E and V Band.pptx

Introduction
E band 60 to 90 gigahertz (GHz)- EHF
● United States, FCC- 71-76 GHz, 81-86 GHz.
● Most of the cases are using a channel arrangement based on 250 MHz channels, with a few
cases open to go below, allowing to use 62.5 and 125 MHz segmentation
● European countries :71-74 GHz& 81-84 GHz Military bands , and for not available for civil
use.

V band case:- V band 40 to 75 gigahertz (GHz)-UHF
● United States, the FCC - 57 to 71 GHz for unlicensed wireless systems
● Review covers 61 countries,covering at least the 59-63 GHz portion
● ECC Recommendation 57 – 64 GHz band for point-to-point fixed wireless
systems and “Use of the 64 – 66 GHz band for fixed service

Oxygen absorption in E & V band

E – Band characteristics
● Distance upto 3 Kms.
● 71-76 and 81-86 GHz bands.
● The advantages of E-band are its wide spectrum i.e.10 GHz.
● Improvement in modulation from 512 QAM to 4096 QAM.

V - Band characteristics
● Short distance up to 300 meters.
● Oxygen absorption in V-Bands allows
● reuse of frequencies, the distance is about 300 meters (short range
signal propagation) and suitable for dense deployment.
● Negligible interference.
● Radio links operating in the V-band can be densely deployed in congested
cities without interference, and without need for digging for cables.

Summary of E & V bands
● Pencil beam propagation.
● Short range signal propagation (V-Band around 300m and E-Band around 3
km).
● Inability to penetrate walls.
● Heavy frequency reuse of spectrum.
● Less/no interference.
● Large available spectrum of 7GHz in V-Band and 10 GHz in E-band.

OptiX RTN 380
● 71–76 GHz or 81–86 GHz frequency bands (E-band).
● Maximum transmission distance of 10 km.
● Large channel bandwidth: 62.5 MHz, 125 MHz, 250 MHz, 500 MHz, and 750
MHz.
● Modulation Scheme: QPSK, 16QAM, 16QAM, 32QAM, and 64QAM.

OptiX RTN 360
● Operating Frequency: 59 GHz – 64 GHz.
● Maximum Transmission distance: 300m
● Channel Bandwidth: 200 MHz
● Modulation Scheme: 16 QAM.

ITU V Band Allocations
● TDD and FDD
● Channel Separations of 3.5, 7, 14, 28 and 56 MHz in 55.78 - 57 GHz.
● Channel Separations of 50 MHz in 57 - 64 GHz.
● Channel Separations of 30 & 50 MHz in 64 - 66 GHz.
● High Density applications in Fixed Service (HDFS)

V Band Basic Channel Arrangement 57 - 64 GHz

V Band TDD and FDD 57 - 64 GHz

V Band Basic Channel Arrangement 64 - 66 GHz

V Band TDD and FDD 64 - 66 GHz

E Band Basic Channel Arrangement

E Band Pairing and Aggregating Channels

Delicensing
● Partial Licensing
● Big Tech VS Telecom
● Affordable Broadband in Rural
● SIAM and Innovation (60 GHz, 76 - 77 GHz and 79 GHz)
● ITU APT Foundation of India (WiFi & GDP growth of 12.7 Lakh Crore)

$ 14500000000
This is the benefits that the world is reaping from unlicensed RF spectrum.
Economic Benefits from E & V Bands:
Producer surplus due to offloading from mobile broadband
Producer surplus from lower backhaul costs for mobile broadband
Consumer surplus from the use of commercial Wi-Fi hotspots and fixed broadband
₹ 12.7 Lakh Crore
Estimated Economic Value of WiFi in the unlicensed spectrum bands (including V band) in India
(as per IAFI)

How to go about licensing these bands?

Philosophy and Intent
1. Govt’s business is not to do business
1. Max benefit to Society vs Short term revenue maximisation for govt.
1. Innovation and competition may lead to many types of uses that are difficult to
anticipate at present.

Conflicting views of Industry
Telecom Service Providers
(say Airtel, Jio)
Broadband India Forum
(group of Apple,Microsoft,
Amazon etc)

TRAI’s Recommendation
August 2014: Both E&V bands should be delicensed and allotted administratively
on “link to link basis”
(but DoT hesitant b/c of 2012 SC 2G spectrum judgement)

E and V Band.pptx

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E and V Band.pptx