MT Detect MSK VI

LabView Digital Modulation

MT Detect MSK VI

Demodulates an MSK-modulated complex baseband waveform and returns the demodulated bit stream. This VI attempts to remove carrier and phase offset by locking to the carrier signal.

Note   This VI returns only the demodulated bit stream. Use the MT Demodulate MSK VI to acquire the time-aligned oversampled complex waveform, the ideal oversampled waveform, the demodulated bit stream, and the results of offset and drift measurements.
Note  This VI assumes that the sample rate of the input complex waveform is exactly samples per symbol × the symbol rate. If this relationship does not apply to your application, use the MT Resample (Complex Cluster) VI to resample the waveform to the desired sample rate.

Details

MT Detect MSK

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input complex waveform specifies the MSK-modulated complex baseband waveform data.

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t0 specifies the trigger (start) time of the Y array. The default is 0.0.

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dt specifies the time interval between data points in the Y array. The default is 1.0.

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Y specifies the complex-valued signal-only baseband modulated waveform. The real and imaginary parts of this complex data array correspond to the in-phase (I) and quadrature-phase (Q) data, respectively.

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MSK system parameters specifies parameter values defining the MSK system. Wire the MSK system parameters cluster returned by the MSK instance of the MT Generate System Parameters VI to this cluster. Do not alter the values.

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differential encoding enable specifies the status of the differential encoding.

disable (0)

Does not allow differential encoding for input symbols.

enable (1)

Allows differential encoding for input symbols. This is the default value.

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samples per symbol specifies an even, positive number of samples dedicated to each symbol. Multiply this value by the symbol rate to determine the sample rate. The default is 16.

Note  The Modulation Toolkit demodulation and detector VIs use timing recovery, which is optimized for four or more samples per symbol.
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matched filter coefficients specifies an ordered array containing the desired matched filter coefficients. Wire the matched filter coefficients parameter of the MT Generate Filter Coefficients VI to this parameter. When generating the filter coefficients, ensure that the value of the matched samples per symbol parameter of the MT Generate Filter Coefficients VI is equal to the value of the samples per symbol element of the MSK system parameters cluster passed to this VI.

Note   When reset? is set to TRUE, there is a transient response of half the filter length at the start of the demodulated signal, and the returned data is shortened by approximately half the filter length. When reset? is set to FALSE, the VI uses data from the previous iteration to eliminate the transient.
Tip   When reset? is set to TRUE, the number of trailing symbols that are carried over to the next iteration during demodulation is upper bounded by [L/2 + P/2 + 4(13 + K)]/K, where L is the matched filter length in taps, PP is the pulse-shaping filter length in taps, and K is the number of samples per symbol. For typical values of L = 11, P = 25, and K = 4, this value equals 21.5 symbols. Therefore when reset? is set to TRUE, a total of 1,022 MSK symbols must be specified to the demodulator to obtain at least 1,000 symbols at the output. This formula does not account for truncation due to any specified synchronization parameters.
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synchronization parameters specifies parameter values describing the synchronization sequence and the range of bits over which to search for this sequence. Wire the MSK synchronization parameters cluster returned by the MSK bit array or number array instances of the MT Generate Synchronization Parameters VI to this cluster.

Note   If the synchronization parameters cluster is not wired, the demodulator does not attempt to synchronize, and the constellation of the demodulated waveform has a carrier phase ambiguity.
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expected sync location specifies the expected location of the first symbol of the sync sequence. This value is an index to the input complex waveform. A value of -1 searches the entire input complex waveform and ignores the sync location uncertainty parameter.

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sync sequence specifies the mapped symbol pattern used to synchronize the bit stream. To prevent false synchronization, select this pattern such that there is a low probability of accidental correlation to nonsynchronized parts of the data stream. For MSK, the real portion of the mapped symbols is the frequency deviation of the symbol value, and the imaginary portion is 0. If this parameter is left empty, the signal is still demodulated.

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sync location uncertainty specifies the number of symbols before or after the expected sync location where the first symbol of the sync sequence may be located.

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sync indent specifies the distance that the sync sequence is indented into the information block. The distance is the number of demodulated symbols preceding the sync sequence. For example, a value of 10 indicates that the output bit stream consists of 10 data symbols, followed by the sync sequence, followed by the remaining data symbols.

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reset? specifies whether the VI continues demodulating using the previous iteration states. reset? must be TRUE whenever you want to restart the demodulator. The VI resets on the first call and when reset? is set to TRUE. Set reset? to FALSE if the input complex waveform is contiguous with the input complex waveform from the previous iteration of this VI. The default is TRUE.

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flush buffers? forces out samples from the input complex waveform that are delayed due to the FIR filters used in the demodulation algorithm. Set this parameter to TRUE during single-shot operations and during the last iteration of continuous operations. The default is FALSE.

Note  Setting flush buffers? to TRUE destroys the internal states of the algorithms such that you cannot perform continuous processing on the signal during subsequent iterations. If flush buffers? is set to TRUE, you must set reset? to TRUE on the subsequent iteration.
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error in (no error) can accept error information wired from previously called VIs. Use this information to decide if any functionality should be bypassed in the event of errors from other VIs. Right-click the front panel error in control and select Explain Error or Explain Warning from the shortcut menu for more information about the error.

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status is TRUE (X) if an error occurred or FALSE (checkmark) to indicate a warning or that no error occurred. Right-click the front panel error in control and select Explain Error or Explain Warning from the shortcut menu for more information about the error.

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code identifies the error or warning code. Right-click the front panel error in control and select Explain Error or Explain Warning from the shortcut menu for more information about the error.

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source describes the origin of the error or warning. Right-click the front panel error in control and select Explain Error or Explain Warning from the shortcut menu for more information about the error.

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output bit stream returns the demodulated information bit stream.

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sync found index returns the symbol index within the input complex waveform where the peak correlation to the sync sequence was found. If no sync sequence is specified in the synchronization parameters cluster, this parameter returns the offset from the start of the input complex waveform to the first complete symbol.

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error out passes error or warning information out of a VI to be used by other VIs. Right-click the front panel error out indicator and select Explain Error or Explain Warning from the shortcut menu for more information about the error.

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status is TRUE (X) if an error occurred or FALSE (checkmark) to indicate a warning or that no error occurred. Right-click the front panel error out indicator and select Explain Error or Explain Warning from the shortcut menu for more information about the error.

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code is the error or warning code. Right-click the front panel error out indicator and select Explain Error or Explain Warning from the shortcut menu for more information about the error.

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source describes the origin of the error or warning. Right-click the front panel error out indicator and select Explain Error or Explain Warning from the shortcut menu for more information about the error.

Details

Successful Locking

Successful locking depends on many factors, including signal quality, modulation type, filtering parameters, and acquisition size. Locking also requires a fairly uniform distribution of symbols in the signal. The demodulator lock rate increases (and failures decrease) as the number of symbols demodulated increases. In general, you can expect to achieve a better than 95% lock when demodulating 10 × M number of symbols, where M is 2bits per symbol.