN_CFG_ENUMCTRL
#define PWRDN_CFG_ENUMCTRL GPIO_P_CFGz_Pxy_IN_PUD |
Give the USB configuration a friendly name.
◆ PWRDN_CFG_LED2 [1/2]
#define PWRDN_CFG_LED2 GPIO_P_CFGz_Pxy_OUT |
Give the TX_ACTIVE configuration a friendly name.
◆ PWRDN_CFG_LED2 [2/2]
#define PWRDN_CFG_LED2 GPIO_P_CFGz_Pxy_OUT |
Give the TX_ACTIVE configuration a friendly name.
ENABLE_ALT_FUNCTION_TX_ACTIVE
◆ PWRDN_CFG_PTI_DATA [1/2]
#define PWRDN_CFG_PTI_DATA GPIO_P_CFGz_Pxy_IN_PUD |
Give the packet trace configuration a friendly name.
◆ PWRDN_CFG_PTI_DATA [2/2]
#define PWRDN_CFG_PTI_DATA GPIO_P_CFGz_Pxy_IN_PUD |
Give the packet trace configuration a friendly name.
◆ PWRDN_CFG_PTI_EN [1/2]
#define PWRDN_CFG_PTI_EN GPIO_P_CFGz_Pxy_IN_PUD |
Give the packet trace configuration a friendly name.
◆ PWRDN_CFG_PTI_EN [2/2]
#define PWRDN_CFG_PTI_EN GPIO_P_CFGz_Pxy_IN_PUD |
Give the packet trace configuration a friendly name.
◆ PWRDN_CFG_USBDM
#define PWRDN_CFG_USBDM GPIO_P_CFGz_Pxy_IN_PUD |
Give the USB configuration a friendly name.
◆ PWRDN_CFG_USBDP
#define PWRDN_CFG_USBDP GPIO_P_CFGz_Pxy_IN_PUD |
Give the USB configuration a friendly name.
◆ PWRDN_CFG_VBUSMON
#define PWRDN_CFG_VBUSMON GPIO_P_CFGz_Pxy_OUT |
Give the USB configuration a friendly name.
◆ PWRDN_OUT_BUTTON1 [1/2]
#define PWRDN_OUT_BUTTON1 GPIO_P_OUT_Pxy_PULLUP /* Button needs a pullup */ |
Give GPIO PC6 configuration a friendly name.
◆ PWRDN_OUT_BUTTON1 [2/2]
#define PWRDN_OUT_BUTTON1 GPIO_P_OUT_Pxy_PULLUP /* Button needs a pullup */ |
Give GPIO PC6 configuration a friendly name.
◆ PWRDN_OUT_DFL_RHO [1/2]
#define PWRDN_OUT_DFL_RHO PWRDN_OUT_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRDN_OUT_DFL_RHO [2/2]
#define PWRDN_OUT_DFL_RHO PWRDN_OUT_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRDN_OUT_DFL_RHO_FOR_DFL [1/2]
#define PWRDN_OUT_DFL_RHO_FOR_DFL 1 /* LED off */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRDN_OUT_DFL_RHO_FOR_DFL [2/2]
#define PWRDN_OUT_DFL_RHO_FOR_DFL 1 /* LED off */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRDN_OUT_DFL_RHO_FOR_RHO [1/2]
#define PWRDN_OUT_DFL_RHO_FOR_RHO GPIO_P_OUT_Pxy_PULLDOWN /* Deassert */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRDN_OUT_DFL_RHO_FOR_RHO [2/2]
#define PWRDN_OUT_DFL_RHO_FOR_RHO GPIO_P_OUT_Pxy_PULLDOWN /* Deassert */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRDN_OUT_ENUMCTRL
#define PWRDN_OUT_ENUMCTRL GPIO_P_OUT_Pxy_PULLUP |
Give the USB configuration a friendly name.
◆ PWRDN_OUT_LED2 [1/2]
#define PWRDN_OUT_LED2 0 |
Give the TX_ACTIVE configuration a friendly name.
◆ PWRDN_OUT_LED2 [2/2]
#define PWRDN_OUT_LED2 1 /* LED default off */ |
Give the TX_ACTIVE configuration a friendly name.
