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-<article>
- <articleinfo>
- <title>AltOS Companion Port</title>
- <subtitle>Protocol Definitions</subtitle>
- <author>
- <firstname>Keith</firstname>
- <surname>Packard</surname>
- </author>
- <copyright>
- <year>2012</year>
- <holder>Keith Packard</holder>
- </copyright>
- <legalnotice>
- <para>
- This document is released under the terms of the
- <ulink url="http://creativecommons.org/licenses/by-sa/3.0/">
- Creative Commons ShareAlike 3.0
- </ulink>
- license.
- </para>
- </legalnotice>
- <revhistory>
- <revision>
- <revnumber>0.1</revnumber>
- <date>13 January 2012</date>
- <revremark>Initial content</revremark>
- </revision>
- </revhistory>
- </articleinfo>
- <section>
- <title>Companion Port</title>
- <para>
- Many Altus Metrum products come with an eight pin Micro MaTch
- connector, called the Companion Port. This is often used to
- program devices using a programming cable. However, it can also
- be used to connect TeleMetrum to external companion boards
- (hence the name).
- </para>
- <para>
- The Companion Port provides two different functions:
- <itemizedlist>
- <listitem>
- Power. Both battery-level and 3.3V regulated power are
- available. Note that the amount of regulated power is not
- huge; TeleMetrum contains a 150mA regulator and uses, at
- peak, about 120mA or so. For applications needing more than
- a few dozen mA, placing a separate regulator on them and
- using the battery for power is probably a good idea.
- </listitem>
- <listitem>
- SPI. The flight computer operates as a SPI master, using
- a protocol defined in this document. Companion boards
- provide a matching SPI slave implementation which supplies
- telemetry information for the radio downlink during flight
- </listitem>
- </itemizedlist>
- </para>
- </section>
- <section>
- <title>Companion SPI Protocol</title>
- <para>
- The flight computer implements a SPI master communications
- channel over the companion port, and uses this to get
- information about a connected companion board and then to get
- telemetry data for transmission during flight.
- </para>
- <para>
- At startup time, the flight computer sends a setup request
- packet, and the companion board returns a board identifier, the
- desired telemetry update period and the number of data channels
- provided. The flight computer doesn't interpret the telemetry
- data at all, simply packing it up and sending it over the link.
- Telemetry packets are 32 bytes long, and companion packets use 8
- bytes as a header leaving room for a maximum of 12 16-bit data
- values.
- </para>
- <para>
- Because of the limits of the AVR processors used in the first
- two companion boards, the SPI data rate is set to 187.5kbaud.
- </para>
- </section>
- <section>
- <title>SPI Message Formats</title>
- This section first defines the command message format sent from
- the flight computer to the companion board, and then the various
- reply message formats for each type of command message.
- <section>
- <title>Command Message</title>
- <table frame='all'>
- <title>Companion Command Message</title>
- <tgroup cols='4' align='center' colsep='1' rowsep='1'>
- <colspec align='center' colwidth='*' colname='Offset'/>
- <colspec align='center' colwidth='3*' colname='Data Type'/>
- <colspec align='left' colwidth='3*' colname='Name'/>
- <colspec align='left' colwidth='9*' colname='Description'/>
- <thead>
- <row>
- <entry align='center'>Offset</entry>
- <entry align='center'>Data Type</entry>
- <entry align='center'>Name</entry>
- <entry align='center'>Description</entry>
- </row>
- </thead>
- <tbody>
- <row>
- <entry>0</entry>
- <entry>uint8_t</entry>
- <entry>command</entry>
- <entry>Command identifier</entry>
- </row>
- <row>
- <entry>1</entry>
- <entry>uint8_t</entry>
- <entry>flight_state</entry>
- <entry>Current flight computer state</entry>
- </row>
- <row>
- <entry>2</entry>
- <entry>uint16_t</entry>
- <entry>tick</entry>
- <entry>Flight computer clock (100 ticks/second)</entry>
- </row>
- <row>
- <entry>4</entry>
- <entry>uint16_t</entry>
- <entry>serial</entry>
- <entry>Flight computer serial number</entry>
- </row>
- <row>
- <entry>6</entry>
- <entry>uint16_t</entry>
- <entry>flight</entry>
- <entry>Flight number</entry>
- </row>
- <row>
- <entry>8</entry>
- </row>
- </tbody>
- </tgroup>
- </table>
- <table frame='all'>
- <title>Companion Command Identifiers</title>
- <tgroup cols='3' align='center' colsep='1' rowsep='1'>
- <colspec align='center' colwidth='*' colname='Value'/>
- <colspec align='left' colwidth='3*' colname='Name'/>
- <colspec align='left' colwidth='9*' colname='Description'/>
- <thead>
- <row>
- <entry>Value</entry>
- <entry>Name</entry>
- <entry>Description</entry>
- </row>
- </thead>
- <tbody>
- <row>
- <entry>1</entry>
- <entry>SETUP</entry>
- <entry>Supply the flight computer with companion
- information</entry>
- </row>
- <row>
- <entry>2</entry>
- <entry>FETCH</entry>
- <entry>Return telemetry information</entry>
- </row>
- <row>
- <entry>3</entry>
- <entry>NOTIFY</entry>
- <entry>Tell companion board when flight state
- changes</entry>
- </row>
- </tbody>
- </tgroup>
- </table>
- <para>
- The flight computer will send a SETUP message shortly after
- power-up and will then send FETCH messages no more often than
- the rate specified in the SETUP reply. NOTIFY messages will be
- sent whenever the flight state changes.
