2-5 Symm Frost Network Time Distribution for Small Cells
Transcript of 2-5 Symm Frost Network Time Distribution for Small Cells
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Confidential © Copyright 2013
Tim FrostWSTS, April 16, 2013
Network Time Distribution for Small Cells
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2Confidential © Copyright 2013
Agenda
• How hard can it be?• Satellite Time Distribution• Network Time Distribution• Combining the Two
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3Confidential © Copyright 2013
How hard can it be?
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LTE – FDD
LTE – TDD
LTE – CSFB to CDMA2000
LTE‐A MBSFN
LTE‐A Hetnet Coordination (eICIC)
LTE‐A CoMP (Network MIMO)
Handset Location to 100m (E911)
CDMA2000
TD‐SCDMA
GSM / UMTS / W‐CDMA
Not required± 1.5 µs (≤3 km cell radius)±5 µs (>3km cell radius)
± 10 µs
± 1 µs inter‐cell phase difference*
± 5 µs inter‐cell phase difference*
± 0.5 µs inter‐cell phase difference*
± 100 ns
± 3 to 10 µs ± 1.25 µs (sync interface)±1.5 µs (air interface)
Not required
UMTS / LTE FDD Small Cell Not required
Performance Target Specifications
Application TimeFrequency: Network / Air Interface
16 ppb / 50 ppb
NA / 100 – 250 ppb
* Vendor specific figures, no 3GPP specification
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Contributions to UTC
Uncertainty up to 20ns
Offset up to 11µs
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How long can you hold a microsecond?
• PRS (Primary Reference Source)– Frequency accuracy = 1 x 10‐11 (G.811 specification)– Holds 1µs for 100,000s (~28 hours)
• Cesium clock– Typical frequency accuracy = 5 x 10‐13
– Holds 1µs for 2,000,000s (~23 days)• Rubidium clock
– Drift under temperature cycling ~1.5µs in 24 hours• Good quality OCXO
– Drift under temperature cycling ~8µs in 24 hours
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Do not squander time!
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Satellite Time Distribution
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Satellite Time Distribution (GNSS)
• Time distributed by radio from satellite• Typical accuracy: < 100ns• Advantages:
– Global availability(provided there is a clear view of the sky)
– Accuracy– System reliability
• Disadvantages:– Clear view of sky may not be available– Vulnerability to interference from ground based transmissions– Antenna issues – wind, rain, snow, ice, corrosion, bullets!– Political issues
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Long Term GPS Performance
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In‐Building Reception
• Signal strength at earth surface around ‐130dBm• Buildings may attenuate this by over 40dB
0.00%
10.00%
20.00%
30.00%
40.00%
50.00%
60.00%
70.00%
80.00%
90.00%
100.00%
-170 -165 -160 -155 -150 -145 -140 -135 -130
Rural Flat Standalone House Rural Flat Brick Apartment Rural Flat office Building
Typical Urban Office Building Dense Urban Concrete Apartment Severe Dense Urban Office Building
Probability of higher signal level
GPS Signal Level, dBm
Graph adapted from Small Cell Forum white paper “Femtocell Synchronization and Location”, May 2012
Unassisted GPS receiver
Assisted GPS receiver
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Urban Canyons
• May not be able to view sufficient satellites all of the time– Intermittent fixes
• Multi‐path reflections distort range measurements– Path length change of 30m = time change of 100ns
Pictures from Telefonica wi‐fi small cell trial, London, summer 2012
Small cell
Microwave backhaul unit
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Interference and Jamming
• Doesn’t take much to jam a ‐130dBm signal!– Personal jammers– Legal terrestrial transmissions,e.g. Light Squared (now closed down)
– Political jamming, e.g. North Korea
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Network Timing Distribution
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PTP Slave
PTP Slave
G.8265 Architecture: Expanded view
Aggregation router
NIDPRC
PRCPTP GM
Primary PTP GM
PTP GM
SecondaryPTP GM
End Equipment (e.g. Basestations)
PTP Timing Flows
Protection Timing Flows
Edge Packet Network(packet frequency distribution)
Access Network(packet frequency distribution)
Core Network(physical layer
frequency distribution)
NID
PTP Slave
PTP Slave
PTP Slave
Aggregation router
In‐building switch
Small Cell Cluster
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G.8275.1 Profile: Full Timing Support
PTP GM
Primary PTP GM
PTP GM
SecondaryPTP GM
Edge Packet Network
PRTC
PRTC
(packet time and frequency distribution)
PTP Slave
PTP Slave
Aggregation router
NID
End Equipment (e.g. Basestations)
Access Network
NID
PTP Slave
PTP Slave
PTP Slave
Small Cell Cluster
Aggregation router
In‐building switch
Boundary Clock
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G.8275.1 Profile: Universal Boundary Clocks
• Boundary clocks very simple– Rely on SyncE for stability– BC just a simple protocol add‐on to the switch/router function– Transparent Clocks (TCs) not considered in this version
