AAU5726 Technical Specifications (V100R016C10 - 02) (PDF) - EN

AAU5726
V100R016C10
Technical Specifications
Issue 02
Date 2020-07-02
HUAWEI TECHNOLOGIES CO., LTD.

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Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. i

AAU5726
Technical Specifications Contents
Contents
1 AAU5726 Technical Specifications....................................................................................... 1

2 Changes in AAU5726 Technical Specifications................................................................. 2
3 AAU5726 (1800 MHz+2100 MHz) Technical Specifications.......................................... 3
3.1 AAU5726 (1800 MHz+2100 MHz) RF Specifications.................................................................................................. 3
3.2 AAU5726 (1800 MHz+2100 MHz) Antenna Specifications...................................................................................... 6
3.3 AAU5726 (1800 MHz+2100 MHz) EIRP & EIRS............................................................................................................ 7
3.4 AAU5726 (1800 MHz+2100 MHz) Engineering Specifications............................................................................... 8
3.5 AAU5726 (1800 MHz+2100 MHz) CPRI Port Specifications.................................................................................. 11
4 AAU5726 (AWS+PCS) Technical Specifications.............................................................. 13

4.1 AAU5726 (AWS+PCS) RF Specifications....................................................................................................................... 13
4.2 AAU5726 (AWS+PCS) Antenna Specifications............................................................................................................16
4.3 AAU5726 (AWS+PCS) EIRP & EIRS................................................................................................................................. 18
4.4 AAU5726 (AWS+PCS) Engineering Specifications..................................................................................................... 19
4.5 AAU5726 (AWS+PCS) CPRI Port Specifications.......................................................................................................... 22
5 Power Configuration Rules for RF Modules.................................................................... 23
Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. ii

AAU5726
Technical Specifications 1 AAU5726 Technical Specifications
1 AAU5726 Technical Specifications
An AAU integrates the antenna and RF unit. This document provides a reference
for planning and deploying an AAU5726. It describes the radio frequency (RF)
specifications, antenna specifications, equivalent isotropically radiated power
(EIRP), equivalent isotropic receiver sensitivity (EIRS), engineering specifications,
and common public radio interface (CPRI) port specifications of the AAU5726.
Product Versions
Product Name Solution Version Product Version
AAU5726 ● SRAN16.1 V100R016C10

● eRAN16.1 For details about the
● RAN22.1 software versions of RF
modules, see the
document describing
software and hardware
compatibility.
Intended Audience
This document is intended for:
● Network planners
● Onsite engineers
● System engineers
Organization
Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 1

AAU5726
Technical Specifications 2 Changes in AAU5726 Technical Specifications
2 Changes in AAU5726 Technical

Specifications
This section describes the changes in AAU5726 Technical Specifications.
02 (2020-07-02)
This is the second commercial release.
Compared with Issue 01 (2020-04-07), this issue includes the following new topics:
4 AAU5726 (AWS+PCS) Technical Specifications
Compared with Issue 01 (2020-04-07), this issue does not include any changes or
exclude any topics.
01 (2020-04-07)
This is the first commercial release.
Compared with Draft A (2020-01-20), this issue does not include any new topics
or changes, or exclude any topics.
Draft A (2020-01-20)
This is a draft.
AAU5726 Technical Specifications is a separate document created for this release.
Its content derives from the sections "AAU5726 Technical Specifications" and
"Power Configuration Rules for RF Modules" in AAU Technical Specifications. In
this and subsequent releases, this content is removed from AAU Technical
Specifications and constitutes a separate document.
Compared with AAU Technical Specifications of Issue 04 (2019-10-25) in
V100R015C10, this issue does not include any new topics or changes, or exclude
any topics.

AAU5726 3 AAU5726 (1800 MHz+2100 MHz) Technical
Technical Specifications Specifications
3 AAU5726 (1800 MHz+2100 MHz)

Technical Specifications
The technical specifications of an AAU5726 (1800 MHz+2100 MHz) include RF

specifications, antenna specifications, EIRP, EIRS, engineering specifications, and
CPRI port specifications.
3.1 AAU5726 (1800 MHz+2100 MHz) RF Specifications

