LTE ARCHITECTURE
LTE physical channels
The LTE physical channels vary between the uplink and the
downlink as each has different requirements and operates in a different manner.
- Downlink:
- Physical Broadcast
Channel (PBCH):
This physical channel carries system information for UEs requiring to
access the network. It only carries what is termed Master Information
Block, MIB, messages. The modulation scheme is always QPSK and the
information bits are coded and rate matched - the bits are then scrambled
using a scrambling sequence specific to the cell to prevent confusion
with data from other cells.
The MIB message on the PBCH is mapped onto the central 72 subcarriers or
six central resource blocks regardless of the overall system bandwidth. A
PBCH message is repeated every 40 ms, i.e. one TTI of PBCH includes four
radio frames.
The PBCH transmissions has 14 information bits, 10 spare bits, and 16 CRC
bits.
- Physical Control Format Indicator Channel (PCFICH)
: As the name implies the PCFICH informs the UE about the
format of the signal being received. It indicates the number of OFDM
symbols used for the PDCCHs, whether 1, 2, or 3. The information within
the PCFICH is essential because the UE does not have prior information about
the size of the control region.
A PCFICH is transmitted on the first symbol of every sub-frame and
carries a Control Format Indicator, CFI, field. The CFI contains a 32 bit
code word that represents 1, 2, or 3. CFI 4 is reserved for possible
future use.
The PCFICH uses 32,2 block coding which results in a 1/16 coding rate,
and it always uses QPSK modulation to ensure robust reception.
- Physical Downlink Control
Channel (PDCCH) :
The main purpose of this physical channel is to carry mainly scheduling
information of different types:
- Downlink resource scheduling
- Uplink power control
instructions
- Uplink resource grant
- Indication for paging or system
information
The
PDCCH contains a message known as the Downlink Control Information, DCI which
carries the control information for a particular UE or group of UEs. The DCI
format has several different types which are defined with different sizes. The
different format types include: Type 0, 1, 1A, 1B, 1C, 1D, 2, 2A, 2B, 2C, 3,
3A, and 4.
- Physical Hybrid ARQ Indicator
Channel (PHICH) :
As the name implies, this channel is used to report the Hybrid ARQ
status. It carries the HARQ ACK/NACK signal indicating whether a
transport block has been correctly received. The HARQ indicator is 1 bit
long - "0" indicates ACK, and "1" indicates NACK.
The PHICH is transmitted within the control region of the subframe and is
typically only transmitted within the first symbol. If the radio link is
poor, then the PHICH is extended to a number symbols for robustness.
- Uplink:
- Physical Uplink Control
Channel (PUCCH) :
The Physical Uplink Control Channel, PUCCH provides the various control
signalling requirements. There are a number of different PUCCH formats
defined to enable the channel to carry the required information in the
most efficient format for the particular scenario encountered. It
includes the ability to carry SRs, Scheduling Requests.
The basic formats are summarised below:
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PUCCH FORMAT
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UPLINK CONTROL INFORMATION
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MODULATION SCHEME
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BITS PER SUB-FRAME
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NOTES
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Format 1
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SR
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N/A
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N/A
|
|
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Format 1a
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1 bit HARQ ACK/NACK with or
without SR
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BPSK
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1
|
|
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Format 1b
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2 bit HARQ ACK/NACK with or
without SR
|
QPSK
|
2
|
|
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Format 2
|
CQI/PMI or RI
|
QPSK
|
20
|
|
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Format 2a
|
CQI/PMI or RI and 1 bit HARQ
ACK/NACK
|
QPSK + BPSK
|
21
|
|
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Format 2b
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CQI/PMI or RI and 2 bit HARQ
ACK/NACK
|
QPSK + BPSK
|
22
|
|
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Format 3
|
|
|
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Provides support for carrier
aggregation.
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- Physical Uplink Shared
Channel (PUSCH) :
This physical channel found on the LTE uplink is the Uplink counterpart
of PDSCH
- Physical Random Access
Channel (PRACH) :
This uplink physical channel is used for random access functions. This is
the only non-synchronised transmission that the UE can make within LTE.
The downlink and uplink propagation delays are unknown when PRACH is used
and therefore it cannot be synchronised.
The PRACH instance is made up from two sequences: a cyclic prefix and a
guard period. The preamble sequence may be repeated to enable the eNodeB
to decode the preamble when link conditions are poor.
LTE transport channels
The LTE transport channels vary between the uplink and the
downlink as each has different requirements and operates in a different manner.
Physical layer transport channels offer information transfer to medium access
control (MAC) and higher layers.
- Downlink:
- Broadcast Channel (BCH) : The LTE
transport channel maps to Broadcast Control Channel (BCCH)
- Downlink Shared Channel
(DL-SCH) :
This transport channel is the main channel for downlink data transfer. It
is used by many logical channels.
- Paging Channel (PCH) : To
convey the PCCH
- Multicast Channel (MCH) : This
transport channel is used to transmit MCCH information to set up
multicast transmissions.
- Uplink:
- Uplink Shared Channel
(UL-SCH) :
This transport channel is the main channel for uplink data transfer. It is
used by many logical channels.
- Random Access Channel
(RACH) :
This is used for random access requirements.
LTE logical channels
The logical channels cover the data carried over the radio
interface. The Service Access Point, SAP between MAC sublayer and the RLC
sublayer provides the logical channel.
- Control channels: these LTE
control channels carry the control plane information:
- Broadcast Control Channel
(BCCH) :
This control channel provides system information to all mobile terminals
connected to the eNodeB.
- Paging Control Channel
(PCCH) :
This control channel is used for paging information when searching a unit
on a network.
- Common Control Channel
(CCCH) :
This channel is used for random access information, e.g. for actions
including setting up a connection.
- Multicast Control Channel
(MCCH) :
This control channel is used for Information needed for multicast
reception.
- Dedicated Control Channel
(DCCH) :
This control channel is used for carrying user-specific control
information, e.g. for controlling actions including power control,
handover, etc..
- Traffic channels:These
LTE traffic channels carry the user-plane data:
- Dedicated Traffic Channel
(DTCH) :
This traffic channel is used for the transmission of user data.
- Multicast Traffic Channel
(MTCH) :
This channel is used for the transmission of multicast data.
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This one is very useful
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