Radio Portfolio
Global Figures
Ericsson Figures
The first 22 months of 5G in numbers
138
404
Global Live 5G
networks
5G devices
commercially
available (GSA Mar 2021)
(Ericsson Mar 2021)
15%
Of Population by
the end of 2020
42
(Ericsson Nov 2020)
26 GB
46 %
Monthly mobile
data traffic per sub:
Of traffic on 5G
network
South Korea (Feb 2021)
10
South Korea (Feb 2021)
11
12
3
4
83
Ericsson live 5G
networks
40
5G countries
134
5
>110K
Commercial 5G
agreements
Standalone live
networks
ESS Cells live &
counting
Mid-band: the sweet spot for 5G experience
Mid-band is superior to
provide universal 5G
experience
A complete 5G network for all use cases
Bandwidth
• Global spectrum availability
• Large bandwidth
• Massive MIMO for capacity
• Leveraging low band coverage
through
Carrier Aggregation
High-band for targeted
high-speed areas & services
Low-band for nationwide
coverage and indoor
penetration
High-band
Fully coordinated
multi-layer network
for best performance
and best flexibility
to secure service
differentiation
Mid-band
Carrier Aggregation
Low-band with ESS
Coverage
FR1 CA for Coverage Extension
45%
Mid-band
Advanced RAN Coordination
(NR E5)
67%
Dual Connectivity
UL data
84%
Carrier
Aggregation
% of subs who access TDD Midband
NR on mid-band TDD
UL/DL ctrl
NR/LTE on low-band FDD
with
Spectrum
Sharing
LTE Ericsson
on low-band
FDD
Standalone NR coverage baseline
Non-Standalone NR
Dual Connectivity +9dB
Inter-band NR
Carrier Aggregation
+3-7dB
27%
Increased
network
capacity
5G NSA FDD-TDD Carrier Aggregation STC Trial
Cell Range DC:
410m
Cell Range CA:
560m
UL ctrl
5G (TDD 3.5GHz)
+ Dual Connectivity
+ Carrier Aggregation
NR E5
UL data
4G/5G with Ericsson Spectrum Sharing (FDD 700MHz)
LTE anchor 1800MHz
36%
8.5dB
Cell range increase
DL RSRP gain
CA PCell
UL ctrl
DL ctrl
Riyadh, Saudi Arabia
Journey towards 5G experience everywhere
Speed and
coverage
Easy rollouts
Energy
Capacity
Extend reach
of mid-band, reuse existing sites
Light equipment
for fast
deployment
Minimize overall
power
consumption
Maximize value
of spectral
investments
Accelerate 5G with new mid-band solutions
New Massive MIMO for mid-band 5G
New RAN Compute for 5G evolution
Unparalleled combination of low weight,
bandwidth, performance and energy efficiency
Industry-leading processing on an energy
efficient and a future-proof platform
20kg
15-20%
With 64T64R
Lower power consumption
Uplink Booster
Superior Massive MIMO architecture
Powered by Ericsson Silicon
Ericsson Spectrum Sharing
Providing unique performance, footprint
and energy efficiency advantages
5G drives exponential increase
in processing needs
Trends driving higher processing
• # Antenna branches growing with Massive MIMO
Digital front-end processing
• More carrier bandwidth at higher frequencies
Beamforming processing
• Wider spectrum allocations in new bands
Layer 1 processing
• Shorter transmission time interval (TTI)
Layer 2 processing
Packet processing function
Radio control function
Carrier bandwidth
Antenna branches
Transmission time interval (TTI)
20 MHz
2T2R
1 ms
20 MHz
4T4R
1 ms
100 MHz
4T4R
0.5 ms
100 MHz
8T8R
0.5 ms
100 MHz
64T64R
0.5 ms
Ericsson Silicon
– at the heart of Ericsson Radio System
Tailor-made for mobile
networks
Modular architecture
for RAN products
Security built in
from the start
Enhanced network
performance
Enabler for innovation
today and tomorrow
Optimized energy
efficiency and footprint
Ericsson Silicon – the key for