The RF specifications include radio access technologies (RATs), frequency bands,
TX/RX modes, capacity, output power, and receiver sensitivity.
3.2 AAU5726 (1800 MHz+2100 MHz) Antenna Specifications
The antenna specifications include the frequency range, gains, and beam range of
the antenna.
3.3 AAU5726 (1800 MHz+2100 MHz) EIRP & EIRS
The EIRP and EIRS of an AAU are used to measure the capability of transmitting
and receiving signals.
3.4 AAU5726 (1800 MHz+2100 MHz) Engineering Specifications
The engineering specifications include the dimensions, weight, input power,
module power consumption, and environmental specifications.
3.5 AAU5726 (1800 MHz+2100 MHz) CPRI Port Specifications
The CPRI port specifications of an AAU include the CPRI port protocol, rate, and
maximum level of cascading and maximum distance with a BBU.
3.1 AAU5726 (1800 MHz+2100 MHz) RF Specifications

● Unless otherwise specified, in the following, LTE and eNodeB always include
LTE FDD, LTE TDD, and LTE NB-IoT. In scenarios where they need to be
distinguished, LTE FDD, LTE TDD, and LTE NB-IoT are used. The same rules
apply to eNodeB.
● In the following, G is short for GSM, U is short for UMTS, L is short for LTE
FDD, T is short for LTE TDD, M is short for LTE NB-IoT, N is short for NR, N
(FDD) is short for NR FDD, and N (TDD) is short for NR TDD.

Supported Frequency Bands and RATs
Table 3-1 Frequency bands and RATs supported by an AAU5726 (1800 MHz+2100
MHz)
Frequency Protocol- RX TX RAT IBW
Band defined Frequency Frequency (MHz)
(MHz) Band Band Band
(MHz) (MHz)
1800+2100 Band 1800: 1710 1800: 1805 1800 MHz: 1800: 40

3+Band 1 to 1785 to 1880 LTE FDD 2100: 40
2100: 1920 2100: 2110 2100 MHz:
to 1980 to 2170 LTE FDD
and UL
TX/RX Modes and Capacity
Table 3-2 TX/RX modes and capacity of an AAU5726 (1800 MHz+2100 MHz)
Frequency TX/RX Modea Capacity Supported
Band (MHz) Bandwidth
(MHz)b
1800+2100 32T32R 1800 MHz LTE FDD:

● LTE FDD: 2 carriers 5/10/15/20
2100 MHz
● LTE FDD: 2 carriers
● UL: 2 UMTS carriers+2
LTE FDD carriers
1800 MHz+2100 MHz
● 2 UMTS carriers (with
MIMO)+4 LTE FDD
carriers
a: ATBR in the TX/RX Mode column indicates that the RF module uses A
transmit channels and B receive channels.
b: The bandwidth information in Supported Bandwidth is the standard
bandwidth that can be configured for a single-mode carrier when only one
carrier is configured. In any carrier combination scenario, the total bandwidth of
all carriers cannot exceed the IBW value. For details about the bandwidth that
can be configured for each carrier in each carrier combination scenario, see
Typical Power Configuration Reference for AAU Modules.

The number of carriers and the maximum bandwidth in actual use depend on the
configurations of optical modules and baseband processing units.
Output Power and Carrier Configurations
Table 3-3 Output power and carrier configurations of an AAU5726 (1800 MHz
+2100 MHz)
Frequency Maximum Output Output Power Configuration

Band (MHz) Power
1800+2100 1800 MHz: 200 W For typical configurations, see Typical

2100 MHz: 200 W Power Configuration Reference for
AAU Modules.
1800 MHz+2100
MHz: 300 W
a: CxD W in the Output Power column indicates that the RF module has C
transmit channels and the maximum output power of each transmit channel is
D W.
● The output power of the 5 MHz LTE carrier cannot exceed 60 W when the AAU5726 is
configured with multiple LTE carriers.
● The Typical Power Configuration Reference for AAU Modules document includes the
configurable carrier combinations and the output power of each carrier in each
combination. Before referring to this document, you must be familiar with the output
power configuration rules. For details, see 5 Power Configuration Rules for RF
Modules.
● Each Output Power per Carrier (W) value in the Typical Power Configuration
Reference for AAU Modules document indicates the maximum output power of each
carrier under the corresponding configuration while ensuring the network performance.
The actually configured carrier power of RF modules can be less than or equal to the
value of Output Power per Carrier (W) in the document. The power configuration that
is not supported in the document may be configurable on the software. Huawei can
only promise the performance with the power configurations listed in the document.
RF Compliance Standards
Table 3-4 RF compliance standards for an AAU5726 (1800 MHz+2100 MHz)
Item Standard
UMTS standard 3GPP TS 25.104
LTE standard 3GPP TS 36.104
Multimode standard 3GPP TS 37.104

