Ericsson MINI-LINK E Technical Description Download Page 105

Page: 105 / 190

MINI-LINK E and E Micro

Table 9

Common alarms

Alarm

Description

SMU COMMON

Faults in the SMU (excluding defined MUX and DMUX faults).

Switch Logic

Fault within the protection switch logic (1+1 configurations only).

Tx Switch Over

Transmitter has been replaced due to transmitter alarm (1+1 Hot

configurations only).

Configuration

Configuration failure.

Proc. Hardware

A hardware fault is detected within the CSS of the unit.

EEPROM

Programming of the non-volatile memory in the unit is interrupted.

NCC Ra

Communication is lost on the NCC between the SMU and the MMU in

the terminal (1+1 configurations only).

NCC Ext

Communication is lost on the NCC to any terminal on the NCC (1+1

configurations only).

MMU COMMON

Faults in the MMU (excluding defined MOD and DMOD faults).

Configuration

Configuration failure.

Proc. Hardware

A hardware fault is detected within the CSS of the unit.

EEPROM

Programming of the non-volatile memory in the unit is interrupted.

HCC

Communication is lost on the HCC between the MMU and far-end MMU.

RCC

Communication is lost on the RCC between the MMU and the RAU.

NCC Mux

Communication is lost on the NCC between the MMU and the SMU in

the terminal (1+0 configurations only).

NCC Ext

Communication is lost on the NCC to any terminal on the NCC (1+0

configurations only).

AUX

Alarm for auxiliary units.

Fan unit: Two or more of the fans in the fan unit have stopped working, or

DC supply to the fan is lost.

MXU and ETU: DC supply or hardware failure.

RAU COMMON

Faults in the RAU (excluding defined TX and RX faults).

Proc. Hardware

A hardware fault is detected within the CSS of the unit.

EEPROM

Programming of the non-volatile memory in the unit is interrupted.

AE/LZT 110 2012 R8C 2002-03-04

Summary of Contents for MINI-LINK E

Page 1: ...MINI LINK E and E Micro Technical Description MINI LINK...

Page 2: ......

Page 3: ...MINI LINK E and E Micro Technical Description E...

Page 4: ...thout prior permission of the publisher Disclaimer The contents of this document are subject to revision without notice due to continued progress in methodology design and manufacturing Ericsson shall...

Page 5: ...nits 23 3 3 RAU1 7 E and 8 E 25 3 4 RAU1 15 E 18 E 23 E 26 E and 38 E 30 3 5 RAU2 35 3 6 Access Module 40 3 7 AMM Access Module Magazine 41 3 8 MMU Modem Unit 43 3 9 SMU Switch Multiplexer Unit 53 3 1...

Page 6: ...NI LINK Cross connect Unit 115 7 3 DDU DC Distribution Unit 120 7 4 PSU AC DC Power Supply Unit 122 7 5 Terminal Server 124 8 Technical Data 125 8 1 System Parameters 125 8 2 Antenna Data 135 8 3 Envi...

Page 7: ...LZT 110 2011 You may also contact your Ericsson representative or the business manager for your country at Ericsson Microwave Systems AB Transmission Transport Networks SE 431 84 M lndal SWEDEN Teleph...

Page 8: ...r radio unit with antenna It offers flexibility and capacity at small sites as well as large multi terminal sites Terminals can be configured for different network types star tree or ring For protecti...

Page 9: ...e MINI LINK products connect radio base stations to switching centers The figure below shows an example of how MINI LINK E and E Micro can be used in different network topologies Ring Star Tree MINI L...

Page 10: ...Public network 3501 Figure 4 Example of a private network where MINI LINK products connect major sites RSS RSM AXE RSS RSS 3502 Figure 5 Example of a fixed network using AXE systems where remote subs...

Page 11: ...nager Standardized interfaces Low weight and power consumption Reliability High Mean Time Between Failure MTBF Progress with backward compatibility Part of the Ericsson system portfolio 30 years exper...

Page 12: ...2011 The product catalog is intended to be an aid when compiling an order or just to give a more detailed overview of the products in the MINI LINK E and E Micro product families Netman Technical Des...

Page 13: ...gle terminal sites and more complex multi terminal sites MINI LINK E and E Micro feature these types of terminal configurations further described in this chapter Antenna Radio unit MINI LINK E Micro A...

Page 14: ...s service channel interfaces and support systems Traffic routing and re routing within a network site can be performed with a minimum of external cables Traffic routing is software configured during s...

Page 15: ...1 two radio units and one or two antennas are used Indoor Part The indoor part the access module is fully independent of frequency band and supplied in different versions for various traffic capaciti...

Page 16: ...is fitted directly to the antenna as standard integrated installation The radio unit and the antenna can also be fitted separately and connected by a flexible waveguide In both cases the antenna is ea...

Page 17: ...s are available as standard AMM 1U for end terminals AMM 2U 3 for single or dual terminal sites containing up to four plug in units AMM 4U for more complex multi terminal sites containing up to seven...

Page 18: ...MINI LINK E and E Micro 3514 Figure 12 The AMM 2U 3 for a maximum of four units 1234 Figure 13 The AMM 4U for a maximum of seven units 12 AE LZT 110 2012 R8C 2002 03 04...

Page 19: ...4x8 2 an SMU is required An SAU can be added to the AMM to provide additional alarm and control interfaces service channels and other customer specific applications MMU AMM 1U 2x2 4x2 8 2x8 or 34 2 Mb...

Page 20: ...olarized antenna Automatic switching can be in hot standby or in working standby frequency diversity Receiver switching in space diversity systems is hitless In hot standby mode one transmitter is wor...

