text/microsoft-resx
2.0
System.Resources.ResXResourceReader, System.Windows.Forms, Version=2.0.0.0, Culture=neutral, PublicKeyToken=b77a5c561934e089
System.Resources.ResXResourceWriter, System.Windows.Forms, Version=2.0.0.0, Culture=neutral, PublicKeyToken=b77a5c561934e089
17, 17
17, 17
NETID is a 16 bit 'network ID'. This is used to seed the frequency hopping sequence and to identify packets as coming from the right radio. Make sure you use a different NETID from anyone else running the same sort of radio in the area.
ECC is to enable/disable the golay error correcting code. It defaults to off. If you enable it then you packets take twice as many bytes to send, so you lose half your air bandwidth, but it can correct up to 3 bit errors per 12 bits of data. Use this for long range, usually in combination with a lower air data rate. The golay decode takes 20 microsecond per transmitted byte (40 microseconds per user data byte) which means you will also be a bit CPU constrained at the highest air data rates. So you usually use golay at 128kbps or less.
MAVLINK enables/disables MAVLink packet framing. This tries to align radio packets to MAVLink packet boundaries, which makes a big difference to what happens to the MAVLink stream when you lose a packet.
OPPRESEND enables/disables "opportunistic resend". When enabled the radio will send a packet twice if the serial input buffer has less than 256 bytes in it. The 2nd send is marked as a resend and discarded by the receiving radio if it got the first packet OK. This makes a big difference to the link quality, especially for uplink commands.
OPPRESEND enables/disables "opportunistic resend". When enabled the radio will send a packet twice if the serial input buffer has less than 256 bytes in it. The 2nd send is marked as a resend and discarded by the receiving radio if it got the first packet OK. This makes a big difference to the link quality, especially for uplink commands.
MAVLINK enables/disables MAVLink packet framing. This tries to align radio packets to MAVLink packet boundaries, which makes a big difference to what happens to the MAVLink stream when you lose a packet.
ECC is to enable/disable the golay error correcting code. It defaults to off. If you enable it then you packets take twice as many bytes to send, so you lose half your air bandwidth, but it can correct up to 3 bit errors per 12 bits of data. Use this for long range, usually in combination with a lower air data rate. The golay decode takes 20 microsecond per transmitted byte (40 microseconds per user data byte) which means you will also be a bit CPU constrained at the highest air data rates. So you usually use golay at 128kbps or less.
NETID is a 16 bit 'network ID'. This is used to seed the frequency hopping sequence and to identify packets as coming from the right radio. Make sure you use a different NETID from anyone else running the same sort of radio in the area.
see the spec for a RSSI to dBm graph. The numbers at the end are:
txe: number of transmit errors (eg. transmit timeouts)
rxe: number of receive errors (crc error, framing error etc)
stx: number of serial transmit overflows
rrx: number of serial receive overflows
ecc: number of 12 bit words successfully corrected by the golay code
which result in a valid packet CRC