best performing Massive MIMO systems
Ericsson
Uplink
Booster
Ericsson Silicon –
enabler for extreme
Massive MIMO
processing needs
Digital front-end processing
Beamforming processing
Layer 1 processing
Layer 2 processing
< 1 ms real-time channel estimation
•
•
Instant interference suppression
Ultra-precise beamforming
Multi-User
MIMO
16/8 layers
Footprint
and power
efficiency
Wideband
optimized
Ericsson Massive MIMO architecture choice
90%
5G NR Massive MIMO mid-band TDD
Designed for real world performance
reduction of bandwidth
New eCPRI interface enables new
Baseband / Radio functional split
10dB
gain in UL app coverage
AIR
Beamforming
Processing
eCPRI
Baseband
AIR 6488 AIR 6449 AIR 3236 AIR 3228 AIR 3278 AIR 3239 AIR 3227
Ericsson Uplink Booster
Optimal physical layer split architecture
Ideal fronthaul
Baseband
Radio
L1BF
Compressed data
Baseband
Radio
L1BF
Non-compressed data
Baseband
Radio
L1BF
Ericsson
Booster
Ericsson
UplinkUplink
Booster
For optimal trade-off between performance and implementation cost, the
uplink beamforming functionality should be placed in the radio, where the most
L1BF Layer 1 beamforming processing L1BF Layer 1 beamforming processing accurate information is available, so that the signaling load on the interface to
the baseband can be minimized without compromising the beamforming quality.
Click for more information
Vodafone Germany extends coverage
with Uplink Booster
Vodafone Germany and Ericsson have successfully proven the
benefits of Uplink Booster in terms of extended coverage and
higher uplink throughput under non-ideal environment in a
suburban industrial area, as one of the main achievements of 5G
Product Introduction Project.
107%
Uplink throughput increase
at cell edge
134%
Uplink throughput increase
in drive test
7dB gain
2x
Uplink
cell range
The new
ultralight
Massive
MIMO
Accelerate 5G with Massive MIMO
Easy mid-band deployments with small footprint
AIR 6419
20 kg
AIR 3258
400MHz
AIR 3219
20 kg
Uncompromised performance
optimized for high-rise urban
capacity sites. The industryleading ultra-light radio for
fast deployments
64T64R
Offering wide bandwidth
for spectrum flexibility in
an easy-to-deploy weight.
Targeting urban to rural
capacity sites
32T32R
Providing coverage and
performance in low weight
for easy and less costly
rollouts. Targeting urban to
rural capacity sites
32T32R
200 MHz bandwidth
320W output power
Passive cooling
27 kg
320W output power
Passive cooling
200 MHz bandwidth
320W output power
Passive cooling
Portfolio Ericsson
FDD Dual Band
Radios
Rapid innovation in Remote Radios
Tight traffic aware interworking between bands
essential to fully leverage the new technology
• Multi-band journey
• Wide band PA technology
Radio 4480/2279
Radio 4490
Dual-Band
Radio 4466
Triple Band
Dual-Band 4T/2T
Packet-switched fronthaul
-20% lower volume
-20% less energy consumption
Radio 2460/2238
Triple-Band
50% higher integration
Radio 2219
Tight BB-Radio interworking
>2X capacity
Signature feature support
Advanced Tx power boost
>3X capacity
Advanced thermal management
Key robustness functionality
Advanced energy efficiency functionality
Single Band
2019
2021-03-08 | Radio Portfolio update | Ericsson Internal
2020
2021
2022
Radio 2279
Dual band, 2TX/2RX per band
●Up to 2x80W per band
● B1 B3: B1 2x80W B3 2x80W
●Up to 2x120W total
●Full IBW support (B1: 60MHz/B3 75MHz)
●G, W, L, NR, NB-IoT
● SRAT GSM support for some bands.