Page 21: ...o four unprotected 1 0 terminals Two protected 1 1 terminals One protected 1 1 terminal plus one or two unprotected 1 0 terminals One SAU Software controlled traffic routing between the terminals mini...

Page 22: ...als are to be dropped and or inserted at the repeater site this can be accomplished either directly at the MMUs provided that MMUs with 2 Mbit s interfaces are selected or by including an SMU on the s...

Page 23: ...na AMM 2U 3 ETU MMU Coaxial cable for interconnection AMM 2U 3 MMU ETU n x E1 E2 10BASE T 100BASE TX 5505 Figure 19 Typical site configuration using ETU for LAN to LAN interconnection with optional PD...

Page 24: ...cable length that enables flexible installation of the terminal A terminal consists of an outdoor radio unit RTU an antenna and an optional Radio Connection Box RCB For more information on MINI LINK...

Page 25: ...painted radio unit fits onto the back of the antenna but can equally well be installed separately from the antenna and connected with a waveguide feeder Applications for MINI LINK E Micro are in mobi...

Page 26: ...ed channel PSTN back up or other line 3509 Figure 23 MINI LINK network management A microprocessor monitors all functional alarms and transmits them on an Operation Maintenance channel which extends t...

Page 27: ...ment The local supervision interface on the MMU enables fault finding and measurement when a PC is not available Service Channel The integrated maintenance system is optionally supplemented with two s...

Page 28: ...MINI LINK E and E Micro 22 AE LZT 110 2012 R8C 2002 03 04...

Page 29: ...higher integration of microwave circuits The radio units are independent of traffic capacity that is the operating frequency is determined by the radio unit only The operating frequency is set on site...

Page 30: ...MINI LINK E and E Micro 3531 Figure 25 The RAU1 and RAU2 radio units 24 AE LZT 110 2012 R8C 2002 03 04...

Page 31: ...hat is the interface with the indoor modem unit MMU and a test port for antenna alignment The connector for the radio cable is equipped with gas discharge tubes for lightning protection Replacing the...

Page 32: ...eiver Oscillator Transmitter Oscillator Microwave Sub unit OUTPUT LEVEL SET MMU 3538 Figure 27 RAU1 7 E and 8 E block diagram 3 3 2 Microwave Sub unit The following functions are included in the micro...

Page 33: ...down link The nominal frequency of the receiving IF signal is 140 MHz The command and control signal down link is an ASK modulated signal with a nominal frequency of 4 5 MHz In addition to the above t...

Page 34: ...using a serial bus An unlocked VCO loop generates a transmitter frequency alarm Final Amplifier The transmitter output power is controlled by adjusting the gain of the final amplifier The output powe...

Page 35: ...nal from the receiver is amplified and fed to the cable interface Additionally a portion of the signal is fed to a calibrated detector to provide an accurate receiver input level measurement The measu...

Page 36: ...elded compartments for the high frequency circuits The control circuit board is fitted at the back of the microstrip board The microwave sub unit provides a waveguide interface with the antenna The DC...

Page 37: ...VEL SET DC First IF around 1000 MHz Secondary voltages To Alig nment Port TX OFF 15 23 and 26 high power 15 18 and 23 GHz Receiver MMU Radio Interface Sub unit Microwave Sub unit AFC Not 38 GHz 3537 F...

Page 38: ...ion Collected alarms and status signals from the radio unit are sent to the indoor MMU processor Summary status signals are visualized by LEDs on the radio unit Command Handling Commands from the indo...

Page 39: ...r and further on to a programmable phase detector The error signal is controlled by the integrated control and supervision system by using a serial bus An unlocked VCO loop generates a transmitter fre...

Page 40: ...attenuated by a total of 33 dB See Section 8 1 1 on page 126 for more details 3 4 3 5 Receiver Block The received signal is fed from the input branching filter into a low noise amplifier with the exc...

Page 41: ...oard and two MCMs Multi chip Module for the transmitting and receiving parts of the radio unit The high frequency MCM components are shielded with an aluminum cover In addition it contains the cable i...

Page 42: ...l Supervision Processor Alarm and Control IF Converter 834 MHz Filt er Unit MMU RF Loop RSSI 140 MHz 3539 Figure 31 RAU2 block diagram 3 5 2 Microwave Unit 3 5 2 1 DC DC Converter The DC DC converter...

Page 43: ...tus signals are visualized by LEDs on the radio unit Command Handling Commands from the indoor units are executed These commands include transmitter activation deactivation channel frequency settings...

Page 44: ...nge output power alarm 3 5 2 7 Receiver Block The received signal is fed from the input branching filter into a low noise amplifier and a down converter to the first IF of 974 MHz Receiver MCM After b...

Page 45: ...nt port or in dBm through the operation and maintenance system 3 5 3 Filter Unit 3 5 3 1 RF Loop The RF Loop is used for test purposes only When the loop is set the transmitter frequency is set to rec...

Page 46: ...rocessing and the interface with the radio unit RAU Switch Multiplexer Unit SMU providing additional 2 Mbit s traffic interfaces 2 8 and 8 34 Mbit s multiplexers switches and control functions for 1 1...

Page 47: ...ifferent AMMs for different applications are available as standard AMM 1U for a single terminal with one MMU AMM 2U 3 for single or dual terminal sites It can contain one or two MMUs one SMU and one S...

Page 48: ...and for visibility of LEDs at the unit fronts The front panel is painted dark gray It is closed with 2 or 4 screws respectively and folds down vertically around hinges at its lower edge when opened Fr...

