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iambic_keyer_rp2040.py
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iambic_keyer_rp2040.py
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# Iambic keyer rp2040 include simple transceiver on 40m
#
# Copyright (C) 2022 dl2dbg
# update 6.1.2024
# update 12.3.2023
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 3 of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
from machine import Pin, Timer, PWM
from rp2 import PIO, StateMachine, asm_pio
import utime # utime is the micropython brother of time
import time
import ujson
#xiaoKey - a computer connected iambic keyer
# Copyright 2022 Mark Woodworth (AC9YW)
#https://github.com/MarkWoodworth/xiaokey/blob/master/code/code.py
# setup encode and decode
encodings = {}
def encode(char):
global encodings
if char in encodings:
return encodings[char]
elif char.lower() in encodings:
return encodings[char.lower()]
else:
return ''
decodings = {}
def decode(char):
global decodings
if char in decodings:
return decodings[char]
else:
return '('+char+'?)'
def MAP(pattern,letter):
decodings[pattern] = letter
encodings[letter ] = pattern
MAP('.-' ,'a') ; MAP('-...' ,'b') ; MAP('-.-.' ,'c') ; MAP('-..' ,'d') ; MAP('.' ,'e')
MAP('..-.' ,'f') ; MAP('--.' ,'g') ; MAP('....' ,'h') ; MAP('..' ,'i') ; MAP('.---' ,'j')
MAP('-.-' ,'k') ; MAP('.-..' ,'l') ; MAP('--' ,'m') ; MAP('-.' ,'n') ; MAP('---' ,'o')
MAP('.--.' ,'p') ; MAP('--.-' ,'q') ; MAP('.-.' ,'r') ; MAP('...' ,'s') ; MAP('-' ,'t')
MAP('..-' ,'u') ; MAP('...-' ,'v') ; MAP('.--' ,'w') ; MAP('-..-' ,'x') ; MAP('-.--' ,'y')
MAP('--..' ,'z')
MAP('.----','1') ; MAP('..---','2') ; MAP('...--','3') ; MAP('....-','4') ; MAP('.....','5')
MAP('-....','6') ; MAP('--...','7') ; MAP('---..','8') ; MAP('----.','9') ; MAP('-----','0')
MAP('.-.-.-','.') # period
MAP('--..--',',') # comma
MAP('..--..','?') # question mark
MAP('-...-', '=') # equals, also /BT separator
MAP('-....-','-') # hyphen
MAP('-..-.', '/') # forward slash
MAP('.--.-.','@') # at sign
class transceiver():
'''
dl2dbg 3.3.2022
# StateMachine ....to trasmit cw with rp2040 pin
#
# doku
# Cornell University ECE4760
# RP2040 testing
# ttp://people.ece.cornell.edu/land/courses/ece4760/RP2040/index_rp2040_testing.html
'''
def __init__(self):
#self.tx_opt_pin = Pin(tx_pin,Pin.OUT)
# Pin(2)) is HF out
self.freq = 7005250 # auf 40m fangen wir an
self.on_off = 1
self.osc()
def set_freq(self,frq):
self.freq = frq
self.osc()
#print(frq)
def on(self):
self.on_off = 1
def off(self):
self.on_off = 0
self.sm3.active(0)
@asm_pio(set_init=PIO.OUT_LOW)
def tx_toggle():
wrap_target()
set(pins, 1) [1]
set(pins, 0) [1]
wrap()
def osc(self):
self.sm3 = StateMachine(3, self.tx_toggle, freq= self.freq*4, set_base=Pin(2))
# self.sm3 = StateMachine(3, self.tx_toggle, freq= self.freq*4, set_base=Pin(2), jmp_pin=self.tx_opt_pin)
self.sm3.active(0)
self.sm3.active(1)
def send(self,state):
if self.on_off == 1:
self.sm3.active(state)
class tx_opt():
'''
3.3.2022
simple pin on/off for tx optocopler
#
'''
def __init__(self,tx_pin):
self.tx_opt_pin = Pin(tx_pin,Pin.OUT)
self.on_off = 1
#self._pin = Pin(10, Pin.OUT)
def on(self):
self.on_off = 1
def off(self):
self.on_off = 0
def send(self,state):
if self.on_off == 1:
self.tx_opt_pin.value(state)
#print(".") #dl2dbg
#print(tx_pin)
class command_button():
'''
6.3.2020 button for Command request
'''
def __init__(self,pin_button,led1,led2):
#GPIO welcher als PWM Pin benutzt werden soll
self.button = Pin(pin_button,Pin.IN,Pin.PULL_UP)
self.led1 = Pin(led1, Pin.OUT)
