Difference between revisions of "Aufgaben:Exercise 5.6Z: Single-Carrier and Multi-Carrier System"
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| − | [[File:P_ID1660__Z_5_6.png|right|frame| | + | [[File:P_ID1660__Z_5_6.png|right|frame|Signal space assignments for $\rm SC$ (above), $\rm MC$ (bottom)]] |
In this exercise, a comparison is to be made between | In this exercise, a comparison is to be made between | ||
| − | *a single-carrier | + | *a single-carrier $\rm (SC)$ system $(N = 1)$, and |
| − | + | *a multi-carrier $\rm (MC)$ system with $N = 32$ carriers. | |
| − | For both transmission systems (see diagram), a data bit rate of $R_{\rm B} = 1 \ \rm Mbit/s$ is required in each case. | + | For both transmission systems (see diagram), a data bit rate of $R_{\rm B} = 1 \ \rm Mbit/s$ is required in each case. |
| − | + | Notes: | |
| − | |||
| − | |||
*The exercise belongs to the chapter [[Modulation_Methods/Allgemeine_Beschreibung_von_OFDM|General Description of OFDM]]. | *The exercise belongs to the chapter [[Modulation_Methods/Allgemeine_Beschreibung_von_OFDM|General Description of OFDM]]. | ||
*Reference is also made to the chapter [[Modulation_Methods/Quadratur%E2%80%93Amplitudenmodulation|Quadrature Amplitude Modulation]]. | *Reference is also made to the chapter [[Modulation_Methods/Quadratur%E2%80%93Amplitudenmodulation|Quadrature Amplitude Modulation]]. | ||
Revision as of 12:52, 10 January 2022
Signal space assignments for $\rm SC$ (above), $\rm MC$ (bottom)
In this exercise, a comparison is to be made between
- a single-carrier $\rm (SC)$ system $(N = 1)$, and
- a multi-carrier $\rm (MC)$ system with $N = 32$ carriers.
For both transmission systems (see diagram), a data bit rate of $R_{\rm B} = 1 \ \rm Mbit/s$ is required in each case.
Notes:
- The exercise belongs to the chapter General Description of OFDM.
- Reference is also made to the chapter Quadrature Amplitude Modulation.
Questions
Solution
(1) From the diagram on the information page, it is immediately apparent that the single-carrier system is based on binary phase modulation $\rm (BPSK)$ ⇒ solution 2.
(2) In contrast, the multi-carrier system is based on $\rm (16–QAM)$ ⇒ solution 3.
(3) In general, for an OFDM system with $N$ carriers and $M$ signal space points, the symbol duration is:
- $$T = N \cdot {\rm{log}_2}\hspace{0.04cm}(M) \cdot T_{\rm{B}}.$$
- Because of $R_{\rm{B}} = 1 \ \rm Mbit/s$, the bit duration for BPSK is equal to $T_{\rm{B}} = 1 \ \rm µ s$.
- From this, the symbol duration of the single-carrier system with $N = 1$ and $M = 2$ is:
- $$ T_{\rm{SC}} = 1 \cdot {\rm{log}_2}\hspace{0.04cm}(2) \cdot T_{\rm{B}}\hspace{0.15cm}\underline {= 1\,\,{\rm µ s}}.$$
(4) Similarly, for the multi-carrier system with $N = 32$ and $M = 16$, we obtain:
- $$T_{\rm{MC}} = 32 \cdot {\rm{log}_2}\hspace{0.04cm}(16) \cdot T_{\rm{B}}\hspace{0.15cm}\underline {= 128\,\,{\rm µ s}}.$$
(5) Solution 2 is correct because:
- At large symbol duration, the relative fraction extending from the predecessor symbol into the symbol under consideration and thus causing impulse interference (ISI) is smaller than at small symbol duration.