●2x 2.5/4.9/9.8/10.1 Gbps CPRI
●19 liter 21 kg
●AISG TMA & RET support via RS-485
●2 external alarm
●Convectional cooling
●IP 65, -40 to +55 ̊C
Radio 2279 site solution advantages vs 2219
SITE SAVINGS
- 6 Radios to 3
- 3 Diplexers to 0
- 12 Jumpers to 0
- Installation Material
Remarks
- Mixedmode of two technologies for
single technology baseband
configuration
4x
4x
4x
Radio 2279 vs 2219 Tech Spech
Radio 2279
Radio 2219
2219
Output Power
2279
Output Power
AEV = 0,466 x 0,343 x 1,2 = 0,191
Peso = 18Kg
Por setor configuração 2x2 Dual
band
AEV = 0,466 x 0,343 x 1,2 = 0,191
Peso = 2 x 18 = 36Kg
2219 B1 – 2 x 60W
2219 B3 – 2 x 80W
AEV = 0,447 x 0,398 x 1,2 = 0,213
Peso = 21kg
Por setor configuração 2x2 Dual band
AEV = (0,553 + 0,036) x 0,398 x 1,2 = 0,213
Peso = 21Kg
2279 B1/B3 – 2 x 120W
Max 80W per Band
Ex. B3 80W + B1 40W
Radio 4480
Dual band 4TX/4RX per band
● Up to 4x80W total without fan
● Up to 4x100W total with fan
● Full IBW support (B1: 60MHz/B3 75MHz)
● G, W, L, NR, NB-IoT with GSM in mixed mode
● SRAT GSM support for some bands.
● 2x 2.5/4.9/9.8/10.1 Gbps CPRI
● 26.5 liter 32 kg (B1 B3, B2/B25 B66A, B1 B7, B3 B7)
● 34 liter 38 kg (B0A B28, B8 B28, B5 B28)
● -48 VDC 3-wire or 2-wire (different cable connectors)
● AISG TMA & RET support via RS-485 or RF connectors
● 2 external alarm
● Optional fan for increased site flexibility and increased output power
● Convectional cooling
● IP 65, -40 to +55 ̊C
Radio 4480 site solution advantages vs 2219
SITE SAVINGS
- 12 Radios to 3
- 6 Diplexers to 0
- 24 Jumpers to 0
- Installation Material
Remarks
- Mixedmode of two technologies for
single technology baseband
configuration
- 60W max output power per
frequency band
8x
8x
8x
Radio 2219 vs 4480 Tech Spech
Radio 4480
Radio 2219
2219
AEV = 0,466 x 0,343 x 1,2 = 0,191
Peso = 18Kg
Por setor configuração 4x4 Dual band
AEV = 4 x 0,154 + 0,466 x 1,2 = 0,344
Peso = 4 x 18 = 72Kg
Output Power
2219 B1 – 2 x 60W
2219 B3 – 2 x 80W
4480
AEV = (0,553 + 0,036) x 0,398 x 1,2 = 0,271
Peso = 32kg
Por setor configuração 4x4 Dual band
AEV = (0,553 + 0,036) x 0,398 x 1,2 = 0,271
Peso = 32Kg
Output Power
4480 B1/B3 – 4 x 100W
Max 60W per Band
Ex. B3 60W + B1 40W
Rapid innovation in Indoor Radio
Dot 44xx
Neutral Host
Cloud RAN
Wideband Tri-band
Dot 4474/4475
Wideband TDD/Tri-band
Dot 4479
200MHz TDD+FDD+FDD
Integrated Fiber
Next gen IRU
Single band
Dot 2272
Dual-band
100MHz TDD+FDD+FDD
200MHz TDD
CAT / Hybrid Fiber
AIR 1279
RAU
Indoor mmWave
4T4R
100MHz
2T2R
40MHz
Multi-operator
Multi-vendor
2G/3G/4G/5G
2019
2021-03-08 | Radio Portfolio update | Ericsson Internal
2020
2021
2T2R 800 MHz
4.2 L, 4 kg
2022+