ENABLE_ALT_FUNCTION_TX_ACTIVE
◆ PWRDN_OUT_PTI_DATA [1/2]
#define PWRDN_OUT_PTI_DATA GPIO_P_OUT_Pxy_PULLUP |
Give the packet trace configuration a friendly name.
◆ PWRDN_OUT_PTI_DATA [2/2]
#define PWRDN_OUT_PTI_DATA GPIO_P_OUT_Pxy_PULLUP |
Give the packet trace configuration a friendly name.
◆ PWRDN_OUT_PTI_EN [1/2]
#define PWRDN_OUT_PTI_EN GPIO_P_OUT_Pxy_PULLDOWN |
Give the packet trace configuration a friendly name.
◆ PWRDN_OUT_PTI_EN [2/2]
#define PWRDN_OUT_PTI_EN GPIO_P_OUT_Pxy_PULLDOWN |
Give the packet trace configuration a friendly name.
◆ PWRDN_OUT_SC1_nRTS
#define PWRDN_OUT_SC1_nRTS 1 |
◆ PWRDN_OUT_USBDM
#define PWRDN_OUT_USBDM GPIO_P_OUT_Pxy_PULLUP |
Give the USB configuration a friendly name.
◆ PWRDN_OUT_USBDP
#define PWRDN_OUT_USBDP GPIO_P_OUT_Pxy_PULLUP |
Give the USB configuration a friendly name.
◆ PWRDN_OUT_VBUSMON
#define PWRDN_OUT_VBUSMON 1 |
Give the USB configuration a friendly name.
◆ PWRUP_CFG_BUTTON1 [1/2]
#define PWRUP_CFG_BUTTON1 GPIO_P_CFGz_Pxy_IN_PUD |
Give GPIO PC6 configuration a friendly name.
◆ PWRUP_CFG_BUTTON1 [2/2]
#define PWRUP_CFG_BUTTON1 GPIO_P_CFGz_Pxy_IN_PUD |
Give GPIO PC6 configuration a friendly name.
◆ PWRUP_CFG_DFL_RHO [1/2]
#define PWRUP_CFG_DFL_RHO PWRUP_CFG_DFL_RHO_FOR_DFL |
The following definitions are helpers for managing Radio HoldOff and should not be modified.
(defined(RADIO_HOLDOFF) && defined(RHO_GPIO))
◆ PWRUP_CFG_DFL_RHO [2/2]
#define PWRUP_CFG_DFL_RHO PWRUP_CFG_DFL_RHO_FOR_DFL |
The following definitions are helpers for managing Radio HoldOff and should not be modified.
(defined(RADIO_HOLDOFF) && defined(RHO_GPIO))
◆ PWRUP_CFG_DFL_RHO_FOR_DFL [1/2]
#define PWRUP_CFG_DFL_RHO_FOR_DFL GPIO_P_CFGz_Pxy_OUT |
Configuration of GPIO for default behavior.
◆ PWRUP_CFG_DFL_RHO_FOR_DFL [2/2]
#define PWRUP_CFG_DFL_RHO_FOR_DFL GPIO_P_CFGz_Pxy_OUT |
Configuration of GPIO for default behavior.
◆ PWRUP_CFG_DFL_RHO_FOR_RHO [1/2]
#define PWRUP_CFG_DFL_RHO_FOR_RHO GPIO_P_CFGz_Pxy_IN_PUD |
Configuration of GPIO for Radio HoldOff operation.
◆ PWRUP_CFG_DFL_RHO_FOR_RHO [2/2]
#define PWRUP_CFG_DFL_RHO_FOR_RHO GPIO_P_CFGz_Pxy_IN_PUD |
Configuration of GPIO for Radio HoldOff operation.
◆ PWRUP_CFG_ENUMCTRL
#define PWRUP_CFG_ENUMCTRL GPIO_P_CFGz_Pxy_OUT_ALT |
Give the USB configuration a friendly name.
◆ PWRUP_CFG_LED2 [1/2]
#define PWRUP_CFG_LED2 GPIO_P_CFGz_Pxy_OUT_ALT |
Give the TX_ACTIVE configuration a friendly name.
◆ PWRUP_CFG_LED2 [2/2]
#define PWRUP_CFG_LED2 GPIO_P_CFGz_Pxy_OUT |
Give the TX_ACTIVE configuration a friendly name.
