MINI-LINK PT Release 2.1 PRODUCT SPEC HRA /6 Uen Rev D

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1 Release 2.1 PRODUCT SPEC HRA /6 Uen Rev D

2 All rights reserved. The information in this document is the property of Ericsson. Except as specifically authorized in writing by Ericsson, the receiver of this document shall keep the information contained herein confidential and shall protect the same in whole or in part from disclosure and dissemination to third parties. Disclosure and disseminations to the receiver's employees shall only be made on a strict need to know basis HRA /6 Uen Rev D Ericsson AB (84)

3 MINI-LINK PT 2020 Contents 1 Introduction Standards R&TTE Directive RoHS Directive Council Recommendation Normative References North America Power EMC Safety/Health RoHS Environmental & climatic Ethernet Synchronization Digital Radio Transmission Data Communication Network Radio Link Radio frequencies Transmitter Performance Receiver Performance Ethernet Ethernet Capacity Ethernet latency Ethernet Traffic Interface Quality of Service VLAN handling Ethernet Link OAM Ethernet Service OAM Ethernet Protection Synchronization Management Fault Management Configuration Management Performance Management Security Management integration Physical Interfaces Optical Ethernet Traffic Interface Electrical Ethernet Traffic Interface Adapter plug LED indicators XPIC Antenna Interface HRA /6 Uen Rev D Ericsson AB (84)

4 7.7 Power Power Supply V DC Power over Ethernet Power Line Disturbance Grounding Power Consumption Compatibility ETSI ANSI Environment Environmental Conditions EM Conditions General Performance CE-mark Mechanical Data Mechanical outline Weight Nominal Dimensions Abbreviations Revision Information Notice: Ericsson has made every effort to assure that the contents of this document are accurate; however, no liability is accepted for any errors or omissions or for consequences of any use of this document. Furthermore, the contents of this document are subject to revision without notice due to continued progress in methodology, design, and manufacturing HRA /6 Uen Rev D Ericsson AB (84)

5 1 Introduction This product specification defines the basic conditions, characteristics and performances of MINI-LINK PT It applies to MINI-LINK PT 2020 from release M13B or later maintenance releases. MINI-LINK PT 2020 is an all outdoor microwave radio and provides up to 564 Mbps transmission within the GHz frequency bands. MINI-LINK PT 2020 supports both ETSI and ANSI. The traffic and management/dcn traffic on the line side is transported on an optical fiber or an electrical Ethernet cable. The DCN is carried in-band on a separate VLAN. The MINI-LINK PT 2020 is Ethernet QoS aware and can be configured to handle prioritized traffic in case of congestion. The power supply is either -48 V DC or Power over Ethernet (PoE). When MINI-LINK PT 2020 is co-located with SP 210 or SP 310, these may be managed together as one network element HRA /6 Uen Rev D Ericsson AB (84)

6 2 Standards MINI-LINK PT 2020 is compliant with relevant parts of the listed standards and directives. 2.1 R&TTE Directive Directive 1999/5/EC Of the European Parliament and of the Council of 9 March 1999 on radio equipment and telecommunications terminal equipment and the mutual recognition of their conformity 2.2 RoHS Directive Directive 2011/65/EU Of the European Parliament and of the Council of 8 June 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment 2.3 Council Recommendation Council Recommendation 1999/519/EC Of 12 July 1999 on the limitation of exposure of the general public to electromagnetic fields (0 Hz to 300 GHz) 2.4 Normative References North America Code of Federal Regulations Title 21 Volume 8 Code of Federal Regulations Title 47 Volume 1 & 5 Spectrum Utilization Policy (SP) Standard Radio System Plan (SRSP) Telecommunications Regulation Circulars (TRC) Food and Drugs Chapter 1 - Food and Drugs Administration Department of Health and Human Services Subchapter J Radiological Health Telecommunication Chapter I - Federal Communications Commission Chapter I Spectrum Management and Telecommunication Official Publications, Policies, Spectrum Utilization Policies (SP) Spectrum Management and Telecommunication Official Publications, Standards, Standard Radio System Plans (SRSP) Spectrum Management and Telecommunication Official Publications, Information, Telecommunications Regulation Circulars (TRC) 1301-HRA /6 Uen Rev D Ericsson AB (84)