3.2 AAU5726 (1800 MHz+2100 MHz) Antenna

Specifications
the antenna.
Antenna Specifications
Table 3-5 Antenna electrical specifications of an AAU5726 (1800 MHz+2100 MHz)
Item Specifications
Frequency Range (MHz) 1710 to 1880 1920 to 2170
Broadcast Gain (dBi) 15.7 15.7

beam
Horizontal beamwidth 65±5 65±5
(°)
Vertical beamwidth 8±1 6.5±1

(°)
Vertical tilt range (°) 5 to 9 5 to 9
Upper sidelobe 12±2 12±2

suppression (dB)
Horizontal edge 12±2 12±2

power decrease
between +60° and
-60° (dB)
Front-to-back ratio ≥ 28 ≥ 28
(dB)
Downtilt precision (°) ±1 ±1
Traffic beama Gain (dBi) 22.5 22.5

(°)
Vertical beamwidth 8±1 6.5±1

(°)
a: In this scenario, the horizontal and vertical beam directions are 0° and 8°,
respectively.
Antenna Patterns
The blue line represents the horizontal directivity patten, and the red line
represents the vertical directivity pattern.

Figure 3-1 Pattern sample of AAU5726 broadcast beams in a macro coverage

scenario
Figure 3-2 Pattern sample of AAU5726 traffic beams
3.3 AAU5726 (1800 MHz+2100 MHz) EIRP & EIRS


Table 3-6 AAU5726 (1800 MHz+2100 MHz) EIRP & EIRS

Frequency Band EIRP EIRS
(MHz)
1800+2100 1800 MHz or 2100 MHz: LTE FDD: -105 dBm - 22.5 dBi
● Broadcast beam: 53 UMTS: -124 dBm - 15.7 dBi
dBm + 15.7 dBi = 68.7
dBm
● Traffic beam: 53 dBm
+ 22.5 dBi = 75.5 dBm
1800 MHz+2100 MHz:
● Broadcast beam: 54.7
dBm + 15.7 dBi = 70.4
dBm
● Traffic beam: 54.7
dBm + 22.5 dBi = 77.2
dBm
● The UMTS receiver sensitivity, as recommended in 3GPP TS 25.141, is measured at the

antenna connector assuming that the channel rate is 12.2 kbit/s and the bit error rate
(BER) is lower than or equal to 0.001.
● The LTE FDD receiver sensitivity, as recommended in 3GPP TS 36.141, is measured under
a 5 MHz bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs)
standard.
3.4 AAU5726 (1800 MHz+2100 MHz) Engineering

Specifications
Input Power
Table 3-7 Input power of an AAU5726 (1800 MHz+2100 MHz)

Power Supply Operating Voltage
Type
-48 V DC -36 V DC to -57 V DC
When the AAU5726 is powered by the EPU02S or SDU60-02, a maximum of -63 V DC input
power is supported.

Module Power Consumption
Table 3-8 Power consumption of an AAU5726 (1800 MHz+2100 MHz)
Frequency Band (MHz) Typical Power Consumption (W)a
1800+2100 1050
a: The typical power consumption of an RF module is measured when the

ambient temperature is 25°C (77°F) and the traffic load reaches 50%. The
actual power consumption has a 10% deviation from this value.
Dimensions and Weight
Table 3-9 Dimensions and weight of an AAU5726 (1800 MHz+2100 MHz)
Frequency Band (MHz) Dimensions (H x W x Weight

D)
1800+2100 1080 mm x 670 mm x 50 kg (110.25 lb,

220 mm (42.52 in. x excluding the handles
26.38 in. x 8.66 in.) and mounting kits)
Environmental Specifications
Table 3-10 Environmental specifications of an AAU5726 (1800 MHz+2100 MHz)
Item Specifications
Operating temperature Without solar radiation: -40°C to +55°C (-40°F to

+131°F)
With solar radiation: -40°C to +50°C (-40°F to
+122°F)
Wind load (Assume that ● Front: 1080 N

the wind speed is 150 ● Side: 245 N
km/h.)
● Rear: 1105 N
Operating wind speed 150 km/h
Survival wind speed 200 km/h
Relative humidity 5% RH to 100% RH
Absolute humidity 1 g/m3 to 30 g/m3
Atmospheric pressure 70 kPa to 106 kPa

The output power of an AAU temporarily decreases when it operates at temperature ranges
10°C (50°F) less than or equal to its maximum rated value. This is dependent on
installation scenario, traffic load, and carrier configuration.
Table 3-11 Surge protection specifications of ports

