5G Interview Questions: 50 Questions on Spectrum

5G Interview Questions
50 Questions on Spectrum
Last Updated: 22 Sep 2019
@3g4gUK

Background Material
©3G4G
• If you are not familiar with the topic, please see the following
resources:
• Radio Frequency, Band and Spectrum (link)
• 5G Spectrum - Long Version (link)
• 5G Spectrum - Short Version (link)
• Non millimeter Wave (mmWave) 5G (link)
• The Politics of SA vs NSA 5G & 4G Speeds (link)
• What is "True 5G"? (and "True 4G"?) (link)
• All our videos are available on: https://www.youtube.com/3G4G5G

01: FR1 & FR2
©3G4G
• Question: What’s the range of 3GPP defined FR1 & FR2?
• Answer: The current range if FR1 & FR2 defined by 3GPP is:
• FR1: 410 MHz – 7.125 GHz
• FR2: 24.25 GHz – 52.6 GHz

02: Radio Spectrum
©3G4G
• Question: What frequencies does Radio Spectrum cover?
• Answer: The Radio Spectrum is part of spectrum from 3Hz to 3000GHz
(3 THz)

03: mmWave
©3G4G
• Question: What is millimetre wave spectrum?
• Answer: Technically mmWave starts from 30 GHz but people refer to all
frequencies in FR2 as mmWave

04: Spectrum Layers
©3G4G
• Question: What are the different types of frequencies that operator
needs?
• Answer: Coverage layer frequencies (sub-1GHz), Capacity layer
frequencies (1 – 7.125 GHz) and High-throughput layer frequencies
(24.25 – 52.6 GHz)

05: Most Popular Bands
©3G4G
• Question: What are most popular 5G frequency bands?
• Answer: 700 MHz, 3.5 GHz & 28 GHz

06: New Spectrum
©3G4G
• Question: Does 5G require new spectrum?
• Answer: Not necessarily. Existing 2G/3G/4G spectrum could be re-
farmed for 5G

07: Minimum Spectrum
©3G4G
• Question: What is the minimum amount of spectrum that 5G requires?
• Answer: In theory, for a Non-Standalone 5G, a minimum of 1.4 MHz of
4G and 5 MHz of 5G spectrum is required. So in theory, 6.4 MHz
Check out the 5G Terminology presentation to learn about Standalone & Non-Standalone 5G

08: Coverage Layer
©3G4G
• Question: Is coverage layer frequency a must?
• Answer: For a Non-Standalone 5G, low-band 4G can suffice. For
standalone 5G, this will most-likely be required to provide a nationwide
5G

09: Existing Spectrum Issues
©3G4G
• Question: What problems may be encountered by using existing
2G/3G/4G spectrum for 5G?
• Answer: There may not be enough bandwidth in the existing 2G/3G/4G
spectrum to provide a meaningful 5G capacity & throughput. Also, if
the existing frequency is used, the current technology will have to be
switched off or it will not perform as expected.

10: C-band
©3G4G
• Question: What is C band?
• Answer: ITU-R defines C band as: 3.4 – 4.2, 4.5 – 4.8, 5.85 – 7.075 GHz.
For 5G, C band is generally referred to as 3.4 – 4.2 GHz

11: Lowest Frequency
©3G4G
• Question: What’s the lowest frequency of which 5G is being rolled out
today?
• Answer: T-Mobile in USA has launched 5G in 600 MHz band. This is
probably the lowest frequency 5G in operation today.

12: Highest Frequency
©3G4G
• Question: What’s the highest frequency on which 5G is being rolled out
today?
• Answer: Softbank in Japan has won 29.1 – 29.5 GHz spectrum. This is
probably the highest frequency in which commercial 5G will be rolled
out. In USA, 37 GHz, 39 GHz and 47 GHz will be auctioned very soon
(Q4 2019).

13: Minimum Bandwidth
©3G4G
• Question: What’s the minimum bandwidth of a 5G band
• Answer: The minimum bandwidth for 5G is:
• FR1: 5 MHz
• FR2: 50 MHz

14: Maximum Bandwidth
©3G4G
• Question: What’s the maximum bandwidth of a 5G band?
• Answer: The maximum bandwidth for 5G is:
• FR1: 100 MHz
• FR2: 400 MHz

15: 28GHz controversy
©3G4G
• Question: What’s this controversy about 28 GHz band?
• Answer: The 28GHz band
was not approved by ITU
in WRC-15 for 5G study.
This implies that no one
should be launching 5G on
this band as it’s a non-
approved band. USA,
Canada, S.Korea and Japan
are launching 5G in 28 GHz
band anyways.