7 2.5 Power ETSI EN ATIS ANSI T1.315 Environment Engineering (EE); Power supply interface at the input to telecommunications equipment and datacom (ICT); Part 2: Operated by -48 V direct current (dc) Voltage Levels for DC-Powered Equipment Used in the Telecommunications Environment Voltage Levels for DC-powered Equipment Used in the Telecommunications Environment 2.6 EMC ETSI EN Electromagnetic compatibility and Radio spectrum Matters (ERM); Electro-Magnetic Compatibility (EMC) standard for radio equipment and services; Part 4: Specific conditions for fixed radio links and ancillary equipment and services ETSI EN Electromagnetic compatibility and Radio spectrum Matters (ERM); Electro-Magnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements FCC 47 CFR part 15 Code of Federal Regulations Title 47: Telecommunication Part 15 - Radio frequency devices GR-1089-CORE Telcordia Technologies Generic Requirements Electromagnetic Compatibility (EMC) and Electrical Safety - Generic Criteria for Network Telecommunications Equipment 2.7 Safety/Health IEC/EN IEC/EN ANSI/UL (ETL listed) CAN/A-C22.2 No IEC/EN ANSI/UL CAN/A-C22.2 No IEC/EN (IP55) UL 50E (Type 3S Enclosure) CAN/A-C22.2 No (Type 3S Enclosure) IEC/EN Safety requirements for radio transmitting equipment Information technology equipment - Safety, Part 1: General requirements Information Technology Equipment - Safety - Part 1: General Requirements Information Technology Equipment - Safety - Part 1: General Requirements (Bi-National standard, with UL ) Information technology equipment - Safety - Part 22: Equipment installed outdoors Information Technology Equipment - Safety - Part 22: Equipment to be Installed Outdoors Information Technology Equipment - Safety - Part 22: Equipment to be Installed Outdoors (Bi-National standard, with UL ) Degrees of protection provided by enclosures (IP Code) Enclosures for Electrical Equipment, Environmental Considerations Enclosures for Electrical Equipment, Environmental Considerations (Tri-National Standard, with NMX-J-235/2-ANCE-2007 and UL 50E) Safety of laser products - Part 1: Equipment classification, requirements and user's guide 1301-HRA /6 Uen Rev D Ericsson AB (84)

8 FCC 21 CFR part 1040, Sec REDR C1370 IEC/EN EN ETSI TR ICNIRP Health Physics (Table 7) FCC OET BULLETIN 65 IEEE Std C95.1 Safety Code 6 Code of Federal Regulations Title 21 Volume 8 Food and Drugs Chapter 1 Food and Drugs Administration Department of Health and Human Services Subchapter J - Radiological Health - Performance Standards for Light-Emitting Products - Laser Products Radiation Emitting Devices Regulations Assessment of electronic and electrical equipment related to human exposure restrictions for electromagnetic fields (0 Hz-300 GHz) Product standard to demonstrate the compliance of radio base stations and fixed terminal stations for wireless telecommunication systems with the basic restrictions or the reference levels related to human exposure to radio frequency electromagnetic fields (110 MHz - 40 GHz) - General public Transmission and Multiplexing (TM); Study on the electromagnetic radiated field in fixed radio systems for environmental issues Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (Up to 300 GHz) Evaluating Compliance with FCC Guidelines for Human Exposure to Radiofrequency Electromagnetic Fields IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 khz to 300 GHz Limits of Human Exposure to Radiofrequency Electromagnetic Fields in the Frequency Range from 3 khz to 300 GHz Safety Code RoHS EN Technical documentation for the assessment of electrical and electronic products with respect to the restriction of hazardous substances 1301-HRA /6 Uen Rev D Ericsson AB (84)

