-/**
+/**
* http://ad7zj.net/kd7lmo/aprsbeacon_code.html
*
* @mainpage Pico Beacon
*
* @section overview_sec Overview
*
- * The Pico Beacon is an APRS based tracking beacon that operates in the UHF 420-450MHz band. The device utilizes a
+ * The Pico Beacon is an APRS based tracking beacon that operates in the UHF 420-450MHz band. The device utilizes a
* Microchip PIC 18F2525 embedded controller, Motorola M12+ GPS engine, and Analog Devices AD9954 DDS. The device is capable
* of generating a 1200bps A-FSK and 9600 bps FSK AX.25 compliant APRS (Automatic Position Reporting System) message.
* (4) corrected size of LOG_COORD block when searching for end of log.
*
* @subsection v303 V3.03
- * 15 Sep 2005, Change include; (1) removed AD9954 setting SDIO as input pin,
+ * 15 Sep 2005, Change include; (1) removed AD9954 setting SDIO as input pin,
* (2) additional comments and Doxygen tags,
* (3) integration and test code calculates DDS FTW,
* (4) swapped bus and reference analog input ports (hardware change),
* (2) Doxygen documentation clean up and additions, and
* (3) added integration and test code to baseline.
*
- *
+ *
* @subsection v301 V3.01
* 13 Jan 2005, Renamed project and files to Pico Beacon.
*
* (8) added flight data recorder, and
* (9) added diagnostics terminal mode.
*
- *
+ *
* @subsection v201 V2.01
- * 30 Jan 2004, Change include; (1) General clean up of in-line documentation, and
+ * 30 Jan 2004, Change include; (1) General clean up of in-line documentation, and
* (2) changed temperature resolution to 0.1 degrees F.
*
- *
+ *
* @subsection v200 V2.00
* 26 Oct 2002, Change include; (1) Micro Beacon II hardware changes including PIC18F252 processor,
- * (2) serial EEPROM,
- * (3) GPS power control,
- * (4) additional ADC input, and
- * (5) LM60 temperature sensor.
+ * (2) serial EEPROM,
+ * (3) GPS power control,
+ * (4) additional ADC input, and
+ * (5) LM60 temperature sensor.
*
*
* @subsection v101 V1.01
- * 5 Dec 2001, Change include; (1) Changed startup message, and
+ * 5 Dec 2001, Change include; (1) Changed startup message, and
* (2) applied SEPARATE pragma to several methods for memory usage.
*
*
* @subsection v100 V1.00
* 25 Sep 2001, Initial release. Flew ANSR-3 and ANSR-4.
- *
+ *
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
- *
+ *
- *
- *
+ *
+ *
* @section design Design Details
*
* Provides design details on a variety of the components that make up the Pico Beacon.
* @page power Power Consumption
*
* Measured DC power consumption.
- *
- * 3VDC prime power current
+ *
+ * 3VDC prime power current
*
- * 7mA Held in reset
+ * 7mA Held in reset
- * 18mA Processor running, all I/O off
+ * 18mA Processor running, all I/O off
- * 110mA GPS running
+ * 110mA GPS running
- * 120mA GPS running w/antenna
+ * 120mA GPS running w/antenna
- * 250mA DDS running and GPS w/antenna
+ * 250mA DDS running and GPS w/antenna
- * 420mA DDS running, GPS w/antenna, and PA chain on with no RF
+ * 420mA DDS running, GPS w/antenna, and PA chain on with no RF
- * 900mA Transmit
+ * 900mA Transmit
*
*/
#ifndef AO_APRS_TEST
#include <ao.h>
+
+#if !HAS_APRS
+#error HAS_APRS not set
+#endif
#endif
#include <ao_aprs.h>
{
uint8_t i, bit, value;
- for (i = 0; i < length; ++i)
+ for (i = 0; i < length; ++i)
{
value = buffer[i];
- for (bit = 0; bit < 8; ++bit)
+ for (bit = 0; bit < 8; ++bit)
{
crc ^= (value & 0x01);
crc = ( crc & 0x01 ) ? ( crc >> 1 ) ^ 0x8408 : ( crc >> 1 );
/// AX.25 compliant packet header that contains destination, station call sign, and path.