Page 49: ...MMU 2x2 34 2 8 34 Mbit s TP O M NCC RAU 8 Mbit s 4x2 Mbit s DC MMU 34 2 34 Mbit s TP O M NCC RAU 2 Mbit s DC 8 Mbit s TP O M NCC RAU 8 Mbit s DC MMU 2x8 MMU 4x2 8 8 Mbit s TP O M NCC RAU 4x2 Mbit s DC...

Page 50: ...ent of MMU hardware 3 8 1 Functional Blocks The following functional blocks are included in the MMU Traffic interfaces and router 2 8 multiplexer demultiplexer MMUs 4x2 8 Mbit s only Radio frame multi...

Page 51: ...iplexer Radio Frame Demultiplexer Modulator Demodulator Cable Interface Radio Unit SAU Service channels SAU Service channels HCC Other MMU or SMU 2 8 34 Mbit s 2 8 2 Mbit s SMU SAU HCC Converter NCC T...

Page 52: ...figuration 4x2 8 Mbit s 3 8 2 Functional Description The blocks of the MMU are described in the following text 3 8 2 1 Traffic Interface and Traffic Router The traffic inputs and outputs are connected...

Page 53: ...3 8 2 3 Radio Frame Multiplexer and Forward Error Correction FEC Three different data types are multiplexed into the data stream to be transmitted over the radio path Traffic Service channel Hop Commu...

Page 54: ...s of a 125 s long frame which contains the above described data types Radio Channel Frame Structure The figure below shows the radio channel frame structure for 2x2 Mbit s T1 CHK T2 T1 T2 S2 T1 T2 T1...

Page 55: ...imination 3 8 2 5 Radio Frame Demultiplexer and Forward Error Correction FEC On the receiving side the received composite data stream is demultiplexed and FEC corrected The frame alignment function se...

Page 56: ...filter and A D converted before being C QPSK demodulated 3 8 2 7 Cable Interface The following signals are frequency multiplexed in the cable interface for further distribution through a coaxial cabl...

Page 57: ...MU 3 8 2 9 DC DC Converter The isolated DC DC converter produces a stable voltage for the outdoor radio unit and secondary voltages for the MMU electronics The power supply is after filtering also fur...

Page 58: ...LINK E and E Micro SAU MMU MMU SMU SMU MMU MMU AMM Power connection in the backplane Primary DC supply DC DC DC DC 3532 Figure 40 DC supply connected to the indoor units 52 AE LZT 110 2012 R8C 2002 0...

Page 59: ...t s TP 4x2 Mbit s 8 Mbit s SMU 16x2 4x2 Mbit s O M 4x2 Mbit s 4x2 Mbit s TP 4x2 Mbit s 8 Mbit s 8 Mbit s 8 Mbit s 8 Mbit s SMU 8x2 4x2 Mbit s O M TP 4x2 Mbit s 8 Mbit s 8 Mbit s 5542 Figure 41 SMUs 3...

Page 60: ...one 2 Mbit s traffic channel Operation Maintenance Interface MMU 1 MMU 2 Secondary voltages MMU Alarms from MMUs Control Supervision 1 1 Switch Logic DC DC Converter NCC Other units in the access modu...

Page 61: ...affic Router 8 Mbit s Operation Maintenance Interface MMU 1 MMU 2 Secondary voltages MMU Alarms from MMUs Control Supervision 1 1 Switch Logic DC DC Converter MMU 1 NCC Other units in the access modul...

Page 62: ...NCC Other units in the access module 1 1 only 34 2 34 2 4x2 or 8 Traffic Interface and Router 2 8 Multiplexer Demultiplexer Connection to front or other SMU MMU 4x2 or 8 4x2 or 8 4x2 or 8 Connection...

Page 63: ...TU T Rec G 703 and G 742 3 9 2 3 8 34 Mbit s Multiplexer Demultiplexer The four 8 Mbit s signals are multiplexed into a 34 Mbit s signal on the transmitting side The 34 Mbit s signal is demultiplexed...

Page 64: ...he lowest priority alarm transmits the signal See Section 6 1 4 1 on page 97 for a description of the alarms Table 1 Priority for transmitter switching Transmitter switching criteria Alarm Priority Sw...

Page 65: ...less switching due to fading The switching functionality is physically implemented in two different kinds of switch the RMX switch and a hardware switch see Figure 46 on page 62 Selection is based on...

Page 66: ...IFO buffers and a fast switch The delay in the buffer is controlled so that the data phase differences in the radio sections due to cables etc are compensated See also Section 8 5 1 on page 143 for re...

Page 67: ...ware EEPROM RCC MMU MUX System line fault 4 Transmitter selected If none of the alarms above are active receiver hardware selection follows transmitter selection 5 See section Section 6 1 4 1 on page...

Page 68: ...trol Supervision processor T1 Traffic channel 1 T2 Traffic channel 2 MUX Demultiplexer 3533 Figure 46 1 1 protection switching for the receiver DC Failure If a DC failure occurs in one of the MMUs in...

Page 69: ...ss to the External Alarm Channel EAC on a MINI LINK network site Three versions of the SAU are available a basic and two expanded versions SAU Basic SAU Exp 1 SAU Exp 2 EAC 1 EAC 2 USER I O O M PHONE...

Page 70: ...r Input Output ports individually selectable Control and supervision processor DC DC converter Secondary Voltages DC DC Converter Control Supervision NCC Other units in the access module MMU User In O...

Page 71: ...module MMU User In Out Processor EAC Interface EAC1 EAC2 User In User Out Operation and Maintenance Interfaces MMU 1 Digital Service channel Interface 2 service channels radio MMU 2 MMU 3 MMU 4 RAC In...