9 2.9 Environmental & climatic ETSI EN ETSI EN ETSI EN ETSI EN ETSI EN ETSI EN GR-63-CORE Environmental Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part 1-1: Classification of environmental conditions; Storage Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part 1-2: Classification of environmental conditions; Transportation Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part 1-4: Classification of environmental conditions; Stationary use at non-weather protected locations Environmental Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part 2-1: Specification of environmental tests; Storage Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part 2-2: Specification of environmental tests; Transportation Equipment Engineering (EE); Environmental conditions and environmental tests for telecommunications equipment; Part 2-4: Specification of environmental tests; Stationary use at non-weatherprotected locations Telcordia Technologies Generic Requirements NEBS TM Requirements: Physical Protection 1301-HRA /6 Uen Rev D Ericsson AB (84)

10 2.10 Ethernet IEEE 802.3/802.3u/802.3ab (Ethernet Interface) IEEE 802.3ac IEEE 802.1ad IEEE 802.3ah IEEE 802.3as-2006 (Frame size) IEEE IEEE 802.1p (Priority) IEEE 802.1D IEEE 802.1Q IEEE 802.3x (Flow control) IEEE 802.1AX IETF RFC 1242 IETF RFC 2309 IETF RFC 2544 IETF RFC 2819 IETF RFC 3032 IETF RFC 3270 ITU-T G.8013/Y.1731 (07/11) MEF 9 MEF 10 MEF 14 MA/CD Access Method and Physical Layer Specifications Frame Extensions for Virtual Bridged Local Area Network (VLAN) Tagging on IEEE Networks IEEE Standard for Local and metropolitan area networks Virtual Bridged Local Area Networks Amendment 4: Provider Bridges Media Access Control Parameters, Physical layers, and Management Parameters for Subscriber Access Networks Carrier Sense Multiple Access with Collision Detection (MA/CD) Access Method and Physical Layer Specifications Working group for 802 LAN/MAN architecture, internetworking among 802 LANs, MANs and other wide area networks, 802 Security, 802 overall network management, and protocol layers above the MAC & LLC layers. Traffic Class Expediting and Dynamic Multicast Filtering (published in 802.1D-1998) IEEE Standard for Local and metropolitan area networks: Media Access Control (MAC) Bridges IEEE Standard for Local and Metropolitan Area Networks---Virtual Bridged Local Area Networks IEEE Standards for Local and Metropolitan Area Networks: Specification for Full Duplex Operation IEEE Standard for Local and metropolitan area networks Link Aggregation Benchmarking Terminology for Network Interconnection Devices: Performance measurements Recommendations on Queue Management and Congestion Avoidance in the Internet Benchmarking Methodology for Network Interconnect Devices Remote Network Monitoring Management Information Base MPLS Label Stack Encoding Multi-Protocol Label Switching (MPLS) Support of Differentiated Services OAM functions and mechanisms for Ethernet based networks Abstract Test Suite for Ethernet Services at the UNI Ethernet Services Attributes Phase I Abstract Test Suite for Ethernet Services at the UNI 1301-HRA /6 Uen Rev D Ericsson AB (84)

11 2.11 Synchronization IETF RFC 5905 ITU-T G.781 ITU-T G.8261 ITU-T G.8262 ITU-T G.8264 Network Time Protocol Version 4: Protocol and Algorithms Specification Synchronization layer functions Timing and synchronization aspects in packet networks Timing characteristics of a synchronous Ethernet equipment slave clock Distribution of timing information through packet networks 2.12 Digital Radio Transmission CEPT ERC/DEC/(00)07 CEPT/ERC/REC E CEPT/ERC/REC E CEPT/ERC/REC E CEPT/ERC/REC E ETSI EN ETSI EN ETSI EN ETSI EN ETSI EN ERC Decision of 19 October 2000 on the shared use of the band GHz by the fixed service and Earth stations of the fixed-satellite service (space-to-earth) Harmonized radio frequency channel arrangements for analogue and digital terrestrial fixed systems operating in the band GHz to GHz Harmonized radio frequency channel arrangements for digital terrestrial fixed systems operating in the band 17.7 GHz to 19.7 GHz Harmonized radio frequency channel arrangements for digital terrestrial fixed systems operating in the bands GHz paired with GHz Unwanted emissions in the spurious domain Fixed Radio Systems; Characteristics and requirements for point-to-point equipment and antennas; Part 1: Overview and system independent common characteristics Fixed Radio Systems; Characteristics and requirements for point-to-point equipment and antennas; Part 2-1: System-dependent requirements for digital systems operating in frequency bands where frequency coordination is applied Fixed Radio Systems; Characteristics and requirements for point-to-point equipment and antennas; Part 2-2: Digital systems operating in frequency bands where frequency co-ordination is applied; Harmonized EN covering the essential requirements of article 3.2 of the R&TTE Directive Fixed Radio Systems; Conformance testing; Part 1: Point-to- Point equipment - Definitions, general requirements and test procedures Fixed Radio Systems; Point-to-point and Multipoint Systems; Unwanted emissions in the spurious domain and receiver immunity limits at equipment/antenna port of Digital Fixed Radio Systems 1301-HRA /6 Uen Rev D Ericsson AB (84)

