Telenet Design Guide
Annex
Version-info V2.0
Version
Info
Editor
Date
1.1
- First release
EAMIBEL
02/02/2021
1.2
- Add rectifiers position
- Remove ext alarms slides ; already included in the connectivity document
EAMIBEL
21/10/2021
EAMIBEL
25/11/2021
EAMIBEL
30/11/2021
EAMIBEL
09/02/2021
EAZZSAR
10/05/2022
EAZZSAR
27/06/2022
1.3
1.4
1.5
1.6
1.7
-CB of the compact DCDU adapted
-dummy CB added in the compact DCDU
- 3rd BBU and Krone (1U) added in the rack layout
- ERS configuration per rack 6115
- Rack Layout adapted
- Cable inlet 6150 and B154
- Position of the main CB of the compact DCDU and Booster changed
- Remove alarm section ( available in the connectivity docs)
- Remove the following rail length 180 mm, 300 mm, 450mm
- Add DC position connection of the UCCU unit
- Add schematic for free Free view angles
- Clarification position of cables in the inlet of 6150 & B154
- AC Connection diagram cabinet 6150 3X 230V & 3X400V added in the annex
- DCDU Option 4 is now not applicable !
- New items available in Ericsson portfolio on Telenet project : Clamps/Offset/Down tilt
- New value of the main circuit breakers added for new radio configurations :
low cap+ 4 sectors
Light pole low cap+ 3 sectors
Light pole low cap + 4 sectors
- View of the RRU’s position on the DCDU Optimized with more clarification
- Add DCDU 4 transmission for indoor site
- Added info that The DC Booster are only allowed to be install on reusing existing DC cables for RRU’s
(installing DC booster on new DC cables is not authorized!)
1.8
- New rules for the DC Booster (Mixt Several AIR/RRU units on the same booster is allowed)
EAZZSAR
08/09/2022
1.9
- New rules for AC Kit 6210 (it is Preferred solution but not mandatory )
- Adding 35mm² for RRU’s and Air + lengths allowed
EAZZSAR
20/10/2022
Version
2.0
Info
-
Solution Expansion rack for 6210 now available
Solution for the fourth DCDU indoor site (Use 25A CB available from compact DCDU 1 with DC cable 10mm² )
Circuit breakers for 3x230V power configuration is now upgraded from 32A to 40A
Booster clarification it will not be allowed to mix different units already dedicated between LVDs
Editor
EAZZSAR
Date
07/11/2022
Table of Content
•
•
•
•
•
•
•
•
Mechanical characteristics : ERS and antennas
CB And DC cable dimensioning
Rack Layout , Space requirement , cabinet inlet
AC Connection
DC connection
Battery backup
Enclosure 6130
Antenna/RRU Configuration
Mechanical characteristics
ERS :Mechanical characteristics
2479
B8 B20 B28B
Size(mm)
Height×Width× Depth
2279
B1 B3
2217
B7
4499
B1 B3
4415
B7
8863
B78K
553 × 398 × 190 447 × 398 × 138 351 x 298 x 128 553 x 398 x 151 420 × 342 × 169 478 × 375 × 145
21
13.1
32
19
23.3
2262 B20 2212
B28B
B7
447 × 398 × 143
21
2260
B1 B3
420 × 342 × 149
447 x 398 x 137
18,5
19,5
Weight(Kg)
37.5
Maximum
wind load at
150 km/h
301
237 N(front) 146N(front) 320 N(front) 207 N(front) 213 N(front) 237N(front)
260 N(front) 237 N (front)
N(front)
55 N (side) 45 N (side) 90 N (side) 64 N (side) 50 N (side) 57 N (side)
55 N (side)
115 N (side)
ERS Bracket
• Single ERS bracket
• Dual ERS bracket
• Rail System
units up to
42 kg
units up
to 21.5 kg
Rail length :
580 mm and
1100mm
Rack 6115 : lightpole configuration (site without fence)
• Rack 6115 n°1 : 3 x ERS 2212 B8 + 3 x ERS 2262 B20B28
• Rack 6115 n°2 : 3 x ERS 2212 B7 +3 x ERS 2279 B1B3
AIR :Mechanical characteristics
3227
B43
Size(mm)
568 × 370 × 225
Height×Width× Depth
Weight(Kg)
Maximum
wind load at
150 km/h
21.5 + (6.1
mounting Kit)
297 N(front)
97 N (side)
3278
B78K
6449
648 × 371 × 233
778 × 403 × 268
25 + (6.1 mounting Kit)
37.5 + (6.1
mounting Kit)
338 N (front), 113 N (side)
B43
478 N(front)
172 N (side)
AIR Bracket
• The brackets can handle units up to 70 kg with tilt
and azimuth possibilities.
