Connection status between the CPE and the network ā either Checking SIM, Scanning,
Registering, Acquiring IP, Connected, or Disconnected
Indicates the strength of the signal between this CPE and the serving eNB, either
excellent, good, general, bad, or severe. The ODU CPE hardware typically displays 1 to 5
LEDs to indicate this level (Figure 7).
Indicates the local area network connection status
The number of smart devices connected to the Internet through this CPE via a LAN or
Wireless LAN (WLAN)/Wi-Fi connection
LTE-ROUTER indicates the CPE is operating as a router
Type of LTE module in the CPE
Network operator's unique identity from Baicells
ODU CPE operating software version
Date and time the software was built
ODU CPE LTE module firmware version
ODU CPE name configured by the network operator
The Universal Subscriber Identity Module, or SIM, card status is either available or not
ready in the ODU CPE
The unique International Mobile Subscriber Identity (IMSI) number associated with the
SIM card in the subscriber's ODU CPE. The IMSI must be identifiable by the operator's
LTE network in order to access it.
The LTE network operates with either Time Division Duplexing (TDD) or Frequency
Division Duplexing (FDD)
International Mobile Equipment Identity is like a serial number for the SIM card
The Public Land Mobile Number (PLMN), or operator network ID, to which the CPE is
connected
The range of frequencies within the band the CPE may use for wireless communications
with an eNB, expressed in MHz
The operator's cell site ID to which the CPE is connected. A cell site may comprise more
than one eNB. Each eNB is given a PCI to identify it.
Reference Signal Receiving Quality indicates the quality of the wireless signal
The Physical Cell Identifier (PCI) unique to each eNB. PCI indicates to which eNB the
ODU CPE is connected. An operator can have multiple eNBs serving the same cell.
The E-UTRA Absolute Radio Frequency Channel Number (band and frequency) within
which the CPE operates
The frequency, in MHz, being used in the downlink (eNB to CPE). In LTE, the carrier
frequency in the uplink and downlink is designated by the EARFCN, which identifies the
LTE band and carrier frequency.
The frequency, in MHz, that the CPE is using in the uplink (CPE to eNB). In LTE, the
carrier frequency in the uplink and downlink is designated by the EARFCN, which
identifies the LTE band and carrier frequency.
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