12 FCC 47 CFR part 2 ( Verification) Code of Federal Regulations Title 47: Telecommunication Part 2 - Frequency allocations and radio treaty matters; general rules and regulations. FCC 47 CFR part 101 Code of Federal Regulations Title 47: Telecommunication Part Fixed microwave services ITU-R F Radio-frequency channel arrangements for fixed wireless systems operating in the 13 GHz ( GHz) frequency band ITU-R F ITU-R F ITU-R F SP Gen SP 1-20 GHz SP 3-30 GHz SRSP SRSP SRSP T/R TRC-43 Radio-frequency channel arrangements for fixed wireless systems operating in the GHz frequency band Radio-frequency channel arrangements for fixed wireless systems operating in the GHz band Radio-frequency channel arrangements for fixed wireless systems operating in the GHz band General Information Related to Spectrum Utilization and Radio Systems Policies Revisions to Microwave Spectrum Utilization Policies in the Range of 1-20 GHz Revisions to Spectrum Utilization Policies in the 3-30 GHz Frequency Range and Further Consultation Technical Requirements for Fixed Line-of-Sight Radio Systems Operating in the Band GHz Technical Requirements for Fixed Line-of-Sight Radio Systems Operating in the Bands GHz and GHz Technical Requirements for the Fixed Line-of-Sight Radio Systems Operating in the Bands and GHz Preferred channel arrangements for fixed service systems in the frequency range GHz Designation of Emissions (Including Necessary Bandwidth and Classification), Class of Station and Nature of Service 1301-HRA /6 Uen Rev D Ericsson AB (84)

13 2.13 Data Communication Network IEEE /100 BASE-T Ethernet IEEE Local and metropolitan area networks-specific requirements; Part 2: Logical Link Control IETF RFC 768 User Datagram Protocol IETF RFC 791 Internet protocol DARPA internet program protocol specification IETF RFC 792 Internet control message protocol DARPA internet program protocol specification IETF RFC 793 Transmission control protocol DARPA internet program protocol specification IETF RFC 826 Address Resolution Protocol for SiteLAN and local access port IETF RFC 894 Transmission of IP datagrams over Ethernet Networks on SiteLAN Access and the local access port. IETF RFC 1042 A Standard for the Transmission of IP Datagrams over IEEE 802 Networks IETF RFC 1156 Management Information Base for Network Management of TCP/IP-based internets IETF RFC 1213 Management Information Base for Network Management of TCP/IP-based internets: MIB-II IETF RFC 1305 Network Time Protocol (Version 3) Specification, Implementation and Analysis IETF RFC 1519 Classless Inter-Domain Routing (CIDR): an Address Assignment and Aggregation Strategy IETF RFC 1631 The IP Network Address Translator (NAT) for the local access port. IETF RFC 1812 Requirements for IP Version 4 Routers IETF RFC 2131 Dynamic Host Configuration Protocol for the Local Access Port. IETF RFC 2474 Definition of the Differentiated Services Field (DS Field) in the IPv4 and IPv6 Headers IETF RFC 2616 Hypertext Transfer Protocol -- HTTP/1.1 IETF RFC 2780 IANA Allocation Guidelines for values in the Internet Protocol and Related Headers IETF RFC 2865 Remote Authentication Dial In User Service (RADIUS) IETF RFC 4251 The Secure Shell (SSH) Protocol Architecture IETF RFC 5426 Transmission of Syslog Messages over UDP 1301-HRA /6 Uen Rev D Ericsson AB (84)