Port Surge Protection Mode Surge Protection
Specifications
Power port Surge current 20 kA
● Unless otherwise specified, the lightning protection specifications depend on the surge
waveform of 8/20 μs.
● All the surge current items, unless otherwise specified as Maximum discharge current,
refer to Nominal discharge current.
Compliance Standards
Table 3-12 Compliance standards for an AAU5726 (1800 MHz+2100 MHz)

Item Standard
Operating ETSI EN 300019-1-4 V2.1.2 (2003-04) Class 4.1: "Non-

environment weatherprotected locations"
Storage ETSI EN 300019-1-1 V2.1.4 (2003-04) Class 1.2

environmenta "Weatherprotected, not temperature-controlled storage
locations"
Shockproof ● ETSI300019-2-3
protection
Ingress protection IP65

rating

Item Standard
Surge protection ● IEC 62305-1 Protection against lightning - Part 1:

General principles
● IEC 62305-3 Protection against lightning - Part 3:
Physical damage to structures and life hazard
Electrical and electronic systems within structures
● ITU-T K.35 Bonding configurations and earthing at
remote electronic sites
● ITU-T K.56 Protection of radio base stations against
lightning discharges
● ITU-T K.97 Lightning protection of distributed base
stations
● ETSI EN 300 253 Environmental Engineering (EE):
Earthing and bonding configuration inside
telecommunications centers
● YD/T 2324-2011: Lightning protection requirements
and test methods for radio base stations
● GB 50689-2011: Code for design of lightning
protection and earthing engineering for
telecommunication bureaus (stations)
a: The validity period is one year. The product can function properly within the
validity period if the storage environment meets the preceding standards.
3.5 AAU5726 (1800 MHz+2100 MHz) CPRI Port

Specifications
Table 3-13 CPRI port protocol and rate of an AAU5726 (1800 MHz+2100 MHz)
Number of Protocol Type Port Rate (Gbit/s)

CPRI Ports
2 CPRI 10.1/24.3
Table 3-14 Maximum level of cascading and maximum distance between an

AAU5726 (1800 MHz+2100 MHz) and a BBU
Module Maximum Level of Maximum Distance from a

Cascading with a BBU BBU
AAU5726 Not supported 20 km (12.43 mi.)

● For details about the CPRI topologies supported by each type of AAU, see RF Unit and
Topology Management.
● For details about the ALD capabilities supported by each type of AAU (for example, the
capabilities of RF ports supporting RET antennas and TMAs), see ALD Management.

AAU5726
Technical Specifications 4 AAU5726 (AWS+PCS) Technical Specifications
4 AAU5726 (AWS+PCS) Technical

Specifications
The technical specifications of an AAU5726 (AWS+PCS) include RF specifications,

antenna specifications, EIRP, EIRS, engineering specifications, and CPRI port
specifications.
4.1 AAU5726 (AWS+PCS) RF Specifications

4.2 AAU5726 (AWS+PCS) Antenna Specifications
the antenna.
4.3 AAU5726 (AWS+PCS) EIRP & EIRS
4.4 AAU5726 (AWS+PCS) Engineering Specifications
4.5 AAU5726 (AWS+PCS) CPRI Port Specifications
4.1 AAU5726 (AWS+PCS) RF Specifications

● Unless otherwise specified, in the following, LTE and eNodeB always include
LTE FDD, LTE TDD, and LTE NB-IoT. In scenarios where they need to be
distinguished, LTE FDD, LTE TDD, and LTE NB-IoT are used. The same rules
apply to eNodeB.
● In the following, G is short for GSM, U is short for UMTS, L is short for LTE
FDD, T is short for LTE TDD, M is short for LTE NB-IoT, N is short for NR, N
(FDD) is short for NR FDD, and N (TDD) is short for NR TDD.

AAU5726
Supported Frequency Bands and RATs
Table 4-1 Frequency bands and RATs supported by an AAU5726 (AWS+PCS)

Frequency Protocol- RX TX RAT IBW
Band defined Frequency Frequency (MHz)
(MHz) Band Band Band
(MHz) (MHz)
AWS+PCS Band AWS: 1710 AWS: 2110 AWS: LTE AWS: 40

66+Band 2 to 1780 to 2180 FDD PCS: 40
PCS: 1850 PCS: 1930 to PCS: LTE
to 1910 1990 FDD and UL
TX/RX Modes and Capacity
Table 4-2 TX/RX modes and capacity of an AAU5726 (AWS+PCS)

Frequency TX/RX Modea Capacity Supported
Band (MHz) Bandwidth
(MHz)b
AWS+PCS 32T32R AWS: LTE FDD:

● LTE FDD: 2 carriers 5/10/15/20
PCS:
● UL: 2 UMTS carriers+2
LTE FDD carriers
AWS+PCS
● 2 UMTS carriers (with
MIMO)+4 LTE FDD
carriers
a: ATBR in the TX/RX Mode column indicates that the RF module uses A
transmit channels and B receive channels.
b: The bandwidth information in Supported Bandwidth is the standard
bandwidth that can be configured for a single-mode carrier when only one
carrier is configured. In any carrier combination scenario, the total bandwidth of
all carriers cannot exceed the IBW value. For details about the bandwidth that
can be configured for each carrier in each carrier combination scenario, see
Typical Power Configuration Reference for AAU Modules.

