Transmission of system information for low cost user equipment

What is claimed is: 1 . A base station comprising: a transmitter configured to transmit, in resource elements (REs) of middle six resource blocks (RBs) in a downlink system bandwidth, five repetitions of a primary broadcast channel (PBCH) conveying a master information block (MIB), wherein: the five repetitions are transmitted in a first subframe (SF) of a first system frame having a first system frame number (SFN) value and in a last SF of a second system frame having a second SFN value, each of the first and last SFs includes fourteen symbols, each system frame includes ten SFs, each SFN is determined modulo 1024, and the first SFN is one larger than the second SFN, four SF symbols for a first of the repetitions are respectively transmitted in fourth, fifth, sixth, and seventh of the symbols of the last SF, four SF symbols for a second of the repetitions are respectively transmitted in eighth, ninth, tenth, and eleventh of the symbols of the last SF, four SF symbols for a third of the repetitions are respectively transmitted in twelfth, thirteenth, and fourteenth of the symbols of the last SF and in a fourth of the symbols of the first SF, four SF symbols for a fourth of the repetitions are respectively transmitted in fifth, twelfth, thirteenth, and fourteenth of the symbols of the first SF, and four SF symbols for a fifth of the repetitions are respectively transmitted in the eighth, ninth, tenth, and eleventh of the symbols of the first SF. 2 . The base station of claim 1 , wherein the MIB included in a PBCH repetition in the second system frame having the second SFN value includes information indicating the first SFN value. 3 . The base station of claim 1 , wherein the REs of a symbol from the four SF symbols for each of the five repetitions are scrambled with a same sequence in each of the five repetitions. 4 . The base station of claim 1 , wherein the transmitter is further configured to transmit common reference signals (CRS) in the middle six RBs of the downlink system bandwidth, in the fourth symbol of the last SF, and in the thirteenth symbol of the last SF. 5 . A user equipment (UE) comprising: a receiver configured to receive, in resource elements (REs) of middle six resource blocks (RBs) in a downlink system bandwidth, five repetitions of a primary broadcast channel (PBCH) conveying a master information block (MIB), wherein: the five repetitions are received in a first subframe (SF) of a first system frame having a first system frame number (SFN) value and in a last SF of a second system frame having a second SFN value, each of the first and last SFs includes fourteen symbols, each system frame includes ten SFs, each SFN is determined modulo 1024, and the first SFN is one larger than the second SFN, four SF symbols for a first of the repetitions are respectively received in fourth, fifth, sixth, and seventh of the symbols of the last SF, four SF symbols for a second of the repetitions are respectively received in eighth, ninth, tenth, and eleventh of the symbols of the last SF, four SF symbols for a third of the repetitions are respectively received in twelfth, thirteenth, and fourteenth of the symbols of the last SF and in a fourth of the symbols of the first SF, four SF symbols for a fourth of the repetitions are respectively received in fifth, twelfth, thirteenth, and fourteenth of the symbols of the first SF, and four SF symbols for a fifth of the repetitions are respectively received in eighth, ninth, tenth, and eleventh of the symbols of the first SF. 6 . The UE of claim 5 , wherein the MIB included in a PBCH repetition in the second system frame having the second SFN value includes information indicating the first SFN value. 7 . The UE of claim 5 , wherein the REs of a symbol from the four SF symbols for each of the five repetitions are scrambled with a same sequence in each of the five repetitions. 8 . The UE of claim 5 , wherein the receiver is further configured to receive common reference signals (CRS) in the middle six RBs of the downlink system bandwidth, in the fourth symbol of the last SF, and in the thirteenth symbol of the last SF. 9 . A base station comprising: a transmitter configured to transmit repetitions of a physical downlink shared channel (PDSCH) conveying a first system information block (SIB1bis), wherein: each PDSCH repetition is transmitted over a sub-band of six resource blocks (RBs) in a downlink system bandwidth and within a time interval of one subframe in a system frame that includes ten subframes, a SIB1bis transport block size (TBS) and a number R SIB1bis of PDSCH repetitions within a predetermined number T SIB1bis of system frames are jointly indicated by a value of a number of binary elements in a master information block (MIB), and each subframe in a system frame from the T SIB1bis system frames for each respective PDSCH repetition from the R SIB1bis PDSCH repetitions is determined from R SIB1bis , a system frame number (SFN), and a physical identity of the base station. 10 . The base station of claim 9 , wherein the PDSCH repetitions are transmitted over two sub-bands when the downlink system bandwidth is equal to or smaller than a predetermined size and the PDSCH repetitions are transmitted over four sub-bands when the downlink system bandwidth is larger than the predetermined size. 11 . The base station of claim 10 , wherein: sub-bands in the downlink system bandwidth are indexed according to an ascending order of RB indexes in each of the sub-bands, when the PDSCH repetitions are transmitted over the two sub-bands, indexes of the two sub-bands are N ID cell mod N SB DL and (N ID cell mod N SB DL +└N SB DL /2┘)mod N SB DL , respectively, where N ID cell is the physical identity of the base station, N SB DL is a quantity of the sub-bands in the downlink system bandwidth excluding a middle two of the sub-bands, └ ┘ is a floor function that rounds a number to an integer immediately lower than the number, and mod in a modulo function, and when the PDSCH repetitions are transmitted over the four sub-bands, indexes of the four sub-bands are: N ID cell mod N SB DL , (N ID cell mod N SB DL +└N SB DL /4┘)mod N SB DL , (N ID cell mod N SB DL +2·└N SB DL /4┘)mod N SB DL , and (N ID cell mod N SB DL +3·└N SB DL /4┘)mod N SB DL , respectively. 12 . The base station of claim 9 , wherein the SIB ibis includes a first bit-map of either ten binary elements or forty binary elements that have a one-to-one mapping to ten subframes in one system frame or forty subframes in four system frames, respectively, and a value of each binary element indicates whether or not a repetition is to be transmitted in a respective subframe. 13 . The base station of claim 12 , wherein for a transmission configured with a number of repetitions over consecutive subframes, a repetition in a subframe is counted both when the value of a respective binary element indicates that the repetition is not to be transmitted and when the value of a respective binary element indicates that the repetition is to be transmitted. 14 . The base station of claim 9 , further comprising: a receiver configured to receive repetitions of a channel, wherein the SIB1bis includes a second bit-map of ten binary elements that have a one-to-one mapping to ten subframes in a system frame and a value of each binary element indicates whether or not a repetition is to be received in a respective subframe. 15 . A user equipment (UE) comprising: a receiver configured to receive repetitions of a physical downlink shared c