14 3 Radio Link MINI-LINK PT 2020 supports ACAP (Adjacent Channel Alternate Polarization) and ACCP (Adjacent Channel Co-Polarization) configurations. MINI-LINK PT 2020 supports a number of physical modes (channel spacing, modulation, coding etc.). For each channel spacing there is one or more Radio frame IDs (shortened ID). There are three groups of IDs: v0, v1 and v2 (v for version). ID v0 v1 v Table 1 Radio frame IDs ETSI. For MINI-LINK PT GHz =13.75 MHz, 27.5 MHz and 55 MHz are also supported. ID v0 v1 v Table 2 Radio frame IDs ANSI. For MINI-LINK PT GHz =12.5 MHz and 25 MHz (10 MHz in a 12.5 MHz and 20 MHz in a 25 MHz ) is supported HRA /6 Uen Rev D Ericsson AB (84)

15 3.1 Radio frequencies MINI-LINK PT 2020 is produced for frequency bands, sub-bands (indexes) and channel plans according to the tables in chapter 3.1. Frequencies can be selected in 0.25 MHz steps or MHz depending on frequency band. The duplex, the frequency difference between transmitter and receiver, shall always comply with existing regulatory requirements. The most common duplexes are listed in chapters Lower and upper frequencies state the edges for respective Index. The given frequency edge shall therefore be compensated for actual according below. (ETSI = 7, 13.75/14, 27.5/28, 40 or 55/56 MHz and ANSI = 10/12.5, 20/25, 30, 40 or 50 MHz) Lowest user frequency = Tx or Rx Lower edge + /2 Highest user frequency = Tx or Rx Lower edge - / GHz Transmitter frequency information Receiver frequency information Index Tx Lower Tx Upper Rx Lower Rx Upper Tx Bw Rx Bw edge edge edge edge A A A A A A Table 3 Radio frequencies for MINI-LINK PT Index A0x (Duplex 266 MHz) is valid for 7, 14, 28 & 56 MHz for ETSI. Index A0x (Duplex 225 MHz) is valid for 10/12.5, 20/25, 30, 40 & 50 MHz for ANSI. Note: FCC part (p)(2) frequency range begins at MHz HRA /6 Uen Rev D Ericsson AB (84)

16 GHz Transmitter frequency information Receiver frequency information Index Tx Lower Tx Upper Rx Lower Rx Upper Tx Bw Rx Bw edge edge edge edge A A A A A A A A A A A A A A Table 4 Radio frequencies for MINI-LINK PT Index A0x (Duplex 308, 315, 322, 490, 644, 728 & 735 MHz) & A1x (Duplex 420, 470 & 490 MHz) are valid for 7, 14, 28 & 56 MHz for ETSI. Index A1x (Duplex 475 MHz) is valid for 10, 20, 30, 40 & 50 MHz for ANSI HRA /6 Uen Rev D Ericsson AB (84)

17 GHz Transmitter frequency information Receiver frequency information Index Tx Lower Tx Upper Rx Lower Rx Upper Tx Bw Rx Bw edge edge edge edge A A A A A A A A A A A A A A Table 5 Radio frequencies for MINI-LINK PT Index A1x (Duplex 1008 & 1010 MHz), A2x (Duplex 340 MHz) & A3x (Duplex 1560 MHz) are valid for 7, 13.75/14, 27.5/28 & 55/56 MHz for ETSI. Index A1x (Duplex 1160 MHz), A2x (Duplex 340 MHz) & A3x (Duplex 1560 MHz) are valid for 10, 20, 30, 40 & 50 MHz for ANSI GHz Transmitter frequency information Receiver frequency information Index Tx Lower Tx Upper Rx Lower Rx Upper Tx Bw Rx Bw edge edge edge edge A A A A Table 6 Radio frequencies for MINI-LINK PT Index A0x (Duplex 1008, 1050, 1200 & 1232 MHz) is valid for 7, 14, 28 & 56 MHz for ETSI. Index A0x (Duplex 1200 MHz) is valid for 10, 20, 30, 40 & 50 MHz for ANSI HRA /6 Uen Rev D Ericsson AB (84)

