PIDfloat.py
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from array import array
class PIDfloat:
def __init__(self, P = 0, I = 0, D = 0, N = 100, Ts=0.001, synth = 'Tustin', filtered = 'eps'):
self.U = array('f', [0, 0, 0, 0, 0, 0, 0, 0]) #[u0, u1, e0, e1, e2, y0, y1, y2]
if synth == 'BE':
'''
Backward Euler
'''
a0 = 1+N*Ts
a1 = -(N*Ts+2)
a2 = 1
i0 = I*Ts*(1+N*Ts)
i1 = -(I*Ts)
i2 = 0
p0 = P*(1+N*Ts)
p1 = -P*(2+N*Ts)
p2 = P
d0 = D*N
d1 = -2*D*N
d2 = D*N
if synth == 'Tustin':
'''
Tustin
'''
a0 = 2+N*Ts
a1 = -4
a2 = 2-N*Ts
i0 = I*Ts*(1+N*Ts/2)
i1 = I*Ts*Ts*N
i2 = I*Ts*(N*Ts/2-1)
p0 = P*(2+N*Ts)
p1 = -4*P
p2 = P*(2-N*Ts)
d0 = 2*D*N
d1 = -4*D*N
d2 = 2*D*N
ku1 = a1/a0
ku2 = a2/a0
if filtered == 'dpy':
ke0 = i0/a0
ke1 = i1/a0
ke2 = i2/a0
ky0 = (d0+p0)/a0
ky1 = (d1+p1)/a0
ky2 = (d2+p2)/a0
if filtered == 'dy':
ke0 = (p0+i0)/a0
ke1 = (p1+i1)/a0
ke2 = (p2+i2)/a0
ky0 = d0/a0
ky1 = d1/a0
ky2 = d2/a0
if filtered == 'eps':
ke0 = (p0+i0+d0)/a0
ke1 = (p1+i1+d1)/a0
ke2 = (p2+i2+d2)/a0
ky0 = 0
ky1 = 0
ky2 = 0
self.K = array('f', [-ku1, -ku2, ke0, ke1, ke2, -ky0, -ky1, -ky2])
self.Y = array('f', [0, 500, 0])
def compute(self, y0 = 0):
self.updY(self.Y, y0)
self.asm_PID(self.K, self.U, self.Y)
return self.Y
@staticmethod
@micropython.asm_thumb
def asm_PID(r0, r1, r2):
#load K array
vldr(s0,[r0,0]) #-ku1
vldr(s1,[r0,4]) #-ku2
vldr(s2,[r0,8]) #ke0
vldr(s3,[r0,12]) #ke1
vldr(s4,[r0,16]) #ke2
vldr(s5,[r0,20]) #ky0
vldr(s6,[r0,24]) #ky1
vldr(s7,[r0,28]) #ky2
#load Y array
vldr(s16,[r2,0]) #last u0
vldr(s17,[r2,4]) #setpoint
vldr(s13,[r2,8]) #new y0
#load U array
vldr(s8,[r1,0]) #u1
vldr(s9,[r1,4]) #u2
vsub(s10,s17,s13) #new e0 = setpoint - new y0
vldr(s11,[r1,8]) #e1 = last e0
vldr(s12,[r1,12]) #e2 = last e1
vldr(s14,[r1,20]) #y1 = last y0
vldr(s15,[r1,24]) #y2 = last y1
#compute new u0
vmul(s0,s0,s8)
vmul(s1,s1,s9)
vmul(s2,s2,s10)
vmul(s3,s3,s11)
vmul(s4,s4,s12)
vmul(s5,s5,s13)
vmul(s6,s6,s14)
vmul(s7,s7,s15)
vadd(s0,s0,s1)
vadd(s0,s0,s2)
vadd(s0,s0,s3)
vadd(s0,s0,s4)
vadd(s0,s0,s5)
vadd(s0,s0,s6)
vadd(s0,s0,s7)
#update U array
vstr(s16,[r1,0]) #u1 = last u0
vstr(s8,[r1,4]) #u2 = last u1
vstr(s10,[r1,8]) #e0 = new e0
vstr(s11,[r1,12]) #e1 = last e0
vstr(s12,[r1,16]) #e2 = last e1
vstr(s13,[r1,20]) #y0 = new y0
vstr(s14,[r1,24]) #y1 = last y0
vstr(s15,[r1,28]) #y2 = last y1
#update u0 in Y array
vstr(s0,[r2,0]) #u0 = new u0
@staticmethod
@micropython.asm_thumb
def updY(r0, r1):
#load y0 array
vmov(s0,r1) #new y0
#update y0 in Y array
vstr(s0,[r0,8]) #y0 = new y0