Upload
others
View
42
Download
1
Embed Size (px)
Citation preview
Technical WorkshopOCTOBER 29-31, 2019 | TELIT HQ – TRIESTE, ITALY
5G TelitTechnology Introduction and Product Offering
Roberto Pagano
Product Manager
Basic 5G Concepts
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 3
Telit Technical Workshop 2019
Massive Content
«extreme MMB»
Use case:Speed, Gb/s → Tb/s
Massive Sensing
«massive MTC»
Use case:bit/sec over 10 years on
AAA batteries
Massive Control
«ultra-reliable/critical MTC»
Use case:Low latency,
response 1ms
5G embraces several aspects and different requirements in three major scenarios:eMBB | mMTC | uMTC
LTE-M/NB-IoT are fundamental to 5G mMTC!
The Three Tracks of 5G
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 4
Telit Technical Workshop 2019
The Three Tracks of 5G (continued)
• eMBB (enhanced Mobile Broadband)• First 5G focus• Greater bandwidth• Moderate latency improvements
• mMTC (massive Machine Type Communications)• Started with Rel. 13/14 LPWA development (eg NB-IoT)
• uRRLC (Ultra Reliable Low Latency Communications)• Extensions of above concept to achieve lower latency• Full URLLC will require 5G Core deployment
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 5
Telit Technical Workshop 2019
Cellular Standards Towards 5G MBB and Pervasive IoT
Rel 12 Rel 13 Rel 14 Rel 15 Rel 16 Rel 17 & onwards
Rel 13 launches Rel 14 launches
Rel 15 trials & launches
Moble Broadband
Mobile IoT LPWA Licensed
Evolution to Mobile IoT
eMTC
NBIoT
FeMTC
eNBIoT
eFeMTC
FeNBIoT
Further eMTC enhancements
Further eMTC ehancements
CA enh.MIMO enh.D2DeMBMS enh.Cat 0 Support
LWA (LTE-Wi-Fi aggr.)LAA (LTE Ass. Access)CA up to 32CCEnhan. On D2D/ProSeFull dim. MIMOIndoor positioning
eLAA (uplink LAA)C-V2X
New spectrum:sub6 GHz & mmWaveMassive MIMO (up to 64x64)Beamforming & beam trackingNetwork slicingSA & NSA operationseMBB & URLLC uses cases
5G NR C-V2XURLLC enhancements5G unlicensed/shared spectrum5G for satellite5G above 52.6 GHzSON & Big dataMIMO enhancementsLocation and positioning enh.Power consumption improvDual Connectivity enhancement
eMBB Focused Launches
URLLC
Low PowerLower CostReduced ComplexityExtended Coverage
MulticastExtension of eDRXPositioningMobility enh.VoLTE (LTE-M only)Higher data rate
TDD supportHigher spectral efficiencyEarly data transmissionWake-up radio
5GIoTNon orthogonal access(NOMA)grant-free uplinkMulti-hop mesh
Massivedeployment IoT
3GPP STANDARDS
Rel 15 Nationwide rollouts
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 6
Telit Technical Workshop 2019
5G in an Equation
Channel capacity in bits / second
channel Bandwidth
Signal-to-Noise ratio
𝐶 = 𝑛 ∗ 𝐵 ∗ log2 1 +𝑆
𝑁
number of antennas
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 7
Telit Technical Workshop 2019
Basic 5G Concepts
• 5G Features• High Bandwidth (up to 10 Gbps theoretical)• Low latency (sub-1 ms latency rate)
• 5G Potential Use Cases (Why do I need 5G?):• Autonomous Driving/Connected Cars• Cloud-based Services• High-bandwidth fixed wireless access
• Spectrum allocation, divided in two macro-areas:• Sub-6: f < 6 GHz (FR1)• mmWave: 6 < f < 80 GHz (FR2)
• Beam forming, High order MIMO…
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 8
Telit Technical Workshop 2019
5G Coverage – Combination of Low & High Bands
Extremely High Bands cm/mmWave
6-100 GHz5G 26, 28, 39 GHz
Ultra High Bands2.7-6 GHz
5G 3500 GHzLTE CBRS, LAA
High Bands2.1-2.7 GHz
5G 2500 MHzLTE 2100, 2600 GHz...