/// 0x76 for SSID-11, 0x78 for SSID-12
-static uint8_t TNC_AX25_HEADER[] = {
+static uint8_t TNC_AX25_HEADER[] = {
'A' << 1, 'P' << 1, 'A' << 1, 'M' << 1, ' ' << 1, ' ' << 1, 0x60,
'N' << 1, '0' << 1, 'C' << 1, 'A' << 1, 'L' << 1, 'L' << 1, 0x78,
'W' << 1, 'I' << 1, 'D' << 1, 'E' << 1, '2' << 1, ' ' << 1, 0x65,
}
for (; i < TNC_CALLSIGN_LEN; i++)
TNC_AX25_HEADER[TNC_CALLSIGN_OFF + i] = ' ' << 1;
- TNC_AX25_HEADER[TNC_SSID_OFF] = 0x60 | ((ao_serial_number % 10) << 1);
+
+ /* Fill in the SSID with the low digit of the serial number */
+ TNC_AX25_HEADER[TNC_SSID_OFF] = 0x60 | ((ao_config.aprs_ssid & 0xf) << 1);
#endif
}
/// Buffer to hold the message portion of the AX.25 packet as we prepare it.
static uint8_t tncBuffer[TNC_BUFFER_SIZE];
-/**
+/**
* Initialize the TNC internal variables.
*/
static void tncInit()
else
timeNCOFreq = 0x3aab;
- switch (tncMode)
+ switch (tncMode)
{
case TNC_TX_READY:
// Generate a test signal alteranting between high and low tones.
else
tncTxBit = 0;
}
-
+
// When the flag is done, determine if we need to send more or data.
- if (++tncBitCount == 8)
+ if (++tncBitCount == 8)
{
tncBitCount = 0;
tncShift = 0x7e;
// Once we transmit x mS of flags, send the data.
// txDelay bytes * 8 bits/byte * 833uS/bit = x mS
- if (++tncIndex == TNC_TX_DELAY)
+ if (++tncIndex == TNC_TX_DELAY)
{
tncIndex = 0;
tncShift = TNC_AX25_HEADER[0];
case TNC_TX_HEADER:
// Determine if we have sent 5 ones in a row, if we have send a zero.
- if (tncBitStuff == 0x1f)
+ if (tncBitStuff == 0x1f)
{
if (tncTxBit == 0)
tncTxBit = 1;
tncTxBit = 0;
}
- // Save the data stream so we can determine if bit stuffing is
+ // Save the data stream so we can determine if bit stuffing is
// required on the next bit time.
tncBitStuff = ((tncBitStuff << 1) | (tncShift & 0x01)) & 0x1f;
// If all the bits were shifted, get the next byte.
- if (++tncBitCount == 8)
+ if (++tncBitCount == 8)
{
tncBitCount = 0;
// After the header is sent, then send the data.
- if (++tncIndex == sizeof(TNC_AX25_HEADER))
+ if (++tncIndex == sizeof(TNC_AX25_HEADER))
{
tncIndex = 0;
tncShift = tncBuffer[0];
case TNC_TX_DATA:
// Determine if we have sent 5 ones in a row, if we have send a zero.
- if (tncBitStuff == 0x1f)
+ if (tncBitStuff == 0x1f)
{
if (tncTxBit == 0)
tncTxBit = 1;
tncTxBit = 0;
}
- // Save the data stream so we can determine if bit stuffing is
+ // Save the data stream so we can determine if bit stuffing is
// required on the next bit time.
tncBitStuff = ((tncBitStuff << 1) | (tncShift & 0x01)) & 0x1f;
// If all the bits were shifted, get the next byte.
- if (++tncBitCount == 8)
+ if (++tncBitCount == 8)
{
tncBitCount = 0;
// If everything was sent, transmit closing flags.
- if (++tncIndex == tncLength)
+ if (++tncIndex == tncLength)
{
tncIndex = 0;
tncShift = 0x7e;
case TNC_TX_END:
// The variable tncShift contains the lastest data byte.
- // NRZI enocde the data stream.
+ // NRZI enocde the data stream.
if ((tncShift & 0x01) == 0x00) {
if (tncTxBit == 0)
tncTxBit = 1;
}
// If all the bits were shifted, get the next one.
- if (++tncBitCount == 8)
+ if (++tncBitCount == 8)
{
tncBitCount = 0;
tncShift = 0x7e;
-
+
// Transmit two closing flags.
- if (++tncIndex == 2)
+ if (++tncIndex == 2)
{
tncMode = TNC_TX_READY;
return l;
}
-/**
+/**
* Prepare an AX.25 data packet. Each time this method is called, it automatically
* rotates through 1 of 3 messages.
*