18 3.2 Transmitter Performance Frequency Tolerance The transmitter carrier frequency does not deviate more than ±10 ppm from nominal frequency Output Power The output power tolerance 1 db to +2 db is applicable for maximum output power. Else the tolerance is ±2 db. The output power can be configured to RTPC or ATPC within the power range. The output power is set in 1 db steps from -10 dbm to the maximum value ETSI Maximum output power per modulation Product 16QAM 64QAM 256QAM 4QAM 32QAM 128QAM 512QAM 1024QAM MINI-LINK PT MINI-LINK PT MINI-LINK PT MINI-LINK PT Table 7 ETSI Maximum output power ANSI Maximum output power per modulation Product 64QAM 256QAM 4QAM 16QAM 32QAM 128QAM 512QAM 1024QAM MINI-LINK PT MINI-LINK PT MINI-LINK PT MINI-LINK PT Table 8 ANSI Maximum output power HRA /6 Uen Rev D Ericsson AB (84)

19 3.2.3 Transmitter Performance for Adaptive ETSI Maximum output power values related to maximum output power at 1024QAM, are according to Table 7 with the following exceptions related to modulation and selected RSEC: Maximum output power adjustments [db] RSEC=2 RSEC=4L/4H RSEC=5L/5LB/5H/5HB/6L/6L B/6H/6HB/7/7B 4QAM QAM QAM QAM QAM QAM QAM QAM Table 9 Maximum output power adjustments, depending on RSEC and modulation ANSI Maximum output power values related to maximum output power at 1024QAM, are according to Table 8 with the following exceptions related to modulation: Maximum output power adjustments [db] 4QAM +4 16QAM +3 32QAM +3 64QAM QAM QAM QAM QAM 0 Table 10 Maximum output power adjustments, depending on and modulation Transmitter off RF output power in Tx off mode < 50 dbm 1301-HRA /6 Uen Rev D Ericsson AB (84)

20 3.2.5 RF spectrum masks RF spectrums are in compliance with ETSI EN RF spectrum masks below. Spectrum efficiency class 4QAM 2 16QAM 4L 32QAM 4H 64QAM 5L/5LB 128QAM 5H/5HB 256QAM 6L/6LB 512QAM 6H/6HB 1024QAM 7/7B Table 11 Applicable RF spectrum masks Transmitter Spurious Levels Excluding a frequency band ±2.5 times the channel spacing from the nominal transmitter frequency, the transmitter spuriouses are less than: 50 dbm in the band 30 MHz 21.2 GHz o o 50 dbm in any 100 khz band from 30 MHz to 1 GHz 50 dbm in any 1 MHz band from 1 GHz to 21.2 GHz 30 dbm in the band GHz o 30 dbm in any 1 MHz band 1301-HRA /6 Uen Rev D Ericsson AB (84)

21 3.2.7 Emission Designator Emission Designator ETSI ID v0 and v1 ID v2 7 6M25D7W 6M15D7W 14 12M3D7W 12M5D7W 28 25M5D7W 25M5D7W 40 36M0D7W 36M0D7W 56 51M0D7W 50M9D7W Table 12 Emission Designator ETSI. Emission Designator ANSI ID v0 ID v2 10 8M70D7W 8M60D7W 20 18M1D7W 18M0D7W 30 27M3D7W 27M1D7W 40 36M7D7W 36M4D7W 50 46M1D7W 45M8D7W Table 13 Emission Designator ANSI. 3.3 Receiver Performance Note: All physical modes for MINI-LINK PT 2020 are designed for adaptive modulation. Static modulation can be achieved by configuring maximum and minimum modulation to the same value. (Exception: minimum modulation 1024QAM is not supported) Threshold definition : Planning: Typical: d value for all temperatures. Planning = 1 db below guarantee. Average value in room temperature RBER definition RBER = for bit rates < 100 Mbit/s RBER = for bit rates 100 Mbit/s Detection Performance The receiver complies with detection performance listed below HRA /6 Uen Rev D Ericsson AB (84)

22 ETSI ID v0 and v1 ID MINI-LINK PT and MINI-LINK PT : Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM Table 14 Detection performance for MINI-LINK PT and MINI-LINK PT ID v0 and v HRA /6 Uen Rev D Ericsson AB (84)