• No upgrade path from G.8265 frequency architecture– Protection and master selection based on BMCA, not G.781
• G.8265.1 slaves not compatible
• Requires upgrade of entire transmission path– Typically deployed in green‐field sites, or where no packet‐based frequency sync has been deployed
• Doesn’t solve the time offset caused by link asymmetry– Fibers are manually calibrated in existing deployments
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End Equipment (e.g. Basestations)
G.8275.2 Profile: Partial Timing Support
PTP GM
Primary PTP GM
PTP GM
SecondaryPTP GM
PRTC
PRTC
Edge Packet Network Access Network(packet time and frequency distribution)
PTP Slave
PTP Slave
NID
Access Network
NID
PTP Slave
PTP Slave
PTP Slave
Small Cell Cluster
In‐building switchPTP
BC
PTPBC
Protection Timing Flows
PTP Timing Flows
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G.8275.2 Profile: Segmented Architecture
• Strategically‐placed BCs break timing path into segments– Simple network upgrade from Frequency Profile– Re‐uses existing PTP GMs and Slaves
• Doesn’t require intermediate on‐path timing support– Allows operation over existing deployed networks
• Requires intelligent boundary and slave clocks– Intelligent algorithms filter out the packet delay variation– Clocks combine sync from any available source
• PTP, SyncE, SDH, GPS etc.– BCs can be implemented as a standalone box
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Combining the two
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End Equipment (e.g. Basestations)
Distributed GPS with PTP backup
PTP GM
Primary PTP GM
PTP GM
SecondaryPTP GM
PRTC
PRTC
Edge Packet Network(packet time and frequency distribution)
Access Network
PTP Slave
PTP Slave
NID
Access Network
NID
PTP Slave
PTP Slave
PTP Slave
Small Cell Cluster
In‐building switch
PTPBC
PTPBC
Protection Timing Flows
PTP Timing Flows
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End Equipment (e.g. Basestations)
Move GPS as close as possible to cells
PTP GM
Primary PTP GM
PTP GM
SecondaryPTP GM
PRTC
PRTC
Edge Packet Network(packet time and frequency distribution)
Access Network
PTP Slave
PTP Slave
NID
Access Network
NID
PTP Slave
PTP Slave
PTP Slave
Small Cell Cluster
In‐building switch
PTPBC
Protection Timing Flows
PTP Timing Flows
PTPBC
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Improving GNSS Detection and Acquisition
• Assisted GPS (AGPS) uses information from the network to assist in demodulating the GPS signal– Ephemeris data describes where each satellite is at any given time
• Time fix from PTP (to within a ms)– Allows GPS signal to be acquired at lower signal to noise ratio
• Position fix (e.g. from local survey)– Base stations typically don’t move!– Known position also allows the signal to be acquired at a lower SNR
• Coherent Integration– Stable frequency allows GPS signal to be integrated for longer, improving acquisition
– SyncE allows integration times of ≈5s, similar to a good TCXO– OCXO or Rb oscillator will allow longer integration times
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Maintaining time between GNSS fixes
• In urban canyons or in buildings, fixes may be several minutes apart
• Local interference or jamming may temporarily interrupt GNSS service
• Timebase maintained using stable frequency– OCXO will maintain 1µs for around 60s (variable temp)– SyncE will maintain 1µs phase for around 2000s– Rb oscillator will maintain 1µs for nearly 24 hours (variable temp)
• Timebase maintained using PTP– PTP will maintain phase indefinitely– GNSS time fix can be used to calibrate the asymmetry– Measures asymmetry on a “whole of network” basis
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Hybrid PTP/GPS/SyncE solution
BC BC
GNSS satellite
End applicatione.g. mobile basestation
PTP Grandmaster
Hybrid Slave Hybrid Slave
Packet networkSyncE
SyncE
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Hybrid PTP/SyncE/GNSS Solution
• Advantages– Initial PTP time fix allows acquisition of GNSS signal at lower power– SyncE or oscillator stability allows longer coherent integration– Accurate GPS time allows calibration of overall PTP asymmetry– PTP provides backup in event of GNSS failure
• Disadvantages– Requires installation of multiple infrastructures
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Conclusions
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Conclusions
• Several commercial applications require time accuracy well below 1µs
• No single technique is a complete solution to this:– GNSS– PTP– SyncE– Advanced oscillators
• modern temperature compensation techniques• miniature atomics (Rb and Cs)
• Hybrid techniques addresses the deficiencies of each– Creates an accurate, robust solution for precise time distribution– At least two are required for a reliable solution (GNSS + 1 other)
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Symmetricom, Inc.2300 Orchard ParkwaySan Jose, CA 95131‐1017Tel: +1 408‐428‐7907Fax: +1 408‐428‐6960
www.symmetricom.com
Thank You
Tim FrostCTO [email protected] : +44 7825 706952