Repeater adalah suatu perangkat elektronik yang menerima sinyal dan mengirimkembali sinyal itu pada tingkat yang lebih tinggi dan / atau kekuatan yang lebih tinggi, atauke sisi lain dari sua…Full description
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Repeaters in wireless networks: from coverage to capacity Dr Mike Lewis SDR repeater architect
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Topics • Repeaters in wireless systems • Design challenges in repeaters • Capacity-centric versus coverage-centric design
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Repeaters in wireless systems
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“Gap-filling” coverage extension Donor Antenna Service Antenna seitilicaF laireA detimiL
Donor BTS Repeater
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Tunnel coverage Donor BTS
Repeater located externally or in equipment room Donor Antenna
Aerial Facilities Limited
Radiating cable in tunnel
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In-building coverage Donor BTS Direct signal from the BTS cannot penetrate the building; signal is distributed within the building via panel antennas and radiating cable
Donor antenna and remote repeater
80% of mobile phone calls originate in buildings! www.axellwireless.com
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Fibre-fed systems (active DAS)
Repeater
Fibre input
7/16 type Connect or
Indoor 1
Repeater
Fibre input
7/16 type Connect or
Indoor 2
Lightning protection EMP
Hydrid
Controller HI B
2 x 30dB Coupler
POWER SUPPLY
POWER SUPPLY +5V +10 V +15 V
+5V +10 V +15 V
c
Master Unit
Controller
c
HI B
POWER SUPPLY +5V +10 V +15 V
POWER SUPPLY +5V +10 V +15 V
Repeater
Fibre input
7/16 type Connect or
Indoor 3
Repeater
Fibre input
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7/16 type Connect or
Indoor 4
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In building Coverage with active DAS
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On-board repeaters
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Why use repeaters? • Why not just install another base station? – Cheaper! Cost of a base station may not be motivated if not enough users being served. • Rural areas / coverage black spots • Roll-out of new technology with few users
– No need for data connection to core network • Remote sites (or moving ones!)
– Operator-neutral • Example: coverage for a shopping mall or stadium, installed by building owner
• Multi-hop relaying introduced in LTE – Not clear if this will be cost-effective www.axellwireless.com
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REPEATER DESIGN CHALLENGES
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Basic repeater Downlink path Control logic
ADC
Donor (BTS side) www.axellwireless.com
LNA
MCPA
ADC
Control logic
RMS power
MCPA
LNA
Uplink path
Server (mobile side)
RMS power
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Overlap-zone interference • In overlap area: – Direct signal coming from base station – Delayed signal from the repeater
• Signal from repeater appears as strong ISI – Often find some pathological region where signals almost equal
Donor Antenna
Service Antenna
Donor BTS
Repeater
Must minimize repeater delay – “Repeater” multipath adds to “real” multipath for receiver to handle •
Goals: < 6µs for GSM, 14µs TETRA
– Delay also has an effect on max cell size (round-trip time)
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TX – RX isolation Path loss -ISOLATION (dB)
GAIN (dB)
• High gain typically desirable (80-90dB) • Finite isolation between transmit and receive antennae 𝐼𝑠𝑜𝑙𝑎𝑡𝑖𝑜𝑛 𝑚𝑎𝑟𝑔𝑖𝑛(𝑑𝐵) = 𝐼𝑠𝑜𝑙𝑎𝑡𝑖𝑜𝑛 − 𝐺𝑎𝑖𝑛
Frequency shift gives very large isolation (due to filter rejection) Allows the use of omni antennas for coverage
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Repeaters versus base station design • Both repeaters and base stations need to meet similar regulatory requirements • Base station is master of system timing – Processing delay allowed for as part of mobile standards – Repeater has to minimize delay
• Power control algorithms seek to normalize power into base station – Repeater located “out in the cell” and can see a wide range of signal levels
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Repeaters versus base station design • Base station works with baseband data – Can perform various data-aided algorithms to compensate for non-ideal RX path, or precompensate for TX path – Repeater has (almost) no knowledge of the underlying signals
• Repeater output power levels typically lower than for (macro) base stations – But wide bands, many carriers, high dynamic range and less scope for crest factor reduction
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Digital repeaters • Traditional repeaters have been purely analogue (other than supervision) – Filtering fixed, defined by e.g. SAW filters – Each passband has a separate down / upmixer and IF path
• Proliferation of standards and multioperator scenarios require more flexibility – And need very sharp filtering
GSM filter
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G B
WCDMA Filter
G B
GSM Filter
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Traditional repeater Downlink path Control logic
ADC
Donor (BTS side) www.axellwireless.com
LNA
MCPA
IF stages replicated once per passband ADC
Control logic
RMS power
MCPA
LNA
Uplink path
Server (mobile side)
RMS power
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Digital repeater Downlink path
Donor (BTS side)
Server (mobile side)
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Uplink path
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Advantages of digital repeater • Easy to adapt to new requirements – FPGA-based processing is a “blank sheet” – Filter bandwidths, frequencies all flexible
• Better support for multiple passbands – Cheaper, smaller, lower power
• Filtering numerically defined – Can implement stable, sharp filters
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Advantages of digital repeater • Access to signal in digital form – Easy to perform measurements on signal, implement gain control algorithms – Can use digital techniques to correct for analogue imperfections • Digital pre-distortion for PA linearization • Feedback cancellation • …
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Disadvantages of digital repeater • High performance A/D and D/A needed – Wide signal band, and high-IF sampling used due to image rejection issues • Zero-IF not practical: I/Q compensation not enough due to high gain from input to output
– High dynamic range
• Aliasing needs to be managed • Processing delay of FPGA needs to be carefully managed … but high performance mixed signal components and FPGAs now affordable. www.axellwireless.com
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CAPACITY-CENTRIC VERSUS COVERAGE-CENTRIC DESIGN
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The capacity problem… • Coverage used to be the main focus of mobile operators – Explosion of data usage is changing that
• Need enough carrier frequencies to meet bandwidth requirements – Or users get kicked off onto older technologies
• Only solution: have denser base station sector coverage – Higher frequency re-use, fewer users per sector www.axellwireless.com
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Base station hotels – the solution to site acquisition issues
• Shortage of suitable sites • Requirements on air conditioning • Transmission needs • Many base stations will be needed in the mature network
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Base station hotels – the solution to site acquisition issues
Phase 1: few users www.axellwireless.com
Base station hotels – the solution to site acquisition issues
Phase 2: more users
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Base station hotels – the solution to site acquisition issues
Bill Boards
Phase 3: many users www.axellwireless.com
London 2012 • Axell providing a coverage system across the park for both Cellular and public safety • There is one BTS hotel for the 4 operators with 600 base stations in it • Solution involves over 300 fibre-fed repeaters across the campus
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Venues for Axell Wireless
Possible new
Current orders for the
requirements
Olympic park
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Repeaters versus RRHs • Remote radio heads: base station transceiver at end of digital fibre link – How can a repeater-based distributed antenna system compete? – Also: micro / nano / pico base stations?
• Multi-operator support! – For in-building applications, stadia, tunnel systems: typically the site owner installs the equipment. – Don’t want to install separate equipment per operator: costly and space issues www.axellwireless.com
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Conclusions • Traditional repeaters will always have their place in wireless networks, but… • Distributed antenna systems blur the borders between the base station and repeater network • Requirement to support multiple operators will drive DAS business • Managing capacity the next big challenge