Same architecture, more performance
New 5G Radio Dot
— Radio front and antennas
RDI
Performance
4G
5G mid band
400- 800 Mbps
2 Gbps
— CAT 6A LAN cable
New 5G Indoor Radio Unit (IRU)
— Aggregator of Radio Dots
Up to 8 dots
— Currently up to 8 Dots
CAT 6A
— Provides a digital interface to baseband unit
through CPRI cable
Fiber or electrical
Common baseband
— Delivers signaling and power interface to the
RD over the Radio Dot Interface
Baseband to radio connection
— Electrical or fiber to baseband
Baseband
— Central RAN processing
Core Network
— Common for indoor and outdoor
Introducing the new additions to the
Ericsson indoor family
Fiber Solution
Cat 6A Solution
Dot 4475 –
Multi-band Dot
IRU 8848 –
support 4G & 5G
deployments
Hybrid Fiber
IRU 1649
RFX 1110
(Remote FRX
module)
5G+4G Tri-Band Dot 4475
5G Mid Band 4x4 MIMO + Dual Band 2X2 MIMO
• World’s smallest tri-band small cell:
1.8 L / 1.5 kg
• Most energy efficient: ~ 55 W
• Full capacity for 2G+3G+4G+5G
• 100 MHz for Mid band
• Full band IBW for other bands
• 670 MHz ABW
• Cost efficient deployment
• single CAT6A cable for multiple
bands
• Long reach distance
• up to 1000 m with hybrid fiber
cable
Max throughput:
2.8 – 3 Gbps
Dimension:
210 mm in diameter
Technology:
GSM, LTE, WCDMA, NR
Weight:
1500 grams
(excluding bracket)
IBW:
100 MHz for mid band;
full-band for other
bands
Mounting:
One bracket for ceiling
or wall mounting
Total Antenna
BW:
670 MHz
Color:
Off-white
RF power:
250 mW (TDD)
125 mW (FDD)
Power consumption:
55 W
MIMO:
Single band 4T4R
Dual band 2T2R
Operational temp:
+5°C to +40°C
(41°F to 104°F)
Antennas:
8 built in
omni-directional
IRU 8848
Cost efficient 5G+4G deployment
Dot ports:
8
Power supply:
-48 Vdc, ET20 connector
110 – 240 Vac, 50-60 Hz
Front haul:
2 CPRI SFP+ ports
(2.5 / 4.9 / 9.8 / 10.1 Gbps)
Power
consumption*:
750 W (-48 Vdc supply)
820 W (AC power supply)
Dot
compatibility:
Dot 4474/ 4475 / 4479
Acoustic noise:
< 30 dBA(SPL) under normal
operating conditions
• Further installation / site acquisition /
cabling cost saving
ABW:
800 MHz
Mounting:
19” rack 1.5 U or standalone
• Supports multi-operator
deployments
Dimensions:
445mm x 350mm x 67mm
(1.5 RU) (with fan tray)
RDI cable
reach:
160m for Dot 4479 / 2272 /
2274
100m for Dot 4475 / 4474
Weight:
9.0 kg
RDI type:
CAT6A cable
• One IRU to support all next
generation Radio Dots
• Cost efficient 5G+4G deployment
* Maximum power consumption for full system including 8 Radio Dots
RFX 1110
Hybrid cable
up to 300m
Fiber IRU 1649
CAT6A
jumper cable
RFX module
Dot 4475
Increased distance between IRU and Dot
RFX 1110 fiber / Hybrid cable
connection box