Page 72: ...n Out Processor EAC Interface EAC1 EAC2 User In User Out Operation and Maintenance Interfaces BR MMU 1 2 4 wire Digital Service channel Interface Analog Service channel Interface Router 1 digital and...

Page 73: ...ttings and tests Failure is indicated on LEDs on the fronts of the units The SAU processor communicates with other processors in the access module through the Node Communication Channel NCC The proces...

Page 74: ...lephone Exp 2 only Service Telephone Exp 2 only The SAU Exp 2 version is delivered with a two wire service telephone The two digit number for the telephone is set in MSM A general call can be made sim...

Page 75: ...le throughput capacity Ethernet traffic from the ETU can be combined with other traffic such as PBX connected directly to the MMU When using 34 2 Mbit s traffic capacity for example 34 Mbit s can be u...

Page 76: ...hernet frames of type 0000 with a maximum length of 1548 octets 3 11 1 3 Self learning MAC Level Bridge The ETU has self learning MAC level bridge functionality according to IEEE 802 1D when operating...

Page 77: ...iary alarm input on the MMU an alarm can be displayed in Netman or MSM The ETU is equipped with LEDs on the front panel providing status indication according to the tables below Table 4 Yellow LED ind...

Page 78: ...e remaining frames are transferred to the next functional block Ethernet frames for transmission are received and preambles are added before being transmitted 3 11 2 2 Traffic Converter and Buffer The...

Page 79: ...e circuit where the incoming PDH traffic is decoded from HDB3 and transferred to the next functional block The outgoing traffic is converted to HDB3 and sent to the MMU or possibly SMU The block also...

Page 80: ...de in the backplane and it is controlled from a PC with the MINI LINK Service Manager MSM or the MINI LINK Netman A traffic routing setup is possible from any node in the network The following pages i...

Page 81: ...ink Outdoor units Access module AMM 8x2 Mbit s 17x2 Mbit s 34 2 Mbit s 1 1 Feeder 2x8 Mbit s 1 0 drop insert 3545 Feeder Radio Unit Demultiplexer SMU 16x2 Front connections 9x2 Mbit s Backplane MMU 2x...

Page 82: ...s 1 0 2x2 Mbit s 1 0 2x2 Mbit s 8x2 Mbit s Feeder Sub link 1 Sub link 2 Outdoor units Access module AMM drop insert 3543 Demultiplexer SMU 16x2 Front connections 7x2 Mbit s Backplane MMU 2x2 MMU 2x8 M...

Page 83: ...MU with fixed traffic capacity the upgrade is achieved by exchanging it for an MMU with a higher traffic capacity When 8x2 or 17x2 Mbit s is required an SMU has to be added In some cases the AMM 1U ha...

Page 84: ...MINI LINK E and E Micro 78 AE LZT 110 2012 R8C 2002 03 04...

Page 85: ...software selectable traffic capacity of 2 or 2x2 Mbit s 38 GHz only 2x2 Mbit s The operating frequency is set on site using the MSM software on a PC The RTU is a weatherproof box painted light gray w...

Page 86: ...he modem board consists of circuits for baseband encoding decoding and the traffic interface The microwave unit is a circuit board assembly consisting of a radio board and two MCMs Multi chip Modules...

Page 87: ...MINI LINK E and E Micro Cover Microwave unit Filter unit Connection unit Earthing screw Frame Modem board 1234 Figure 58 RTU parts 81 AE LZT 110 2012 R8C 2002 03 04...

Page 88: ...rocessor Interface To control and supervision processor Microwave Unit Transmit Modem Board Traffic Interface Radio Frame Processing Signal Baseband Receive Processing Signal Baseband RSSI Connection...

Page 89: ...Multiplexer and Forward Error Correction FEC Two different data types are multiplexed into the data stream to be transmitted over the radio path Traffic Hop Communication Channel HCC Transmit Traffic...

Page 90: ...T1 T2 T1 S1 T2 T1 SC1 T2 T1 T2 T1 SC1 T2 T1 S2 T2 T1 T2 FEC C2 2 2 2 22 2 16 2 2 2 4 2 2 2 12 2 20 2 format FAS T1 T2 T1 K1 T2 T1 S1 T2 T1 T2 T1 K2 T2 T1 T2 S2 T1 T2 T1 K1 T2 T1 FEC T2 Number of bits...

Page 91: ...with a data quality measurement from the demodulator The descrambler transforms the signal to its original state enabling the demultiplexer to properly distribute the received information to its desti...

Page 92: ...s are described below Alarm collection Alarm and status signals are collected resulting in summary status signals A and B alarms Alarms are visualized by LEDs on the radio unit Command Handling Comman...

Page 93: ...er bandpass filtering and amplification the signal is down converted to the second IF of 140 MHz IF Converter A portion of this 140 MHz is used in the RSSI The 140 MHz signal from the IF Converter is...

Page 94: ...uency and transferred to the receiving side 4 6 2 Branching Filter On the transmitting side the signal is fed to the antenna through an output branching filter The signal from the antenna is fed to th...

Page 95: ...inted light gray and have a standard IEC 154 type B waveguide interface The antennas can be adjusted for vertical or horizontal polarization by adjusting the waveguide interface All high performance v...

Page 96: ...ent of the antenna in azimuth and elevation The support can be clamped to poles with a diameter of 50 120 mm or on L profiles 40 x 40 x 5 80 x 80 x 8 mm with two anodized aluminum clamps All screws an...

Page 97: ...d E Micro The mounting kit for 0 3 m and 0 6 m compact antennas can be adjusted by 15 in elevation and 40 in azimuth Both elevation and azimuth have a mechanism for fine adjustment 91 AE LZT 110 2012...

