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Merge pull request #34 from ferrous-systems/fixes2
Assorted fixes to the beginner material
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commit
3fffebd4a6
3 changed files with 6 additions and 6 deletions
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@ -56,7 +56,7 @@ If you run the `serial-term` application you should see the following output:
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``` console
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$ serial-term
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deviceid=588c06af0877c8f2 channel=20 TxPower=+8dBm
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deviceid=588c06af0877c8f2 channel=20 TxPower=+8dBm app=loopback.hex
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(..)
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```
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@ -8,7 +8,7 @@ First run the program as it is. You should new output in the output of the `seri
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``` console
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$ serial-term
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deviceid=588c06af0877c8f2 channel=20 TxPower=+8dBm
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deviceid=588c06af0877c8f2 channel=20 TxPower=+8dBm app=loopback.hex
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received 5 bytes (LQI=49)
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```
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@ -103,7 +103,7 @@ Now run the `radio-send` program several times with different variations:
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- change the length of the packet
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- different combinations of all of the above
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Take note of how LQI changes with these changes. Do packet loss occur in any of these configurations?
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Take note of how LQI changes with these changes. Does packet loss occur in any of these configurations?
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> NOTE if you decide to send many packets in a single program then you should use the `Timer` API to insert a delay of at least five milliseconds between the transmissions. This is required because the Dongle will use the radio medium right after it receives a packet. Not including the delay will result in the Dongle missing packets
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@ -111,6 +111,6 @@ Take note of how LQI changes with these changes. Do packet loss occur in any of
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## 802.15.4 compatibility
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The radio API we are using follows the PHY layer of the IEEE 802.15.4 specification but it's missing MAC level features like addressing (each device gets its own address), opt-in acknowledgment (a transmitted packet must be acknowledged with a response acknowledgment packet; the packet is re-transmitted if the packet is not acknowledged in time). These MAC level features are not implemented *in hardware* (in the nRF52840 Radio peripheral) so they would need to be implemented in software to be fully IEEE 802.15.4 compliant.
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The radio API we are using follows the PHY layer of the IEEE 802.15.4 specification, but it's missing MAC level features like addressing (each device gets its own address), opt-in acknowledgment (a transmitted packet must be acknowledged with a response acknowledgment packet; the packet is re-transmitted if the packet is not acknowledged in time). These MAC level features are not implemented *in hardware* (in the nRF52840 Radio peripheral) so they would need to be implemented in software to be fully IEEE 802.15.4 compliant.
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This is not an issue for the workshop exercises but it's something to consider if you would like to continue from here and build a 802.15.4 compliant network API.
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@ -19,7 +19,7 @@ Check the API docs of the `Led` abstraction then run the `led` program. Two of t
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Now, uncomment the `log::set_max_level` line. This will make the logs more verbose; they will now include logs from the board initialization function (`dk::init`) and from the `Led` API.
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Among the logs you'll find the line "I/O pins have been configured for digital output". At this point the electrical pins of the nRF52840 microcontroller has been configured to drive the 4 LEDs on the board.
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Among the logs you'll find the line "I/O pins have been configured for digital output". At this point the electrical pins of the nRF52840 microcontroller have been configured to drive the 4 LEDs on the board.
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After the `dk::init` logs you'll find logs about the `Led` API. As the logs indicate an LED becomes active when the output of the pin is a *logical zero*, which is also referred as the "low" state. This "active low" configuration does not apply to all boards: it depends on how the pins have been wired to the LEDs. You should refer to the [board documentation] to find out which pins are connected to LEDs and whether "active low" or "active high" applies to it.
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