This document provides a user guide for the Cambium PTP 800 Series product line. It includes descriptions of the key system components like the compact modem unit (CMU), outdoor unit (ODU), and indoor RF unit (IRFU). It also covers topics like link planning, grounding and lightning protection, network planning, security planning, and ordering information. The document aims to provide all the necessary reference information to successfully deploy and operate Cambium PTP 800 wireless links.
This document provides a summary of key information about Cambium's PTP 800 wireless system:
- It describes the main components of the system including the Compact Modem Unit (CMU), Outdoor Unit (ODU), and Indoor RF Unit (IRFU).
- It provides an overview of link types that can be configured including 1+0, 1+1 Hot Standby, and 2+0.
- It covers topics like planning considerations, ordering components, legal agreements, and reference materials for installing and operating the system.
This document provides important safety information and guidelines for installing and operating Cambium PTP 810 equipment. It describes key features of the PTP 810 product, including supported bands and frequencies, typical applications, system components, link types, and the modular modem unit. The document outlines licensing requirements and contains contents for product description, installation, configuration, operation, maintenance, and other sections.
This document summarizes safety and regulatory guidelines for installing and operating Cambium PTP 250 equipment. It outlines important safety information regarding working near power lines, at heights, and grounding requirements. It also discusses using the correct power supply, lightning protection, RF exposure safety distances, and regulatory requirements for unlicensed operation such as radar detection in certain countries and bands. Additional country-specific rules are outlined for the USA and Canada.
The document provides an overview and user guide for the Cambium PTP 500 and PTP 300 wireless point-to-point systems. It includes sections on system components, wireless operation, Ethernet bridging, system management, planning considerations, and installation instructions. Safety guidelines are also provided to ensure proper usage.
The document provides an overview of the Cambium PTP 500 and PTP 300 wireless link system. It describes the key components, including the outdoor unit (ODU), powered indoor unit (PIDU), cabling and lightning protection. It also summarizes the wireless operation using time division duplexing and adaptive modulation. The system uses Ethernet bridging to connect customer networks and supports management via a web interface.
This document provides a summary of key safety and regulatory information for the Cambium PTP 600 Series product. It outlines important guidelines regarding working with power lines, at heights, and grounding and protective earth for the Outdoor Unit. It also describes regulatory requirements for unlicensed use of frequency bands and protecting radar systems from interference. The document emphasizes ensuring the correct license key and region code are set during commissioning.
This document provides summaries of key information from a Cambium Networks PTP 600 Series user guide:
- It outlines important safety guidelines for installing and operating PTP 600 equipment, including proper grounding, using supplied power sources, working at heights near power lines, and maintaining separation distances from antennas.
- It describes regulatory requirements for unlicensed operation in certain frequency bands, including mechanisms for detecting and avoiding interference with radar systems as required in some countries.
- Specific information is provided for US and Canada regulations requiring interference avoidance features for weather radar systems operating from 5600-5650 MHz when products are used outdoors from 5470-5725 MHz. Manufacturers must prevent unauthorized configuration outside of FCC rules.
This document provides release notes for the Cambium PMP 450 system release 12.0. It includes sections on safety and regulatory information, general information about the release, procedures for reporting problems and obtaining warranty support, security advice, and warnings. The document outlines important guidelines regarding safe installation and operation of the PMP 450 equipment in compliance with regulations.
This document provides a summary of key information about Cambium's PTP 800 wireless system:
- It describes the main components of the system including the Compact Modem Unit (CMU), Outdoor Unit (ODU), and Indoor RF Unit (IRFU).
- It provides an overview of link types that can be configured including 1+0, 1+1 Hot Standby, and 2+0.
- It covers topics like planning considerations, ordering components, legal agreements, and reference materials for installing and operating the system.
This document provides important safety information and guidelines for installing and operating Cambium PTP 810 equipment. It describes key features of the PTP 810 product, including supported bands and frequencies, typical applications, system components, link types, and the modular modem unit. The document outlines licensing requirements and contains contents for product description, installation, configuration, operation, maintenance, and other sections.