AAU5726
Output Power and Carrier Configurations
Table 4-3 Output power and carrier configurations of an AAU5726 (AWS+PCS)

Frequency Maximum Output Output Power Configuration
Band (MHz) Power
AWS+PCS AWS: 200 W For typical configurations, see Typical

PCS: 200 W Power Configuration Reference for
AAU Modules.
AWS+PCS: 300 W
a: CxD W in the Output Power column indicates that the RF module has C
transmit channels and the maximum output power of each transmit channel is
D W.
● The output power of the 5 MHz LTE carrier cannot exceed 60 W when the AAU5726 is
configured with multiple LTE carriers.
● The Typical Power Configuration Reference for AAU Modules document includes the
configurable carrier combinations and the output power of each carrier in each
combination. Before referring to this document, you must be familiar with the output
power configuration rules. For details, see 5 Power Configuration Rules for RF
Modules.
● Each Output Power per Carrier (W) value in the Typical Power Configuration
Reference for AAU Modules document indicates the maximum output power of each
carrier under the corresponding configuration while ensuring the network performance.
The actually configured carrier power of RF modules can be less than or equal to the
value of Output Power per Carrier (W) in the document. The power configuration that
is not supported in the document may be configurable on the software. Huawei can
only promise the performance with the power configurations listed in the document.
● When the AAU5726 works both in AWS and PCS frequency bands, third-order passive
intermodulation (PIM3) products may fall in the RX frequency bands. The AAU5726
(AWS+PCS) does not support the scenario where the PIM3 products fall in the RX
frequency bands. Therefore, before configuring carriers, check spectrum combinations to
prevent this issue. The PIM3 products can be prevented from falling into the RX
frequency bands if the difference between the absolute value of the highest frequency
in the TX frequency band of the AAU (AWS) (indicated by F2 in the following figure)
and the absolute value of the lowest frequency in the TX frequency band of the AAU
(PCS) (indicated by F1 in the following figure) is less than or equal to 200 MHz.

AAU5726
Table 4-4 RF compliance standards for an AAU5726 (AWS+PCS)
Item Standard
UMTS standard 3GPP TS 25.104
LTE standard 3GPP TS 36.104
Multimode standard 3GPP TS 37.104
4.2 AAU5726 (AWS+PCS) Antenna Specifications

the antenna.
Antenna Specifications
Table 4-5 Antenna electrical specifications of an AAU5726 (AWS+PCS)
Item Specifications
Frequency Range (MHz) AWS PCS
Broadcast Gain (dBi) 15.7 15.7

beam
(°)
Vertical beamwidth 6.5±1 7.5±1

(°)
Vertical tilt range (°) 5 to 9 5 to 9
Upper sidelobe 12±2 12±2

suppression (dB)
Horizontal edge 12±2 12±2

power decrease
between +60° and
-60° (dB)
Front-to-back ratio ≥ 28 ≥ 28
(dB)
Downtilt precision (°) ±1 ±1
Traffic beama Gain (dBi) 22.5 22.5
Horizontal beamwidth 12±2 12.5±2

(°)

AAU5726
Item Specifications
Frequency Range (MHz) AWS PCS
Vertical beamwidth 6.5±1 7.5±1

(°)
a: In this scenario, the horizontal and vertical beam directions are 0° and 8°,
respectively.
Antenna Patterns
The blue line represents the horizontal directivity patten, and the red line
represents the vertical directivity pattern.
Figure 4-1 Pattern sample of AAU5726 broadcast beams in a macro coverage

scenario

AAU5726
Figure 4-2 Pattern sample of AAU5726 traffic beams
4.3 AAU5726 (AWS+PCS) EIRP & EIRS