Page 98: ...MINI LINK E and E Micro 92 AE LZT 110 2012 R8C 2002 03 04...

Page 99: ...l supervision of large networks A portable PC with MINI LINK Service Manager MSM is used for installation and field service See Netman Technical Description AE LZT 110 5048 for more information on man...

Page 100: ...etworks the traffic network the Data Communication Network DCN and the service channel network The DCN is the network that provides connection between Management Systems and MINI LINK terminals The te...

Page 101: ...n the MMU front is used NCC is also used for distribution of operation and maintenance data between up to three MINI LINK E Micro radios on the same site Connectors for MINI LINK E Micro are located i...

Page 102: ...s of terminals connected to its own communication channels The setup is done by using MSM During installation parameters such as standby mode frequency channel number RF output power and alarm thresho...

Page 103: ...n index of the MMU controlled by the far end MMU is out of the allowed range TX LOS RAU Transmitting direction failure on the input IF signal from the MMU to the RAU Tx IF Input Failure on the receive...

Page 104: ...BER 10 3 10 4 10 5 or 10 6 Dmod Clock The internal data rate of the MMU does not correspond to the received data rate This will cause bit slip in the traffic bit stream Hitless Phase Failure when sync...

Page 105: ...DMOD faults Configuration Configuration failure Proc Hardware A hardware fault is detected within the CSS of the unit EEPROM Programming of the non volatile memory in the unit is interrupted HCC Commu...

Page 106: ...er alarms Alarm Description TX LOS Transmitting direction input traffic failure to the MINI LINK E Micro Input E1 X Input traffic failure on a 2 Mbit s traffic signal in the transmitting direction TX...

Page 107: ...in setup This alarm can only be active if the ID Check is activated in Main setup BER The Bit Error Rate BER for the received signal has exceeded the BER alarm threshold The BER alarm threshold is set...

Page 108: ...mbers in brackets after each loop refer to Figure 68 on page 103 SMU Tx Loop N1 In the SMU the traffic signal to be transmitted is immediately at the input looped back to the output on the receiving s...

Page 109: ...oop F1 In the MMU the traffic signal being received in the traffic interface and router part of the unit is looped back to the transmitting side SMU Rx Loop F2 In the SMU the traffic signal being rece...

Page 110: ...er 2 8 Multiplexer Demultiplexer Traffic Interface and Router Radio Frame Multiplexer Radio Frame Demultiplexer Modulator Demodulator Cable Interface Radio Unit 8 Mbit s Front or backplane connection...

Page 111: ...r 2 Mbit s channels 2 8 Multiplexer Demultiplexer 2 8 Multiplexer Demultiplexer 8 34 Multiplexer Demultiplexer Traffic Router 34 Mbit s channel SMU Rx Loop SMU Tx Loop Front or backplane connection 2...

Page 112: ...affic signal to be received is looped back to the transmitting side R a d i o F r a m e M u l t i p l e x e r M o d u l a t o r D e m o d u l a t o r R F L o o p 2 M b i t s 2 M b i t s T r a f f i c...

Page 113: ...l way but alarm notification messages are inhibited TX On Off Transmitter can be set on or off Switch Mode for 1 1 configurations only applicable for MINI LINK E Can be set to auto or manual In automa...

Page 114: ...g summary alarms applicable for MINI LINK E are available at the access module SAU as parallel relay outputs A alarm indicates traffic disturbing faults which calls for immediate action B alarm risk o...

Page 115: ...tion factory setup by means of a special plug or by MSM The preset plug is connected to the O M port on the unit Setup of MINI LINK E Micro can only be done by MSM When a RAU1 or RAU2 has been replace...

Page 116: ...to all terminals in a sub network from any site in the network Several PCs can access the same network simultaneously MSM facilities include setup local and remote fault tracing as well as performanc...

Page 117: ...K T e r m i n a l D i g i t a l C r o s s C o n n e c t o r R a d i o B a s e S t a t i o n S t a n d a r d i z e d I n t e r f a c e M I N I L I N K N e t m a n 3 5 7 7 Figure 78 MINI LINK Netman as...

Page 118: ...ows 2000 Access for multiple users Functions for configuration fault performance and security management Scaleable system Standardized SNMP interface which enables communication with most Network Mana...

Page 119: ...adio Connection Box The Radio Connection Box RCB facilitates installation of MINI LINK E Micro radios since it connects management channels and makes AC power supply possible 4275 Figure 79 Radio Conn...

Page 120: ...eter 50 120 mm L profile 40 x 40 x 5 80 x 80 x 8 mm or on a wall up to 400 m from the radio It is equipped with lightning and short circuit protection An alarm signal is generated if there is loss of...

Page 121: ...ed with four framed 2 Mbit s interfaces and one unframed V 24 data interface DIG IF 1 4 DATA IF 5 O M ALARM I O DC 1234 Figure 81 MXU The MXU is fully compatible with Ericsson DXX products and can be...

Page 122: ...solated sub networks in an available time slot in the 2 Mbit s traffic However time slot 0 is reserved according to ITU T Rec G 704 The MXU can be connected to the MMU O M connector as described below...

Page 123: ...aced in any of the 32 time slots in a frame To the left in the figure below a network expansion is shown The illustration to the right shows the details of grooming where 2 Mbit s traffic is packed in...

Page 124: ...ckwise Tx_E in the ring network but only received in one If connection is lost between two sites an error signal will activate the MXU to switch to receive from the intact part of the ring Rx_D coming...

Page 125: ...ng of traffic if a link fails The feeder node requires a DXX cross connect unit and an MXU is sufficient for any other site 7 2 3 2 MXU Management Setup of the MXU is made by using a PC with the Servi...