16: 5GHz 5G
©3G4G
• Question: Can 5GHz license-exempt band be used for 5G?
• Answer: At present (Release-15), no. In future 5G can probably use the
5GHz band for supplemental uplink/downlink.

17: Nationwide 5G
©3G4G
• Question: How do you roll out nationwide 5G?
• Answer: In any coverage layer frequency. T-Mobile USA is planning to
rollout 5G in 600 MHz band to get a nationwide 5G.

18: Sprint 5G
©3G4G
• Question: Why is Sprint’s 5G special?
• Answer: Sprint in USA has loads of 2.5 GHz spectrum (band 41)
available. It’s using part of this band for 4G and part for 5G. They also
have same antennas transmitting both 4G & 5G.

19: DSS
©3G4G
• Question: What is DSS?
• Answer: In Static Spectrum Re-farming Scheme, the spectrum has to be divided
statically in advance. This would mean that 4G would become congested while 5G
spectrum wasn’t efficiently used. In Dynamic Spectrum Sharing (DSS), the spectrum
is allocated to both 4G & 5G by the scheduler intelligently, depending on the
requirements. This is much more efficient use of Spectrum

20: Ideal Spectrum
©3G4G
• Question: Which country has got most balanced 5G spectrum?
• Answer: Ideally the operators in a country should get access to coverage, capacity
and high throughout layer at the same time. This ensures they can plan their
rollout efficiently. Italy is one such country where operators have these three
bands.

21: 5G CA
©3G4G
• Question: Can you do carrier aggregation with 5G?
• Answer: While LTE-A supported up to 5 Component Carriers (CC), each
with a max of 20 MHz for Carrier Aggregation, LTE-A Pro supports 32
CCs with a max of 20 MHz for Carrier Aggregation. On the other hand,
5G NR supports up to 16 CCs of max 400 MHz bandwidth for each
component carrier.

22: LTE-5G CA
©3G4G
• Question: Can you aggregate LTE & 5G?
• Answer: Dual connectivity in Non-Standalone 5G allows combining of
carrier aggregated LTE and carrier aggregated NR spectrum but carrier
aggregation of LTE-5G carriers are not allowed.

23: Dual-Connectivity
©3G4G
• Question: What is dual connectivity?
• Answer: Dual Connectivity (DC) was introduced in 3GPP to allow a UE to
simultaneously transmit and receive data on multiple component carriers from two
cell groups via master eNB (MeNB) and secondary eNB (SeNB). DC can increase
user throughput, provide mobility robustness, and support load-balancing among
eNBs.
Continued…

23: Dual-Connectivity - Continued
©3G4G
• While there is only one C-plane S1-MME connection per UE
• RRC connection via MeNB only, SeNB connection is controlled through MeNB
• There are two DC user-plane architecture options are supported:
• 1A – S1-U termination at MeNB and SeNB (analogous to carrier aggregation)
• 3C – S1-U termination at MeNB, bearer split in RAN (analogous to off-loading)

23: Dual-Connectivity - Continued
©3G4G
In case of LTE – NR Dual Connectivity
• Stand-alone NR - UE accesses standalone NR carrier and may not be connected to an LTE carrier.
• Non stand-alone NR (dual connectivity of LTE and NR) - UE accesses LTE PCell, then is configured by
dual connectivity to also operate on NR
• UE may be simultaneously connected to LTE and NR, or to LTE for control plane and NR for user
plane

24: Interference
©3G4G
• Question: Is there interference between LTE & 5G bands
• Answer: With so many different bands in use, there is a small possibility of interference between them. A
recent whitepaper from Keysight points out that the 5G Uplink transmission in 3.5 GHz band might
significantly interfere with 4G in the 1.8 GHz band in downlink direction. Maybe bad news, especially in
Europe, where these are heavily used.

25: Most popular bands for all Gs
©3G4G
• Question: What are most popular bands worldwide for 2G, 3G, 4G & 5G?
• Answer: Most popular band for:
• 2G is 900 MHz/1800 MHz,
• 3G is 2100 MHz (2.1 GHz), which is Band 1.
• 4G is 1800 MHz (mostly re-farmed from 2G), which is band 3 or 2.6 GHz, band 7.
• For 5G we have already discussed, as shown in the picture below.

26: 60 GHz Spectrum
©3G4G
• Question: Can 60 GHz WiGig spectrum be used for 5G?
• Answer: At the moment, frequency range FR2 stops at 52.6 GHz so 60
GHz is beyond the usable 5G FR2 spectrum limit.

