AI-LINK RU1606 5G 5.8GHz Base Station Owner’s Manual
- May 15, 2024
- AI-LINK
Table of Contents
AI-LINK RU1606 5G 5.8GHz Base Station
Specifications
- Dimensions: 88 mm x 440 mm x 360 mm
- Weight: 18kg
- Installation: 2U, 19-inch cabinet installation, rack installation, wall-mounted chassis installation
- Power: DC: -48V voltage range -57~-43V
- Temperature Environment: -5°C to +40°C
- Humidity Environment: 15% to 85%
- RoHS: Compliant
- Carrier Capability: PEU001-J with carrier 960W Rated 1200W
- Fan Cooling Capacity: 2000W
- Optical Module Speed: MPT001-J support 210G/25G, BBP001-J support 625G
Product Usage Instructions
Overview of 5G Mobile Communication System
The product is designed to be part of a 5G mobile communication system that
offers an advanced system structure and high-integration design to meet
various demands.
Major Technical Features
- Adopt resource pool design to improve hardware resource efficiency.
- Digital intermediate frequency for enhanced signal processing.
- Powerful processing ability for high-power coverage and large bandwidth.
- Intelligent fan control for extended lifespan and reduced noise.
- In-band adaptive filtering to resist interference.
- Support cascading RRU for flexible wireless coverage extension.
- Operating frequency range of 5725~5850MHz for convenient application.
Product Features
The product fully considers customer demands in services, capacities,
coverage, transmission, power, installation, and maintenance. It reflects AI-
LINK’s idea of customized services with its high-integration design and far-
end independent coverage.
FAQ
-
Q: What is the operating frequency range of the base station?
A: The operating frequency range is from 5725MHz to 5850MHz. -
Q: What is the power supply requirement for the base station?
A: The base station requires a DC power supply with a voltage range of -57V to -43V.
OVERVIEW
AI-LINK is not only the leader of the 5G technology standards but also takes the lead in the research of 5G system network equipment, product tests and trial network operations. AI-LINK not only provides 5G mobile network equipment but also supplies customized solutions, which can satisfy different operators’ requirements. In this way, AI-LINK can provide differentiated services for different customers. Consequently, it can bring excellent economic benefits for operators.
This chapter introduces network solutions of 5G mobile communication system at first, and then is followed by the product characteristics of 5G 5.8GHz Base Station.
Introduction of 5G Mobile Communication System
A diagram of typical 5G system networks is shown below in Figure 1-1.
Product Orientation
AI-LINK can provide solutions for 5G systems according to different demands. The system of AI-LINK 5G 5.8GHz base station mainly includes BBU, RRU:
- The type of BBU is BB1000-J.BBU stands for Base Band Unit. The type of RRU is RU1606
BB1000-Jmain functions are:
- Switching control and transmission: synchronization function between the base station system and GPS; 24-hour synchronization maintenance function in the event of satellite signal loss; Interfaces and interface protocol processing functions with the core network; Service and signalling exchange processing functions with various boards within the BBU; BBU internal board presence and survival detection function; Its internal board power on /off control function; Its internal board clock distribution functions, etc.
- Baseband processing: physical layer processing function; L2 processing function; system synchronization function; power-controlled delay on function; I²C SLAVE management function, etc.
PRODUCT FEATURES
Making full use of optical remote technology,5G takes customer’s demands in services, capacities, coverage, transmission, power, installation and maintenance fully into account, adopts integrated design with high integration to carry out far-end independent coverage, and saves sites resources, which highly reflects AI-LINK’s idea of customized services.
Major Technical Features
- 5 G-oriented and advanced system structure
- Adopt resource pool design to improve the effectiveness of hardware resources and the fault-tolerance ability of the system.
- Apply digital intermediate frequency to improve signal processing ability.
- Powerful processing ability of the single cell, and support high-power coverage and large bandwidth coverage.
- Intelligent fan control extends the fan’s lifespan and reduces noise.
- Support in-band adaptive filtering to resist interference.