Mounting range
Kathrein antenna 800372965 800372966
Heavy clamp 55-125mm
Heavy clamp 110-220 mm
Offset 90 mm
Down tilt
Kathrein antenna KRE 101 2475/1clamp offset tilt
Clamp 110-220 mm
Offset 90 mm
Down tilt
Distances between radios - Ant
• Allow a minimum of 300mm free space to the ceiling or any overhanging structure that may
obstruct airflow and create a heat trap.
• Pole or Mast Installation
• Radio Installation on Outdoor Wall
Passive antenna solution -pilote sitesConfiguration
LowCap
Size
2.6m
2.0m
1.5m
Type
2L2H
2L2H
2L2H
Model
Kathrein 800372966
Kathrein 800372965
Huawei AQU4518R60v06
HighCap FDD
2.6m
2.0m
1.5m
2L2H
2L2H
2L2H
Kathrein 800372966
Kathrein 800372965
Huawei AQU4518R60v06
HighCap TDD
1.0m
TDD
Kathrein KRE 101 2475/1
HighCap FDD/TDD
2.6m
2.0m
1.5m
2L4H & TDD
2L4H & TDD
2L3H & TDD
Huawei A104521R0v06
Huawei A104521R03v06
Huawei A094521R4v06
MaxCap
2.6m
2.0m
1.5m
2L6H
2L6H
2L6H
Huawei AOC4518R19v09
Huawei AOC4518R04v07
Huawei AOC4518R07v07
UltraCap
2.6m
2.0m
1.5m
2L6H multi beam
2L6H multi beam
Huawei AMB4519R29v06
Huawei AMB4519R18v06
Not available
Cluster Connector
• KRE 101 2475/1 doesn’t have MQ4/MQ5 connectors, but 9x 4.3-10 connectors.
• NEX10 connectors
• ERS 8863
CB and DC cable dimensioning
CB and DC cable dimensioning ( at 30°C) - section
6mm²+Booster
10mm²+Booster
16mm²+Booster
25mm²(+booster)
Radio
Min Up(V)
CB(A)
6mm²
10mm²
16mm²
25mm² *
35mm² *
2479
-38
40
30m
50m
80m
125m
150m
2260
-36
32
35m
60m
100m
155m
190m
2262
-36
32
35m
60m
100m
155m
190m
2212
-36
25
45m
80m
100m
195m
230m
2279
-36
32
35m
60m
100m
155m
180m
2217
-36
25
45m
80m
125m
195m
250m
4415
-36
32
35m
60m
100m
155m
245m
4499
-36
40
30m
50m
80m
125m
150m
8863
-36
50
NA
40m
60m
95m
145m
• The DC Boosters are only allowed to be install on reusing existing DC cables
(installing DC booster on new DC cables is not authorized!)
• * Cluster Junction must be used
CB and DC cable dimensioning ( at 30°C)
AIR antennas
6mm²(+Booster)
10mm²(+Booster)
16mm²(+Booster)
25mm²(+booster)
Radio Min
Uop(V)
CB(A)
6mm²
10mm²
16mm²
25mm²*
35mm²*
3278
-36
40
30m
50m
80m
125m
185m
3227
-36
40
30m
50m
80m
125m
185m
6449
-36
50
NA
40m
60m
95m
135m
The DC Boosters are only allowed to be install on reusing existing DC cables
(installing DC booster on new DC cables is not authorized!)