27: Most-popular Backhaul Bands
©3G4G
• Question: What are most popular bands used for Backhaul?
• Answer: GSMA Mobile Backhaul Options whitepaper listed Microwave,
V-band and E-band as the most popular backhaul bands.

28: Wavelength
©3G4G
• Question: How is a wavelength defined?
• Answer: Wavelength (generally written as Greek letter Lambda ‘λ’) is
the distance between similar points on two back-to-back waves.
• Its calculated λ = c / f, where c is the speed of light, 299,792,458 m/s
• For 1MHz, λ = 299.792458 metres or roughly 300 m
• For 1GHz, λ is roughly 30cm

29: Frequency selection
©3G4G
• Question: Is low frequencies better or higher frequencies?
• Answer: Well, it depends. Low frequencies is good for providing coverage while
higher frequencies are good for providing capacity and higher throughput

30: Dangers of mmWave
©3G4G
• Question: Why is mmWave dangerous?
• Answer: It’s not! Millimetre waves are not dangerous. Ionizing radiation is
dangerous to humans and it occurs at far far higher frequency. Even the light from
sun, bulbs, LEDs, etc occurs at much higher frequencies than 5G but is not
dangerous.

31: Spectrum Band
©3G4G
• Question: How do you define spectrum band
• Answer: A Spectrum (plural ‘spectra’ or ‘spectrums’) is used to classify
something on a scale between two extreme points. The Radio
Frequency Spectrum is part of spectrum from 3Hz to 3000GHz (3 THz).
Bands are group of frequencies, defined to make it easier to remember.

32: mmWave Distance
©3G4G
• Question: Why doesn’t mmWave travel far
• Answer: As we saw earlier, higher frequencies means shorter
wavelengths. In higher frequencies, energy is lost due to collisions
between the particles in the medium in which it travels and the
photons of the electromagnetic wave. This increases when frequency
increases as compared with low frequency signals and this can be seen
through the above sample picture. So higher Energy is lost for higher
frequencies or shorter wavelengths. mmWave frequencies are much
higher, implying much more loss of energy

32: mmWave Distance – continued…
A comparison of pathloss for 2.6GHz, 28 GHz and 39 GHz is shown in the table below. As can be
seen, the pathloss increases at higher frequencies.
©3G4G
Source

33: Re-farming
©3G4G
• Question: What is spectrum re-farming?
• Answer: When spectrum used for existing technologies are used for newer
technologies, this is called re-farming of spectrum. If all the frequency from an
existing technology is refarmed, the existing technology is switched off. This can be
understood by looking at example below.

34: Small Cell Frequencies
©3G4G
• Question: What spectrum will 5G small cells use?
• Answer: Small cells can be used for capacity layer as well as high-
throughput layers.

35: URLLC Spectrum
©3G4G
• Question: What spectrum does URLLC require?
• Answer: URLLC feature is spectrum independent. Having said that, it is
mostly characterised by low data rates along with very low latency and
extremely high reliability. For generic URLLC applications that will need
mobility, coverage layer spectrum will have a big role to play, followed
by capacity layer spectrum.

36: mMTC Spectrum
©3G4G
• Question: What spectrum will mMTC use?
• Answer: The requirements for 5G requires a support for very high
number of M2M / MTC / IoT devices. These devices do not transmit a
lot of data but require a near ubiquitous connectivity. Coverage layer
spectrum, sub-1GHz has a big role to play in case of mMTC.

37: eMBB Bandwidth
©3G4G
• Question: What is a reasonable amount of bandwidth for rolling out
eMBB services?
• Answer: For reasonable speeds, in case of NSA 5G networks, a
combined 50 MHz spectrum of 4G & 5G is a reasonable amount. In
case of SA 5G, 50 MHz of carrier aggregated 5G spectrum is a
reasonable amount. The higher the amount of bandwidth, the better
the throughput and QoE for the end user.

38: mMIMO Spectrum
©3G4G
• Question: At what frequency onwards can you start using mMIMO?
• Answer: You can start using massive MIMO from above 2GHz ideally. This is
because the antenna sizes are large for below 2GHz, especially for massive MIMO.
Sprint in US is using mMIMO for their 2.5 GHz 4G & 5G rollout.

39: 5G & 4G same spectrum
©3G4G
• Question: Can 5G & 4G exist in same spectrum?
• Answer: Yes, of course. T-Mobile in USA has launched 4G in 600 MHz
(Band 71) and is launching 5G in the same band. Sprint, another US
operator is doing the same with 2.5 GHz band (Band 41).

