Frequency modulation detector using digital signal vector processing

1. A detector for recovering a modulating signal from a carrier modulated in frequency by the modulating signal comprisingmeans for generating first and second signals in phase quadrature and at a reference frequency substantially equal to the center frequency of said carrier,means responsive to said phase-quadrature reference signals for converting the frequency modulated carrier into first and second baseband signals,means for filtering the double reference frequency component of the first and second baseband signals to provide respective I and Q signals, said I and Q signals constituting in rectangular coordinates components of a vector represented in polar coordinates by R and θ

• , where R is the maximum amplitude of I and Q signals and θ
  
  is the instantaneous angle represented by the arctangent of the I signal divided by the Q signal,means for sampling said I and Q signals at a frequency greater than twice the maximum deviation in frequency of said carrier produced by said modulating signal to obtain a sequence of sets of samples of said I and Q signals, each set of samples being represented by a respective vector R and a respective angle θ
  
  consisting of a first angle component equal to zero or an integral number of octants and a second angle component less than an octant which is added to or subtracted from said first angle component depending on whether the vector R is in an odd or an even octant,means for converting each of said I signal samples into a respective binary number,means for converting each of said Q signal samples into a respective binary number,means for deriving the absolute binary value of each of said binary numbers corresponding to a respective I signal sample,means for deriving the absolute binary value of each of said binary numbers corresponding to a respective Q signal sample,means for deriving from the binary number of an I signal sample, from the binary number of a Q signal sample, and from the relative magnitudes of the absolute values of the binary numbers of said I and Q signal samples of each set of I and Q signal samples a respective first binary number from 000 to 111 representing the first angle component of a respective angle θ
  
  ,a binary divider having a numerator input, a denominator input, and a quotient output, said binary divider in response to the absolute value of a binary number applied to said numerator input and the absolute value of a binary number applied to said denominator input providing a binary number at said quotient output representing the absolute value of the binary number applied to said numerator input divided by the absolute value of the number applied to said denominator input,selector means for passing the smaller of the absolute binary values of an I signal sample and a Q signal sample of a set of I and Q signal samples to said numerator input of said binary divider and for passing the greater of the absolute binary values of an I signal sample and a Q signal sample of said set of I and Q signal samples to said denominator input of said binary divider whereby at said quotient output of said binary divider is obtained a binary number corresponding to the quotient of said absolute binary numbers of said set of I and Q signal samples,means responsive to each binary number obtained at the quotient output of said divider to provide a respective second binary number representing the second angle component of a respective angle θ
  
  ,means for combining the first binary number and the second binary number of each of said sets of samples to obtain a respective third binary number representing the respective angle θ
  
  thereof,means for obtaining a sequence of changes in the value of said third binary numbers of successive sets of said sequence of sets of I and Q signal samples, said sequence of changes representing changes in frequency of said carrier from the center frequency thereof corresponding to changes in amplitude of said modulating signal,means for converting each number of said sequence of changes in the value of successive third binary numbers into a respective amplitude level whereby said modulating signal is recovered.