This document summarizes safety and regulatory guidelines for installing and operating Cambium PTP 250 equipment. It outlines important safety information regarding working near power lines, at heights, and grounding requirements. It also discusses using the correct power supply, lightning protection, RF exposure safety distances, and regulatory requirements for unlicensed operation such as radar detection in certain countries and bands. Additional country-specific rules are outlined for the USA and Canada.
The document provides an overview and user guide for the Cambium PTP 500 and PTP 300 wireless point-to-point systems. It includes sections on system components, wireless operation, Ethernet bridging, system management, planning considerations, and installation instructions. Safety guidelines are also provided to ensure proper usage.
The document provides an overview of the Cambium PTP 500 and PTP 300 wireless link system. It describes the key components, including the outdoor unit (ODU), powered indoor unit (PIDU), cabling and lightning protection. It also summarizes the wireless operation using time division duplexing and adaptive modulation. The system uses Ethernet bridging to connect customer networks and supports management via a web interface.
This document provides a summary of key safety and regulatory information for the Cambium PTP 600 Series product. It outlines important guidelines regarding working with power lines, at heights, and grounding and protective earth for the Outdoor Unit. It also describes regulatory requirements for unlicensed use of frequency bands and protecting radar systems from interference. The document emphasizes ensuring the correct license key and region code are set during commissioning.
This document provides summaries of key information from a Cambium Networks PTP 600 Series user guide:
- It outlines important safety guidelines for installing and operating PTP 600 equipment, including proper grounding, using supplied power sources, working at heights near power lines, and maintaining separation distances from antennas.
- It describes regulatory requirements for unlicensed operation in certain frequency bands, including mechanisms for detecting and avoiding interference with radar systems as required in some countries.
- Specific information is provided for US and Canada regulations requiring interference avoidance features for weather radar systems operating from 5600-5650 MHz when products are used outdoors from 5470-5725 MHz. Manufacturers must prevent unauthorized configuration outside of FCC rules.
This document provides release notes for the Cambium PMP 450 system release 12.0. It includes sections on safety and regulatory information, general information about the release, procedures for reporting problems and obtaining warranty support, security advice, and warnings. The document outlines important guidelines regarding safe installation and operation of the PMP 450 equipment in compliance with regulations.
This document is a user manual for the PS 6379 six channel loudspeaker master station. It provides a general description of the device, noting its ability to function as a six channel intercom master unit with auxiliary inputs, program input, headset connection, microphone, and speaker. Key features mentioned include volume controls, call buttons, dimmable speaker, private headset mode, and electronically balanced microphone output.
1. The document provides an introduction and safety information for using a DeviceNet wireless unit. It describes the basic functions and components of the DeviceNet wireless system, including the master unit, slave stations, and configurator software.
2. Safety precautions that must be followed when using the DeviceNet wireless unit are outlined, such as not using it for real-time control, avoiding excess vibration/shock, and proper installation.
3. Guidelines for proper use of the equipment are given, including instructions to turn off power before wiring, fix the unit securely, avoid direct sunlight/water exposure, and consider potential interference from other wireless devices.
Chi tiết kỹ thuật máy pos BEETLE / Fusion.
Nhà phân phối: Công ty TNHH Tầm Nhìn Toàn Cầu (Global Vision Co., Ltd.)
Địa chỉ : 456/57 Cao Thắng Nối Dài, Phường 12, Quận 10, Tp.Hồ Chí Minh
Tel : (84-8) 3868 0103 / (84-8) 3868 0104
Fax : (84-8) 3868 0105
Email:sales@globalvision.com.vn
Hotline: +84 916 590 468
URL: www.globalvision.com (Global Vision Co., Ltd.)
www.wincor.com.vn (Wincor-Nixdorf Việt Nam)
Here are the steps to add a new Sub Administrator:
1. Click the "New Sub Admin" button under the Admin section.
2. In the "Add New Sub Administrator" page, enter a username for the Sub Admin (e.g. sub_admin).
3. Enter and confirm a password for the Sub Admin (e.g. 12345).
4. Click "OK" to add the new Sub Administrator. The new Sub Admin will now appear in the Admin list with "Read Only" privilege.