23 ID MINI-LINK PT and MINI-LINK PT : Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM Table 15 Detection performance for MINI-LINK PT and MINI-LINK PT ID v0 and v HRA /6 Uen Rev D Ericsson AB (84)

24 ID v2 ID MINI-LINK PT and MINI-LINK PT : Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM Table 16 Detection performance for MINI-LINK PT and MINI-LINK PT ID v HRA /6 Uen Rev D Ericsson AB (84)

25 ID MINI-LINK PT and MINI-LINK PT : Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM HRA /6 Uen Rev D Ericsson AB (84)

26 ID Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 32QAM QAM QAM QAM QAM Table 17 Detection performance for MINI-LINK PT and MINI-LINK PT ID v HRA /6 Uen Rev D Ericsson AB (84)

27 ANSI ID v0 ID MINI-LINK PT and MINI-LINK PT : Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM Table 18 Detection performance for MINI-LINK PT and MINI-LINK PT ID v HRA /6 Uen Rev D Ericsson AB (84)

28 ID MINI-LINK PT and MINI-LINK PT : Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM Table 19 Detection performance for MINI-LINK PT and MINI-LINK PT ID v HRA /6 Uen Rev D Ericsson AB (84)

29 ID v2 ID MINI-LINK PT and MINI-LINK PT : Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM HRA /6 Uen Rev D Ericsson AB (84)

30 ID Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 16QAM QAM QAM QAM QAM QAM Table 20 Detection performance for MINI-LINK PT and MINI-LINK PT ID v2. ID MINI-LINK PT and MINI-LINK PT : Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM HRA /6 Uen Rev D Ericsson AB (84)

31 ID Typical BER 10 6 Typical BER 10 9 BER 10 6 Typical RBER Lower BER 10 9 RBER Lower RBER Upper 4QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM Table 21 Detection performance for MINI-LINK PT and MINI-LINK PT ID v HRA /6 Uen Rev D Ericsson AB (84)

32 3.3.4 Co-channel interference The limits of co-channel interference are as given in table below, giving C/I values for 1 db and 3 db increase of the 10 6 BER s specified in chapter C/I for BER = 10 6 RSL degradation of ID v0 and v1 ID v2 1 db 3 db 1 db 3 db 4QAM QAM QAM QAM QAM QAM QAM QAM Table 22 Co-channel interference ETSI and ANSI Adjacent channel interference The limits of (first) adjacent-channel interference are as given in the table below, giving C/I values for 1 db and 3 db increase of the 10 6 BER limit specified in chapter RSEC ID v0 and v1 ID v2 1 db 3 db 1 db 3 db L/4H QAM 5L/5LB/5H/5HB/6L/6L B/6H/6HB/7/7B 2/4L/4H QAM 5L/5LB/5H/5HB/6L/6L B/6H/6HB/7/7B /4L/4H QAM 5L/5LB/5H/5HB/6L/6L B/6H/6HB/7/7B QAM All QAM All QAM All QAM All QAM All 0 4 Table 23 Adjacent channel interference ETSI HRA /6 Uen Rev D Ericsson AB (84)

33 ID v0 ID v2 1 db 3 db 1 db 3 db 4QAM QAM QAM QAM QAM QAM QAM QAM 0 4 Table 24 Adjacent channel interference ANSI CW interference MINI-LINK PT 2020 complies with the ETSI standards. This means that for a receiver operating at the specified 10 6, the introduction of a CW interferer with C/I of -30 db at any frequency up to 80 GHz excluding a frequency 2.5 times the channel spacing either side of the wanted frequency does not result in a BER greater than For channels lower than or equal to 14 MHz, the requirement for the spectrum outside 2.5 times the channel spacing is 20 db (C/I) and outside 5 times the channel spacing it is 30 db Adaptive switching levels Typical switching levels between different physical modes are at Residual BER s HRA /6 Uen Rev D Ericsson AB (84)

