add comments, update library to Arduino 1.5 standard
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nick6x
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d98eafb11a
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2907eaf02e
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@ -1,7 +1,13 @@
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/* Serial glue to send messages over APRS
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*
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* To do: add message receive code
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*
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/* Hamshield
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* Example: AFSK Packet Tester
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* This example sends AFSK test data. You will need a seperate
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* AFSK receiver to test the output of this example.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall
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* power and then to your computer via USB. After uploading
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* this program to your adruino, open the Serial Monitor to
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* monitor the process of the HamShield. Check for output on
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* AFSK receiver.
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*/
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#define DDS_REFCLK_DEFAULT 9600
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@ -34,7 +40,7 @@ void setup() {
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// turn on pwr to the radio
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digitalWrite(RESET_PIN, HIGH);
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Serial.begin(115200);
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Serial.begin(9600);
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radio.initialize();
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radio.frequency(144390);
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@ -1,7 +1,15 @@
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/* Serial glue to send messages over APRS
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*
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* To do: add message receive code
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*
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/* Hamshield
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* Example: AFSK Serial Messenger
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* Serial glue to send messages over APRS. You will need a
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* seperate AFSK receiver to test the output of this example.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. After uploading this program
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* to your adruino, open the Serial Monitor to monitor. Type
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* a message under 254 characters into the bar at the top of
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* the monitor. Click the "Send" button. Check for output on
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* AFSK receiver.
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* NOTE: add message receive code
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*/
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@ -35,7 +43,7 @@ void setup() {
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// turn on the radio
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digitalWrite(RESET_PIN, HIGH);
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Serial.begin(115200);
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Serial.begin(9600);
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radio.initialize();
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radio.frequency(145570);
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@ -1,5 +1,14 @@
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// Example sketch to show how to transmit arbitrary tones.
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// In this case, the sketch alternates between 1200Hz and 2200Hz at 1s intervals.
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/* Hamshield
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* Example: DDS
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* This is a simple example to show hot to transmit arbitrary
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* tones. In this case, the sketh alternates between 1200Hz
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* and 2200Hz at 1s intervals.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall
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* power and then to your computer via USB. Upload this program
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* to your Arduino. To test, set a HandyTalkie to 438MHz. You
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* should hear two alternating tones.
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*/
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#define DDS_REFCLK_DEFAULT 9600
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#include <HamShield.h>
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@ -1,11 +1,19 @@
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/*
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Morse Code Beacon
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/* Hamshield
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* Example: Morse Code Beacon
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* Test beacon will transmit and wait 30 seconds.
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* Beacon will check to see if the channel is clear before it
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* will transmit.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall
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* power and then to your computer via USB. After uploading
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* this program to your adruino, open the Serial Monitor to
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* monitor the status of the beacon. To test, set a HandyTalkie
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* to 438MHz. You should hear the message " KC7IBT ARDUINO
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* HAMSHIELD" in morse code.
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Test beacon will transmit and wait 30 seconds.
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Beacon will check to see if the channel is clear before it will transmit.
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TO-DO: Radio chip audio AGC too slow in responding to tones, worked around by playing a 6khz tone between actual dits/dahs.
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Should work on adjusting AGC to not require this.
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* NOTE: Radio chip audio AGC too slow in responding to tones,
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* worked around by playing a 6khz tone between actual dits/dahs.
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* Should work on adjusting AGC to not require this.
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*/
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#define DDS_REFCLK_DEFAULT 9600
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0
examples/Identifier/Identifier.ino → examples/FixMe/Identifier/Identifier.ino
Executable file → Normal file
0
examples/Identifier/Identifier.ino → examples/FixMe/Identifier/Identifier.ino
Executable file → Normal file
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@ -1,4 +1,13 @@
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/* Fox Hunt */
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/* Hamshield
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* Example: Fox Hunt
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* Plays a one minute tone at 10-13 minute intervals. Script
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* will check to see if the channel is clear before it will
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* transmit.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall power and then
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* to your computer via USB. To test, set a HandyTalkie
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* to 438MHz. You should hear a one-minute tone every 10-13 minutes.
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*/
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#include <HamShield.h>
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@ -1,4 +1,16 @@
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/* HamShield Functional Test */
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/* Hamshield
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* Example: Functional Test
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* This is a simple example to demonstrate HamShield receive
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* and transmit functionality.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Plug a pair of headphones into
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* the HamShield. Connect the Arduino to wall power and then
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* to your computer via USB. After uploading this program to
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* your adruino, open the Serial Monitor. Serial Monitor will
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* describe what you should be expecting to hear from your
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* headphones. Tune a HandytTalkie to 446MHz to hear morse
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* code example.