Mid Bands1-2.1 GHz
5G 1700, 1900 (AWS, n2)LTE AWS-1/2/3/4, PCS,…
Low Bands<1 GHz
5G 600, 700, 850, 900 MHzLTE 700 MHz
Lo
wH
igh
Pa
th L
oss
1000xLocal Capacity
20 Gbps DL10 CA, 1000 MHz BW100 MHz carriers
10x Capacity with LTE Grid
withMassive MIMO
IoT & CriticalCommunications
with Extended Coverage
2 Gbps DL5 CA, 100 MHz BW256QAM, 4x4 MIMO
200 Mbps DL10 MHz BW256QAM, 4x4 MIMO
Hotspots Gig-zones
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 9
Telit Technical Workshop 2019
Roles of Different 5G Cell Sites
Larger cells on sub-6GHzSmaller cells on mmWave – Gig-zones
New 5G NR mmWavenx10 Gigabit 5G
New 5G NR Sub-6 GHz & LTE Coverage
nx1 Gigabit 5G
Ubiquitous LTEGigabit LTE, VoLTE, ULL
Automotive
Private IoT Networks
Public Safety/Emergency
Services
Existing LTE Deployments
5G Market Launches
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 11
Telit Technical Workshop 2019
US 5G Launches
The United States’ major wireless carriers are planning to launch their 5G networks
T-MobileVerizon
MWCA 2018: 5G home Currently in two 5G cities 30 markets by end-2019FWA 39GHz mmWave spectrum for initial rollouts Sub-6 GHz next year
SprintAT&T
5G in 19 cities in 20195G lead with private networks in enterprises, hospitals, and universitiesFWA mmWave spectrum now Sub-6GHz next year
Plans near full US coverage with 600MHz by end-2020 Has mmWave spectrum, but states it is not mature enoughTo help approval for Sprint merger plans roll out of fixed wireless in rural areas
4 markets by the end of May 20195 more in 1H19Will use mid-band 2.5GHz for initial rolloutFocused around adding massive MIMO radio support to LTE as 5G is being rolled out
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 12
Telit Technical Workshop 2019
EMEA 5G Launches
Top European carriers in 5G trials ahead of commercial launch in the 2020 time frame
DeutscheTelekom
Vodafone
NW ready for launch inLeading markets by mid2019 – High speed data &Coverage layer
Orange
2018 early field trials in Berlin with sub-6 GHz and massive MIMO 64T64R and beamforming
2018 5G E2E trials2019 5G cities2020 Commercial launches
Swisscom
5G network live since April 2019. 102 locations in the first 54 towns.90% population by end-2019.
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 13
Telit Technical Workshop 2019
APAC 5G Launches
Japan, China, Korea, Australia leading the 5G effort in the region
Launching 5G commercial service in 2020, SA mode.
China Mobile
Pre-commercial launch in mid 2019, full commercial service mid 2020
China Telecom
NTT DoCoMo
SKT Telstra
5G commercial launch before Tokyo Olympics 2020
First commercial launch in March 2019
5G switch on in Gold Coast. More than 200 cities 5G capable are planned
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 14
Telit Technical Workshop 2019
5G Commercial Launches
North AmericaAT&T 28/39 GHz Q2’19
Sprint 2.6 GHz Q2’19
T-Mobile 0.6/28/39 GHz Q2‘19
Verizon 28/39 GHz Q2’19
EuropeA1, Telia, Elisa 3.5 GHz Q2’19
DT-AG 3.5 GHz Q2’19
EE, Swisscom 3.5 GHz Q2’19
MTS, MF 26 GHz Q2-Q3’19
Orange ESP 3.5 GHz Q2’19
Orange FR 0.7/3.5/26 GHz Q3’19
TIM 3.5/26 GHz Q3’19
VF UK/DE/IT/ESP 3.5 GHz Q2’19
ChinaCMCC 2.6/4.9 GHz Q3’19
CT 3.5 GHz Q3’19
CU 3.5 GHz Q3‘19
JapanDCM 4.5/28 GHz Q3’19
KDDI 4.5/28 GHz Q3’19
SB 2.5/28 GHz Q3‘19
South KoreaLGU+ 28 GHz TBD
SKT, KT 28 GHz Q3’19
SKT, KT, LGU+ 3.5 GHz Q2‘19
Australia/SEAOptus 3.5 GHz Q2’19
Telstra 3.5 GHz Q2’19
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 15
Telit Technical Workshop 2019
Global 4G/5G (Sub6 & mmWave Spectrum)
North America4G LTE
2, 4, 5, 7, 12, 13, 14, 25, 26, 29, 30, 46, 48, 66, 71
5G Sub-6
n41 (2019), n78 (Canada 2020)n2, n5, n12, n66, n71 (2020)
5G mmWave
n260, n261 (2019)n258 (2020)42 GHz/47 GHz (2021/2022)
Europe4G LTE
1, 3, 7, 8, 20, 28, 32, 38, 46
5G Sub-6
n78 (2019)n1, n3, n20, n28 (2020)
5G mmWave
n257 (2019), n258 (2021)32 GHz (tbd)