ENABLE_ALT_FUNCTION_TX_ACTIVE
◆ PWRUP_CFG_PTI_DATA [1/2]
#define PWRUP_CFG_PTI_DATA GPIO_P_CFGz_Pxy_OUT_ALT |
Give the packet trace configuration a friendly name.
◆ PWRUP_CFG_PTI_DATA [2/2]
#define PWRUP_CFG_PTI_DATA GPIO_P_CFGz_Pxy_OUT_ALT |
Give the packet trace configuration a friendly name.
◆ PWRUP_CFG_PTI_EN [1/2]
#define PWRUP_CFG_PTI_EN GPIO_P_CFGz_Pxy_OUT_ALT |
Give the packet trace configuration a friendly name.
◆ PWRUP_CFG_PTI_EN [2/2]
#define PWRUP_CFG_PTI_EN GPIO_P_CFGz_Pxy_OUT_ALT |
Give the packet trace configuration a friendly name.
◆ PWRUP_CFG_SC1_TXD
#define PWRUP_CFG_SC1_TXD GPIO_P_CFGz_Pxy_OUT_ALT |
Give GPIO SC1 TXD and nRTS configurations friendly names.
SLEEPY_IP_MODEM_UART
◆ PWRUP_CFG_USBDM
#define PWRUP_CFG_USBDM GPIO_P_CFGz_Pxy_OUT_ALT |
Give the USB configuration a friendly name.
◆ PWRUP_CFG_USBDP
#define PWRUP_CFG_USBDP GPIO_P_CFGz_Pxy_IN |
Give the USB configuration a friendly name.
◆ PWRUP_CFG_VBUSMON
#define PWRUP_CFG_VBUSMON GPIO_P_CFGz_Pxy_OUT |
Give the USB configuration a friendly name.
◆ PWRUP_OUT_BUTTON1 [1/2]
#define PWRUP_OUT_BUTTON1 GPIO_P_OUT_Pxy_PULLUP /* Button needs a pullup */ |
Give GPIO PC6 configuration a friendly name.
◆ PWRUP_OUT_BUTTON1 [2/2]
#define PWRUP_OUT_BUTTON1 GPIO_P_OUT_Pxy_PULLUP /* Button needs a pullup */ |
Give GPIO PC6 configuration a friendly name.
◆ PWRUP_OUT_DFL_RHO [1/2]
#define PWRUP_OUT_DFL_RHO PWRUP_OUT_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRUP_OUT_DFL_RHO [2/2]
#define PWRUP_OUT_DFL_RHO PWRUP_OUT_DFL_RHO_FOR_DFL |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRUP_OUT_DFL_RHO_FOR_DFL [1/2]
#define PWRUP_OUT_DFL_RHO_FOR_DFL 1 /* LED default off */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRUP_OUT_DFL_RHO_FOR_DFL [2/2]
#define PWRUP_OUT_DFL_RHO_FOR_DFL 1 /* LED default off */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRUP_OUT_DFL_RHO_FOR_RHO [1/2]
#define PWRUP_OUT_DFL_RHO_FOR_RHO GPIO_P_OUT_Pxy_PULLDOWN /* Deassert */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ PWRUP_OUT_DFL_RHO_FOR_RHO [2/2]
#define PWRUP_OUT_DFL_RHO_FOR_RHO GPIO_P_OUT_Pxy_PULLDOWN /* Deassert */ |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ PWRUP_OUT_ENUMCTRL
#define PWRUP_OUT_ENUMCTRL 0 |
Give the USB configuration a friendly name.
◆ PWRUP_OUT_LED2 [1/2]
#define PWRUP_OUT_LED2 0 |
Give the TX_ACTIVE configuration a friendly name.
◆ PWRUP_OUT_LED2 [2/2]
#define PWRUP_OUT_LED2 1 /* LED default off */ |
Give the TX_ACTIVE configuration a friendly name.
ENABLE_ALT_FUNCTION_TX_ACTIVE
◆ PWRUP_OUT_PTI_DATA [1/2]
#define PWRUP_OUT_PTI_DATA 1 |
Give the packet trace configuration a friendly name.
◆ PWRUP_OUT_PTI_DATA [2/2]
#define PWRUP_OUT_PTI_DATA 1 |
Give the packet trace configuration a friendly name.