The main Administrator maintains full "Read/Write" privilege and can modify or remove any Sub Administrators. Sub Administrators only have read-only access to monitor the system.
The document provides operating instructions for the MICROMASTER 430 inverter. It includes information on installation, commissioning, functions, system parameters, troubleshooting, specifications, and available options for the MICROMASTER 430 inverter ranging from 7.5 kW to 250 kW. The document contains sections on safety instructions, an overview of the inverter, installation procedures, commissioning modes, operating modes and functions, system parameters, and troubleshooting help. It aims to guide users on features and proper usage of the MICROMASTER 430.
The document is a user manual for the TB100 Rugged Business Tablet. It provides instructions on installing, operating, and maintaining the tablet. Safety information is also included, such as guidelines for charging the battery within 0-40°C and storing the battery between -20-60°C. Regulatory information from various organizations like the FCC and Taiwan NCC is also listed.
This document provides safety instructions for using the CPC 100 test system and its accessories. It states that only authorized and qualified personnel should use CPC 100 after carefully reading the manuals. Proper grounding and safe operation procedures must be followed, and life-threatening voltages and currents can be present, so extreme caution is necessary when connecting cables or test objects. The emergency stop button should be used as needed for safety.
The document provides instructions for setting up and operating the CT-4030 wireless control jammer. It can jam cell phone signals across various frequency bands. The jammer unit and accessories like antennas and cables are described. Safety standards for handling the equipment are also outlined. Installation involves selecting a suitable location and checking that all required parts are available. The jammer can be powered using the AC adapter or UPS backup system.
This document provides installation, operation and maintenance instructions for VLT 6000 Series adjustable frequency drives. It contains safety warnings and guidelines for working with electrical equipment. Proper grounding, clearances and wiring practices are described to ensure safe installation and use of the drives.
The document provides operating instructions for the MICROMASTER 420 inverter. It includes sections on installation, commissioning, functions, troubleshooting, specifications, and options. The operating instructions give information on features, parameter structure, control modes, and troubleshooting help for the MICROMASTER 420. It also includes appendices on changing parts, applicable standards, and a list of abbreviations.
The document provides operating instructions for the MICROMASTER 420 inverter. It includes sections on installation, commissioning, functions, troubleshooting, specifications, and options. The operating instructions give information on features, parameter structure, control modes, and troubleshooting help for the MICROMASTER 420. It also provides details on electrical installation, safety instructions, and EMC guidelines.
The Cambium PMP 430 fixed wireless broadband solution provides high throughput, extended range, and low total cost of ownership for network operators. It offers over 45 Mbps of throughput per access point using 10 and 20 MHz channels and OFDM technology. The PMP 430 has a range of up to 30 miles using high gain antennas. It provides a scalable and cost-effective solution for network expansion as demand increases.
The document discusses a bus priority application that uses wireless communication between buses and traffic lights. The application aims to increase public transportation efficiency by giving buses priority at traffic lights. Buses are equipped with devices like an industrial computer and GPS to determine location and communicate wirelessly with traffic light controllers. This allows buses to request the traffic lights change to green as they approach, improving bus flow and reducing traffic and pollution. Over 20 installations across multiple countries have implemented this application using Adeunis wireless modems.
This document provides a configuration and user guide for Cambium Networks' PMP 400/430 point-to-multipoint and PTP 200/230 point-to-point product lines. It includes an introduction, product descriptions, specifications, installation instructions, and configuration information for the wireless bridges and subscriber modules. The guide covers radio technology, applications, power and grounding, and administration systems for the Cambium Networks products.