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*/
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#include <HamShield.h>
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@ -1,5 +1,20 @@
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// Hamshield
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/* Hamshield
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* Example: HandyTalkie
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* This is a simple example to demonstrate HamShield receive
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* and transmit functionality.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Plug a pair of headphones into
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* the HamShield. Connect the Arduino to wall power and then
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* to your computer via USB. After uploading this program to
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* your adruino, open the Serial Monitor. Press the button on
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* the HamShield to begin setup. After setup is complete, type
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* your desired Tx/Rx frequency, in hertz, into the bar at the
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* top of the Serial Monitor and click the "Send" button.
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* To test with another HandyTalkie (HT), key up on your HT
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* and make sure you can hear it through the headphones
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* attached to the HamShield. Key up on the HamShield by
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* holding the button.
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*/
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#include <HamShield.h>
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// create object for radio
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@ -1,3 +1,14 @@
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/* Hamshield
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* Example: KISS
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* This is a example configures the HamShield to be used as
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* a TNC/KISS device. You will need a KISS device to input
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* commands to the HamShield
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall
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* power and then to your computer via USB. Issue commands
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* via the KISS equipment.
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*/
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#include <HamShield.h>
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#include <KISS.h>
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@ -1,3 +1,15 @@
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/* Hamshield
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* Example: PSK31Transmit
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* This is a simple example to demonstrate HamShield PSK31
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* transmit functionality.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall
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* power and then to your computer via USB. After uploading
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* this program to your adruino, tune a PSK31 receiver and
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* wait to receive the message "Why hello there, friend.
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* Nice to meet you. Welcome to PSK31. 73, VE6SLP sk"
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*/
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#include <HamShield.h>
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#include "varicode.h"
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@ -1,3 +1,14 @@
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/* Hamshield
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* Example: QPSK63Transmit
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* This is a simple example to demonstrate HamShield QPSK63
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* transmit functionality.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall
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* power and then to your computer via USB. After uploading
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* this program to your adruino, tune a QPSK63 receiver and
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* wait to receive the message "Why hello there, friend.
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* Nice to meet you. Welcome to QPSK63. 73, VE6SLP sk"
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*/
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#include <HamShield.h>
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#include "varicode.h"
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@ -46,7 +57,7 @@ void sendChar(uint8_t c) {
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//PORTD &= ~_BV(2); // Diagnostic pin (D2)
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}
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char *string = "Why hello there, friend. Nice to meet you. Welcome to PSK31. 73, VE6SLP sk\r\n";
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char *string = "Why hello there, friend. Nice to meet you. Welcome to QPSK63. 73, VE6SLP sk\r\n";
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void loop() {
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int i;
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// put your main code here, to run repeatedly:
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@ -1,7 +1,13 @@
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/*
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Sends an SSTV test pattern
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/* Hamshield
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* Example: SSTV
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* This program will transmit a test pattern. You will need
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* SSTV receive equipment to test the output.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall
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* power and then to your computer via USB. After uploading
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* this program to your adruino, open the Serial Monitor to
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* view the status of the program. Tune your SSTV to
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* 446MHz to receive the image output.
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*/
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#define PWM_PIN 3
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@ -1,3 +1,15 @@
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/* Hamshield
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* Example: SSTV M1 Static
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* This program will transmit a static image. You will need
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* SSTV receive equipment to test the output.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Connect the Arduino to wall
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* power and then to your computer via USB. After uploading
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* this program to your adruino, open the Serial Monitor to
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* view the status of the program. Tune your SSTV to
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* 145.5MHz to receive the image output.
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*/
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// So the precalculated values will get stored
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#define DDS_REFCLK_DEFAULT (34965/2)
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@ -1,6 +1,13 @@
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/*
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SerialTransceiver is TTL Serial port "glue" to allow desktop or laptop control of the HamShield
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/* Hamshield
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* Example: Serial Tranceiver
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* SerialTransceiver is TTL Serial port "glue" to allow
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* desktop or laptop control of the HamShield.
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* Connect the HamShield to your Arduino. Screw the antenna
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* into the HamShield RF jack. Plug a pair of headphones into
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* the HamShield. Connect the Arduino to wall power and then
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* to your computer via USB. After uploading this program to
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* your adruino, open the Serial Monitor. Use the bar at the
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* top of the serial monitor to enter commands as seen below.
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Commands:
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@ -82,7 +89,7 @@ void setup() {
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pinMode(RESET_PIN, OUTPUT);
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digitalWrite(RESET_PIN, HIGH);
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Serial.begin(115200);
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Serial.begin(9600);
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Serial.print(";;;;;;;;;;;;;;;;;;;;;;;;;;");
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int result = radio.testConnection();
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@ -0,0 +1,10 @@
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name=HamShield
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version=1.0.2
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author=Morgan Redfield <morgan@enhancedradio.com>, Casey Halverson <casey@enhancedradio.com>
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maintainer=Morgan Redfield <morgan@enhancedradio.com>
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sentence=A library for use with HamShield by Enhanced Radio Devices.
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paragraph=
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category=Device Control
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url=http://www.hamshield.com
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architectures=*
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includes=HamShield.h
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