ChinaJapan
4G LTE
1, 3, 8, 11, 18, 19, 21, 26, 28, 41, 42
5G Sub-6
n77, n78, n79 (2019/2020)n1, n3 (2021)
5G mmWave
n257 (2019), n258 (2021)32 GHz (tbd)
South Korea4G LTE
1, 3, 5, 7, 8
5G Sub-6
n78 (2019)
5G mmWave
n257 (2019)
Australia/SEA4G LTE
1, 3, 5, 7, 28, 40
5G Sub-6
n78 (2019)
5G mmWave
n257 (2019), n258 (2020)
Russia4G LTE
1, 3, 7, 20, 38
5G mmWave
n257 (2019)
4G LTE
1, 3, 5, 8, 34, 38, 40, 41
5G Sub-6
n41, n78, n79 (2019/2020)
5G mmWave
37-42 GHz (2021)
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 16
Telit Technical Workshop 2019
5G Network Architectures
Evolution of use cases over time as infrastructure evolves to final “pure 5G”
LTE+5G
Human Interaction – IoT
Broadband Experience Everywhere, Anytime
LTE Core NW/RAN+5GNR
5G NR+Core NW
Media Everywhere
Smart Vehicles,Transport & Infrastructure
Critical Control of Remote Devices
LTE RAN
OPTION 1(SA LTE,EPC connected)
LTE RAN
LTE Core (EPC)
5G Core
5G RAN
LTE Core (EPC)
5G RAN
5G CoreLTE Core
(EPC)5G Core
LTE RAN 5G RAN
OPTION 3(NSA NR, LTE assisted, EPC connected)
OPTION 2(SA NR, 5GC connected)
OPTION 4(NSA eLTE, NR assisted, 5GC connected)
LTE EPC needed to support non-5G / legacy devices
From Gigabit LTE to 5G eMBB
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 18
Telit Technical Workshop 2019
LTE to 5G Datacard Roadmap
MDM9240 SDX20 SDX55
Cat 113GPP Rel 112x2 MIMODL/UL 600Mbps/75MbpsLTE-FDD/TDD3CA DL, 60MHzDC-HSPA+GNSS
Cat 183GPP Rel 124x4 MIMO on 3CADL/UL 1.2Gbps/150MbpsLTE-FDD/TDDLAA on 3CA5CA DL, 100MHzB48 (CBRS), FirstNet B14 and B71 support2CA DL, 40MHzDC-HSPA+GNSS
3GPP Rel 15 (both LTE and 5G)Gigabit LTE + 5G-NR (Sub-6GHz + mmWave)2CC 5G-sub6 up to 200MHz BW, TDD8CC 5G-mmWave up to 800MHz BWOption 3.x and Option 3.A core network options, Option 2 in sub-6 onlyGNSS gen 9
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 19
Telit Technical Workshop 2019
FN980m 5G NR Capabilities
FEATURE | Sub-6 GHz Capabilities
MAX COMPONENT CARRIERS (CC) IN 5G-
SUB62 CC
MAX BANDWIDTH IN 5G-SUB6 200 MHz with 1CC
NUMEROLOGY, SUB-CARRIER SPACING 30 KHz
MODULATION: MAX QAM ORDER
SUPPORTEDDL: 256 QAM | UL: 256 QAM
MIMO DL CA: 4x4 | UL CA: 2x2
MASSIVE MIMO Yes: Reciprocity & Feedback based
DUPLEX MODE TDD and FDD
CORE NETWORK OPTIONS Option 3.X, Option 3A and Option 2
NSA AGGREGATION MODEDual Connectivity, PDCP Aggregation (DL and UL)
RF BANDS SUPPORTEDFDD: n1, n2, n3, n5, n12, n41, n66, n71TDD: n77, n78 and n79
FEATURE | mmWave Capabilities
MAX COMPONENT CARRIERS (CC) IN 5G-
MMWAVEDL: 8CA | UL: 8CA
MAX BANDWIDTH IN 5G-MMWAVE 800Mhz (50, 100, 200 and 400 Mhz carriers)
NON-CONTIGUOUS CA for DL CA only
MAXIMUM IBW Up to 1200 MHz
INTER-BAND (28GHZ + 39GHZ) CA Not supported
CARRIER SPACING NUMEROLOGY
120 KHz for data and sync channels240 KHz for sync channels only
MODULATION: MAX QAM ORDER
SUPPORTEDUp to 64QAM (both DL/UL)
MIMODL CA: 2x2 MIMO up to 8CCUL CA: 1x1 MIMO up to 8CC, 2x2 up to 4CC
CORE NETWORK OPTIONS Option 3.X and 3A
RF BANDS SUPPORTEDn261 (27.5 – 28.35 GHz) and n260 (37.00 –40.00 GHz) dual band mode
FN980m
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 20
Telit Technical Workshop 2019
5G Impact on Certifications
As of today, very limited number of 5G GCF/PTCRB validated Test Cases• Lack of 5G devices slows down TC validation• New test platforms development/introduction (especially for mmWave)• ~500 validated TCs by year-end out of a full scope of ~1700 TCs (30%)
This goes on top of the current number of LTE validated TCs• Example: ~15000 validated TCs for a LTE Cat.18 multi-band module
Number of 5G TCs is expected to grow in the next months/years as the standard matures and new features will be supported by networks/devices
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 21
Telit Technical Workshop 2019
FCC finds 5G poses no new risk – Source: Mobile World Live, 9 Aug 2019
Does 5G Pose Health Risks?