• * Cluster Junction must be used
Rack Layout
Space requirement
Cabinet inlet
cabinet supporting structures
Outdoor Rack Layout
*: 11U for the pilot sites
Indoor Rack Layout
3 sectors
4 sectors ( ≥ HighCap)
“LowCap” only needs 1 Batt
strings (refer to Power/config)
16U (19” units)
8U (19” units)
3 x Batt strings
2 x Batt strings
•Solution for Expansion rack for 6210
• Extra Battery Rack
solution
• Solution with PCU DC 09
• Wall mounting solution 6210
The alternatives solution are shown in order of preference and must be applied on site
Alternative 1 :
Preferred solution when a second rack is required
The 6210-power system is located INSIDE the rack
Total cable length between batteries and 6210 < 3m
Alternative 2 :
The 6210-power system is located INSIDE the rack
Total cable length between batteries and 6210 > 3m
PCU DC 09 on the top of battery rack is needed
Alternative 3 :
Not the preferred solution! will be implemented when the 6210 Power system must be fixed on
the wall using a set mounting brackets
Total cable length between batteries and 6210 < 3m
Only be implemented after specific and UPFRONT approval by ERICSSON/ Telenet
Alternative 4 :
Not the preferred solution! will be implemented when the 6210 Power system must be fixed on
the wall using a set mounting brackets
Total cable length between batteries and 6210 >3m
PCU DC 09 on the top of battery rack
Only be implemented after specific and UPFRONT approval by ERICSSON/ Telenet
• Alternative 1 : Preferred solution when a second rack is required The 6210-power system is located INSIDE the ra
• Power 6210
• 6610
• Controller
• SAU
• Battery string 4
• Baseband
• 3X Compact DCDU
• 2X Boosters
• Battery string 3
• Free space 4 U
• 2X OVP
• GRU(Modul GPS)
• Battery string 2
• Battery string 1
• Rack 1
• Rack 2
• Total cable length between batteries and 6210 maximum allowed <3m (PCU DC 09 Not Needed)
• Alternative 2 : The 6210-power system is located INSIDE the first rack 1 The PCU DC 09 on the top of the rack 2
• Power 6210
• 6610
• Controller
• SAU
• Baseband
• Battery string 4
• 3X Compact DCDU
• 2X Boosters
• Battery string 3
• Free space 4 U
• GRU(Modul GPS)
• 2X OVP
• Battery string 2
• Battery string
• Rack 1
• Rack 2
• Total cable length between batteries and 6210 > 3m (PCU DC 09 is Needed) 70mm² DC cable required
• Alternative 3 : Not the preferred solution! will be implemented when the 6210 Power system must be fixed on
the wall using a set mounting brackets .
• Only be implemented after specific and UPFRONT approval by ERICSSON/Telenet
• 6210 on mounting Brackets
• Baseban
d
• 3X Compact DCDU
• 2X Boosters
• Battery string 3
• To be checked if the wall can bear the
load !
• Battery string 2
• Battery string 1
• Total cable length between batteries and 6210 maximum allowed <3m
• The 6210 must be installed at ± 50mm of the rack side and at a height of 1100mm
• The brackets and 6210 need equipotential connection with earth cable towards the indoor earth bar !
• Alternative 4 : Not the preferred solution! will be implemented when the 6210 Power system must be fixed on
the wall using a set mounting brackets PCU DC 09 on the top of battery rack
• Only be implemented after specific and UPFRONT approval by ERICSSON/Telenet
• 6210 on mounting Brackets
• Baseban
d
• 3X Compact DCDU
• 2X Boosters
• Battery string 3
• To be checked if the wall can bear the
load !
• Battery string 2
• Battery string 1
• Total cable length between batteries and 6210 > 3m (PCU DC 09 is Needed) 70mm² DC cable required
• The 6210 must be installed at a height of ± 1100mm
Cabinet position 6150 + B154
• OPTION 1 will be the standard in all cases.
• OPTION 2 may only be implemented after specific and UPFRONT approval by ERICSSON.