self.led2 = Pin(led2, Pin.OUT)
self.button_save = 0
self.btimer = 0 # timer for debounce
self.command_state = 1 # im keyer mode
#
# self.save_tfreq = cwt.tonfreq()
# self.ton_freq_command = cwt.tonfreq_command()
def button_press(self):
return(self.button.value())
def button_command_off(self):
#print("command off")
self.command_state = 0
self.led1(self.command_state)
self.led2(self.command_state)
iambic.char = ""
iambic.word = ""
text2cw("e")
def button_state(self):
if self.button.value() == 0 and self.button_save == 1: # 1 0 ->button is press
utime.ticks_ms()
self.btimer = utime.ticks_ms()
self.button_save = 0
elif self.button.value() == 1 and self.button_save == 0 and utime.ticks_ms() > self.btimer + 10 : #0 0 ->button IS press
self.button_save = 1
self.led1(not self.command_state)
self.led2(not self.command_state)
self.command_state = not self.command_state
if self.command_state:
#print("command ",self.command_state)
# in command mode immer ton on
cwt.set2cton()
cwt.onoff(True)
else :
#print("command ",self.command_state)
cwt.set2ton()
cwt.onoff(iambic.sidetone_enable)
cb.button_command_off()
text2cw("e")
return(self.button_save)
class cw_sound():
'''
6.3.2020 simple sound with pwm
'''
def __init__(self,pin=22):
#GPIO welcher als PWM Pin benutzt werden soll
self.pwm_ton = PWM(Pin(pin))
#eine Frequenz von 1000hz also 1kHz
self.freq = 600
self.Ton_freq_command = 1500
self.pwm_ton.freq(self.freq)
self.cwvolum = 2000 #30000 laut
self.on_off = 1
def set_tonfreq(self,freq):
self.freq = freq
self.pwm_ton.freq(self.freq)##
def set2ton(self):
self.pwm_ton.freq(self.freq)
def set2cton(self):
self.pwm_ton.freq(self.Ton_freq_command)
def tonfreq(self):
return self.freq
def tonfreq_command(self):
return self.Ton_freq_command
def volume(self,volume):
self.cwvolum = volume
def tone(self,on):
if self.on_off == 1:
if on:
self.pwm_ton.duty_u16(self.cwvolum)
else:
self.pwm_ton.duty_u16(1)
def onoff(self,state):
self.on_off = state
def cw(state):
cwt.tone(state)
tx.send(state)
txopt.send(state)
class cw_timing():
def __init__(self,wpm=18):
self.wpm = wpm
# timing
def dit_time(self):
self.PARIS = 50
return 60.0 / self.wpm / self.PARIS *1000 ## mili sekunden
def set_wpm(self, wpm):
self.wpm = wpm
# decode iambic b paddles
class Iambic:
"""
Command
a -> Iambic Mode A
b -> Iambic Mode B
m -> request Iambic Mode A/B
? -> request value of ...
i -> TX_opt enable(on) disable(off)
j -> TX_transceiver HF enable(on) disable(off)
o -> Sidetone toggle (on) (off)
f -> adjust sidetone frequenz
v -> adjust sidetone volume 1-100
q -> adjust qrg of tx
w -> adjust WPM (Word per minute)
t -> tune mode, end with command mode
s -> save parameter to file
x -> exit Command mode
tranceiver is toggle pin of rp2040
def tx_toggle():
wrap_target()
set(pins, 1) [1]
set(pins, 0) [1]
wrap()
qrg:
.... 7029870
.... 7023700
.... 7017540
.... 7011390
.... 7005250
"""
def __init__(self,dit_key,dah_key):
self.dit_key = Pin(dit_key,Pin.IN,Pin.PULL_UP)
self.dah_key = Pin(dah_key,Pin.IN,Pin.PULL_UP)
self.dit = False ; self.dah = False
self.ktimer = 0
self.ktimer_end = 0
self.in_char = True
self.in_word = True
self.char = ""
self.IDLE=0; self.CHK_DIT=1; self.CHK_DAH=2; self.KEYED_PREP=3; self.KEYED=4; self.INTER_ELEMENT=5
self.keyerState = self.IDLE
self.keyerControl = 0 #keyerControl = IAMBICB; // Or 0 for IAMBICA
# keyerControl bit definitions
self.DIT_L = 0x01 # Dit latch
self.DAH_L = 0x02 #Dah latch
self.DIT_PROC = 0x04 # Dit is being processed
self.PDLSWAP = 0x08 # 0 for normal, 1 for swap