◆ PWRUP_OUT_PTI_EN [1/2]
#define PWRUP_OUT_PTI_EN 0 |
Give the packet trace configuration a friendly name.
◆ PWRUP_OUT_PTI_EN [2/2]
#define PWRUP_OUT_PTI_EN 0 |
Give the packet trace configuration a friendly name.
◆ PWRUP_OUT_USBDM
#define PWRUP_OUT_USBDM 0 |
Give the USB configuration a friendly name.
◆ PWRUP_OUT_USBDP
#define PWRUP_OUT_USBDP 0 |
Give the USB configuration a friendly name.
◆ PWRUP_OUT_VBUSMON
#define PWRUP_OUT_VBUSMON 1 |
Give the USB configuration a friendly name.
◆ RHO_ASSERTED [1/2]
#define RHO_ASSERTED 1 |
The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ RHO_ASSERTED [2/2]
#define RHO_ASSERTED 1 |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ RHO_CFG [1/2]
#define RHO_CFG (GPIO->P[0].CFGH) |
The GPIO configuration register for Radio HoldOff.
◆ RHO_CFG [2/2]
#define RHO_CFG (GPIO->P[0].CFGH) |
The GPIO configuration register for Radio HoldOff.
◆ RHO_FLAG_BIT [1/2]
#define RHO_FLAG_BIT EVENT_GPIO_FLAG_IRQD |
The interrupt flag bit for Radio HoldOff.
◆ RHO_FLAG_BIT [2/2]
#define RHO_FLAG_BIT EVENT_GPIO_FLAG_IRQD |
The interrupt flag bit for Radio HoldOff.
◆ RHO_GPIO
#define RHO_GPIO PORTA_PIN(6) |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ RHO_IN [1/2]
#define RHO_IN (GPIO->P[0].IN) |
The GPIO input register for Radio HoldOff.
◆ RHO_IN [2/2]
#define RHO_IN (GPIO->P[0].IN) |
The GPIO input register for Radio HoldOff.
◆ RHO_INT_EN_BIT [1/2]
#define RHO_INT_EN_BIT BIT32 ( RHO_INT_EN_IRQN ) |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use.
◆ RHO_INT_EN_BIT [2/2]
#define RHO_INT_EN_BIT BIT32 ( RHO_INT_EN_IRQN ) |
The actual GPIO used to control Radio HoldOff.
- Note
- If RHO_GPIO is not defined, then Radio HoldOff support will not be built in even for runtime use. The GPIO signal level to assert Radio HoldOff (1=high, 0=low).
◆ RHO_INT_EN_IRQN [1/2]
#define RHO_INT_EN_IRQN IRQD_IRQn |
The interrupt enable bit for Radio HoldOff.
◆ RHO_INT_EN_IRQN [2/2]
#define RHO_INT_EN_IRQN IRQD_IRQn |
The interrupt enable bit for Radio HoldOff.
◆ RHO_INTCFG [1/2]
#define RHO_INTCFG (EVENT_GPIO->CFGD) |
The interrupt configuration register for Radio HoldOff.
◆ RHO_INTCFG [2/2]
#define RHO_INTCFG (EVENT_GPIO->CFGD) |
The interrupt configuration register for Radio HoldOff.
◆ RHO_ISR [1/2]
#define RHO_ISR halIrqDIsr |
The interrupt service routine for Radio HoldOff. Remember there may be other things that might want to use this IRQ.
◆ RHO_ISR [2/2]
#define RHO_ISR halIrqDIsr |
The interrupt service routine for Radio HoldOff. Remember there may be other things that might want to use this IRQ.
◆ RHO_MISS_BIT [1/2]
#define RHO_MISS_BIT EVENT_MISS_MISS_IRQD |
The missed interrupt bit for Radio HoldOff.
◆ RHO_MISS_BIT [2/2]
#define RHO_MISS_BIT EVENT_MISS_MISS_IRQD |
The missed interrupt bit for Radio HoldOff.
◆ RHO_OUT [1/2]
#define RHO_OUT (GPIO->P[0].OUT) |
The GPIO output register for Radio HoldOff.
◆ RHO_OUT [2/2]
#define RHO_OUT (GPIO->P[0].OUT) |
The GPIO output register for Radio HoldOff.