Cable inlet B154
4 power cables 70mm² ( diam up to
18mm)
Power cable 1,5mm² (alarm board ) +
+ alarm cables + Sensor cables
Grounding cable 50mm²
Cable Entry 6150
8x cable gland ( battery
cables)
3x 26mm for optional cable
glands ( Transmission)
2 x cable gland
diam 18-25mm
(AC cable inlet
9x 10,5mm Dia for MW cables
(Transmission / FO)
1x Grounding cable
3x 23mm for
Main fiber
(Transmission)
9x 10,5mm Día Multi FO
/alarm cables / GPS cable
/ E1 / ETH
19 x DC cables ( up to 16,5 mm Dia )
DC cable B154
700/800/900 bands
3500 band
1800/2100 bands
2600 band
Rules for re-using existing cabinet supporting structures
• When Enclosure is installed on steel structure:
• Use the standard plinth on the existing beams, as long as there is approx. 300mm free space below the bottom of the cabinet:
With adaptor frame (clamped on the steel beams)
With extra drilling and cold galvanizing
• When Enclosure is installed on concrete floor:
• On the same position of the existing ZTE cabinet, using the standard cabinet plinth:
Ok to reuse the existing UPN/I-beams
Ok to reuse the existing “multi-sokkel” (GRITT solution)
As long as we have approx. 300mm from the floor to the bottom of the cabinet
• On a new position:
-
Ok to use the standard plinth and install on top of existing UPN/I-beams, if present
Ok to use the new increased height plinth directly on the floor
As long as we have approx. 300mm from the floor to the bottom of the cabinet
Exception : the re-use of EXISTING 100mm beams can be accepted as long as there is approx. 250mm free space below the bottom of the cabinet .
But Any newly installed beams shall be 150mm.
AC Connection
Type site configuration
Qty of
Rectifiers
, 3kW
Qty of
Enclosure
B154
Qty of Battery
strings, 190 Ah
Main CB
(3x230)
Main CB
(3x400+N)
Power /config
LowCap
3
1
1
25
40
LowCap+
4
2
1
40*
63
HighCap
5
2
1
40*
63
HighCap+ (incl. Hybrid)
5
2
1
40*
63
MaxCap (incl. Hybrid)
6
2
1
40*
63
MaxCap+ (incl. Hybrid)
6
2
1
40*
63
UltraCap
6
2
1
40*
63
UltraCap+
6
2
1
40*
63
Pre-Auction UltraCap
6
2
1
40*
63
Lightpole LowCap
3
1
1
40*
63
Lightpole LowCap+
4
2
1
40*
63
Lightpole HighCap+ (32T) (incl. Hybrid)
5
2
1
40*
63
Lightpole HighCap++ (64T) (incl. Hybrid)
5
2
1
40*
63
LowCap 4 sect
4
1
1
40*
63
LowCap+ 4 sect
5
2
1
40*
63
HighCap 4 sect (incl. Hybrid)
7
3
2
63
>80
HighCap+ 4 sect (incl. Hybrid)
7
3
2
63
>80
MaxCap 4 sect (incl. Hybrid)
8
3
2
63
>80
MaxCap+ 4 sect (incl. Hybrid)
8
3
2
63
>80
UltraCap 4 sect
8
3
2
63
>80
UltraCap+ 4 sect
8
3
2
63
>80
Pre-Auction UltraCap 4 sect
8
3
2
63
>80
Lightpole LowCap 4 sect
4
2
1
40*
63
Lightpole LowCap+ 4 sect
5
2
1
40*
63
Lightpole HighCap+ (32T) 4 sect (incl. Hybrid)
7
3
2
63
>80
CB dimensioning only includes
the power consumed by E///
HW
For Transmission hub site ;16A
must be added on top of the
values in the table
• * 32A can be used if there is
no Airco on site
• A Free-Cooling is
NOT considered as an AIRCO
CB inside the AC cabinet /AC cable section
6150 has 2 AC input : 2 CB (3-phase feeding ) needed in the AC cabinet
configs with 6 rectifiers or less
If 3x400+N => 2 x 32 CB  2 x 5G6mm²
If 3x230 => 2 x 40 CB  2 x 5G10mm²
Configs with more than 6 rectifiers
If 3x400+N => 2 x 40 CB  2 x 5G6mm²
If 3x230 => 2 x 63 CB  2 x 5G10mm²
Indoor 6210 :
Without kit : Single-phase 16A per rectifier  3G2,5mm²
Preferred solution but not mandatory by ERICSSON/TELENET
CB dimensioning only includes
the power consumed by E///
HW
Please note that if the AC kit for 6210 is not used all nine rectifiers must be pre-wired to the 6210 terminal block
→ means at total of 9 AC cables must be connected from the AC panel to the 6210-terminal block
With Kit :
configs with 6 rectifiers
If 3x400+N => 32A  5G10mm²
If 3x230 => 63 CB  5G10mm²
Configs with more than 6 rectifiers
If 3x400+N => 50 CB  5G10mm²
If 3x230 => 80 CB  5G16mm²
6150 2 AC input : 2 CB : Connection diagram
Rectifier Position
• According to the grid connection the position of rectifiers should respect the figures below
For grid connection 3 x 400V +N :
For Grid connection 3 x 230V :
DC connection
DCDU 6150 31,5W
Booster 2 (optional)
DCDU Compact 2
Booster 1 (optional)
DCDU Compact 3
2 x 125
4 x 63
4 x 63
4 x 63
String of batteries 4
String of batteries 3
String of batteries 2
String of batteries 1
DCDU Compact 1: TX + BBUs
DCDU Extra : Indoor site only
2 x 125
2 x 125
2 x 125
2 x 125
4 x 63
4 x 63
OPTION 1 :
3 xCompact DCDU without Booster (General Rule)
LVD1
LVD2
Compact DCDU n°3
Compact DCDU n°2
BLVD
Compact DCDU n°1
….....