Table 4-6 AAU5726 (AWS+PCS) EIRP & EIRS
Frequency Band EIRP EIRS

(MHz)
AWS+PCS AWS or PCS: LTE FDD: -105 dBm - 22.5 dBi

● Broadcast beam: 53 UMTS: -124 dBm - 15.7 dBi
dBm + 15.7 dBi = 68.7
dBm
● Traffic beam(1): 53
dBm + 22.5 dBi = 75.5
dBm
AWS+PCS:
● Broadcast beam: 54.7
dBm + 15.7 dBi = 70.4
dBm
● Traffic beam(1): 54.7
dBm + 22.5 dBi = 77.2
dBm
(1): EIRP of the traffic beam in LTE mode

AAU5726
● The UMTS receiver sensitivity, as recommended in 3GPP TS 25.141, is measured at the

antenna connector assuming that the channel rate is 12.2 kbit/s and the bit error rate
(BER) is lower than or equal to 0.001.
● The LTE FDD receiver sensitivity, as recommended in 3GPP TS 36.141, is measured under
a 5 MHz bandwidth based on the FRC A1-3 in Annex A.1 (QPSK, R = 1/3, 25 RBs)
standard.
4.4 AAU5726 (AWS+PCS) Engineering Specifications

Input Power
Table 4-7 Input power of an AAU5726 (AWS+PCS)

Power Supply Operating Voltage
Type
-48 V DC -36 V DC to -57 V DC
When the AAU5726 is powered by the EPU02S or SDU60-02, a maximum of -63 V DC input
power is supported.
Module Power Consumption
Table 4-8 Power consumption of an AAU5726 (AWS+PCS)

Frequency Band (MHz) Typical Power Consumption (W)a
AWS+PCS 1050
a: The typical power consumption of an RF module is measured when the

ambient temperature is 25°C (77°F) and the traffic load reaches 50%. The
actual power consumption has a 10% deviation from this value.

AAU5726
Dimensions and Weight
Table 4-9 Dimensions and weight of an AAU5726 (AWS+PCS)
Frequency Band (MHz) Dimensions (H x W x Weight

D)
AWS+PCS 1080 mm x 670 mm x 50 kg (110.25 lb,

220 mm (42.52 in. x excluding the handles
26.38 in. x 8.66 in.) and mounting kits)
Environmental Specifications
Table 4-10 Environmental specifications of an AAU5726 (AWS+PCS)
Item Specifications
Operating temperature Without solar radiation: -40°C to +55°C (-40°F to

+131°F)
With solar radiation: -40°C to +50°C (-40°F to
+122°F)
Wind load (Assume that ● Front: 1080 N

the wind speed is 150 ● Side: 245 N
km/h.)
● Rear: 1105 N
Operating wind speed 150 km/h
Survival wind speed 200 km/h
Relative humidity 5% RH to 100% RH
Absolute humidity 1 g/m3 to 30 g/m3
Atmospheric pressure 70 kPa to 106 kPa
The output power of an AAU temporarily decreases when it operates at temperature ranges
10°C (50°F) less than or equal to its maximum rated value. This is dependent on
installation scenario, traffic load, and carrier configuration.
Table 4-11 Surge protection specifications of ports
Port Surge Protection Mode Surge Protection

Specifications
Power port Surge current 20 kA

AAU5726
● Unless otherwise specified, the lightning protection specifications depend on the surge
waveform of 8/20 μs.
● All the surge current items, unless otherwise specified as Maximum discharge current,
refer to Nominal discharge current.
Compliance Standards
Table 4-12 Compliance standards for an AAU5726 (AWS+PCS)

Item Standard
Operating ETSI EN 300019-1-4 V2.1.2 (2003-04) Class 4.1: "Non-

environment weatherprotected locations"
Storage ETSI EN 300019-1-1 V2.1.4 (2003-04) Class 1.2

environmenta "Weatherprotected, not temperature-controlled storage
locations"
Shockproof ● ETSI300019-2-3
protection
Ingress protection IP65

rating
Surge protection ● IEC 62305-1 Protection against lightning - Part 1:

General principles
Physical damage to structures and life hazard
Electrical and electronic systems within structures
● ITU-T K.35 Bonding configurations and earthing at
remote electronic sites
● ITU-T K.56 Protection of radio base stations against
lightning discharges
● ITU-T K.97 Lightning protection of distributed base
stations
● ETSI EN 300 253 Environmental Engineering (EE):
Earthing and bonding configuration inside
telecommunications centers
● YD/T 2324-2011: Lightning protection requirements
and test methods for radio base stations
● GB 50689-2011: Code for design of lightning
protection and earthing engineering for
telecommunication bureaus (stations)
a: The validity period is one year. The product can function properly within the
validity period if the storage environment meets the preceding standards.