#self.iambic_mode = 0x10 # 0 for Iambic A, 1 for Iambic B
self.LOW = 0
self.HIGH = 1
self.tune = 0 # transmit
self.transmit_tune= 0
self.adj_sidetone = 0
self.adj_wpm = 0
self.adj_qrg = 0
self.adj_sidetone_volume = 0
# this variable are default an will be overwrite with the json file
#
self.iambic_mode = 0x10 # 0 for Iambic A, 1 for Iambic B
self.wpm = 18
self.tx_enable = 0 # tx des OPTO Copler
self.txt_enable = 0 # "HF" tx transceiver des PIOC
self.sidetone_enable = 1
self.sidetone_freq = 700 #
self.sidetone_volume = 10 # range 1,100 * 200 -> 2000 #30000 laut
#
self.f_liste =[7017540,7005250,7011390,7036050,7029870,7023700]
self.f_liste.sort()
self.qrg_marke = 0
self.qrg = self.f_liste[self.qrg_marke]
self.request = 0 # request of parameters
#--------------
self.iambic_data = {} # create date store
if cb.button_press() == 1: # not press "0" -> json date read,and init, if "0" use factory setting
self.read_jsondata()
self.init_iambic_data()
def set_data(self,key,value):
#self.iambic_data
self.key=key
self.value= value
self.iambic_data[self.key]=self.value
# print ('setting',menu_data)
def write_data2file(self):
#self.iambic_data
self.json_string = ujson.dumps(self.iambic_data)
with open('json_iambic.json', 'w') as outfile:
ujson.dump(self.json_string, outfile)
def read_jsondata(self):
#print("read json data")
with open('json_iambic.json') as json_file:
self.data = ujson.load(json_file)
self.iambic_data = ujson.loads(self.data)
def write_jsondata(self): # write new json file
#print("write_jsondata")
self.set_data("iambic_mode",self.iambic_mode) # transmit
self.set_data("wpm",self.wpm)
self.set_data("sidetone_enable",self.sidetone_enable)
self.set_data("sidetone_freq",self.sidetone_freq)
self.set_data("sidetone_volume",self.sidetone_volume)
self.set_data("tx_enable",self.tx_enable)
self.set_data("txt_enable",self.txt_enable)
#print(self.iambic_data)
self.write_data2file()
def init_iambic_data(self): # is only use at the begin to create new json file
self.iambic_mode = self.iambic_data["iambic_mode"]
self.wpm = self.iambic_data["wpm"]
self.sidetone_enable = self.iambic_data["sidetone_enable"]
self.sidetone_freq = self.iambic_data["sidetone_freq"]
self.sidetone_volume = self.iambic_data["sidetone_volume"]
self.tx_enable = self.iambic_data["tx_enable"]
self.txt_enable = self.iambic_data["txt_enable"]
# set extern Parameter
cw_time.set_wpm(self.wpm)
cwt.set_tonfreq(self.sidetone_freq)
cwt.volume(self.sidetone_volume*200)
cwt.onoff(self.sidetone_enable)
if self.tx_enable == 1:
txopt.on()
else:
txopt.off()
#---------------
def update_PaddleLatch(self):
if (self.dit_key.value() == self.LOW):
self.keyerControl |= self.DIT_L
if (self.dah_key.value() == self.LOW):
self.keyerControl |= self.DAH_L
def cycle(self):
#utime.sleep(0.3)
cb.button_state() ## Comand button abfragen
if cb.command_state == 1 : # "1" ->comand mode
if self.tune == 1: # begin tune
self.keyerSate = self.IDLE
if self.dah_key.value() == self.LOW: # transmit on
self.transmit_tune= 1
cw(1)
elif self.dit_key.value() == self.LOW: #transmit off
self.transmit_tune= 0
cw(0)
return
elif self.adj_sidetone == 1: # begin tune
self.keyerSate = self.IDLE
if self.dah_key.value() == self.LOW: # transmit on
if self.sidetone_freq > 2000:
text2cw("max")
else:
self.sidetone_freq =self.sidetone_freq +10
cwt.set_tonfreq(self.sidetone_freq) # change the Freq
play("-")
elif self.dit_key.value() == self.LOW: #transmit off
if self.sidetone_freq < 50:
text2cw("min")
else:
self.sidetone_freq = self.sidetone_freq -10
cwt.set_tonfreq(self.sidetone_freq)
play(".")
