This makes Amplitude Modulated Pulse Train, which can be regarded as the discretized wave of the signal. Pulse Train can be defined by frequency and duty cycle, which can be temporarily changed, referring to PWM.

Dependents:   Interference_Simple

Committer:
aktk
Date:
Mon Jan 06 21:37:20 2020 +0000
Branch:
35e9675a
Revision:
5:77ac0df7c3a1
Parent:
1:19c3a52c80c3
Child:
8:1f88fb3a4c57
Complicated branch revision :'(

Who changed what in which revision?

UserRevisionLine numberNew contents of line
aktk 1:19c3a52c80c3 1 #include "AMPulseTrain.h"
aktk 0:6400e338266f 2
aktk 1:19c3a52c80c3 3 AMPulseTrain::AMPulseTrain(
aktk 1:19c3a52c80c3 4 /// Carrier Pulse Train
aktk 1:19c3a52c80c3 5 PulseTrain * const arg_carrier,
aktk 1:19c3a52c80c3 6 /// Initial AM Signal expression
aktk 1:19c3a52c80c3 7 AMSignal * const arg_signal
aktk 0:6400e338266f 8 ):
aktk 1:19c3a52c80c3 9 Carrier(arg_carrier),
aktk 1:19c3a52c80c3 10 Signal(arg_signal)
aktk 0:6400e338266f 11 {
aktk 1:19c3a52c80c3 12 setFrequency_Carrier(Carrier->getFrequency());
aktk 0:6400e338266f 13 }
aktk 0:6400e338266f 14
aktk 1:19c3a52c80c3 15
aktk 1:19c3a52c80c3 16
aktk 1:19c3a52c80c3 17
aktk 1:19c3a52c80c3 18 uint16_t
aktk 1:19c3a52c80c3 19 AMPulseTrain::getClockperiod_us()
aktk 0:6400e338266f 20 {
aktk 1:19c3a52c80c3 21 return Carrier->getClockperiod_us();
aktk 0:6400e338266f 22 }
aktk 0:6400e338266f 23
aktk 1:19c3a52c80c3 24 void
aktk 1:19c3a52c80c3 25 AMPulseTrain::incrementClock()
aktk 0:6400e338266f 26 {
aktk 1:19c3a52c80c3 27 Carrier->incrementClock();
aktk 0:6400e338266f 28 }
aktk 0:6400e338266f 29
aktk 1:19c3a52c80c3 30
aktk 1:19c3a52c80c3 31
aktk 1:19c3a52c80c3 32
aktk 1:19c3a52c80c3 33 void
aktk 1:19c3a52c80c3 34 AMPulseTrain::attachCallback_asClock(
aktk 1:19c3a52c80c3 35 Callback<void(bool, AMPulseTrain*)> arg_callback
aktk 0:6400e338266f 36 )
aktk 0:6400e338266f 37 {
aktk 1:19c3a52c80c3 38 m_callback_asClock = arg_callback;
aktk 1:19c3a52c80c3 39 Carrier->attachCallback_asClock(callback(this, &AMPulseTrain::CallbackWrapper_asClock));
aktk 1:19c3a52c80c3 40 }
aktk 1:19c3a52c80c3 41
aktk 1:19c3a52c80c3 42 void
aktk 1:19c3a52c80c3 43 AMPulseTrain::CallbackWrapper_asClock(bool arg_pulsestate)
aktk 1:19c3a52c80c3 44 {
aktk 1:19c3a52c80c3 45 m_callback_asClock(arg_pulsestate, this);
aktk 0:6400e338266f 46 }
aktk 0:6400e338266f 47
aktk 1:19c3a52c80c3 48
aktk 1:19c3a52c80c3 49
aktk 1:19c3a52c80c3 50
aktk 1:19c3a52c80c3 51 void
aktk 1:19c3a52c80c3 52 AMPulseTrain::attachCallback_asPulseEdge(
aktk 1:19c3a52c80c3 53 Callback<void(bool, AMPulseTrain*)> arg_callback
aktk 0:6400e338266f 54 )
aktk 0:6400e338266f 55 {
aktk 1:19c3a52c80c3 56 m_callback_asPulseEdge = arg_callback;
aktk 1:19c3a52c80c3 57 Carrier->attachCallback_asPulseEdge(callback(this, &AMPulseTrain::CallbackWrapper_asPulseEdge));
aktk 0:6400e338266f 58 }
aktk 0:6400e338266f 59
aktk 1:19c3a52c80c3 60 void
aktk 1:19c3a52c80c3 61 AMPulseTrain::CallbackWrapper_asPulseEdge(bool arg_pulsestate)
aktk 0:6400e338266f 62 {
aktk 1:19c3a52c80c3 63 m_callback_asPulseEdge(arg_pulsestate, this);
aktk 0:6400e338266f 64 }
aktk 0:6400e338266f 65
aktk 1:19c3a52c80c3 66
aktk 1:19c3a52c80c3 67
aktk 1:19c3a52c80c3 68
aktk 1:19c3a52c80c3 69 void
aktk 1:19c3a52c80c3 70 AMPulseTrain::attachAMSignalExpression(
aktk 1:19c3a52c80c3 71 Callback<uint16_t(AMPulseTrain*)> arg_callback
aktk 1:19c3a52c80c3 72 )
aktk 0:6400e338266f 73 {
aktk 1:19c3a52c80c3 74 m_AMSignalExpression = arg_callback;
aktk 1:19c3a52c80c3 75 Signal->attachAMSignalExpression(
aktk 1:19c3a52c80c3 76 callback(this, &AMPulseTrain::CallbackWrapper_AMSignalExpression)
aktk 1:19c3a52c80c3 77 );
aktk 0:6400e338266f 78 }
aktk 0:6400e338266f 79
aktk 1:19c3a52c80c3 80 uint16_t
aktk 1:19c3a52c80c3 81 AMPulseTrain::CallbackWrapper_AMSignalExpression(AMSignal* arg_signal)
aktk 0:6400e338266f 82 {
aktk 1:19c3a52c80c3 83 return m_AMSignalExpression(this);
aktk 0:6400e338266f 84 }