Page 126: ...le The primary power supply should have a fuse to protect the DDU and the battery cable Each output is protected by an automatic type fuse 6 A combined with an ON OFF switch There are two versions of...

Page 127: ...LINK C C C C C A B D D D D D 3579 Figure 88 System configuration of the DDU A Primary power supply B External fuse for the primary power supply C Fuse for MINI LINK equipment D MINI LINK equipment 12...

Page 128: ...on and current limitation on each DC output Floating DC output Lightning protection and EMC filters on the input There is a main switch on the front panel to turn the incoming AC voltage on and off An...

Page 129: ...C D D D 5185 Figure 90 System environment of the PSU A Mains supply B PSU fuses for the mains supply glass tube fuses C PSU fuses for the MINI LINK equipment built in automatic type fuses D MINI LINK...

Page 130: ...ected to the O M port on the front end terminal in the sub network The connection to the DCN is IEEE 802 3 10BASE T through an RJ 45 connector IP based DCN Netman Server MINI LINK E sub network Front...

Page 131: ...Frequency range GHz Sub band coverage MHz RAU1 7 E 7 1 7 7 60 140 89 148 sub bands 11 18 42 84 sub bands 21 37 42 98 sub bands 41 47 8 E 7 7 8 5 42 91 sub bands 51 57 15 E 14 4 15 35 110 300 sub bands...

Page 132: ...cy plans in MINI LINK E and E Micro Product Catalog AE LZT 110 2011 Frequency Tolerance 10 ppm from nominal Channel Spacing for MINI LINK E 3 5 MHz for 2x2 Mbit s 7 MHz for 4x2 and 8 Mbit s 14 MHz for...

Page 133: ...17 dBm 1 to 16 dBm 2 dB sub band 21 28 17 to 16 dBm 18 E HP 9 to 24 dBm 2 dB sub band 11 18 31 32 35 36 41 48 9 to 24 dBm 8 to 23 dBm 2 dB sub band 21 28 10 to 23 dBm 23 E 5 to 20 dBm 3 dB 30 to 20 dB...

Page 134: ...transmitter frequency is excluded from this requirement Output Spectrum The transmitter spectrum stays within masks given below The 0 dB level relates to the peak of the modulated spectrum disregardi...

Page 135: ...1 f2 f3 f4 2x2 0 23 45 1 4 2 8 5 9 4x2 8 0 23 45 2 5 5 6 9 18 2x8 8x2 0 23 45 5 11 17 35 34 2 17x2 0 23 45 10 5 19 30 70 Table 17 MINI LINK E Micro guaranteed values Traffic capacity Mbit s Relative p...

Page 136: ...84 81 78 86 83 80 77 15 E 2x2 4x2 8 2x8 8x2 34 2 17x2 91 88 85 82 90 87 84 81 87 84 81 78 86 83 80 77 18 E 1 2x2 4x2 8 2x8 8x2 34 2 17x2 90 87 84 81 89 86 83 80 86 83 80 77 85 82 79 76 23 E 2x2 4x2 8...

Page 137: ...81 78 75 72 80 77 74 71 Table 20 Receiver thresholds RTU Radio unit Traffic capacity Mbit s BER 10 3 threshold dBm BER 10 6 threshold dBm Typ Guar Typ Guar RTU 23 E 1x2 2x2 92 90 91 89 88 86 87 85 38...

Page 138: ...ith C I of 30 dB at any frequency up to 80 GHz excluding a frequency two times the channel spacing on either side of the wanted frequency does not result in a BER greater than 10 5 Signature Reference...

Page 139: ...ols both the RMX Switch and Hardware Switch see also Section 3 9 2 6 on page 58 8 1 4 Power Splitter Attenuation for 1 1 Systems The power splitter is used when two radio units are connected to one an...

Page 140: ...7 38 3 7 3 7 1 7 7 8 1 5 Waveguide Attenuation Typical attenuations for flexible waveguides are given in the table below Table 25 Waveguide attenuation Frequency GHz Attenuation for 0 65 m waveguide d...

Page 141: ...2 7 44 6 46 0 47 1 48 0 1 8 m 41 0 45 3 46 4 48 5 49 5 2 4 m 42 9 3 0 m 44 8 Half Power Beamwidth 3 dB Min max figures guaranteed values in E and H plane are given in the table below The figures apply...

Page 142: ...72 74 77 79 2 4 m 68 3 0 m 70 ETSI RPE Classes Radiation Pattern Envelope RPE class compliance according to ETSI EN 300 833 The figures apply to high performance single polarized antennas Table 29 ET...

Page 143: ...ing wind velocities in stationary use 0 2 1 8 m compact antennas 50 m s operational requirement 70 m s survival requirement 2 4 m and 3 0 m antennas 50 m s operational requirement 55 m s survival requ...

Page 144: ...um allowed antenna feed overpressure P is specified in the table Table 30 Force and torque at operational wind velocity Antenna F N M Nm P kPa 0 2 m 170 40 40 0 3 m 190 50 40 0 6 m 7 8 GHz 765 285 48...

Page 145: ...limits plus solar radiation 1 120 W m2 RAU2 RTU full performance 45 C to 45 C 33 C to 45 C 38 GHz Relative humidity 8 100 Degree of protection provided by enclosures according to EN 60529 IEC 529 IP 5...

Page 146: ...Table 33 Maximum terminal power consumption for MINI LINK E with RAU1 Traffic capacity Mbit s Terminal type 2x2 4x2 8x2 17x2 Unprotected 42 W 44 W 49 W 54 W Protected 88 W 92 W 94 W 101 W With SAU ETU...