return
elif self.adj_sidetone_volume == 1: # adjust sidetone volume
self.keyerSate = self.IDLE
if self.dah_key.value() == self.LOW: # transmit on
if self.sidetone_volume >= 100:
text2cw("max")
else:
self.sidetone_volume = self.sidetone_volume + 1
cwt.volume(self.sidetone_volume*200)
#print(self.sidetone_volume)
play("-")
elif self.dit_key.value() == self.LOW: #transmit off
if self.sidetone_volume <= 0:
text2cw("min")
else:
self.sidetone_volume = self.sidetone_volume - 1
cwt.volume(self.sidetone_volume*200)
#print(self.sidetone_volume)
play(".")
return
elif self.adj_wpm == 1: # begin tune
self.keyerSate = self.IDLE
if self.dah_key.value() == self.LOW: # transmit on
self.wpm = self.wpm+1
cw_time.set_wpm(self.wpm)
print("wpm:",self.wpm)
play("-")
elif self.dit_key.value() == self.LOW: #transmit off
self.wpm = self.wpm-1
cw_time.set_wpm(self.wpm)
#print("wpm:",self.wpm)
play(".")
return
elif self.adj_qrg == 1: # begin tune
self.keyerSate = self.IDLE
if self.dah_key.value() == self.LOW: # transmit on
if self.qrg_marke >= len(self.f_liste)-1:
text2cw("max")
else:
self.qrg_marke = self.qrg_marke + 1
tx.set_freq(self.f_liste[self.qrg_marke])
#print("....",self.f_liste[self.qrg_marke])
play("-")
elif self.dit_key.value() == self.LOW: #transmit off
if self.qrg_marke <= 0:
text2cw("min")
else:
self.qrg_marke = self.qrg_marke - 1
tx.set_freq(self.f_liste[self.qrg_marke])
#print("....",self.f_liste[self.qrg_marke])
play(".")
return
else: # wenn commad mode ende dann auch tune :-)
self.tune = 0
self.adj_qrg = 0
self.adj_sidetone = 0
self.adj_wpm = 0
self.adj_sidetone_volume = 0
self.request = 0
if self.keyerState == self.IDLE:
# Wait for direct or latched paddle press
if utime.ticks_ms() > (self.ktimer_end + cw_time.dit_time()*2):
if self.in_char:
self.in_char = False
#print(utime.ticks_ms(),self.ktimer_end)
#print("char",self.char)
if cb.command_state == 1: # "1" ->comand mode
Char = decode(self.char)
# comand mode ----------------
if Char == "i" : # TX enable(on) disable(off)
if self.request == 1: # ? -> request value of ...
if self.tx_enable == 1:
text2cw("on")
else:
text2cw("off")
else: # set / change mode
self.tx_enable = 1 - self.tx_enable
if self.tx_enable == 1:
txopt.on()
text2cw("on")
else:
text2cw("off")
txopt.off()
#print("Transmit", self.tx_enable)
cb.button_command_off()
elif Char == "j" : # HF TX opt enable(on) disable(off)
if self.request == 1:
if self.txt_enable :
text2cw("on")
else:
text2cw("off")
else:
self.txt_enable = not self.txt_enable
if self.txt_enable:
tx.on()
text2cw("on")
else:
text2cw("off")
tx.off()
#print("Transmit", self.txt_enable)
cb.button_command_off()
elif Char == "o" : # sidetone enable(on) disable(off)
if self.request == 1:
#print("CMD-TX:",self.sidetone)
if self.sidetone_enable :
text2cw("on")
else:
text2cw("off")
else:
self.sidetone_enable = not self.sidetone_enable
if self.sidetone_enable:
cwt.onoff(1)
text2cw("on")
else:
text2cw("off")
cwt.onoff(0)
cb.button_command_off()
#print("sidetone", self.tx_enable)
elif Char == "t" : # tune mode
#print("CMD-tune:",self.tune)
self.tune = 1
if self.tune:
text2cw("on")
elif Char == "w" : # WPM Change Speed )
if self.request == 1:
#print("CMD-wpm:",self.wpm)
text2cw(str(self.wpm))
else:
self.adj_wpm = 1
if self.tune:
text2cw("on")
elif Char == "v" : # sidetone volume controll
if self.request == 1:
text2cw(str(self.sidetone_volume))
else:
self.adj_sidetone_volume = 1
elif Char == "?" : # request of parameters
self.request = 1
elif Char == "x" : # command exit
cb.button_command_off()
elif Char == "f" : # adjust sidetone frequenz
if self.request == 1:
text2cw(str(self.sidetone_freq))
else:
self.adj_sidetone = 1
elif Char == "q" : # adjust qrg
if self.request == 1:
text2cw(str(self.f_liste[self.qrg_marke]))
else:
self.adj_qrg = 1
elif Char == "m" : # Iambic mode a/b
if self.request == 1:
if self.iambic_mode== 16 : text2cw("b")
else : text2cw("a")
elif Char == "a" : # adjust sidetone frequenz
self.iambic_mode = 0 # 0x10 # 0 for Iambic A, 1 for Iambic B
cb.button_command_off()
elif Char == "s" : # save parameter afer change
self.write_jsondata()
text2cw("save")
cb.button_command_off()
elif Char == "b" : # adjust sidetone frequenz
self.iambic_mode = 0x10 # 0x10 # 0 for Iambic A, 1 for Iambic B
cb.button_command_off()
else :
print(decode(self.char))
self.char = ""
# #send(decode(self.char))
# self.char = ""
if ((self.dit_key.value() == self.LOW) or (self.dah_key.value() == self.LOW) or (self.keyerControl & 0x03)):
self.update_PaddleLatch()
self.keyerState = self.CHK_DIT
elif self.keyerState == self.CHK_DIT:
#See if the dit paddle was pressed
if (self.keyerControl & self.DIT_L):
self.keyerControl |= self.DIT_PROC
self.ktimer = cw_time.dit_time()
self.keyerState = self.KEYED_PREP
self.in_char = True
self.in_word = True
self.char += "."