• Radio 4415 B7
• Radio 4499 B1B3
• Radio 2479 B20 B8B28B BBUS + Transmission + optional UCCU unit
• AIR 3227 B43
• Radio 2217 B7
• Radio 2279 B1B3
• Radio 2479 B20 B8B28B
• Radio 8863 B78K
• Radio 2217 B7
• AIR 3227 B43
• Radio 2212 B7
Options
• AIR 6449 B43
• Radio 2260 B1B3 • Radio 2262 B20B28B • Radio 2212 B8
For indoor site only
Extra Compact-DCDU transmission
+ optional UCCU unit
OPTION 2 :
3x Compact DCDU + 1x Booster
PSU 48 13
Compact DCDU n°3
BLVD
LVD1
LVD2
Compact DCDU n°1
Compact DCDU n°2
….....
• AIR 6449 B43
• Radio 4415 B7
• Radio 4499 B1B3
• Radio 2479 B20 B8
B28B
BBUS + Transmission + optional UCCU unit
• For indoor site only
Extra Compact-DCDU transmission
+ optional UCCU unit
• It is allowed when needed to mix different Radio units & Air units from different sectors on the same Booster
• The fuse values must be respected for each radio: Refer to the CB dimensioning page 18-19
OPTION 3 :
3 x Compact DCDU + 2 x Booster
PSU 48 13
BLVD
LVD1
LVD2
Compact DCDU n°3
PSU 48 13
Compact DCDU n°2
Compact DCDU n°1
….....
• AIR 6449 B43
• Radio 4415 B7
• Radio 4499 B1B3
• Radio 2479 B20 B8
B28B
BBUS + Transmission + optional UCCU unit
• For indoor site only
Extra Compact-DCDU transmission
+ optional UCCU unit
• It is allowed when needed to mix different Radio units & Air units from different sectors on the same Booster
The LVD rule remains applicable for the Boosters ! it will not be allowed to mix different units between LVDs
• The fuse values for the boosters must be respected for each radio: Refer to the CB dimensioning page 19-20
OPTION 4 :
2 x Compact DCDU + 2 x Booster
Not applicable
PSU 48 13
Compact DCDU n°2
BLVD
LVD1
LVD2
PSU 48 13
Compact DCDU n°1
….....