US officials set public concerns about the health impacts of 5G aside, concluding there is nothing about the technology or the bands it operates in which would require new limits on radio frequency (RF) exposure.
On a call with journalists, senior FCC officials noted the US’ current RF standards for handheld devices in particular, are among the strictest in the world. They added a review of scientific evidence conducted by the Food and Drug Administration’s Centre for Devices and Radiological Health found no adverse health effects in humans caused by RF exposure at or under the current limits.
Telit 5G Products Offering
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 23
Telit Technical Workshop 2019
5G Product Portfolio and Positioning
Fixed Wireless AccessIndoor and outdoor High Power CPEs, industrial grade
ResidentialHigh-Speed
Internet
Commercial & Industrial Routers
Gateways
EnterpriseNetworking
SD-WAN
Tablets/Handhelds Laptop/Notebook PCs
FN980m FN982mFN980m is intended to be used in applications such as outdoor high power CPEs where the modem is intended to be used intensively under severe environmental conditions
Consumer grade
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 24
Telit Technical Workshop 2019
FN980m Development Phases
• Development of the FN980m 5G datacard goes through different phases as follows:
MKT_1 phase Aimed to bring up the LTE and 5G sub-6 radio interface. 5G mmWave not supported
MKT_2 phase First hardware that will converge to the final size 30 x 50mm.Connectors for mmWave antennas replaced with final version, after feasibility study completed on the MKT_1 phase.
ENG_1 phase: Additional refinements of the MKT_2 hardware. Will bring the necessary changes and tuning on the RF parts, mmWave connectors position will change. Pins positions antenna tuning and audio will be changed too.
ENG_2 phase: Final hardware version aimed to start certifications.
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 25
Telit Technical Workshop 2019
FN980m Schedule
Phase P/N Configuration / support of: Schedule (shipment date) & quantity
MKT_1 MKT3990251889 1xPCIe + 1xUSB3.1 / IPEX connectors Available(not recommended: no maintenance releases planned on this hardware)
MKT_2 MKT3990251902 1xPCIe + 1xUSB3.1 / Murata multi line connector Available
ENG_1 ENG3990251906 As MKT_2, but different position of the mmWave connectors, NSA & SA support, QTM525 support
W51 (end of Dec)
ENG_2 ENG3990251907 As ENG_1, but support of mmWave High Power antennas for CPE, Min Peak EIRP 40dBm for 64 elements64 element/4xQTM527 support
W08/W09 2020
TLB kit forTelit EVB
3990251942(new P/N)
This P/N includes in the kit:4 x LTE/5G sub-6 antennas 1 x FN980m module P/N MKT3990251902 (MKT_2) mounted on the TLBThe TLB kit requires the EVB: P/N 3990150592
W40 (October)
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 26
Telit Technical Workshop 2019
FN980m Sample Plan
Sample Schedule Description (in Plan)
MKT_2 Sample Oct 15, 2019 Limited function Sub6 + mmW (LP mmW Ant, Final IF connector) (*1)
ENG_1 mid Dec, 2019 Candidate for Final HW Sub6 + mmW (LP mmW Ant, Final IF conn) (*2)
ENG_2 Mar, 2020 Certification Ready Sample Final HW Sub6 + mmW (HP mmW Ant)
*1: Market Sample #2 is limited function and limited qty. Initial engineering evaluation use only.
*2: We may start certification if the HW is confirmed to be a final.
