Advanced Timing for High Speed Connectivity...2 Synchronizer output q16ppb / 1ms q10ns (Cluster)...
Transcript of Advanced Timing for High Speed Connectivity...2 Synchronizer output q16ppb / 1ms q10ns (Cluster)...
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5G RRH Phase Synchronization Challenges
Advanced Timing for High Speed Connectivity
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5G RRH requirements 5G front-haul configurationsAdditional filtering on RRHOscillator requirements Network configurations and oscillators
Agenda
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Synchronizer output q 16ppb / 1msq 10ns (Cluster) q 200ns (End to End)
Radioq 50ppb / 1msq 65ns (Cluster) q 1.5uS (end to end)
Overall & Synchronizer output requirements
50ppb
eCPRI/Ethe-rnet
RF PLL
VCXO
DAC & PA
ADC & LNA
Filters
PTP PLL
TCXOOCXO
RF PLL
GHz VCXO16ppb
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RRH network deployment scenarios (XRAN)
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#1 Point to Point
#2 G.8273.2 A/B/C/D with n hops
#3 PTP-GM on front-haul, n hops on each sides to CU/DU and RRH
#4 Full chain of EEC
#5 Cases #1-#4 with eEEC
#6 PTP-GM on the RRH
Cases #1-#3 with no SyncE support
At Constant temperature
All cases with temperature variation
CU/DU - RRH Summary of Network Scenarios
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Commonly used scenarios
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Synchronizer: Error inputs & Output Errors
PTP PLL
TCXOOCXO
Packet Network
Noise
Oscillator Noise
System Error
Low Pass filtered Packet Network Noise
High Pass filtered Oscillator noise
SyncE PLL
SyncE Network
Noise
Low Pass filtered SyncE Network Noise
Physical Layer Error
High Pass filtered
( High Pass filtered Oscillator noise
+ Low Pass filtered
SyncE Network Noise)
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Network Limit of G.8262/G.8262.1 from G.8261
*G.8262.1 may have a reduced network limit
Requirementsq To get a 16ppb ffo at the synchronizer
output
Noise at the inputONFIDENTIAL INFORMATION
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Frequency offset = A * 2 * pi * fbw
The filter value needs to be 10mHz
If network limit to be 1/5 for new networks
q Filter value to be 50mHz
Generalized approach ONFIDENTIAL INFORMATION
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With 0.1ppb/degC With 1ppb/degC
Phase Error across temperature - 10mHzONFIDENTIAL INFORMATION
Assumptions : - Wander generation with ideal input case - The radio may see a full range of temperature variations – 0.5degC/min- Various Oscillator sensitivities
<20ns 100+ns
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With 1ppb/degC With 5ppb/degC
Phase Error across temperature - 50mHzONFIDENTIAL INFORMATION
Assumptions : - Wander generation with ideal input case - The radio may see a full range of temperature variations – 0.5degC/min- Various Oscillator sensitivities
<20ns >30ns
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Sl No Description Network Error Slope Output Performance1 Traditional Networks G.8262 0.1ppb/Deg C <20ns2 New Networks G.8262.1 1ppb/deg C <20ns3 Point to point G.8262.1 Wander 5ppb/degC <20ns
Slope requirements Vs network Scenarios
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Post compensated TCXO Miniature OCXOSlope 1-5ppb/℃ 0.1ppb/℃Frequency Vs Temp Performance 30ppb (-40℃ to 85℃) 20ppb (-40℃ to 85℃)
Size 7mmx5mm, 5mmx3.2mm 7mmx5mm
Network Support New Networks Traditional Networks
Power 30mW 300mW
Warm up 100ms 3min
Oscillators for RRH
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5G RRH deployment scenarios and fronthaul configurations vary q Thus the network noise in to the RRH
Network noise and reference clock impairments contribute to phase errors q Selection of loop bandwidth and refence clock plays key role
Network structure has a major impact and selection of oscillators for Remote Radio Heads There are number of possible solutions available on the reference clocks
Summary
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Thank you