ELECINF344/381

Partie interactive du site pédagogique ELECINF344/ELECINF381 de Télécom ParisTech (occurrence 2011).

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TSV Safe Express: DCC Signals and Ethernet

Our journey has continued from CAN to LAN passing through DCC in its way. During the last two days, we tried to write the dcc encoder for our card which will act as the central station. In brief, I will try to explain DCC for all those who are not already aware of it. DCC (Digital Command Control) is a standard which permits us to operate model railways by sending modulated pulse wave(amplified with the help of a booster) to the rail tracks. Thereby, we can control any locomotive or accessory (like Traffic lights) if they have the dcc decoder. DCC is standard provided by NMRA.
We have done the following encodings for bit 0 and 1 as per NMRA DCC Standard.
(i) bit ’0′ – 232 microseconds (half high and half low)
(ii) bit ’1′ – 116 microseconds (half cycle is low)
On the implementation part, to generate such type of signal on the STM32 GPIO port, we use PWM module(using Internal Timer of STM32) with 50% duty cycle. This was setup in Output Compare Mode. Through the help of oscilloscope, we verified that we got the expected results. We created a dcc packet simulator(coded as a task of FreeRTOS) and we tried sending Messages to the port as per DCC Communication Packet format.

On the Ethernet part, we have chosen LwIP Stack as the TCP/IP Stack. We have chosen LwIP primarily as it has features like DHCP, UDP, IPv6 which we may need as the project matures further. So, we integrated the LwIP stack with STM32F107(which has in-built MAC Controller) and DP83848P Phy Controller taking help of a similar example provided by ST on their website. We were able to make a telnet connection to our Central Station and correponding exchange messages through telnet.

On the stabilisation of NMRA CAN protocol, we added a watchdog module within all the nodes including the central station. This was required because if the software hangs in one of the nodes, it should have the ability to re-join the network. The timeout of the watchdog module has been kept to 3 seconds(Typically because we want our nodes to rejoin the network as soon as possible and at the same time give Central Station enough time to remove this node from the node table and event table). Also, the command to reset the nodes sent by the network manager at the start of his execution as a broadcast message to all the nodes will have a deeper impact. Instead of doing a cache reset at the nodes, we are now doing an actual software reset to the node. This is just to simulate an actual reset. All these changes done to stabilisation are open for discussions and all remarks/critics/ideas are heartily welcomed.

Sur le même sujet :

  1. TSV Safe Express: Day’s work.
  2. tsv safe express: module ethernet
  3. TSV Safe Express: à partir de carte TP à la carte réelle
  4. TSV Safe Express: Le Question de Ethernet TransReceiver?
  5. TSV Safe Express: NMRAnet CAN bus.

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