The document summarizes the process that occurs in a radio network controller (RNC) when radio link failure is detected between the RNC and a user equipment (UE).
1) If no RRC CELL UPDATE message is received from the UE, the RNC sends an Iu release request with a cause of "Radio Connection With UE Lost" to the packet services core network (PS-CN).
2) If the RNC receives multiple "out of sync" indicators from the base station, it starts timers T_RLFAILURE and T313. If the timers expire, the RNC releases radio bearers and sends an Iu release request with a cause of "Failure in Radio Interface Procedure" to
Design of all digital phase locked loop (d pll) with fast acquisition timeeSAT Journals
Abstract
A Digital PLL is designed with improved acquisition time and power efficiency. The implemented D-PLL can operate
from 6.54MHz to 105MHz with a power dissipation of is 7.763μW (at 210MHz) with 1.2V supply voltage. The D-PLL is
synthesized using cadence RTL compiler in 45nm CMOS process technology.
Keywords: Digital PLL, Digital Phase/Frequency detector, NCO, Divide by N counter.
Design of all digital phase locked loop (d pll) with fast acquisition timeeSAT Journals
Abstract
A Digital PLL is designed with improved acquisition time and power efficiency. The implemented D-PLL can operate
from 6.54MHz to 105MHz with a power dissipation of is 7.763μW (at 210MHz) with 1.2V supply voltage. The D-PLL is
synthesized using cadence RTL compiler in 45nm CMOS process technology.
Keywords: Digital PLL, Digital Phase/Frequency detector, NCO, Divide by N counter.
Phase Locked Loop with Filter Banks for High Data Rate Satellite Linkchiragwarty
Satellite communication systems operate in the
presence of path loss and atmospherically induced fading,
which results in waveform distortion, altering phase and bit
time period. After penetrating through several atmospheric
layers, the signal experiences Doppler shift which results in
frequency change and phase reversal, thus to sync the
receiver to the incoming signal we make use of the Phase
Locked Loop (PLL) with a filter at its core functioning.
To recover and reconstruct the original signal, the use of
filter banks in the loop filter block of the PLL will be added
and discussed. The idea of using M-channel uniform filter
banks is to minimize the error by optimizing the
performance in decomposition and reconstruction of signals.
Using different types of fundamental coherent digital
modulation schemes like, M-ary Amplitude/Frequency
/Phase shift keying (MASK, MFSK, MPSK), the best
optimized solution can be determined for all M-channels for
high data rates and bandwidth constraints.
The presentation studies the design of a digital PLL system by
using a variable filter block for several digital modulation
schemes used in ground to space communication links. Two
basic designs will be developed, first model with a fixed set
of filters, those seen in traditional legacy systems and the
second model, which consist of a filtering block made up of
Quadrature Mirror Filter banks (QMF). The method is based
on the strength of the incoming signal and modulation
scheme, which in turn decides the number of filter banks, to
be used to recover the signal.
In this presentation, the focus on pseudo-adaptive nature of the
filter banks is to reconstruct the original signal, considering
the effects of Doppler shift for fast moving airborne
platforms. Subsequently, the comparison between the
performance of the fixed filter based architecture and the
additional design with the variable pseudo-adaptive filter
banks design includes the QMF and Discrete Cosine
Transform Filter banks (DCT). This will follow with the
software oriented simulation of the performance of the
proposed design method, in different scenarios experienced
in satellite links.
Phase Locked Loop with Filter Banks for High Data Rate Satellite Linkchiragwarty
Satellite communication systems operate in the
presence of path loss and atmospherically induced fading,
which results in waveform distortion, altering phase and bit
time period. After penetrating through several atmospheric
layers, the signal experiences Doppler shift which results in
frequency change and phase reversal, thus to sync the
receiver to the incoming signal we make use of the Phase
Locked Loop (PLL) with a filter at its core functioning.
To recover and reconstruct the original signal, the use of
filter banks in the loop filter block of the PLL will be added
and discussed. The idea of using M-channel uniform filter
banks is to minimize the error by optimizing the
performance in decomposition and reconstruction of signals.
Using different types of fundamental coherent digital
modulation schemes like, M-ary Amplitude/Frequency
/Phase shift keying (MASK, MFSK, MPSK), the best
optimized solution can be determined for all M-channels for
high data rates and bandwidth constraints.
The presentation studies the design of a digital PLL system by
using a variable filter block for several digital modulation
schemes used in ground to space communication links. Two
basic designs will be developed, first model with a fixed set
of filters, those seen in traditional legacy systems and the
second model, which consist of a filtering block made up of
Quadrature Mirror Filter banks (QMF). The method is based
on the strength of the incoming signal and modulation
scheme, which in turn decides the number of filter banks, to
be used to recover the signal.
In this presentation, the focus on pseudo-adaptive nature of the
filter banks is to reconstruct the original signal, considering
the effects of Doppler shift for fast moving airborne
platforms. Subsequently, the comparison between the
performance of the fixed filter based architecture and the
additional design with the variable pseudo-adaptive filter
banks design includes the QMF and Discrete Cosine
Transform Filter banks (DCT). This will follow with the
software oriented simulation of the performance of the
proposed design method, in different scenarios experienced
in satellite links.