AAU5726
4.5 AAU5726 (AWS+PCS) CPRI Port Specifications

Table 4-13 CPRI port protocol and rate of an AAU5726 (AWS+PCS)

Number of Protocol Type Port Rate (Gbit/s)
CPRI Ports
2 CPRI 10.1/24.3
Table 4-14 Maximum level of cascading and maximum distance between an

AAU5726 (AWS+PCS) and a BBU
Module Maximum Level of Maximum Distance from a
Cascading with a BBU BBU
AAU5726 Not supported 20 km (12.43 mi.)
● For details about the CPRI topologies supported by each type of AAU, see RF Unit and
Topology Management.
● For details about the ALD capabilities supported by each type of AAU (for example, the
capabilities of RF ports supporting RET antennas and TMAs), see ALD Management.

AAU5726
Technical Specifications 5 Power Configuration Rules for RF Modules
5 Power Configuration Rules for RF

Modules
This section describes the power configuration standards for RF modules, RF

channel configuration rules, and remarks.
When you configure power for RF modules, comply with the following standards:
● GSM: multi-carrier base transceiver station (MCBTS) in 3GPP TS 45.005
● UMTS: 3GPP TS 25.141
● LTE: 3GPP TS 36.141
● NR TDD: 3GPP TS 38.104
● Multimode: multi-standard radio (MSR) in 3GPP TS 37.141
RF Channel Configuration Rules

When multimode RF modules work in a single mode, the rules for configuring RF
channels are the same as those for configuring RF channels in single-mode RF
modules. The following table provides the rules for configuring RF channels in
multimode RF modules working in multiple modes.
Table 5-1 Rules for configuring RF channels in multimode RF modules

RF RF Channel Configuration Rule
Module
Type
1T RF Non-MSR standard: One RF module can serve only one RAT and the
module rules for configuring RF channels in such an RF module is the same
as those for configuring RF channels in a single-mode RF module.
MSR standard: One RF module can serve two RATs at the same time,
and the two RATs can be carried over the same transmit channel.

AAU5726
RF RF Channel Configuration Rule

Module
Type
2T RF Non-MSR standard: Multiple RATs cannot be configured on one RF

module channel. For example, GSM carriers are carried over TX channel A
while UMTS carriers are carried over TX channel B.
MSR standard: One RF channel can be configured with two RATs.
Power of two transmit channels must be balanced if possible.
1T RF module: module that has only one transmit channel. 2T RF module: module that has two
transmit channels.
NR Configuration Rules
To ensure the performance of an NR cell in low frequency bands, the minimum
configurable output power of the NR cell is equal to the total rated power of an
RF module (unit: W) divided by 10. To ensure the performance of an NR cell in
high frequency bands, the minimum configurable EIRP of an RF module is equal
to the rated EIRP of the RF module (unit: dBm) minus 10.
The AAU5612 is used as an example. The maximum output power of the AAU5612 is 200 W.
When you configure an NR cell, the minimum output power of the NR cell is 20 W (equal to
200 W divided by 10).
● In this document, a transmit channel is represented by PA. For example, n
transmit channels of an RF module are represented by PA1, PA2, ..., and PAn.
The two transmit channels of a 2T RF module are represented by PA1 and
PA2. Unless otherwise specified, the power configuration values of all PAs of
an RF module can be interchanged.
● In this document, each value in the Output Power per Carrier (W) column
indicates the maximum output power of each carrier under the corresponding
configuration while ensuring the network performance. Output Power per
GSM Carrier With Dynamic Power Sharing is the available maximum
output power for every carrier during dynamic power sharing. If this power is
exceeded, the system cannot guarantee the network performance and will
report an alarm.
● The actually configured carrier power of RF modules can be less than or equal to the
value in the Output Power per Carrier (W) column in this document.
● The specifications that are not supported in this document may be configurable. Only
the performance with the configuration within the committed specification scope is
ensured.
● In MIMO carrier scenarios, MxN W indicates that an MIMO carrier is
configured in M PAs, and each PA is configured with power of N W.
● For an nT RF module (n is 2, 4, or 8), the restriction is as follows:
, where PAi indicates the number of carriers of transmit

AAU5726
channel i; Pi indicates the output power of each carrier of transmit channel i;