◆ RHO_SEL [1/2]
#define RHO_SEL | ( |
|
) | do { GPIO->IRQDSEL = RHO_GPIO ; } while (0) |
Point the proper IRQ at the desired pin for Radio HoldOff. Remember there may be other things that might want to use this IRQ.
◆ RHO_SEL [2/2]
#define RHO_SEL | ( |
|
) | do { GPIO->IRQDSEL = RHO_GPIO ; } while (0) |
Point the proper IRQ at the desired pin for Radio HoldOff. Remember there may be other things that might want to use this IRQ.
◆ SET_POWERDOWN_GPIO_CFG_REGISTERS [1/2]
#define SET_POWERDOWN_GPIO_CFG_REGISTERS | ( |
|
) |
Set powerdown GPIO configuration registers.
◆ SET_POWERDOWN_GPIO_CFG_REGISTERS [2/2]
#define SET_POWERDOWN_GPIO_CFG_REGISTERS | ( |
|
) |
Set powerdown GPIO configuration registers.
◆ SET_POWERDOWN_GPIO_OUTPUT_DATA_REGISTERS [1/2]
#define SET_POWERDOWN_GPIO_OUTPUT_DATA_REGISTERS | ( |
|
) |
Set powerdown GPIO output registers.
◆ SET_POWERDOWN_GPIO_OUTPUT_DATA_REGISTERS [2/2]
#define SET_POWERDOWN_GPIO_OUTPUT_DATA_REGISTERS | ( |
|
) |
Set powerdown GPIO output registers.
◆ SET_POWERUP_GPIO_CFG_REGISTERS [1/2]
#define SET_POWERUP_GPIO_CFG_REGISTERS | ( |
|
) |
Set powerup GPIO configuration registers.
◆ SET_POWERUP_GPIO_CFG_REGISTERS [2/2]
#define SET_POWERUP_GPIO_CFG_REGISTERS | ( |
|
) |
Set powerup GPIO configuration registers.
◆ SET_POWERUP_GPIO_OUTPUT_DATA_REGISTERS [1/2]
#define SET_POWERUP_GPIO_OUTPUT_DATA_REGISTERS | ( |
|
) |
Set powerup GPIO output registers.
◆ SET_POWERUP_GPIO_OUTPUT_DATA_REGISTERS [2/2]
#define SET_POWERUP_GPIO_OUTPUT_DATA_REGISTERS | ( |
|
) |
Set powerup GPIO output registers.
◆ SET_RESUME_GPIO_CFG_REGISTERS
#define SET_RESUME_GPIO_CFG_REGISTERS | ( |
|
) |
Set resume GPIO configuration registers. Identical to SET_POWERUP.
◆ SET_RESUME_GPIO_OUTPUT_DATA_REGISTERS
#define SET_RESUME_GPIO_OUTPUT_DATA_REGISTERS | ( |
|
) |
Set resume GPIO output registers. Identical to SET_POWERUP.
◆ SET_SUSPEND_GPIO_CFG_REGISTERS
#define SET_SUSPEND_GPIO_CFG_REGISTERS | ( |
|
) |
Set suspend GPIO configuration registers. SET_POWERDOWN minus USB regs.
◆ SET_SUSPEND_GPIO_OUTPUT_DATA_REGISTERS
#define SET_SUSPEND_GPIO_OUTPUT_DATA_REGISTERS | ( |
|
) |
Set suspend GPIO output registers. SET_POWERDOWN minus USB regs.
◆ TEMP_SENSOR_ADC_CHANNEL [1/2]
#define TEMP_SENSOR_ADC_CHANNEL ADC_SOURCE_ADC0_VREF2 |
The analog input channel to use for the temperature sensor.
◆ TEMP_SENSOR_ADC_CHANNEL [2/2]
#define TEMP_SENSOR_ADC_CHANNEL ADC_SOURCE_ADC0_VREF2 |
The analog input channel to use for the temperature sensor.
◆ TEMP_SENSOR_SCALE_FACTOR [1/2]
#define TEMP_SENSOR_SCALE_FACTOR 1 |
The scale factor to compensate for different input ranges.
◆ TEMP_SENSOR_SCALE_FACTOR [2/2]
#define TEMP_SENSOR_SCALE_FACTOR 1 |
The scale factor to compensate for different input ranges.
◆ USB_MAX_POWER
#define USB_MAX_POWER (50) |
USB Max Power parameter (bMaxPower) the driver will report to the host in the Configuration Descriptor.
