Table of contents
The Q65 + CW + carrier beacon program makes the RFzero capable of transmitting on any frequency from 100 kHz to 200 MHz and beyond running on the fundamental frequency.
The configuration is done via the USB port. It is possible to wait for the RFzero to warm up for up to 255 s before starting to transmit. It is also possible to wait for the GPS to be valid before starting to transmit.
During the JT65 part of the sequence the TX LED will flash at half the symbol rate, during the CW part of the sequence the TX LED will flash with the CW and during the carrier part of the sequence the TX LED will be constantly lit.
When GPS signals are received the PPS LED flashes ones per second and when the status of the GPS signal is valid the Valid LED is lit.
The beacon sequence
The beacon sequence depends on the Q65 mode, and if the GPS time is valid.
If the mode is Q65-15 or Q65-30, and the GPS time is valid, the sequence is Q65 + CW + carrier. If the GPS time is invalid the Q65 is omitted from the sequence and the transmission is free running with CW and a 20 s carrier.
If the mode is Q65-60, and the GPS time is valid, the Q65 is transmitted in even minutes, and CW + carrier are transmitted in odd minutes. If the GPS time is invalid the Q65 is omitted from the sequence and the transmission is free running with CW and a 20 s carrier.
When the mode is Q65-120 or Q65-300 no CW or carrier are transmitted, but only id the GPS time is valid. If the GPS time is invalid no transmission will take place.
Display
To setup the type of display used please use the “wr display” command. If you want to change what is shown on the display please edit the display.cpp file. Please see the display page for more information.
LCD 16×2
The display shows the UTC seconds, the GPS status, the number of satellites and the HDOP.
Example of an LCD 16×2.
LCD 20×4
The display shows the GPS status, the number of satellites, the HDOP as a bar graph, the UTC, call sign and locator of the beacon and the frequency.
Example of an LCD 20×4.
Configuration
The configuration of the program is done via the USB port, 9600 Baud, 8 bits, no parity and one stop bit, using a terminal program (e.g. Arduino IDE Serial Monitor, Termite Terminal (Windows), CuteCom (Linux) or Terminal (Mac OS) or the RFzero Manager (Windows)). Please connect the RFzero via a USB data cable to your computer and connect the terminal program to the right COM port in the terminal program. The RFzero identifies itself as an Arduino Zero (Windows Device Manager).
If you don’t see the RFzero> or RFzero config> prompts please press the enter key. When you want to execute a command you don’t have to enter the prompt but only the command and parameters after the >.
Changes to the configuration does not take effect before leaving the configuration mode.
All input to the RFzero must be in lowercase.
To enter the configuration mode please enter config at the RFzero> prompt, i.e.
RFzero> config
To see the available commands please enter ? at the RFzero config> prompt, i.e.
RFzero config> ?
To leave the configuration mode please enter exit at the RFzero config> prompt, i.e.
RFzero config> exit
When in configuration mode, i.e. when you see the RFzero config> prompt, the most frequent commands are
rd cfg
to see the configuration that will be used after exiting the configuration mode.
wr defaults
to set most of parameters to their default values. Please see the actual program for the specific default values.
wr t1 MODE
to set the T1 H/W mode where MODE is
- 0: Transformer (default)
- 1: Combiner
- 2: None
wr display MODE
to set the display mode where MODE is
- 0: None
- 1: LCD 16 characters and two lines, HD44780 interface
- 2: LCD 20 characters and four lines, HD44780 interface
- 3: LCD 16 characters and two lines, HD44780 via I2C PCF8574 interface
- 4: LCD 20 characters and four lines, HD44780 via I2C PCF8574 interface
- 5: Graphics display, ILI9341 SPI interface
- 6: Graphics display, ILI9488 SPI interface
wr pcf8574 ADDR
to set the I2C address of a PCF8574 series, if used, where ADDR is
- 0: if not used
- PCF8574 and PCK8574T: 0x20-0x27
- PCF8574A: 0x38-0x3F
wr bcn CALL
where CALL is the beacon call sign, max 15 characters.
wr loc LOCATOR
where LOCATOR is the locator up to eight characters, i.e. AA00AA00.
wr mgm MESSAGE
where MESSAGE is the Q65 message, max 13 characters where space, ” “, is replaced with an underscore, “_”.
wr mode MODE
where MODE is the Q65 sub-mode. Valid MODE values are
- 0: Q65-15A
- 1: Q65-15B
- 2: Q65-15C
- 3: Q65-15D*
- 4: Q65-15E*
- 5: Q65-30A
- 6: Q65-30B
- 7: Q65-30C
- 8: Q65-30D
- 9: Q65-30E*
- 10: Q65-60A
- 11: Q65-60B
- 12: Q65-60C
- 13: Q65-60D
- 14: Q65-60E
- 15: Q65-120A
- 16: Q65-120B
- 17: Q65-120C
- 18: Q65-120D
- 19: Q65-120E
- 20: Q65-300A
- 21: Q65-300B
- 22: Q65-300C
- 23: Q65-300D
- 24: Q65-300E
*: not available in WSJT-X, use MSHV instead.
wr speed DURATION
to set the CW speed, i.e. DURATION in ms, 1 ms to 255 ms. 100 ms = 12 WPM/60 LPM.
wr key STYLE
to set keying STYLE where 0: is on-off keying (OOK), or 1: for frequency shift keying (FSK).
wr freq FREQ
where FREQ is the nominal on-air beacon frequency in Hz from 100 kHz and up.
wr warmup SECONDS
where SECONDS is the number of seconds to wait for the RFzero to warm up.
wr level LEVEL
where LEVEL is the drive strength current in the output stages. This effectively changes the output power by up to 10 dB, but varies somewhat with frequency. Valid LEVEL values are
- 0: 2 mA
- 1: 4 mA
- 2: 6 mA
- 3: 8 mA, default level
To read more about the drive strength current please consult the Si5351A datasheet.
wr wait ONOFF
to turn on or off waiting for the GPS to be valid before transmitting where ONOFF is either 0: for off/don’t wait for the GPS to be valid, or 1: for on/wait for the GPS to be valid.
wr gps MODE
- 0: hide all NMEA strings
- 1: show the $GPGGA and $GPZDA NMEA strings
- 2: show the $GPGGA, $GPGLL, $GPGRS, $GPGSA, $GPGST, $GPGSV, $GPRMC, $GPVTG and $GPZDA NMEA strings
More commands are available so please enter a question mark (?) at the RFzero config> prompt to see them.