Designed for fiber cable termination
Connection to Radio Dot:
• S/FTP CAT6A jumper cable,
carrying signal and power
• Same connection principle as with
CAT6A feeder cable termination in
connection box
Dot ports:
1
Power supply:
PoE and -48 Vdc
IRU ports:
1 SFP+ dRDI @ 10 Gbps
Power
consumption:
8 W (-48 Vdc supply)
Dot
compatibility:
Dot 4479 / 4475 / 2274 / 4474
Dot 2272**
RDI cable
reach:
300-1000m with Fiber +
copper cable (dependent on
Dot and cable variant)
Dimensions:
249mm x 106mm x 50mm
RDI type from
IRU to RFX:
Hybrid cable / fiber*
Weight:
TBD
RDI type from
RFX to Dot:
CAT6A cable
* With future SW upgrade
RF Access Unit 8855
Vendor neutral, multi-op support for RDS
•
SW defined band support
•
Support 2G/3G/4G/5G
•
Support up to 4 bands
RF ports:
8*(1+1) QMA
Weight:
7.9 kg
Front haul:
4 CPRI SFP+ ports (10.1 Gbps)
Power supply:
-48 Vdc, ET20 connector
110 – 240 Vac, 50-60 Hz
IRU
compatibility:
IRU88xx/16xx
Power
consumption*:
< 100 W
ABW:
400 MHz (total input
aggregated on RF ports)
Acoustic noise:
< 45 dBA (SPL) under normal
operating conditions
ABW per RF
port:
100 MHz
Mounting:
19” rack 1.5 U
Dimensions:
445mm x 350mm x 67mm
(1.5 RU)
RAT:
GSM / WCDMA / LTE FDD /
LTE TDD / NR FDD/NR TDD
Power level of
RF input:
10dBm~30dBm
Band
B25 (B2) /B66 (B4, B10) / B1
/ B3/B7 / B41 (B38) / B40 /
B78 (B42, B43, B48, B49,
B52)
Portfolio Ericsson
2.3 GHz, 3.5 GHz,
26 GHz
B40 – 2300 MHz
B40
B40N
B40T
B40U
BL1
2300
BL2
2400
2395
2390
Anatel
2300
2390
B40
2300
2400
B40N
2300
2395
B40T
2300
2395
B40U
2300
2390
Radio Units
LTE TDD – B40
Radio 2218 B40U
Radio 4418 B40N
Radio 4408 B40U
2TX/2RX
4TX/4RX by use of two 2218
Tx Power 2x40W
60 MHz IBW TDD
Up to 3 LTE carriers
2x 2.5/5/9.8Gbps CPRI
12,7 liter 11.5 kg
-48 VDC
AISG & RET support
2 external alarm
Optional fan for increased site flexibility
IP 65, -40 to +55 ̊C
4TX/4RX
Support split mode (2 x 2T2R as multi-sector solution)
Tx Power 4x40W
95MHz IBW TDD
Up to 6 LTE carriers
2x 2.5/5/9.8/10.1Gbps CPRI
15 liter, 16kg
-48 VDC 2-wire
AISG RET support via RS-485
2 external alarm
Convectional cooling
IP 65, -40 to +55 ̊C
4TX/4RX TDD
4x5W
95MHz IBW TDD
Up to 6 LTE carriers
Up to 95MHz NR carrier bandwidth
2x 2.5/5/9.8/10.1Gbps CPRI
4 liter, less than 5kg incl bracket and cover
AC or -48 VDC
Integrated or external antenna
2 external alarm
IP 65
-40 to +55 ̊C
Radio Units
LTE TDD – B40
Radio 8863 B40 (GA Q2/21)
AIR 3239 B40
Support split mode (2 x 4T4R or 4 x 2T2R as multi-sector
solution)
Tx Power 8x50W (B42, B40)
100MHz IBW TDD
100MHz carrier bandwidth
2x10.1/25Gbps CPRI
21.5 liter, 23kg (B41, B41K)
22.6 liter, 24.9kg (B78K, B42, B40, B77D)