PAt indicates the total number of carriers configured in this RF module; P
indicates the maximum output power supported by each carrier.
● A requirement for the GU frequency spacing is as follows: GU frequency
spacing ≥ [(GSM bandwidth/2) + (UMTS bandwidth/2)].
● The typical configuration tables for PAs of GSM RF modules provided in this
document only list power values in GMSK mode because power values in
8PSK mode cannot be configured.
● For the GBTS and eGBTS, the output power per carrier of the same RF module
is the same. For GBTSs, the unit of the output power per carrier is W. For
eGBTSs, the unit of the output power per carrier is dBm. The conversion
relationship is as follows: dBm = 10 x log (1000 x W, 10) For example, when
there is only one carrier on an AAU (GSM, 1900 MHz), the output power per
carrier for a GBTS is 60 W (GMSK), and that for an eGBTS is 47.8 dBm
(GMSK) which is the result of ROUND(10 x log (1000 x 60, 10)).
● The formulas for calculating the minimum NB-IoT power per PA for an RF
module are as follows:
– Minimum NB-IoT power per PA for an RF module when NB-IoT cells work
in guardband or in-band mode = Total rated power per PA/10000
– Minimum NB-IoT power per PA for an RF module when NB-IoT cells work
in standalone mode = Total rated power per PA/100
For example, an AAU3920 supports a maximum output power configuration of 2x80 W.

The minimum NB-IoT power per PA for an AAU3920 when NB-IoT cells work in standalone
mode is calculated as follows: Minimum NB-IoT power per PA for an AAU3920 = 80 W/100
= 0.8 W.
● When two LTE NB-IoT carriers are configured, the bandwidth spacing
between the two NB-IoT carriers cannot be greater than 300 kHz.

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AAU5726

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Trademarks and Permissions

Huawei Technologies Co., Ltd.

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. i

1 AAU5726 Technical Specifications....................................................................................... 1

4 AAU5726 (AWS+PCS) Technical Specifications.............................................................. 13

5 Power Configuration Rules for RF Modules.................................................................... 23

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. ii

1 AAU5726 Technical Specifications

AAU5726 ● SRAN16.1 V100R016C10

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 1

2 Changes in AAU5726 Technical

This section describes the changes in AAU5726 Technical Specifications.

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 2

3 AAU5726 (1800 MHz+2100 MHz)

The technical specifications of an AAU5726 (1800 MHz+2100 MHz) include RF

3.1 AAU5726 (1800 MHz+2100 MHz) RF Specifications

3.1 AAU5726 (1800 MHz+2100 MHz) RF Specifications

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 3

Supported Frequency Bands and RATs

1800+2100 Band 1800: 1710 1800: 1805 1800 MHz: 1800: 40

TX/RX Modes and Capacity

1800+2100 32T32R 1800 MHz LTE FDD:

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 4

Output Power and Carrier Configurations

Frequency Maximum Output Output Power Configuration

1800+2100 1800 MHz: 200 W For typical configurations, see Typical

Table 3-4 RF compliance standards for an AAU5726 (1800 MHz+2100 MHz)

UMTS standard 3GPP TS 25.104

LTE standard 3GPP TS 36.104

Multimode standard 3GPP TS 37.104

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 5

3.2 AAU5726 (1800 MHz+2100 MHz) Antenna

Table 3-5 Antenna electrical specifications of an AAU5726 (1800 MHz+2100 MHz)

Frequency Range (MHz) 1710 to 1880 1920 to 2170

Broadcast Gain (dBi) 15.7 15.7

Vertical beamwidth 8±1 6.5±1

Vertical tilt range (°) 5 to 9 5 to 9

Upper sidelobe 12±2 12±2

Horizontal edge 12±2 12±2

Downtilt precision (°) ±1 ±1

Traffic beama Gain (dBi) 22.5 22.5

Horizontal beamwidth 13±2 12±2

Vertical beamwidth 8±1 6.5±1

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 6

Figure 3-1 Pattern sample of AAU5726 broadcast beams in a macro coverage

Figure 3-2 Pattern sample of AAU5726 traffic beams

3.3 AAU5726 (1800 MHz+2100 MHz) EIRP & EIRS

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 7

Table 3-6 AAU5726 (1800 MHz+2100 MHz) EIRP & EIRS

● The UMTS receiver sensitivity, as recommended in 3GPP TS 25.141, is measured at the

3.4 AAU5726 (1800 MHz+2100 MHz) Engineering

Table 3-7 Input power of an AAU5726 (1800 MHz+2100 MHz)

-48 V DC -36 V DC to -57 V DC

Issue 02 (2020-07-02) Copyright © Huawei Technologies Co., Ltd. 8

Module Power Consumption

Table 3-8 Power consumption of an AAU5726 (1800 MHz+2100 MHz)

Frequency Band (MHz) Typical Power Consumption (W)a