[[bts-examples]] == OsmoBSC example configuration files The `osmo-bsc/doc/examples/osmo-bsc` directory in the OpenBSC source tree contains a collection of example configuration files, sorted by BTS type. This chapter is illustrating some excerpts from those examples [[bts_example_nbts]] === Example configuration for OsmoBSC with one single-TRX nanoBTS .OsmoBSC with one single-TRX nanoBTS ==== ---- e1_input e1_line 0 driver ipa <1> network network country code 1 mobile network code 1 short name OpenBSC long name OpenBSC auth policy closed location updating reject cause 13 encryption a5 0 neci 1 rrlp mode none mm info 1 handover 0 bts 0 type nanobts <2> band DCS1800 <3> cell_identity 0 location_area_code 1 training_sequence_code 7 base_station_id_code 63 ms max power 15 cell reselection hysteresis 4 rxlev access min 0 channel allocator ascending rach tx integer 9 rach max transmission 7 ip.access unit_id 1801 0 <4> oml ip.access stream_id 255 line 0 gprs mode none trx 0 rf_locked 0 arfcn 871 <5> nominal power 23 max_power_red 20 <6> rsl e1 tei 0 timeslot 0 phys_chan_config CCCH+SDCCH4 timeslot 1 phys_chan_config SDCCH8 timeslot 2 phys_chan_config TCH/F timeslot 3 phys_chan_config TCH/F timeslot 4 phys_chan_config TCH/F timeslot 5 phys_chan_config TCH/F timeslot 6 phys_chan_config TCH/F timeslot 7 phys_chan_config TCH/F ---- ==== <1> You have to configure one virtual E1 line with the IPA driver in order to use Abis/IP. One e1_line is sufficient for any number of A-bis/IP BTSs, there is no limit like in physical E1 lines. <2> The BTS type must be set using `type nanobts` <3> The GSM band must be set according to the BTS hardware. <4> The IPA Unit ID parameter must be set to what has been configured on the BTS side using the __BTS Manager__ or `ipaccess-config`. <5> The ARFCN of the BTS. <6> All known nanoBTS units have a nominal transmit power of 23 dBm. If a `max_power_red` of 20 (dB) is configured, the resulting output power at the BTS Tx port is 23 - 20 = 3 dBm. [NOTE] ==== The `nominal_power` setting does __not__ influence the transmitted power to the BTS! It is a setting by which the system administrator tells the BSC about the nominal output power of the BTS. The BSC uses this as basis for calculations. ==== [[bts_example_nbts_multi]] === Example configuration for OsmoBSC with multi-TRX nanoBTS .OsmoBSC configured for dual-TRX (stacked) nanoBTS ==== ---- e1_input e1_line 0 driver ipa network network country code 1 mobile network code 1 short name OpenBSC long name OpenBSC auth policy closed location updating reject cause 13 encryption a5 0 neci 1 rrlp mode none mm info 0 handover 0 bts 0 type nanobts band DCS1800 cell_identity 0 location_area_code 1 training_sequence_code 7 base_station_id_code 63 ms max power 15 cell reselection hysteresis 4 rxlev access min 0 channel allocator ascending rach tx integer 9 rach max transmission 7 ip.access unit_id 1800 0 <1> oml ip.access stream_id 255 line 0 gprs mode none trx 0 rf_locked 0 arfcn 871 nominal power 23 max_power_red 0 rsl e1 tei 0 timeslot 0 phys_chan_config CCCH+SDCCH4 timeslot 1 phys_chan_config SDCCH8 timeslot 2 phys_chan_config TCH/F timeslot 3 phys_chan_config TCH/F timeslot 4 phys_chan_config TCH/F timeslot 5 phys_chan_config TCH/F timeslot 6 phys_chan_config TCH/F timeslot 7 phys_chan_config TCH/F trx 1 rf_locked 0 arfcn 873 nominal power 23 max_power_red 0 rsl e1 tei 0 timeslot 0 phys_chan_config SDCCH8 timeslot 1 phys_chan_config TCH/F timeslot 2 phys_chan_config TCH/F timeslot 3 phys_chan_config TCH/F timeslot 4 phys_chan_config TCH/F timeslot 5 phys_chan_config TCH/F timeslot 6 phys_chan_config TCH/F timeslot 7 phys_chan_config TCH/F ---- ==== <1> In this example, the IPA Unit ID is specified as `1800 0`. Thus, the first nanoBTS unit (`trx 0`) needs to be configured to 1800/0/0 and the second nanoBTS unit (`trx 1`) needs to be configured to 1800/0/1. You can configure the BTS unit IDs using the `ipaccess-config` utility included in OpenBSC. [NOTE] ==== For building a multi-TRX setup, you also need to connect the TIB cables between the two nanoBTS units, as well as the coaxial/RF AUX cabling. ====