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 27
Telit Technical Workshop 2019
FN980m: MKT_2
• M.2 form factor, double side, 30 x 50 x 3.5 mm
• 4 connectors for LTE/Sub-6 (I-PEX RF COAX VERTICAL RECEPT. 20449-001E-03)
• 1 antenna for L1 GNSS (I-PEX RF COAX VERTICAL RECEPT. 20449-001E-03)
• 4 mmW antennas supported
• IF1 connectors for mmW: Murata multi-line (MLC03-MX series)
• 1 x PCIe gen 3 + USB 3.1 gen 2
L5 GPS
band
L1 GPS
band
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 28
Telit Technical Workshop 2019
FN980m: ENG_1
Same specifications as for the MKT_2, but:
• Change of mmW antenna connectors position, to reduce insertion losses between transceiver and connectors
• MIPI control for external Antenna Tuner (LTE/5G sub-6) added
• LTE band B27 removal
• Only one external SIM interface available (UIM1).Can be used to connect two external SIMs to support DSSA/DSSS (dual standby / single active) by means of external SIM switch.
• Optional eSIM (connected to the same UIM1 interface)
• eSIM pinout changed, now compliant to ST micro WLCSP (was Infineon pin-out on the MKT_2). FYI: Gemalto, Idemia and G&D are all based on the WLCSP package and pin-out based on ST Micro.
mmW antenna
connectors
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 29
Telit Technical Workshop 2019
FN980m: Mechanical Size
• PCI Express M.2 Type Key B
• Dimensions are: 30 x 52 (50) x 3.5 mm
• Double side PCB
3.5mm
1.35mm
1.35mm
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 30
Telit Technical Workshop 2019
FN980m SpecificationsFeature Specification
Form Factor M.2 dual-side (30 x 50 x 3.5 mm)
Regions NA, EMEA, APAC
Operators VzW, AT&T, TMUS, Sprint, Bell, Rogers, Telus, Vodafone, Telefonica, DTAG, Orange, TIM, KDDI, NTT Docomo, Telstra, SKT, LGU+,KT, OPTUS
Modem 5G:SA & NSA operations5G Sub-6 FDD and TDD5G core network Opt. 3a/3x and Option 2
4G: 7CA, up to 20 layers DL / 2CA UL, 256QAM DL/UL
3G: HSPA+ Rel8 (DL/UL: 42/11 Mbps)
Bands supported 5G FR1:n1, n2, n5, n7, n12**, n14**, n20, n28, n66, n71, n3, n77, n78, n79, n41, n30**
5G FR2:n257, n258, n260, n261 (depends on the active antenna connected)
4G:B1, B2, B3, B4, B5, B8, B9, B12, B13, B14, B17, B18, B19, B20, B26, B28, B71, B25, B66, B39, B29 DL, B30, B32, B7, B38, B40, B41,B42, B43, B46(LAA), B48 (CBRS), B34, B27
3G:B5, B8, B3, B4, B2, B1, B9, B19
** will be supported in future QCOM MR
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 31
Telit Technical Workshop 2019
FN980m Specifications
Feature Specification
4x4 MIMO DL 5G:n1, n2, n7, n66, n3, n77, n78, n79, n41, n30**
4G: B32L, B4, B66, B3, B2, B25, B1, B30, B40, B41, B7, B43, B42, B46, B48
Interfaces 1x USB 3.1 gen2 and 2.0, 1x I2S, 1x I2C, 1x PCIe gen3 1-lane1.8/3 V SIM Interface x 2 (MKT phase)1.8/3 V SIM Interface x 1 from ENG_1 and onwardsWiFi Co-existance signalsInternal pads for eSIM (optional mount from ENG_1 onwards)
Voice VoLTE, VoNR (under evaluation)PCM audio and Voice Over USB
Antenna types 4 x LTE/Sub-6 + 4 x QTM525 /527
Drivers Support Windows, Linux
FOTA Yes
DM OMA-DM
GNSS gpsOne Gen 9 L1 band on dedicated RF connector, L5 shared with cellular
** will be supported in future QCOM MR
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 32
Telit Technical Workshop 2019
FN980m Specifications – 5G FR1 (sub-6)
Feature Specificationmax component carriers (CC)