40: Terahertz (THz) Frequencies
©3G4G
• Question: What are Terahertz (THz) Frequencies?
• Answer: Just as we use the phrase ‘kilo’ to mean 103 , so we use the
term ‘giga’ to mean 109 and the term ‘tera’ to mean 1012 . “Hertz (Hz)”
is a unit of a physical quantity called frequency. It indicates how many
times alternating electric signals and electromagnetic waves change
polarity (plus and minus) per second. That is, one terahertz (1 THz =
1,000 GHz) is the frequency of the electromagnetic wave changing the
polarity by 1 × 1012 times per second. In general, a terahertz wave
often indicates an electromagnetic wave of 0.3 THz to 3 THz.
In Beyond-5G research, any frequency above 100 GHz is being called as
THz.

41: Contiguous Spectrum
©3G4G
• Question: Does 5G require contiguous spectrum in a band?
• Answer: Not necessarily. Carrier Aggregation could be used but having
a contiguous spectrum will help reduce signalling and will be a much
more efficient use of spectrum.

42: 100 MHz Bandwidth
©3G4G
• Question: Is 100 MHz bandwidth required to roll out true 5G?
• Answer: Some operators are emphasizing that 100 MHz bandwidth is
required to roll out real 5G but there is no such requirement. The
minimum 100 MHz bandwidth is a requirement set for the minimum
technical performance of IMT-2020 candidate radio interface
technologies. That is to say that this is the minimum as to what the 5G
standards defined by 3GPP must support, not the actual operator 5G
deployment
For more information, watch our Opinion piece here.

43: FWA Spectrum
©3G4G
• Question: What spectrum is required to roll out FWA?
• Answer: Ideally you need large amount of bandwidth to roll out Fixed-
Wireless Access network. In some cases, operators are using the
Capacity layer spectrum while in other cases, operators are using High-
Throughput Layer Spectrum. In both the cases, Massive MIMO and
Beamforming can increase capacity significantly

44: 5G Impact on 4G Speeds
©3G4G
• Question: Will 5G reduce 4G speeds?
• Answer: There are quite a few debates on this subject. Most operators insist that
5G will not impact 4G speeds but when 5G SA network is rolled out, some 4G
spectrum will have to be re-farmed for 5G. Also in case of 5G NSA, 4G carriers are
being used along with the 5G carriers to increase throughput. Watch our Opinion
piece here.

45: mmWave Penetration
©3G4G
• Question: Is there any issue with mmWave penetrating indoors?
• Answer: Yes, see questions 29 and 32. mmWave gets attenuated
significantly when it hits any object hence indoor penetration could be
an issue. On the other hand, mmWave is ideal for outdoor / indoor
isolation as the mmWave also doesn’t overflow outside from indoors.

46: mmWave Penetration – Part 2
©3G4G
• Question: Many demos show mmWave penetrating indoors from outside. How
come?
• Answer: We get this question all the time. Nearly all of the 5G demos with
mmWave are NSA 5G. Even if the mmWave spectrum gets completely attenuated,
the 4G spectrum continues to function normally. The speeds you see if the
aggregated throughput speeds. Should the device show 5G icon in this case? Read
details here.

47: Private 5G Spectrum
©3G4G
• Question: What Spectrum can Private 5G use?
• Answer: Private 5G can use any of the 5G spectrum in use today. In
addition some of the spectrum being released on shared basis can be
used for 5G too. For example the CBRS spectrum in USA is the same as
Capacity Layer 5G used everywhere else. So operators can deploy
private 5G in this spectrum.
In the UK, Ofcom has made 3.8 GHz to 4.2 GHz on a lightly licensed
basis. This will also be used for private 5G in future.

48: mmWave Indoors
©3G4G
• Question: Can mmWave be used for private networks indoors?
• Answer: Yes, there is no reason why it can’t. mmWave provides
excellent isolation between rooms and from outdoors to indoors and
vice versa. The real challenge will be that ideally mmWave requires line
of sight or near line of sight for best results. As long as the equipment
indoors can cater for this, this can work well.

49: Cost of Spectrum
©3G4G
• Question: How much does different type of spectrum cost?
• Answer: The price of spectrum varies by country but the general
observation is that the coverage layer spectrum is the most expensive,
followed by capacity layer and the mmWave spectrum is the cheapest.
On Operator Watch Blog, you can see the prices of spectrum from Italy,
Switzerland and Spain.

50: Low Prices for mmWave
©3G4G
• Question: Why is mmWave comparatively cheap?
• Answer: Mainly because mmWave cannot be deployed everywhere.
mmWave works best with small or smaller cells hence their utilization
is restricted to dense urban, urban or for FWA. This is the main reason
the mmWave spectrum is comparatively cheaper than coverage or
capacity layer spectrum.

Thank You
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