Communications Blockset |
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M-PAM Demodulator Passband
Demodulate PAM-modulated data
Library
AM, in Digital Passband sublibrary of Modulation
Description

The M-PAM Demodulator Passband block demodulates a signal that was modulated using M-ary pulse amplitude modulation. The input is a passband representation of the modulated signal. The input must be a sample-based scalar signal.
This block converts the input to an equivalent baseband representation and then uses the baseband equivalent block, M-PAM Demodulator Baseband, for internal computations. The following parameters in this block are the same as those of the baseband equivalent block:
- M-ary number
- Output type
- Constellation ordering
- Normalization method
- Minimum distance
- Average power
- Peak power
Parameters Specific to Passband Simulation
Passband simulation uses a carrier signal. The Carrier frequency and Carrier initial phase parameters specify the frequency and initial phase, respectively, of the carrier signal. The Input sample time parameter specifies the sample time of the input signal, while the Symbol period parameter equals the sample time of the output signal.
This block uses a baseband representation of the modulated signal as an intermediate signal during internal computations. The Baseband samples per symbol parameter indicates how many baseband samples correspond to each integer or binary word in the output.
The timing-related parameters must satisfy these relationships:
- Symbol period > (Carrier frequency)-1
- Input sample time < [2*Carrier frequency + 2/(Symbol period)]-1
Also, this block incurs an extra output period of delay compared to its baseband equivalent block.
Note
A model containing this block must use a variable-step solver. To configure a model so that it uses a variable-step solver, select Simulation parameters from the model window's Simulation menu and then set the Type parameter on the Solver panel to Variable-step.
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Dialog Box

- M-ary number
- The number of points in the signal constellation. It must be an even integer.
- Output type
- Determines whether the output consists of integers or groups of bits. If this parameter is set to Bit, then the M-ary number parameter must be 2K for some positive integer K.
- Constellation ordering
- Determines how the block maps each integer to a group of output bits. This field is active only when Output type is set to Bit.
- Normalization method
- Determines how the block scales the signal constellation. Choices are Min. distance between symbols, Average Power, and Peak Power.
- Minimum distance
- The distance between two nearest constellation points. This field appears only when Normalization method is set to Min. distance between symbols.
- Average power (watts)
- The average power of the symbols in the constellation. This field appears only when Normalization method is set to Average Power.
- Peak power (watts)
- The maximum power of the symbols in the constellation. This field appears only when Normalization method is set to Peak Power.
- Symbol period (s)
- The symbol period, which equals the sample time of the output.
- Baseband samples per symbol
- The number of baseband samples that represent each modulated symbol, after the block converts the passband input to a baseband intermediary signal.
- Carrier frequency (Hz)
- The frequency of the carrier.
- Carrier initial phase (rad)
- The initial phase of the carrier in radians.
- Input sample time
- The sample time of the input signal.
Pair Block
M-PAM Modulator Passband
See Also
M-PAM Demodulator Baseband
| M-PAM Demodulator Baseband | | M-PAM Modulator Baseband |  |