Difference between revisions of "Aufgaben:Exercise 3.3Z: GSM 900 and GSM 1800"
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| − | {{quiz-Header|Buchseite= | + | {{quiz-Header|Buchseite=Examples_of_Communication_Systems/Radio_Interface |
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| − | [[File: | + | [[File:EN_Bei_Z_3_3.png|right|frame|$\rm GSM \ 900 and \rm GSM \ 1800$ ]] |
| − | + | The mobile communications standard $\rm GSM$ ("Global System for Mobile Communications") established in Europe since 1992 uses frequency and time division multiplexing to enable multiple users to communicate in one cell. | |
| − | + | The following are important characteristics of the system $\rm GSM \ 900$ shown in the diagram in somewhat simplified form. | |
| − | * | + | *The frequency band of the uplink $($the connection from the mobile station to the base station$)$ is between $890\ \rm MHz$ and $915 \ \rm MHz$. |
| − | |||
| − | |||
| − | |||
| − | |||
| + | *Taking into account the guard bands at both ends, a total bandwidth of 24.8 \ \rm MHz is thus available for the uplink. | ||
| − | + | *This band is used by a total of $K_{\rm F}$ subchannels $("Radio Frequency Channels"), which are adjacent to each other with respective frequency spacing 200 \ \rm kHz$. The numbering is done with the variable $k_{\rm F}$. | |
| − | * | ||
| − | |||
| + | *The frequency range for the downlink (the connection from the base station to the mobile station) is located around the duplex spacing 45 \ \rm MHz above the uplink and is otherwise structured in the same way as the latter. | ||
| − | + | *Each of these FDMA subchannels is used simultaneously by K_{\rm T} = 8 subscribers in time division multiple access (TDMA). | |
| − | + | ||
| − | === | + | The GSM 1800 system is structured in a similar way, but with following differences: |
| + | *The frequency range of the uplink is between 1710 \ \rm MHz and 1785 \ \rm MHz. | ||
| + | |||
| + | *The duplex spacing is 95 \ \rm MHz. | ||
| + | |||
| + | |||
| + | |||
| + | <u>Hints:</u> | ||
| + | |||
| + | *This exercise belongs to the chapter [[Examples_of_Communication_Systems/Radio_Interface|"Radio Interface"]]. | ||
| + | |||
| + | *Reference is made in particular to the section [[Examples_of_Communication_Systems/Radio_Interface#Realization_of_FDMA_and_TDMA|"Realization of FDMA and TDMA"]]. | ||
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| + | |||
| + | ===Questions=== | ||
<quiz display=simple> | <quiz display=simple> | ||
| − | { | + | {How many subchannels are created in the $\rm GSM \ 900$ system by frequency division multiplexing? |
|type="{}"} | |type="{}"} | ||
K_{\rm F} \ = \ { 124 3% } | K_{\rm F} \ = \ { 124 3% } | ||
| − | { | + | {How many frequency channels are there in the $\rm GSM \ 1800$ system? |
|type="{}"} | |type="{}"} | ||
K_{\rm F} \ = \ { 374 3% } | K_{\rm F} \ = \ { 374 3% } | ||
| − | { | + | {What center frequency f_{\rm M} is used by the frequency channel numbered k_{\rm F} = 200 in the downlink of $\rm GSM \ 1800$? |
|type="{}"} | |type="{}"} | ||
f_{\rm M} \ = \ { 1845 3% } \ \rm MHz | f_{\rm M} \ = \ { 1845 3% } \ \rm MHz | ||
| − | { | + | {How many subscribers $(K) can be active at the \rm GSM \ 1800$ at the same time? |
|type="{}"} | |type="{}"} | ||
K \ = \ { 2992 3% } | K \ = \ { 2992 3% } | ||
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</quiz> | </quiz> | ||
| − | === | + | ===Solution=== |
{{ML-Kopf}} | {{ML-Kopf}} | ||
| − | '''(1)''' | + | '''(1)''' From the total bandwidth of 25 \ {\rm MHz}\ (800 \text{...} 915 \ \rm MHz), |
| − | '''(2)''' | + | *the two guard bands of 100 \ \rm kHz each at the edges, and |
| − | '''(3)''' | + | |
| − | + | *the channel spacing 200 \ \rm kHz, we get for \rm GSM \ 900: | |
| − | + | :K_{\rm F} = \frac{ 914.9 \,{\rm MHz}- 890.1 \,{\rm MHz}}{0.2 \,{\rm MHz}} \hspace{0.15cm} \underline {= 124}\hspace{0.05cm}. | |
| − | '''( | + | |
| − | '''( | + | |
| + | |||
| + | '''(2)''' At \rm GSM \ 1800, a bandwidth of 75 \ \rm MHz is now available in each direction. | ||
| + | *Taking into account the two guard bands and the same channel spacing 200 \ \rm kHz, we obtain here: | ||
