Universal coherent technique generator

The invention claimed is: 1. An electronic warfare (EW) system comprising: electronic attack (EA) circuitry comprising: detection circuitry arranged to detect, capture and store threat pulses from a radar, and pulse generation circuitry arranged to, in response to identification of the threat pulses, generate a response comprising a superposition of the threat pulses captured and stored in memory by at least modulating the threat pulses in amplitude, frequency, phase, length and timing, wherein modulations of each threat pulse and timing of the superposition relative to the threat pulses are based on stored parameters, the superposition comprising response pulses associated with at least one of: threat pulses comprising different characteristics and threat pulses originating from different radar; and transceiver circuitry configured to receive the threat pulses and transmit response pulses of the response, wherein the pulse generation circuitry comprises a pulse memory arranged to provide the threat pulses and a plurality of modules comprising: pulse stretch circuitry arranged to adjust pulse widths of the response pulses away from pulse widths of the threat pulses; range modulation circuitry arranged to adjust delays of the response pulses away from delays of the threat pulses; velocity modulation circuitry arranged to adjust frequencies of the response pulses away from frequencies of the threat pulses; and amplitude modulation circuitry arranged to adjust amplitudes of the response pulses away from amplitudes of the threat pulses, wherein the range modulation circuitry is selectable in Range Gate Stealer/Range Gate Pull Out (RGS/RGPO) mode in which the response pulses are walked from zero to maximum delay with one of constant velocity and acceleration and constantly repeated, RGS/RGPO with Keeper mode that duplicates the RGS/RGPO mode and adds a keeper pulse at a stop range position of each response pulse, pseudorandom mode in which the response pulses are randomly placed between a specified range or Range Bin Masking in which the response pulses are randomly placed between specified range values at ranges that are integral multiples of a range bin size. 2. The EW system of claim 1 , wherein the EA circuitry further comprises timing circuitry configured to provide predicted timing information of the threat pulses to the pulse generation circuitry when receiver circuitry of the transceiver circuitry is deactivated such that the pulse generation circuitry continues to generate the response pulses at appropriate times and transmitter circuitry of the transceiver circuitry continues to transmit the response pulses in response to threat pulses that impinge on the EW system when receiver circuitry of the transceiver circuitry is deactivated. 3. The EW system of claim 1 , wherein parameters provided to the pulse stretch circuitry include an integral number of at least 0 input pulses and a fractional part to be combined to form a stretched pulse, a start time of pulse generation and a Pulse Repetition Interval (PRI). 4. The EW system of claim 3 , wherein the pulse stretch circuitry is selectable in number mode in which the integral number and fractional part for each response pulse is received, width mode in which a total pulse width for each response pulse is received, programmable mode in which a start and end time for each response pulse is received and continuous mode in which the PRI for each response pulse is received. 5. The EW system of claim 1 , wherein the velocity modulation circuitry is selectable in bypass mode in which no modulation is added, fixed mode in which a fixed frequency shift is applied to each response pulse, Velocity Gate Stealer/Velocity Gate Pull Out (VGS/VGPO) mode in which a linear Doppler shift is applied to each response pulse such that the response pulses are walked from zero to maximum Doppler shift with constant velocity and constantly repeated, pseudorandom mode in which Doppler offsets are randomly placed between specified frequency values for each response pulse or Velocity Bin Masking in which Doppler offsets are randomly placed between specified frequency values for each response pulse. 6. The EW system of claim 1 , further comprising a combiner, wherein the plurality of modules are duplicated and independent of each other such that each duplicate is arranged to provide different response pulses from the threat pulses in response to different threat pulses, the combiner arranged to combine the different response pulses into a single channel to enable the response pulses to be simultaneously transmitted. 7. The EW system of claim 1 , wherein the amplitude modulation circuitry is selectable in square, sinusoidal, triangular and sawtooth modes. 8. The EW system of claim 1 , wherein the EA circuitry further comprises: tracker circuitry arranged to determine validity of the threat pulses and indicate to the pulse generation circuitry existence of valid threat pulses; and noise circuitry arranged to add noise to the response pulses prior to transmission from the transceiver. 9. A method of generating pulses comprising: detecting and storing threat pulses from at least one radar impinging on a vehicle; determining that the threat pulses are valid threat pulses; modulating amplitude, frequency, phase, length and timing of the stored threat pulses and superposing the modulated threat pulses to generate response pulses to the threat pulses, modulations of each threat pulse and timing of the superposition relative to the threat pulses based on stored parameters; transmitting the response pulses; providing the threat pulses from a memory; modulating pulse widths of the response pulses from pulse widths of the threat pulses; modulating delays of the response pulses from delays of the threat pulses; modulating frequencies of the response pulses from frequencies of the threat pulses; modulating amplitudes of the response pulses from amplitudes of the threat pulses; and selecting a mode for modifying the delays from a Range Gate Stealer/Range Gate Pull Out (RGS/RGPO) mode in which the response pulses are walked from zero to maximum delay with one of constant velocity and acceleration and constantly repeated, a RGS/RGPO with Keeper mode that duplicates the RGS/RGPO mode and adds a keeper pulse at a stop range position of each response pulse, a pseudorandom mode in which the response pulses are randomly placed between a specified range and a Range Bin Masking in which the response pulses are randomly placed between specified range values at ranges that are integral multiples of a range bin size. 10. The method of claim 9 , further comprising: calculating predicted timing of the threat pulses based on reception of the threat pulses; disabling reception of the threat pulses; and continuing to generate response pulses at appropriate times when reception of the threat pulses is disabled and continuing to transmit the response pulses in response to threat pulses that impinge on the vehicle when reception of the threat pulses is disabled. 11. The method of claim 9 , further comprising: providing simultaneous and independent modification paths for modification of pulse widths, delays, frequencies and amplitudes of the threat pulses in response to identification of different threat pulses to create different response pulses; combining the different response pulses into a single channel; and simultaneously transmitting the different response pulses in the single channel. 12. A non-transitory computer-readable storage medium that stores instructions for execution by one or more processors to: detect threat pulses from at least one radar;