External antenna calibration
-48 VDC 3-wire
AISG RET support via RS-485 or RF connectors
Optional fan for increased site flexibility
2 external alarm
Convectional cooling
IP 65, -40 to +55 ̊C
Advanced Antenna System (AAS)
32TX/RX with 128 AE
100W total output power
EIRP 72 dBm (band depended)
100 MHz IBW
Up to 3 carriers NR or LTE
Max total carrier BW is 100MHz for NR, or 60MHz for LTE
3 x10 Gbps eCPRI (1x25 Gbps eCPRI HW prepared)
Weight: ~ 20 kg (band depended)
Size (H x W x D): ~ 530 x 411 x 122 mm (band depended)
-48 VDC 3-wire (possible to connect as 2-wire)
-40 to +55 C
̊
Support number of layers: DL/UL 12/6
B78 – 3500 MHz
B78A
Anatel
3300
3700
B78A
3300
3600
B78C
3500
3700
B78M
3450
3650
B78Q
3300
3500
B78W
3300
3580
B78C
78M
B78Q
B78W
BL1
3300
BL2
3450
BL3
BL4
3500
3580 3600
BL5
3650
3700
Radio Units
LTE/NR TDD – 3,5GHz
Radio 2218 B42
2TX/2RX
4TX/4RX by use of two 2218
Tx Power 2x40W
60 MHz IBW TDD
Up to 3 LTE carriers
2x 2.5/5/9.8Gbps CPRI
12.7 liter 11.5 kg
-48 VDC
AISG & RET support
2 external alarm
Optional fan for increased site flexibility
IP 65, -40 to +55 ̊C
Radio 4422 B78C, B42F
B78Q (Q3/21)
4TX/4RX
Support split mode (2 x 2T2R as multisector solution)
Tx Power 4x40W
Up to 100MHz IBW TDD
Up to 100MHz NR carrier bandwidth
2x 2.5/5/9.8/10.1Gbps CPRI
15 liter, 16kg
-48 VDC 3-wire
AISG RET support via RS-485 or RF
connectors
2 external alarm
Convectional cooling
IP 65, -40 to +55 ̊C
Radio 8863 B42 (Q1/21)
8TX/8RX / Support split mode (2 x 4T4R or 4
x 2T2R as multi-sector solution)
Tx Power 8x50W (B42, B40)
Up to 200MHz IBW TDD
Up to 200MHz carrier bandwidth
2x10.1/25Gbps CPRI
22.6 liter, 24.9kg (B78K, B42, B40, B77D)
External antenna calibration
-48 VDC 3-wire
AISG RET support via RS-485 or RF
connectors
Optional fan for increased site flexibility
2 external alarm
Convectional cooling
IP 65, -40 to +55 C
̊
Radio 4408 B42
B78Q (Q4/21)
4TX/4RX TDD
4x5W
IBW up to 150 MHz
Up to 6 LTE carriers
Up to 150MHz NR carrier bandwidth
2x 2.5/5/9.8/10.1Gbps CPRI
4 liter, less than 5kg incl bracket and cover
AC or -48 VDC
Integrated or external antenna
2 external alarm
IP 65
-40 to +55 ̊C
Radio Units
LTE/NR TDD – 3,5GHz
AIR 3239 B78C, B78Q
Advanced Antenna System (AAS)
32TX/RX with 128 AE
100W total output power
EIRP 72 dBm (band depended)
100 MHz IBW&CBW
3 x10 Gbps eCPRI (1x25 Gbps eCPRI HW
prepared)
Weight: ~ 20 kg (band depended)
Size (H x W x D): ~ 530 x 411 x 122 mm
(band depended)
-48 VDC 3-wire (possible to connect as 2wire)
-40 to +55 ̊C
Support number of layers: DL/UL 12/6
AIR 3227 B42 AS
B78W (GA June/2021
AIR 6449 B42 (GA Mar/21), B78M
(GA Mar/21) B78W (GA Q3/21)