34 3.3.8 Signature Reference delay: 6.3 ns. Minimum phase and non-minimum phase QAM Notch depth BER 10 6 [db] with signature width 60 MHz Notch depth BER 10 6 [db] with signature width 43 MHz Notch depth BER 10 6 [db] with signature width 30 MHz Notch depth BER 10 6 [db] with signature width 15 MHz Notch depth BER 10 6 [db] with signature width 7.5 MHz Table 25 Signature ETSI Received Signal Strength Indication For Path Acceptance When in a steady state condition, an RF input power measurement is given with an accuracy of: ± 2 db for RF input power 30 dbm to 60 dbm ± 3 db for RF input power 60 dbm to 80 dbm For Antenna Alignment The RF input power is presented as a voltage on the antenna alignment port. The RF input power is referred to the antenna port and can be calculated from the measured voltage: RF input power = 40 * measured voltage [V] 120 Accuracy: ±2.5 db for RF input power 30 dbm to 60 dbm ±3 db for RF input power 60 dbm to 80 dbm 1301-HRA /6 Uen Rev D Ericsson AB (84)

35 4 Ethernet 4.1 Ethernet Capacity Layer 1 Line Interface Capacity is measured according to RFC 2544 for MINI-LINK PT 2020 to MINI-LINK PT These values are typical, not guaranteed. Air Interface Capacity is the air interface layer capacity ETSI ID v0 and v Layer 1 Line Interface Capacity for ID v0 and v1 [Mbps] Frame size [bytes] Air Interface Capacity [Mbps] 512QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM HRA /6 Uen Rev D Ericsson AB (84)

36 Layer 1 Line Interface Capacity for ID v0 and v1 [Mbps] Frame size [bytes] Air Interface Capacity [Mbps] QAM QAM QAM QAM Table 26 Ethernet capacity ID v0 and v1 ETSI ID v Layer 1 Line Interface Capacity for ID v2 [Mbps] Frame size [bytes] Air Interface Capacity [Mbps] 1024QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM HRA /6 Uen Rev D Ericsson AB (84)

37 Layer 1 Line Interface Capacity for ID v2 [Mbps] Frame size [bytes] Air Interface Capacity [Mbps] QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM Table 27 Ethernet capacity ID v2 ETSI ANSI ID v Layer 1 Line Interface Capacity for ID v0 [Mbps] Frame size [bytes] Air Interface Capacity [Mbps] 512QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM HRA /6 Uen Rev D Ericsson AB (84)

38 Layer 1 Line Interface Capacity for ID v0 [Mbps] Frame size [bytes] Air Interface Capacity [Mbps] QAM QAM QAM QAM QAM QAM QAM Table 28 Ethernet capacity ID v0 ANSI ID v Layer 1 Line Interface Capacity for ID v2 [Mbps] Frame size [bytes] Air Interface Capacity [Mbps] 1024QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM HRA /6 Uen Rev D Ericsson AB (84)

39 Layer 1 Line Interface Capacity for ID v2 [Mbps] Frame size [bytes] Air Interface Capacity [Mbps] QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM QAM Table 29 Ethernet capacity ID v2 ANSI HRA /6 Uen Rev D Ericsson AB (84)

40 4.2 Ethernet latency Latency characteristics for Ethernet depend on configuration and selected radio link physical mode. Measured values are typical, not guaranteed. The measurements are done according to RFC 2544 for MINI-LINK PT 2020 to MINI-LINK PT The latency is constant, over all available modulations in a given channel spacing, when Adaptive modulation is enabled, to grant hitless modulation shifts. The modulation in the tables regarding latency refers to the lowest selected modulation ETSI ID v0 and v QAM 256QAM 128QAM 64QAM Frame size [bytes] Latency [µs] Mean Minimum Maximum HRA /6 Uen Rev D Ericsson AB (84)

41 40 32QAM 16QAM 4QAM 512QAM 256QAM 128QAM Frame size [bytes] Latency [µs] Mean Minimum Maximum , HRA /6 Uen Rev D Ericsson AB (84)

Datasheet FibeAir IP-20S

Datasheet FibeAir IP-20S REV. A.02 NOV 2016 ETSI Version Radio Supported Frequency Range 6-42 GHz Radio Configurations 1+0, 1+1, 2+0 SP or DP (No XPIC) Radio Features Protection: 1+1 HSB High spectral