◆ USB_REMOTEWKUPEN_STATE
#define USB_REMOTEWKUPEN_STATE (1) |
USB Remote Wakeup Enable.
Set the define USB_REMOTEWKUPEN_STATE: 0 remote wakeup is disabled. 1 remote wakeup is enabled.
◆ USB_SELFPWRD_STATE
#define USB_SELFPWRD_STATE (1) |
The USB power state.
Set the define USB_SELFPWRD_STATE: 0 if the device is bus powered. 1 if the device self powered.
◆ VBUSMON
#define VBUSMON GPIO_P_IN_Px3 |
The actual GPIO VBUSMON is connected to. Remember that other pieces might want to use PA3.
Leaving VBUSMON undefined will keep VBUS Monitoring functionality from being compiled in and not conflict with other pieces that might want to use the GPIO or IRQ that VBUS Monitoring needs.
◆ VBUSMON_FLAG_BIT
#define VBUSMON_FLAG_BIT EVENT_GPIO_FLAG_IRQD |
The interrupt flag bit for VBUSMON.
◆ VBUSMON_IN
#define VBUSMON_IN (GPIO->P[0].IN) |
The GPIO input register for VBUSMON.
◆ VBUSMON_INT_EN_BIT
#define VBUSMON_INT_EN_BIT BIT32 ( VBUSMON_INT_EN_IRQN ) |
The actual GPIO VBUSMON is connected to. Remember that other pieces might want to use PA3.
Leaving VBUSMON undefined will keep VBUS Monitoring functionality from being compiled in and not conflict with other pieces that might want to use the GPIO or IRQ that VBUS Monitoring needs.
◆ VBUSMON_INT_EN_IRQN
#define VBUSMON_INT_EN_IRQN IRQD_IRQn |
The interrupt enable bit for VBUSMON.
◆ VBUSMON_INTCFG
#define VBUSMON_INTCFG (EVENT_GPIO->CFGD) |
The interrupt configuration register for VBUSMON.
◆ VBUSMON_ISR
#define VBUSMON_ISR halIrqDIsr |
The interrupt service routine for VBUSMON. Remember that other pieces that might want to use IRQC.
◆ VBUSMON_MISS_BIT
#define VBUSMON_MISS_BIT EVENT_MISS_MISS_IRQD |
The missed interrupt bit for VBUSMON.
◆ VBUSMON_SEL
#define VBUSMON_SEL | ( |
|
) | do { GPIO->IRQDSEL = PORTA_PIN(3); } while (0) |
Point the proper IRQ at the desired pin for VBUSMON. Remember that other pieces that might want to use IRQC.
- Note
- For this board, IRQC is pointed at PA3.
◆ VBUSMON_SETCFG
#define VBUSMON_SETCFG | ( |
|
) |
The GPIO configuration needed for VBUSMON. The configuration needs to be a simple input that will monitor for edge tansitions.
◆ WAKE_ON_PA0 [1/2]
#define WAKE_ON_PA0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA0 [2/2]
#define WAKE_ON_PA0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA1 [1/2]
#define WAKE_ON_PA1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA1 [2/2]
#define WAKE_ON_PA1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA2 [1/2]
#define WAKE_ON_PA2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA2 [2/2]
#define WAKE_ON_PA2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA3 [1/2]
#define WAKE_ON_PA3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA3 [2/2]
#define WAKE_ON_PA3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA4 [1/2]
#define WAKE_ON_PA4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA4 [2/2]
#define WAKE_ON_PA4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA5 [1/2]
#define WAKE_ON_PA5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA5 [2/2]
#define WAKE_ON_PA5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA6 [1/2]
#define WAKE_ON_PA6 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA6 [2/2]
#define WAKE_ON_PA6 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA7 [1/2]
#define WAKE_ON_PA7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PA7 [2/2]
#define WAKE_ON_PA7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB0 [1/2]
#define WAKE_ON_PB0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB0 [2/2]
#define WAKE_ON_PB0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB1 [1/2]
#define WAKE_ON_PB1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB1 [2/2]
#define WAKE_ON_PB1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB2 [1/2]
#define WAKE_ON_PB2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB2 [2/2]
#define WAKE_ON_PB2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB3 [1/2]
#define WAKE_ON_PB3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB3 [2/2]
#define WAKE_ON_PB3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB4 [1/2]
#define WAKE_ON_PB4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB4 [2/2]