2 CC
max bandwidth 200 MHz with 1CC
numerology, sub-carrier spacing
30 KHz
modulation: max QAM order supported
256 QAM DL/UL
MIMO DL CA: 4x4 UL CA: 2x2 on n41, n77, n78, n79
massive MIMO Yes: Reciprocity & Feedback based
duplex mode TDD and FDD
core network options Option 3.X, Option 3A and Option 2
NSA aggregation mode Dual Connectivity, PDCP Aggregation (DL and UL)
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 33
Telit Technical Workshop 2019
FN980m specification – 5G FR2 (mmWave)
Feature Specification
max component carriers (CC)
DL: 8CA | UL: 8CA
max bandwidth 800Mhz (50, 100, 200 and 400 MHz carriers)
non-contiguous CA for DL CA only
maximum IBW Up to 1200 MHz
inter-band (28GHz + 39GHz) CA
Not supported
carrier spacing numerology
120 KHz for data and sync channels240 KHz for sync channels only
modulation: max QAM order supported
Up to 64QAM (both DL/UL)
MIMO DL CA: 2x2 MIMO up to 8CCUL CA: 1x1 MIMO up to 8CC, 2x2 up to 4CC
core network options Option 3.X and 3A
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 34
Telit Technical Workshop 2019
Air Interface DL/UL Peak Rate Projections (NSA)
• DOWNLINK:• LTE TDD + sub-6 with 75% DL duty cycle: 3.8 Gbps, 20 layers LTE, 256-QAM, 100 MHz BW sub-6
256-QAM, 4x4 MIMO (CS target)
• LTE TDD + mmW with 75% DL duty cycle: 5.7 Gbps, 8 layers LTE, 1024-QAM, 800 MHz BW mmW, 64-QAM 2x2 MIMO (CS target)
• UPLINK:• LTE FDD + Sub-6 TDD with 90% UL duty cycle: 542 Mbps, 2 layers LTE, 256-QAM + Sub-6 100MHz
BW, 256-QAM
• LTE FDD + mmW TDD with 90% UL duty cycle: 2.7 Gbps, 2 layers LTE, 256-QAM + mmW 800MHz BW, 256-QAM
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 35
Telit Technical Workshop 2019
Air Interface DL/UL Peak Rate Projections (SA)
• DOWNLINK:• Sub-6 TDD SA DL throughput with 75% DL duty cycle: 1.8 Gpbs, 100MHz BW 256-QAM, 4x4 MIMO
(CS target)
• UPLINK:• Sub-6 TDD SA UL throughput with 90% UL duty cycle: 662 Mbps, 100MHz BW 256-QAM, 4x4 MIMO
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 36
Telit Technical Workshop 2019
FN980m Pinout (MKT vs ENG versions)
• Comply with PCI Express M.2
Spec
• 1x PCIe + 1x USB3.1 Gen2
• mmWave control signals
• One UIM interface for ext SIM
• 4 ANTCTL (MIPI) for antenna
tuner for LTE/5G sub-6
• PCM signals for audio
FM980 Beta FM980 Alpha'' FM980 Alpha'' FM980 Beta
COEX_TXD, TGPIO_04
SIM DETECT
TGPIO_01
3.3V
3.3V
3.3V
QTM2_PON
QTM3_PON
VREG_S4E_1P904
PERST#
CLKREQ#
PEWAKE#
I2C_SDA, TGPIO_09
CONFIG_3
GND
GND
USB_D+
USB_D-
GND
KEY B
KEY B
KEY B
USB3.1_TX_P
QTM0_PON
QTM1_PON
I2S DIN, TGPIO_06
I2S DOUT, TGPIO_07
W_DISABLE2#, TGPIO_13
I2S WS, TGPIO_08
UIM_RESET
UIM_CLK
UIM_DATA
UIM_PWR
TGPIO_12
USB3.1_TX_P
GND
USB3.1_RX_M
USB3.1_RX_P
GND
PCIE_TX_M
GND
USB3.1_RX_M
USB3.1_RX_P
GND
KEY B
KEY B
I2S_CLK, TGPIO_05KEY B
CONFIG_0
WAKE_ON_WWAN#
DPR, TGPIO_02
GND
USB3.1_TX_M
SIM DETECT
TGPIO_01
3.3V
RFFE_SCLK
GND
GND
CONFIG_2
TGPIO_11
COEX_RXD, TGPIO_03
PCIE_RX_P
GND
WLAN_TX_EN
COEX_RXD
58WLAN_TX_EN 59
60RFFE_SDATA 61
62
REFCLKn
REFCLKp
GND
COEX_TXDANTCTL3, TGPIO_08
CONFIG_3
GND
GND
USB_D+
USB_D-
GND
KEY B
KEY B
KEY B
PCIE_TX_P
GND
RESET#
CONFIG_1
3.3V
3.3V
GND
GND
CONFIG_2
PEWAKE#
75
63
UIM2_PWR
PERST#
CLKREQ#
ANTCTL2, TGPIO_07
ANTCTL0, TGPIO_05
ANTCTL1, TGPIO_06
UIM_PWR
VDD_1P8_DIG_L6
SIM_DETECT_2
UIM2_DATA
UIM2_CLK
UIM2_RESET
W_DISABLE1#
LED#
KEY B
KEY B
KEY B
KEY B
QTM0_PON
QTM1_PON