- Support cascading RRU to flexibly extend wireless coverage areas.
- Support operating frequency of 5725~5850MHz and achieve convenient application.
Technical Specifications
BB1000-Jtechnical parameter
Table 2-1BB1000-J technical parameter
Item | Parameter |
---|---|
Dimensions (height x width x depth) |
88 mm x 440 mm x 360 mm
Full weight| 18kg
Height| 2U
Installation method
| 19-inch cabinet installation, rack installation, wall-mounted chassis
installation
DC Power module capability| PEU001-J:With carrier 960W Rated 1200W
Fan maximum cooling capacity (W)| 2000W
Temperature environment| -5℃ ~ +40℃
Humidity environment| 15% ~ 85%
Input power| DC: -48Vvoltage range:-57~-43V
---|---
Technology that supports the environment|
RoHS
BBP001-J carrier capability| 3/6100M 32TR
Maximum carrier capacity| 36100M 32TR
Optical module speed
| MPT001-J support 210G/25G BBP001-J support 625G
Whether the optical module can be easily replaced|
Yes
Protection level| IP20
RU1606 technical parameter
Table 2-2RU1606 technical parameter
Item | Parameter |
---|---|
Dimensions (height x width x depth) | 470mm320mm110mm |
Weight | 17Kg |
Frequency band(MHz) | 5725-5850 |
BW (MHz) | 100 |
Duplex mode | 5GNR-TDD |
Radio interface | N |
Number of channels | NR: 4T4R |
Receiving Sensitivity(dBm) | <-97 |
Antenna Gain(dBi)(external) | 15 |
Antenna Polarization | Dual Polarization |
Power supply interface | 48V DC voltage range:-57~-43V |
Power consumption (W) | <240 |
International Protection | IP65 |
Installation Mode | Mounted on the wall, a pole |
Interface type | Optical port |
Interface index(Gbps) | 25Gbps |
Number of interfaces | 2 |
Working temperature | -40~+55℃ |
Relative humidity | 5%~95% |
Product Appearance
BB1000-J Appearance
BB1000-J chassis appearance is shown in
The main features of the chassis are as follows:
- Using sheet metal plus plastic composite panel;
- The whole chassis is electrically conductive and has good shielding ability;
- The air duct is reasonably designed and has good heat dissipation capacity;
- Easy to install and maintain the case;
- Simple appearance.
-
Chassis Hardware Unit Arrangement
BB1000-J is mainly divided into the following main components:- Main box BB1000-J chassis
- Power supply unit PEU001-J
- Fan unit FAN001-J
- Function board MPT001-J/BBP001-J
Arrange the hardware units shown in Figure 2-2. Standard board positions are shown in Figure 2-3.
-
Typical Configuration
Typical configuration 1: 1MPT001-J+1BBP001-J -
RU1606 Appearance
According to antenna type, RU1606 is radio equipment with an external antenna antenna. Figure 2-4 shows the appearance of the RU1606.
- Physical Interface
RU1606adpots modular structures with external interfaces distributed at the bottom of the device, as shown in Table 2-3.
Table 2-3RU1606 physical interface Interface| Type| Lable| Quantity| Description
---|---|---|---|---
Debug interface| HDMI| Debug| 1| Local Maintenance
Power interface| Power interface| PWR| 1| Used to connect DC -48V power.
IR interface
| 25G
SFP+Optical connector
|
OP1-2
|
2
|
Used to connect BBU
Antenna interface 1 ~
4
| N Female| ANT1 ~
ANT4
| 4| RF transceiver signal interface
Status Indicator| LED| | 5| 5 LED lights, indicating working
status of RRU
ESC antenna interface| AISG| AISG| 1|
Environmental
monitoring interface
| DB9| MON| 1|
2. Indicator definition
RU1606adpots modular structures with external interfaces distributed at the
bottom of the device, as shown in Table 2-4.