Page 147: ...d 10 W each Power Dissipation for MINI LINK E with RAU2 Table 36 Maximum terminal power dissipation for MINI LINK E with RAU2 Traffic capacity Mbit s Terminal type 2x2 4x2 8x2 17x2 Unprotected 12 W 14...

Page 148: ...three MINI LINK E Micro radios 2 Maximum value during charging of the battery in the RCB with heater running and three MINI LINK E Micro radios connected to the RCB Battery Capacity AC supply to the...

Page 149: ...conductor loop 4 Attenuation Table 37 Attenuation for radio cable Outer cable diameter mm Attenuation at 140 MHz dB 100 m Attenuation at 350 MHz dB 100 m Maximum cable length m 10 3 6 0 9 0 200 16 1...

Page 150: ...um difference in cable length m Hot standby L2 L4 20 Working standby L1 L2 L3 L4 20 4494 Figure 94 1 1 configuration hot standby 4500 Figure 95 1 1 configuration working standby 8 5 1 2 Traffic Cable...

Page 151: ...a power and battery cabinet PBC The PBC can supply up to three MINI LINK E Micro radios with power by using an RCB 8 5 2 1 MINI LINK E Micro with DC and Traffic Cables Table 41 DC cable Outer cable di...

Page 152: ...r mm Weight kg 100 m Maximum cable length m Minimum bending radius mm 11 3 16 7 L 13 x U 20 L 25 m with Maxite 135 Table 45 Traffic cable Outer cable diameter mm Weight kg 100 m Maximum cable length m...

Page 153: ...U T Rec G 712 Telephone interface 2 wire Connector type Modular telephone connector 6 4 Branching interface 4 wire Impedance 600 Input signal level 11 dBr Output signal level 11 dBr to 4 dBr 1 dBr inc...

Page 154: ...et for access module summary alarm or remote control Type Relay Contact rating DC 60 V DC 1 A 30 W Contact rating AC 42 V AC 1 A 60 VA Alarm state Closed Connector type 25 pin D sub unearthed contacts...

Page 155: ...ype 9 pin D sub EAC External Alarm Channel The EAC interfaces are proprietary Two EAC ports are available Connector type 9 pin D sub NCC Node Communication Channel One port is available on each MMU Di...

Page 156: ...2 MINI LINK E Micro 8 6 2 1 MINI LINK E Micro with DC and Traffic Cables Traffic Interface According to ITU T Rec G 703 with long haul allowing 30 dB attenuation at 1024 kHz 2 Mbit s Balanced 120 Con...

Page 157: ...MINI LINK E and E Micro Operation and Maintenance Interface Type RS 232C V 24 V 28 Format 8 bits no parity Bit rate 1 200 bit s Connector type 9 pin D sub 151 AE LZT 110 2012 R8C 2002 03 04...

Page 158: ...Mbit s E2 unbalanced 75 SMZ connector 34 Mbit s E3 unbalanced 75 SMZ connector O M RS 232C V 24 V 28 8 bits no parity 1 stop bit no flow control 19 200 bit s 9 pin D sub connector ALARM Optocoupler n...

Page 159: ...from alarm source 12 V 1 mA Table 47 Alarm outputs Internal three pole relay contact Open to earth Closed to earth Maximum values from alarm source 60 V 200 mA 100 m Cross connect The total cross con...

Page 160: ...Maximum power consumption 10 W 8 10 DDU Data Power Supply and Output Current Power supply 24 60 V nominal 20 4 72 0 V including tolerance Maximum output current 6 A per connector 8 11 PSU Data Cables...

Page 161: ...the following voltages 100 127 V AC 10 60 Hz 8 200 250 V AC 10 50 Hz 10 200 V AC 10 60 Hz 8 Output DC voltage 48 V DC floating 46 V to 53 V including tolerance Power consumption AC 140 W Load range 2...

Page 162: ...Table 51 on page 165 Table 48 Mechanical data for radio units Radio unit Dimensions H x W x D mm Max weight kg RAU1 411 x 326 x 144 7 RAU2 and RTU 321 x 260 x 97 4 5 326 411 144 3603 Figure 96 Dimens...

Page 163: ...85 5 6 9 2 0 6 m for RAU2 RTU 635 x 635 x 363 10 1 13 7 1 2 m for RAU2 RTU 1286 x 1286 x 591 25 49 1 8 m for RAU2 RTU 1914 x 1914 x 885 73 102 0 3 m for RAU1 382 x 382 x 189 7 3 10 9 0 6 m for RAU1 71...

Page 164: ...NI LINK E and E Micro 3586 Figure 99 Dimensions of the 0 3 m compact antenna for RAU2 and RTU 3588 Figure 100 Dimensions of the 0 6 m compact antenna for RAU2 and RTU 158 AE LZT 110 2012 R8C 2002 03 0...

Page 165: ...101 Dimensions of the 1 2 m compact antenna for RAU1 RAU2 and RTU Note The illustration is not proportional to the other illustrations in this section 189 382 3601 Figure 102 Dimensions of the 0 3 m c...

Page 166: ...and E Micro 715 448 3602 Figure 103 Dimensions of the 0 6 m compact antenna for RAU1 7 8 GHz 340 635 3598 Figure 104 Dimensions of the 0 6 m compact antenna for RAU1 15 38 GHz 160 AE LZT 110 2012 R8C...

Page 167: ...kg 0 2 m 321 x 266 x 171 7 0 9 3 0 3 m 382 x 382 x 255 10 1 13 7 0 6 m 635 x 635 x 370 14 6 18 2 1 2 m 1286 x 1286 x 666 30 54 RAU2 RTU 1 8 m 1914 x 1914 x 960 78 107 0 3 m 434 x 382 x 307 14 3 17 9...