QTM2_PON
7374
7172
RESET# 6768
VDD_1P8_DIG_L6 6566
CONFIG_1 6970
64
GND 5152
PCIE_RX_P 4950
REFCLKp 5556
GND
REFCLKn 5354
57
48
I2C_SDA
I2C_SCL I2C_SCL, TGPIO_10
PCIE_TX_M 4142
4546
PCIE_RX_M 47
40
PCIE_TX_P 4344
GND
PCIE_RX_M
KEY B
WAKE_ON_WWAN#
CONFIG_0
35
2728
3738
36
39
QTM3_PON
VREG_S4E_1P904
DPR
GND
USB3.1_TX_M
3132
2930
3334
2526
3.3V
3.3V
FULL_CARD_POWER_OFF#
1516
2122
1920
2324
1718
UIM_RESET
UIM_CLK
UIM_DATA
910
78
1112
1314
FULL_CARD_POWER_OFF#
W_DISABLE1#
LED#
KEY B
KEY B
M.2 PINOUT
12
56
34
3.3V
3.3V
ENG_1/ENG_2 MKT_1/MKT_2 MKT_1/MKT_2 ENG_1/ENG_2
mmWave Antennas
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 38
Telit Technical Workshop 2019
Variant Telit P/N Support Band / notes Country of use/deployment Dimension Schedule
QTM525-2 3990251911(MP P/N)
dual-band antenna module variants supporting n257 and n258
Europe: n257 (2019), n258 (2021)Australia: n257 (2019), n258 (2020)Japan, Korea: n257 (2019)
23 mm × 4.2 mm × 1.86 mm (1.97 mm max) rectangular
available
QTM525-5 3990251912(MP P/N)
dual-band antenna module variants supporting n258, n260 and n261
North America:n260, n261 (2019)n258 (2020)
23 mm × 4.2 mm × 1.86 mm (1.97 mm max) rectangular
available
QTM525 Low Power (LP) mmWave Antennas
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 39
Telit Technical Workshop 2019
QTM527 High Power (HP) mmWave Antennas for High Power CPE
Variant P/N Support Band
Country of use/deployment Dimension Schedule /availability
QTM527-1 3990251913(MP P/N)
module variants supporting n260 and n261
North America:n260, n261 (2019)
16.8 mm × 16.8 mm × 1.89 mm (Planar) ES1 September ’19ES2 End of Dec ‘19/beg JanCS Beg of Feb 2020
QTM527-2 3990251914(MP P/N)
module variant supporting n257/n261 and n258
Europe: n257 (2019), n258 (2021)Australia: n257 (2019), n258 (2020)Japan, Korea: n257 (2019)
21.2 mm × 21.2 mm × 2.19 mm (Planar) ES1 August ’19ES2 End of Dec ‘19/beg JanCS Beg of Feb 2020
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 40
Telit Technical Workshop 2019
QTM525 series of millimeter-wave module has a B2B(board-to-board connector) to provide✓ electrical power, ✓ grounding and ✓ IF signal connections
Pin number
Pin name Description
1 IF1 IF signal input and output 1
9 IF2 IF signal input and output 2
4 PON PMIC enable input signal from baseband
6, 8 VPH_PWR 3.7 V nominal power supply(Min 2.5 ~ 4.8 V)
2 VDD_1P904V 1.904 V power supply(1.85 ~ 2.04 V)
3, 5, 7, 10 GND Ground
QTM525 Pin Definitions
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 41
Telit Technical Workshop 2019
FN980m: Murata Multi Line Connector
Supported in MKT_2 and later versions for mmWave antennas
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 42
Telit Technical Workshop 2019
mmWave Antennas – Kits Availability
P/N Description
3990251944KIT 2x LP mmW ANT(EU,AUS,JP,KR) QTM525-2
2 x Low power antennas incl. coax cables (Dual band) QTM525-2 (Europe, Australia, Japan, Korea)
3990251945 KIT 2x LP mmW ANT(NA) QTM525-52 x Low power antennas incl. coax cables (Tri band) QTM525-5 (North America)
• To test the LP mmW antennas, Telit offers 2 kits (one per region), including 2 x antennas and 2 x coax cables each, to connect the antennas to TLB.
• 2 mmWave antennas are considered the minimum. 3 antennas are recommended.
• If a customer wants to use 3 or 4 antennas, it will have to order 2 kits.
