我试图从信号样本的FFT中重建原始信号。当进行逆FFT时，我只得到振幅信息（只有一列）。如何得到相应的时间坐标？你知道吗

这是我的原始信号的屏幕截图，从0到10秒，步长为0.001s。当我进行IFFT时，我得到的数据点数与我的信号相同，但找不到相应的时间信息。你知道吗

如何获得正确的时间信息？你知道吗

包括我使用的Python代码和两个信号的绘图。你知道吗

#generating signal here
import numpy as np
k = float ( 3.1416*2) 
f1 = 100
f2 = 150
f3 = 250
ds = max(f1,f2,f3)
ds = float(4*ds)
dt = 1.000/ds
lf = min (f1,f2,f3)
lT = 1.00/lf
N = 10 # cycles
totaltime = N*lT
data = []
tt = []
mf = 1/dt 
print "TotalTime =", totaltime
for t in np.arange(0.0, totaltime,dt/100 ) :
    #t = tk/mf

    print t
    wave1 = np.sin(k*f1*t)
    wave2 = np.sin(k*f2*t)
    wave3 = np.sin(k*f3*t)
    summ = wave1 + wave2 + wave3
    print t,"    ", summ
    tt.append(t)
    data.append(summ)
print tt
print data  
np.savetxt("data.txt",np.c_[tt,data])


#######################
#taking the FFT here
fourier = []
tt =[]
yy=[]

logname = str("data.txt")
with open (logname,"rb") as wdata:
        for line in wdata     :
        if not line.startswith("#") :

        sl = line.split()
        c11 = float(sl[0])
        #c11 = c1*10**(-12)
        c2 = float(sl[1])
        tt.append(c11)
        yy.append(c2)
n = len(yy)
n1 = len(tt)
print "n=",n,"(",n1,")"
#to calculate the time step , find the difference between 2 time-values
t0 = float(tt[0]) 
print "t0=",t0

t1 = float(tt[1])
print "t1=",t1
ts = t1 - t0 
print "ts=", ts
yf = numpy.fft.fft(yy)
yf_abso = numpy.abs(yf)

freq = numpy.fft.fftfreq(n,d=ts)

numpy.savetxt('fft-data.txt',numpy.c_[freq,yf_abso])

######################
# taking the inverese FFT

filename = str("fft-data.txt") 
FFTdata =[]
FREQdata = []

with open (filename,'r') as fftfile :
    for line in fftfile       :
        if not line.startswith("#") :
            split_line = line.split()
            fpoint = float(split_line[1])
            freqz  = float(split_line[0])
            FFTdata.append(fpoint)
            FREQdata.append(freqz)

ireverse = np.fft.ifft(FFTdata)
reverse  = np.abs(ireverse)
print type(reverse)  
np.savetxt ("ireverse.txt", ireverse)
np.savetxt("reverse.txt", reverse)