Page 168: ...87 Figure 106 Dimensions of the 0 3 m compact antenna for RAU2 and RTU integrated installation 3589 Figure 107 Dimensions of the 0 6 m compact antenna for RAU2 and RTU integrated installation 162 AE L...

Page 169: ...mpact antenna for RAU2 and RTU integrated installation Note The illustration is not proportional to the other illustrations in this section 307 382 434 3600 Figure 109 Dimensions of the 0 3 m compact...

Page 170: ...9 Figure 110 Dimensions of the 0 6 m compact antenna for RAU1 7 8 GHz integrated installation 418 635 3596 Figure 111 Dimensions of the 0 6 m compact antenna for RAU1 15 38 GHz integrated installation...

Page 171: ...ta for waveguide interfaces Dimensions mm Frequency GHz a b c At radio unit and antenna At flexible waveguide 7 8 34 4 37 4 47 6 154 IEC UBR 84 154 IEC PBR 84 13 26 42 28 5 38 1 154 IEC UBR 120 154 IE...

Page 172: ...ss Module Table 52 Mechanical data for the access module Access module Dimensions H x W x D mm Weight fully equipped kg AMM 1U 19 wall 1 desk 1 43 x 483 x 280 715 x 61 x 292 71 x 447 x 280 3 7 4 5 3 7...

Page 173: ...MINI LINK E and E Micro 88 483 280 3591 Figure 115 Dimensions of the AMM 2U 3 for 19 rack 176 483 280 3607 Figure 116 Dimensions of the AMM 4U for 19 rack 167 AE LZT 110 2012 R8C 2002 03 04...

Page 174: ...117 Dimensions of the AMM 2U 3 for fitting on a wall 8 12 6 Radio Connection Box RCB Table 53 Dimensions and weights of the RCB Weight kg Dimensions H x W x D mm DC DC version AC DC version 448 x 250...

Page 175: ...ensions and weight of the fan unit Dimensions H x W x D mm Weight kg 44 x 483 x 284 2 4 44 4273 Figure 119 Dimensions of the fan unit It is possible to fit installation brackets to the fan unit for in...

Page 176: ...ions H x W x D mm Weight kg 22 x 483 x 147 1 5 22 147 483 3593 Figure 120 Dimensions of the DDU 8 12 9 Power Supply Unit PSU Table 56 Dimensions and weights of the PSU Dimensions H x W x D mm Weight k...

Page 177: ...Requirements for MSM Pentium II 233 MHz processor Windows 98 FAT32 or Windows NT 4 0 Service Pack 6 64 MB RAM 100 MB available hard disk space CD ROM drive or 3 5 disk drive One serial port Keyboard...

Page 178: ...memory if 200 terminals 256 MB is recommended 50 MB available hard drive space 500 MB recommended 3 5 disk drive CD ROM drive Network Interface Card NIC Minimum Software Requirements for MINI LINK Net...

Page 179: ...Network Interface Card NIC Minimum Software Requirements for MINI LINK Netman Client Windows NT 4 0 Workstation Service Pack 6 or Windows 2000 Service Pack 1 One MINI LINK Netman Client software licen...

Page 180: ...MINI LINK E and E Micro 174 AE LZT 110 2012 R8C 2002 03 04...

Page 181: ...nt envelope offset Quadrature Phase Shift Keying CSS Control and Supervision System that supports building of networks for operation and maintenance CW Continuous Wave DC Direct Current DCN Data Commu...

Page 182: ...ng Center MSM MINI LINK Service Manager MTBF Mean Time Between Failure Multi terminal site A complex site with several radio terminals MXU MINI LINK Cross connect Unit NCC Node Communication Channel N...

Page 183: ...s SMU Switch Multiplexer Unit SNMP Simple Network Management Protocol TCP IP Transmission Control Protocol Internet Protocol Terminal One side of a radio link connection or an SAU A terminal has a uni...

Page 184: ...Glossary 178 AE LZT 110 2012 R8C 2002 03 04...

Page 185: ...37 86 Control and Supervision System CSS 93 Control functions 107 Cooling 42 154 C QPSK 49 85 D Data Communication Network DCN 94 DC Distribution Unit DDU 120 154 DC failure 62 DC supply 51 DC DC con...

Page 186: ...Locked Loop PLL 28 33 38 86 87 P mark 107 Polarization 89 Power consumption 140 141 142 detector 28 34 dissipation 140 141 142 splitter 133 supply 140 supply failure 71 108 Protected terminal 1 1 14...

Page 187: ...83 147 150 routing 74 Transmitter oscillator 28 33 38 86 spectrum 128 spurious levels 128 switching 58 133 Transmit IF signal 28 32 37 Transparency for VLAN 70 U Unprotected terminal 1 0 13 Upgrading...

Page 188: ...Index 182 AE LZT 110 2012 R8C 2002 03 04...

Page 189: ......

Page 190: ...sson Microwave Systems AB Transmission Transport Networks SE 431 84 M lndal Sweden Telephone 46 31 747 00 00 Telefax 46 31 27 72 25 www ericsson com AE LZT 110 2012 R8C Ericsson Microwave Systems AB 2...

Search results

Summary of Contents for MINI-LINK E

Reviews:

Related manuals for MINI-LINK E

Brands by name

Popular brands

Ericsson MINI-LINK E, Technical Description

Search results

Summary of Contents for MINI-LINK E

Reviews:

Related manuals for MINI-LINK E

Brands by name

Popular brands