| + | :K_{\rm F} = \frac{ 75 \,{\rm MHz}- 0.2 \,{\rm MHz}}{0.2 \,{\rm MHz}} \hspace{0.15cm} \underline {= 374}\hspace{0.05cm}. | ||
| + | |||
| + | |||
| + | |||
| + | '''(3)''' For \rm GSM \ 1800, the uplink starts at 1710 \ \rm MHz and the downlink starts at | ||
| + | :$$1710 \,{\rm MHz}\,\,({\rm uplink})+ 95 \,{\rm MHz}\,\,({\rm duplex\:spacing}) ={1805 \,{\rm MHz}} \hspace{0.05cm}.$$ | ||
| + | *The first downlink channel $(k_{\rm F} = 1) is higher by the center frequency f_{\rm M} = 1805.2 \ \rm MHz$, | ||
| + | |||
| + | *the channel numbered k_{\rm F} = 200 is higher by the frequency 199 \cdot 0.2 \rm MHz: | ||
| + | :f_{\rm M} (k_{\rm F} = 200) \hspace{0.15cm} \underline { = {1845 \,{\rm MHz}}} \hspace{0.05cm}. | ||
| + | |||
| + | |||
| + | |||
| + | '''(4)''' Using the result of subtask '''(2)''' and K_{\rm T} = 8, we obtain: | ||
| + | :K ({\rm GSM \hspace{0.15cm}1800}) = 374 \cdot 8 \hspace{0.15cm} \underline { = 2992}\hspace{0.05cm}. | ||
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{{ML-Fuß}} | {{ML-Fuß}} | ||
| − | [[Category: | + | [[Category:Examples of Communication Systems: Exercises|^3.2 Radio Interface^]] |
Latest revision as of 15:27, 11 January 2023
\rm GSM \ 900 and \rm GSM \ 1800
The mobile communications standard \rm GSM ("Global System for Mobile Communications") established in Europe since 1992 uses frequency and time division multiplexing to enable multiple users to communicate in one cell.
The following are important characteristics of the system \rm GSM \ 900 shown in the diagram in somewhat simplified form.
- The frequency band of the uplink (the connection from the mobile station to the base station) is between 890\ \rm MHz and 915 \ \rm MHz.
- Taking into account the guard bands at both ends, a total bandwidth of 24.8 \ \rm MHz is thus available for the uplink.
- This band is used by a total of K_{\rm F} subchannels ("Radio Frequency Channels"), which are adjacent to each other with respective frequency spacing 200 \ \rm kHz. The numbering is done with the variable k_{\rm F}.
- The frequency range for the downlink (the connection from the base station to the mobile station) is located around the duplex spacing 45 \ \rm MHz above the uplink and is otherwise structured in the same way as the latter.
- Each of these FDMA subchannels is used simultaneously by K_{\rm T} = 8 subscribers in time division multiple access (TDMA).
The GSM 1800 system is structured in a similar way, but with following differences:
- The frequency range of the uplink is between 1710 \ \rm MHz and 1785 \ \rm MHz.
- The duplex spacing is 95 \ \rm MHz.
Hints:
- This exercise belongs to the chapter "Radio Interface".
- Reference is made in particular to the section "Realization of FDMA and TDMA".
Questions
Solution
(1) From the total bandwidth of 25 \ {\rm MHz}\ (800 \text{...} 915 \ \rm MHz),
- the two guard bands of 100 \ \rm kHz each at the edges, and
- the channel spacing 200 \ \rm kHz, we get for \rm GSM \ 900:
- K_{\rm F} = \frac{ 914.9 \,{\rm MHz}- 890.1 \,{\rm MHz}}{0.2 \,{\rm MHz}} \hspace{0.15cm} \underline {= 124}\hspace{0.05cm}.
(2) At \rm GSM \ 1800, a bandwidth of 75 \ \rm MHz is now available in each direction.
- Taking into account the two guard bands and the same channel spacing 200 \ \rm kHz, we obtain here:
- K_{\rm F} = \frac{ 75 \,{\rm MHz}- 0.2 \,{\rm MHz}}{0.2 \,{\rm MHz}} \hspace{0.15cm} \underline {= 374}\hspace{0.05cm}.
(3) For \rm GSM \ 1800, the uplink starts at 1710 \ \rm MHz and the downlink starts at
- 1710 \,{\rm MHz}\,\,({\rm uplink})+ 95 \,{\rm MHz}\,\,({\rm duplex\:spacing}) ={1805 \,{\rm MHz}} \hspace{0.05cm}.
- The first downlink channel (k_{\rm F} = 1) is higher by the center frequency f_{\rm M} = 1805.2 \ \rm MHz,
- the channel numbered k_{\rm F} = 200 is higher by the frequency 199 \cdot 0.2 \rm MHz:
- f_{\rm M} (k_{\rm F} = 200) \hspace{0.15cm} \underline { = {1845 \,{\rm MHz}}} \hspace{0.05cm}.
(4) Using the result of subtask (2) and K_{\rm T} = 8, we obtain:
- K ({\rm GSM \hspace{0.15cm}1800}) = 374 \cdot 8 \hspace{0.15cm} \underline { = 2992}\hspace{0.05cm}.