• AIR 6449 B43
• Radio 4415 B7
• Radio 4499 B1B3
• Radio 2479 B20 B8
B28B
BBUS + Transmission + optional UCCU unit
Outdoor
configuration
Dummies CB
• DC Distribution Breakers position
DCDU Compact 1
DCDU Compact 2
1
2
3
4
5
6
7
8
9
10
11
12
25
25
25
10
10
10
10
10
10
6
6
6
4
Transmission
5
6
7
8
9
RES 6610 B154
10 11 12 13
14
15
16
17
40
32
32
32
25
25
25
40
BBU
2
3
1
40
40
40
• RRU 2479
DCDU Compact 3
32
32
32
• RRU 2262
32
32
2
3
4
5
6
7
8
50
50
50
50
40
40
40
40
32
• AIR 3278
• AIR 3227
32
32
14
15
16
32
• RRU 4415
17
18
19
20
18
19
20
40
40
40
Dummies CB
• RRU 2212
1
AIR 6449
RRU 8863
25
• RRU 2279
• RRU 2260
9
10 11 12
•
•
13
13
14
15
16
25
25
25
25
• RRU 2217
• RRU 4499
17
18
19
20
Dummies CB
Indoor
configuration
Dummies CB
• DC Distribution Breakers position
DCDU Compact 1
1
2
3
4
5
6
25
25
25
6
6
6
BBU
DCDU Compact 2
6610
8
9
10
11
12
13
14
15
16
17
18
19
20
Dummies CB
Res
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
40
40
40
40
32
32
32
32
32
32
32
32
25
25
25
25
40
40
40
40
• RRU 2479
DCDU Compact 3
7
• RRU 2262
• RRU 2279
• RRU 2212
1
2
3
4
5
6
7
8
• RRU 2260
9
10 11 12
50
50
50
50
40
40
40
40
32
•
•
AIR 6449
RRU 8863
• AIR 3278
• AIR 3227
32
32
32
• RRU 4415
13
14
15
16
25
25
25
25
• RRU 2217
• RRU 4499
17
18
19
20
Dummies CB
• Option 1 → DC Cable < 2,5m
Indoor
configuration
4X63
• DC Distribution Breakers position
Dummies CB
Compact DCDU located in transmission rack
DCDU Compact 4
Indoor Site only
1
2
3
4
5
6
10
10
10
10
10
10
Transmission
• Option 2 → DC Cable > 2,5m
UCCU
7
8
9
10
11
12
13
14
15
Dummies CB
DCDU Compact 1
• If the total length of the DC cable between the main DCDU 6210 and the fourth DCDU for TX is more than
2.5m you must use the 25A CB available from compact DCDU 1 with DC Cable 10mm²
16
17
18
19
20
Existing indoor Transmission cabinet
The existing DC Distribution Unit inside the indoor Transmission cabinet will be
replaced with 1x new Ericsson Compact DCDU installed in the same position.
• The existing indoor Transmission cabinet will
remain in use.
Battery backup
2 x125
2 x125
2 x125
2 x125
190AH
DCDU 6150
190AH
6150/6210 –B154 (x1)
2 x125
2 x125
2 x125
190AH
190AH
190AH
190AH
190AH
190AH
190AH
190AH
2 x125
DCDU 6150
6150/6210 –B154 (x4)
Enclosure 6130
n°1
x3
• Radio
4415 B7
• AIR
6449
B43
/B78M
n°2
x3
x3•
Radio
2479
B20 B8
B28B
x3
• Radio
4499 B1B3
DCDU 2
DCDU 3
4 x 63
DCDU 3
DCDU 4
1x 63 2x 63
6130 AC n°1
4 x 63
6130 AC n°2
Antenna/RRU Configuration
High Cap (1 passive antenna+ 4 RRUs)
> High Cap+ (1 pssive antenna + 1 active antenna + 3 RRUs)
Free view angles 1/2
•Antenna positioning:
As a general rule:
- Antennas in the same sector need to be in the same plane (one not installed more in front with respect to the other). Take into account
antenna supports, antenna clamps, Z-spacers or other offsets
- The azimuth of the antenna are perpendicular to the supporting structure
- Especially on H-frames if the antennas are not perpendicular this will cause problems with the free view angles described below, so in
that case the H-frame needs to be rotated to get the perpendicular installation.
•Free view angles
The horizontal (H) values are + and -, so left and right from the main direction of the antenna. So, in total between 160° and
170°, which is quite substantial.
Negative vertical (V) values are referring to the upwards angle with respect to the horizontal plane (0° on the water level)
Positive vertical (V) values are referring to the downwards angle with respect to the horizontal plane (0° on the water level)
The upper row is showing the length/height of the passive antenna.
•Remarks
In case there’s a physical constraint and no other solution is possible, then the antennas can be in a different
horizontal plane.
•In that case it is still required that the free view angles are respected.
•Eg. wall mounted antennas on different corners of a building
2.6m H
2.6m V
2.0m H
-7°
Free view angle
±80°
2.0m V
-9°
±80°
20°
1.5m H
1.5m V
29°
V
-25°
AAU 64T64R
±80°
30°
-7°
AAU 32T32R
±80°
20°
-17°
±85°
24°
H
-3°
TDD 8T8R
±80°
17°
Free view angles 2/2