Led | Colour | Label | Status | Meaning |
---|---|---|---|---|
PWR | Green | PWR | On | Power on normally |
Off | Power on abnormally | |||
ALM | Red | ALM | On | Device fault alarm |
Off | No fault alarm |
VSWR
|
Green
|
VSWR
| On| The power-on channel device self-test is normal, no VSWR alarm
Off| VSWR abnormal
OP1
|
Green
|
OP1
| On| The optical port is normal
Off| Fibre unlocked, or out of sync, or low power, or TXFAULT
OP2
|
Green
|
OP2
| On| The optical port is normal
Off| Fibre unlocked, or out of sync, or low power, or TXFAULT
Installation
This chapter shows how to install 5G 5.8GHz Base Station, and provides suggestions and references also.
Instructions on Safety Symbols
See the sorts and definitions of safety symbols in Table 3-1:
Table 3-1All Sorts of Safety Symbols and Their Definitions
BB1000-installation
When the existing 19-inch standard cabinet of BB1000-Jcan be installed in the
equipment room, The 19-inch cabinet needs to provide 3U (including 1U cabling
space), installation space greater than 450mm deep, and the 19-inch cabinet
column is 100mm from the front door.
GPS Installation
RU1606 Installation
Introduction to Mounting Backframe
The diameter of the pole matching the mounting back frame of the RRU is within
50 mm~114 mm, which should be 80mm (recommended); the back frame is shown in
Figure 3-6.
Installation by Holding Pole
Installation steps:
- Loosen the fastening screws on the mounting back frame. Disassemble the RRU mounting components into two parts, i.e. RRU mounting back frame and pole mounting part, as shown in Figure 3-7
- Assembling the mounting part to the pole: Remove the nut (including spring washer and flat washer) from one bolt of the mounting part, then remove the bolt and keep the mounting part open on one side; apply the mounting part to the pole horizontally, and then Insert the bolt into the mounting part; adjust the mounting part, apply the flat washer, spring washer, and nut, and tighten the nut with the wrench, as shown in Figure 3-8.
- Installing the back frame on the RRU: Assemble the mounting back plate with the RRU. Align the four fixing holes on the outside of the back plate with those on the back of the RRU, and tighten the back plate to the RRU with four screws (note the side with screws should face up), as shown in Figure 3-10.
- Mounting the RRU: Hold the RRU with both hands and keep the mounting back frame directly above the pole fixing part. Move it down to fix the mounting back frame with the pole mounting part; pass the fastening screw through the top of the mounting back frame and the connecting hole of the pole mounting part, and tighten it with the hexagon screwdriver, as shown in Figure 3-11.
Acronyms and Abbreviations
Abbreviation | Full Spelling |
---|---|
AC | Alternating Current |
ALM | Alarm |
BBU | Baseband Unit |
BD | BeiDou |
CPRI | Common Public Radio Interface |
DAS | Distributed Antennas system |
DC | Directing Current |
GE | Giga-Ethernet |
GPS | Global Positioning System |
I2C | Inter-Integrated Circuit |
IP | Internet Protocol |
Ir | Interface between the RRU and the BBU |
LMT | Local Maintenance Terminal |
MIMO | Multiple-Input Multiple-Output |
NR | New Radio Access |
ODF | Optical Distribution Frame |
OBW | Operating Bandwidth |
PoE | Power over Ethernet |
RRU | Radio Remote Unit |
pRU | RRU |
rhumb | RRU Hub |
TDD | Time Division Duplexing |
FCC STATEMENT
For 5.8GHz Radio Unit
Any Changes or modifications not expressly approved by the party responsible
for compliance could void the user’s authority to operate the equipment.
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions:
- This device may not cause harmful interference, and
- This device must accept any interference received, including interference that may cause undesired operation.
Note:
This equipment has been tested and found to comply with the limits for a Class
A digital device, according to part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference when
the equipment is operated in a commercial environment. This equipment
generates, uses, and can radiate radio frequency energy and, if not installed
and used per the instruction manual, may cause harmful interference to radio
communications. Operation of this equipment in a residential area is likely to
cause harmful interference in which case the user will be required to correct
the interference at his own expense.
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20cm between the radiator& your body.