Part Numbers:
Miscellaneous Information
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 44
Telit Technical Workshop 2019
FN980m Certifications Schedule
Project Schedule (Main Network Carriers Only, covering H1/2020)
2019 | 2020
Sept Oct Nov Dec Jan Feb Mar Apr May June
PTCRB Certification
GCF Certification
AT&T Certification
Verizon Certification
SKT Certification
NTT docomo
Certification
Telstra Certification
Pre-PTCRB
Pre-GCF
MNO certifications schedule for H2/2020 will be provide later on
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 45
Telit Technical Workshop 2019
Documentation Availability
Document Code Schedule
HW User Guide 1VV0301603 released
Thermal Design Note 1VV0301610 released
SW User Guide 1VV0301615 released
AT commands User Guide 80624ST10996A released
QMI Commands reference Guide 80624ST11005A released
QTM525 mmWave Antenna Module overview and guidelines
80624NT11766A Released (contact PM)
QTM525 mmWave Antenna Module Specification
1VV0301618 Released (contact PM)
QTM527 mmWave Antenna Module overview and guidelines
W39
QTM527 mmWave Antenna Module Specification
W39
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 46
Telit Technical Workshop 2019
FN980m Host Drivers Availability Plan
• RmNet Driver and USB serial patches: available• Driver Submision to Kernel maintainer: November ‘19• Gobiset and Gobiserial drivers, based on kernel v 4.14: under evaluation• Linux PCI drivers: under evaluation, discussions pending with QCT
P/N Selector
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 48
Telit Technical Workshop 2019
Part Number Selector to Test the FN980m with the EVB
Use case EVB P/N TLB P/N mmWave antennas P/N
I want to test the product on LTE and 5G sub-6 bands
3990150592 3990251942 (new)
NOTE:This is common to all use cases.This kit includes also 4 x LTE/5G sub-6 antennas and the FN980m module P/N MKT3990251902(MKT_2) mounted on the TLB
Not needed
I want to test the product on LTE, 5G sub-6 and also mmWave (Low Power)
3990251944 (kit for TLB) for testing on EU, Japan, KR, AUS bands
3990251945 (kit for TLB) for testing on US bands
The kit above include the coax cable to connect the antennas to the TLB
I want to test the product on LTE, 5G sub-6 and also mmWave (High Power). I’m going to test/develop an high power CPE
Will be communicated later
FAQs
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 50
Telit Technical Workshop 2019
Frequently Asked Questions (FAQs)
• Q: How do I disable the 5G radio in FR1 or FR2 spectrum?• A: ETSI AT commands provide a method to enable 5G without distinction between FR1
and FR2 spectrum. RAT selection between 3G, LTE and 5G NR can be configured by means of 3GPP 27.007 AT command AT+WS46=[<n>] (3GPP TS 27.007 Rel 15), where <n> can be:
22 UTRAN only (3G only)28 E-UTRAN only (4G only)31 UTRAN and E-UTRAN (3G and 4G)36 NG-RAN only (5G)37 NG-RAN and E-UTRAN38 NG-RAN, E-UTRAN and UTRAN40 NG-RAN and UTRAN
• There is no distinction among NG-RAN in FR1 and FR2 bands
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 51
Telit Technical Workshop 2019
Frequently Asked Questions (FAQs)
• Q: How do I select PLMN?• A: Set command forces an attempt to select and register to the GSM/UMTS/EPS/5GS
network operator:+COPS=[<mode>[,<format>[,<oper>[,<AcT>]]]]
<AcT>: integer type; access technology selected…
• 10 E-UTRA connected to a 5GCN (see NOTE 5)• 11 NR connected to a 5GCN (see NOTE 5)• 12 NG-RAN• 13 E-UTRA-NR dual connectivity (see NOTE 6)
There is no distinction among NG-RAN in FR1 and FR2 bands
NOTE 5: 3GPP TS 38.331 [160] specifies the information which, if present, indicates that the serving cell is connected to a 5G CN. This value is not applicable in set command.NOTE 6: 3GPP TS 38.331 [160] specifies the information which, if present, indicates that the serving cell is supporting dual connectivity of E-UTRA with NR and is connected to an EPS core.
Confidential & Proprietary© 2019 Telit. All Rights Reserved. 52
Telit Technical Workshop 2019
Test EquipmentSupplier Type Parts
R&SNon-Signaling Box for sub6 + mmWaveOta Chamber
CMP200 +CMW100 +CMQ200(Anechoic Chamber)
Anritsu Signaling Box + CATR Chamber
MT8000A +MT8821C +MT8821C +MA8172A CATR (Anechoic Chamber)
R&S 5G Spectrum Analyzer under evaluation
Anritsu Network Analyzer under evaluation
Thank You!
Telit reserves all rights to this document and the information contained herein. Products, names, logos and designs described herein may in whole or in part be subject to intellectual property rights. The information contained herein is provided “as is.” No warranty of any kind, either express or implied, is made in relation to the accuracy, reliability, fitness for a particular purpose or content of this document. This document may be revised by Telit at any time. For most recent documents, please visit www.telit.com © 2019 Telit. All Rights Reserved.
Roberto Pagano
Any feedback/questions/comments please email [email protected]