Advanced Antenna System (AAS)
32TX/RX with 128AE
200W total output power
EIRP 76 dBm
200 MHz IBW&CBW
2 x25 Gbps (compatible to 10G) eCPRI
SFP28
Weight: < 25 kg (band depended)
Size (H x W x D): band depended
-48 VDC 3-wire (possible to connect as 2wire)
-40 to +55 ̊C
Support number of layers: DL/UL 16/8
Advanced Antenna System (AAS)
64TX/64RX with 192 AE
Up to 320W(band dependent)
EIRP up to 79 dBm(band dependent)
Up to 200 MHz IBW & CBW
Max total carrier BW is 200MHz for NR, or
100MHz for LTE
4 x 25 Gbps eCPRI
Weight: 37 - 47 kg (band dependent)
Size (H x W x D): Band depended
-48 VDC (3-wire or 2-wire)
-40 to +55 ̊C
Support number of layers: DL/UL 16/8
Hybrid AIR
AIR 3278 B78K / AIR 3227 B42AS, B43,
B78T / AIR 6449 B42, B78M, B78W
Total output power, EIRP, IBW, OBW(CBW)
-> Configuration dependent. See product
information for incl. AIR variant
Natural convection cooling
Weight: Configuration dependent, ~ 85-115
Kg (Without brackets)
Size (H x W x D): Configuration dependent ~
2200-2900mm x 448 or 488mm x 234mm
(without considering bracket or protruding)
-48 VDC
Passive ANT configuration: Configuration
dependent
N258 – 26GHz
Anatel
24300
27500
258
24250
27500
258B
26500
27500
258
258B
BL1
24.3
BL2
BL3
BL4
BL5
BL6
26.5
BL7
BL8
27.5
Radio Units mmWave
26GHz
Street Macro 6701
26 GHz (n258B/GA)
Up to 800 MHz, continuous/non-continuous carriers
EIRP up to 56 dBm @ 400 MHz , 53 dBm @ 800 MHz
Support Number of Layers: 2 @ 800 MHz, 4 @ 400 (HW ready)
Modulation: 64/64 (256) QAM UL/DL
Total Antenna BW: 1600 MHz
Throughput: ~5 Gbps DL/ ~1 Gbps UL
Synchronization: 1588v2, GNSS
TN ports: 2x 10 Gbps SFP cascading support
Power Consumption: <300 W typical, <400 W Max
Weight ~ 14 kg
Dimensions: 511x125x200 mm (13 L)
Operating Temperature: -40 to +55 degrees
Cooling: Active
Power: AC, 100-250 V
IP Class: IP 65
AIR 1281
AIR 5322
26 GHz (n258B-Jun/21; n258 – Q4/21)
Up to 800 MHz, continuous/non-continuous carriers
26 GHz (n258B-Q2/21; n258 – Q3/21)
Up to 800 MHz, continuous/non-continuous carriers
EIRP up to 56 dBm @ 400 MHz , 53 dBm @ 800 MHz
EIRP up to 62 dBm @ 400 MHz , 59 dBm @ 800 MHz
Fronthaul IF: C1 CPRI, 10 and 25Gbps
Fronthaul IF: C1 CPRI, 10 and 25Gbps
Power Supply: 100-250VAC, -48VDC
Power Supply: 100-250VAC, -48VDC
Typ. Power Consumption: < 125 W (50% ETSI Busy hour)
Typ. Power Consumption: < 220 W (50% ETSI Busy hour)
Installation type: Pole/Wall/Strand mounted
Installation type: Rooftop/Pole/Wall
Volume: 7 liters
Volume: 7.5 liters
Weight: ~8 kg
Weight: ~8 kg
Operating temperature: -40°C to +55°C
Operating temperature: -40°C to +55°C
IP Class : IP65
Cooling: Active
IP Class: IP65