- </para>
- <para>
- 'flight_state' records the current state of the flight,
- whether on the pad, under power, coasting to apogee or
- descending on the drogue or main chute.
- </para>
- <para>
- 'tick' provides the current flight computer clock, which
- be used to synchronize data recorded on the flight computer
- with that recorded on the companion board in post-flight analysis.
- </para>
- <para>
- 'serial' is the product serial number of the flight computer,
- 'flight' is the flight sequence number. Together, these two
- uniquely identify the flight and can be recorded with any
- companion board data logging to associate the companion data
- with the proper flight.
- </para>
- <para>
- NOTIFY commands require no reply at all, they are used solely
- to inform the companion board when the state of the flight, as
- computed by the flight computer, changes. Companion boards can
- use this to change data collection parameters, disabling data
- logging until the flight starts and terminating it when the
- flight ends.
- </para>
- </section>
- <section>
- <title>SETUP reply message</title>
- <table frame='all'>
- <title>SETUP reply contents</title>
- <tgroup cols='4' align='center' colsep='1' rowsep='1'>
- <colspec align='center' colwidth='*' colname='Offset'/>
- <colspec align='center' colwidth='3*' colname='Data Type'/>
- <colspec align='left' colwidth='3*' colname='Name'/>
- <colspec align='left' colwidth='9*' colname='Description'/>
- <thead>
- <row>
- <entry align='center'>Offset</entry>
- <entry align='center'>Data Type</entry>
- <entry align='center'>Name</entry>
- <entry align='center'>Description</entry>
- </row>
- </thead>
- <tbody>
- <row>
- <entry>0</entry>
- <entry>uint16_t</entry>
- <entry>board_id</entry>
- <entry>Board identifier</entry>
- </row>
- <row>
- <entry>2</entry>
- <entry>uint16_t</entry>
- <entry>board_id_inverse</entry>
- <entry>~board_id—used to tell if a board is present</entry>
- </row>
- <row>
- <entry>4</entry>
- <entry>uint8_t</entry>
- <entry>update_period</entry>
- <entry>Minimum time (in 100Hz ticks) between FETCH commands</entry>
- </row>
- <row>
- <entry>5</entry>
- <entry>uint8_t</entry>
- <entry>channels</entry>
- <entry>Number of data channels to retrieve in FETCH command</entry>
- </row>
- <row>
- <entry>6</entry>
- </row>
- </tbody>
- </tgroup>
- </table>
- <para>
- The SETUP reply contains enough information to uniquely
- identify the companion board to the end user as well as for
- the flight computer to know how many data values to expect in
- reply to a FETCH command, and how often to fetch that data.
- </para>
- <para>
- To detect the presence of a companion board, the flight
- computer checks to make sure that board_id_inverse is the
- bit-wise inverse of board_id. Current companion boards use
- USB product ID as the board_id, but the flight computer does
- not interpret this data and so it can be any value.
- </para>
- </section>
- <section>
- <title>FETCH reply message</title>
- <table frame='all'>
- <title>FETCH reply contents</title>
- <tgroup cols='4' align='center' colsep='1' rowsep='1'>
- <colspec align='center' colwidth='*' colname='Offset'/>
- <colspec align='center' colwidth='3*' colname='Data Type'/>
- <colspec align='left' colwidth='3*' colname='Name'/>
- <colspec align='left' colwidth='9*' colname='Description'/>
- <thead>
- <row>
- <entry align='center'>Offset</entry>
- <entry align='center'>Data Type</entry>
- <entry align='center'>Name</entry>
- <entry align='center'>Description</entry>
- </row>
- </thead>
- <tbody>
- <row>
- <entry>0</entry>
- <entry>uint16_t</entry>
- <entry>data0</entry>
- <entry>0th data item</entry>
- </row>
- <row>
- <entry>2</entry>
- <entry>uint16_t</entry>
- <entry>data1</entry>
- <entry>1st data item</entry>
- </row>
- <row>
- <entry>...</entry>
- </row>
- </tbody>
- </tgroup>
- </table>
- <para>
- The FETCH reply contains arbitrary data to be reported over
- the flight computer telemetry link. The number of 16-bit data items
- must match the 'channels' value provided in the SETUP reply
- message.
- </para>
- </section>
- </section>
- <section>
- <title>History and Motivation</title>
- <para>
- To allow cross-programming, the original TeleMetrum and
- TeleDongle designs needed to include some kind of
- connector. With that in place, adding the ability to connect
- external cards to TeleMetrum was fairly simple. We set the
- software piece of this puzzle aside until we had a companion
- board to use.
- </para>
- <para>
- The first companion board was TeleScience. Designed to collect
- temperature data from the nose and fin of the airframe, the main
- requirement for the companion port was that it be able to report
- telemetry data during flight as a back-up in case the
- TeleScience on-board data was lost.
- </para>
- <para>
- The second companion board, TelePyro, provides 8 additional
- channels for deployment, staging or other activities. To avoid
- re-programming the TeleMetrum to use TelePyro, we decided to
- provide enough information over the companion link for it to
- independently control those channels.
- </para>
- <para>
- Providing a standard, constant interface between the flight
- computer and companion boards allows for the base flight
- computer firmware to include support for companion boards.
- </para>
- </section>
-</article>