else:
self.keyerState = self.CHK_DAH;
elif self.keyerState == self.CHK_DAH:
#See if dah paddle was pressed
if (self.keyerControl & self.DAH_L):
self.ktimer = cw_time.dit_time()*3
self.keyerState = self.KEYED_PREP
self.in_char = True
self.in_word = True
self.char += "-"
else:
self.keyerState = self.IDLE;
elif self.keyerState == self.KEYED_PREP:
#print("Prep")
#Assert key down, start timing, state shared for dit or dah
#digitalWrite(ledPin, HIGH); // turn the LED on
self.Key_state = self.HIGH
cw(True)
self.ktimer += utime.ticks_ms() # set ktimer to interval end time
self.keyerControl &= ~(self.DIT_L + self.DAH_L) # clear both paddle latch bits
self.keyerState = self.KEYED # next state
elif self.keyerState == self.KEYED:
if (utime.ticks_ms() > self.ktimer): #are we at end of key down?
self.Key_sate = 0
cw(False)
self.ktimer = utime.ticks_ms()+ cw_time.dit_time() #inter-elemet time
self.keyerState = self.INTER_ELEMENT #next state
else:
if (self.keyerControl & self.iambic_mode):
self.update_PaddleLatch() # early paddle latch in Iambic B mode
elif self.keyerState == self.INTER_ELEMENT:
self.update_PaddleLatch() #latch paddle state
if (utime.ticks_ms() > self.ktimer): #are we at end of inter-space ?
self.ktimer_end = utime.ticks_ms()
if (self.keyerControl & self.DIT_PROC): # was it a dir or dah?
self.keyerControl &= ~(self.DIT_L + self.DIT_PROC) #clear two bits
self.keyerState = self.CHK_DAH #dit done, check for dah
#print(utime.ticks_ms(),self.ktimer_end)
else:
self.keyerControl &= ~(self.DAH_L) #clear dah latch
self.keyerState = self.IDLE #go idle
# transmit pattern
def play(pattern):
#print("play")
for sound in pattern:
if sound == '.':
cw(True)
#print(uutime.ticks_ms()())
utime.sleep(cw_time.dit_time()/1000)
#print(uutime.ticks_ms())
cw(False)
utime.sleep(cw_time.dit_time()/1000)
elif sound == '-':
cw(True)
utime.sleep(3*cw_time.dit_time()/1000)
cw(False)
utime.sleep(cw_time.dit_time()/1000)
elif sound == ' ':
utime.sleep(4*cw_time.dit_time()/1000)
utime.sleep(2*cw_time.dit_time()/1000)
def text2cw(str):
for c in str:
play(encode(c))
#----------------------------------------
# Setup Hardware pin on rp2040
comand_button = 15
onboard_led = 25
extern_led = 11 # is in snc with interne led_onboard
tx_opt_pin = 10
#tx_pin = 18
cw_sound_pin = 22
paddle_left_pin = 17
paddle_right_pin = 18
#----------------------------------------
#paddle instance
print("keyer")
# user class
tx = transceiver()
tx.off()
txopt = tx_opt(tx_opt_pin)
cwt = cw_sound(cw_sound_pin)
cw_time = cw_timing(18)
cb = command_button(comand_button,onboard_led,extern_led)
iambic = Iambic(paddle_left_pin,paddle_right_pin)
text2cw("r")
#--------
while True:
iambic.cycle()