#define WAKE_ON_PB4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB5 [1/2]
#define WAKE_ON_PB5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB5 [2/2]
#define WAKE_ON_PB5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB6 [1/2]
#define WAKE_ON_PB6 true |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB6 [2/2]
#define WAKE_ON_PB6 true |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB7 [1/2]
#define WAKE_ON_PB7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PB7 [2/2]
#define WAKE_ON_PB7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC0 [1/2]
#define WAKE_ON_PC0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC0 [2/2]
#define WAKE_ON_PC0 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC1 [1/2]
#define WAKE_ON_PC1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC1 [2/2]
#define WAKE_ON_PC1 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC2 [1/2]
#define WAKE_ON_PC2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC2 [2/2]
#define WAKE_ON_PC2 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC3 [1/2]
#define WAKE_ON_PC3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC3 [2/2]
#define WAKE_ON_PC3 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC4 [1/2]
#define WAKE_ON_PC4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC4 [2/2]
#define WAKE_ON_PC4 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC5 [1/2]
#define WAKE_ON_PC5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC5 [2/2]
#define WAKE_ON_PC5 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC6 [1/2]
#define WAKE_ON_PC6 true |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC6 [2/2]
#define WAKE_ON_PC6 true |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC7 [1/2]
#define WAKE_ON_PC7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
◆ WAKE_ON_PC7 [2/2]
#define WAKE_ON_PC7 false |
true if this GPIO can wake the chip from deep sleep, false if not.
Enumeration Type Documentation
◆ HalBoardLedPins [1/2]
enum HalBoardLedPins |
Assign each GPIO with an LED connected to a convenient name. BOARD_ACTIVITY_LED and BOARD_HEARTBEAT_LED provide a further layer of abstraction on top of the 3 LEDs for verbose coding.
Enumerator | |
---|---|
BOARDLED0 | |
BOARDLED1 | |
BOARDLED2 | |
BOARDLED3 | |
BOARD_ACTIVITY_LED | |
BOARD_HEARTBEAT_LED | |
BOARDLED0 | |
BOARDLED1 | |
BOARDLED2 | |
BOARDLED3 | |
BOARD_ACTIVITY_LED | |
BOARD_HEARTBEAT_LED |
◆ HalBoardLedPins [2/2]
enum HalBoardLedPins |
Assign each GPIO with an LED connected to a convenient name. BOARD_ACTIVITY_LED and BOARD_HEARTBEAT_LED provide a further layer of abstraction on top of the 3 LEDs for verbose coding.
Enumerator | |
---|---|
BOARDLED0 | |
BOARDLED1 | |
BOARDLED2 | |
BOARDLED3 | |
BOARD_ACTIVITY_LED | |
BOARD_HEARTBEAT_LED | |
BOARDLED0 | |
BOARDLED1 | |
BOARDLED2 | |
BOARDLED3 | |
BOARD_ACTIVITY_LED | |
BOARD_HEARTBEAT_LED |
Variable Documentation
◆ gpioCfgPowerDown [1/2]
uint16_t gpioCfgPowerDown[6] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioCfgPowerDown [2/2]
uint16_t gpioCfgPowerDown[6] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioCfgPowerUp [1/2]
uint16_t gpioCfgPowerUp[6] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioCfgPowerUp [2/2]
uint16_t gpioCfgPowerUp[6] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioOutPowerDown [1/2]
uint8_t gpioOutPowerDown[3] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioOutPowerDown [2/2]
uint8_t gpioOutPowerDown[3] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioOutPowerUp [1/2]
uint8_t gpioOutPowerUp[3] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioOutPowerUp [2/2]
uint8_t gpioOutPowerUp[3] |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioRadioPowerBoardMask [1/2]
GpioMaskType gpioRadioPowerBoardMask |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .
◆ gpioRadioPowerBoardMask [2/2]
GpioMaskType gpioRadioPowerBoardMask |
Define the mask for GPIO relevant to the radio in the context of power state. Each bit in the mask indicates the corresponding GPIO which should be affected when invoking halStackRadioPowerUpBoard() or halStackRadioPowerDownBoard() .