This document summarizes a radio link solution from Adeunis RF for monitoring photovoltaic solar energy installations. It outlines the benefits of using a wireless connection between solar inverters and a data logger over running cables, including easy installation, lower costs, and real-time monitoring over long ranges. It provides details on Adeunis RF's radio modems that operate in the 863-870 MHz and 406-470 MHz frequency bands and can transmit data up to 25 km.
Sub10 was founded in 2010 to produce wireless Ethernet bridges operating at frequencies above 50GHz, known as millimeter wave spectrum. They began by selling the Huber+Suhner SL-60 60GHz product under the Liberator brand. In 2011, Sub10 acquired Huber+Suhner's entire wireless business and moved production to new headquarters in Newton Abbot, UK. Looking ahead, Sub10 plans to launch their own Dominator product line in 2012 to complement the existing Liberator systems and address network applications such as mobile backhaul, building connectivity, and temporary connections.
Motorola solutions enterprise wireless lan antenna specification guide versio...Advantec Distribution
This document provides guidelines for selecting antennas and other accessories for enterprise wireless local area networks (WLANs). It describes various antenna types that are compatible with Motorola access points for the 2.4 GHz and 5 GHz bands. It also provides information on antenna cables, adapters, mounting kits and other components. The document specifies the regulatory transmission power limits for Motorola access points in different countries and regions.
This document provides specifications for high performance modular plug connectors for voice and data applications. The modular plugs have 8 positions on 1.02mm centerline spacing and are available in unshielded or shielded models, as well as line and keyed housings. The plugs are made of flame retardant polycarbonate and accept 26-24 AWG stranded or solid copper wire. Cable preparation instructions are provided, specifying a strip length of 25.4mm for unshielded cable and methods for preparing shielded cable. Requirements for storage, chemical exposure, and cable selection are also outlined.
Cambium Networks Point-to-Point wireless systems have an impressive track record for durability and reliability, with over 2.2 billion operational field hours. They are engineered to withstand extreme temperatures, harsh weather, high winds, and hazardous environments. Field data shows mean time between failures of over 150 years for some models, and all systems undergo rigorous testing before deployment to ensure reliable operation in challenging conditions.
This document is a user manual for the PS 6379 six channel loudspeaker master station. It provides a general description of the device, noting its ability to function as a six channel intercom master unit with auxiliary inputs, program input, headset connection, microphone, and speaker. Key features mentioned include volume controls, call buttons, dimmable speaker, private headset mode, and electronically balanced microphone output.
1. The document provides an introduction and safety information for using a DeviceNet wireless unit. It describes the basic functions and components of the DeviceNet wireless system, including the master unit, slave stations, and configurator software.
2. Safety precautions that must be followed when using the DeviceNet wireless unit are outlined, such as not using it for real-time control, avoiding excess vibration/shock, and proper installation.
3. Guidelines for proper use of the equipment are given, including instructions to turn off power before wiring, fix the unit securely, avoid direct sunlight/water exposure, and consider potential interference from other wireless devices.
Chi tiết kỹ thuật máy pos BEETLE / Fusion.
Nhà phân phối: Công ty TNHH Tầm Nhìn Toàn Cầu (Global Vision Co., Ltd.)
Địa chỉ : 456/57 Cao Thắng Nối Dài, Phường 12, Quận 10, Tp.Hồ Chí Minh
Tel : (84-8) 3868 0103 / (84-8) 3868 0104
Fax : (84-8) 3868 0105
Email:sales@globalvision.com.vn
Hotline: +84 916 590 468
URL: www.globalvision.com (Global Vision Co., Ltd.)
www.wincor.com.vn (Wincor-Nixdorf Việt Nam)
Here are the steps to add a new Sub Administrator:
1. Click the "New Sub Admin" button under the Admin section.
2. In the "Add New Sub Administrator" page, enter a username for the Sub Admin (e.g. sub_admin).
3. Enter and confirm a password for the Sub Admin (e.g. 12345).
4. Click "OK" to add the new Sub Administrator. The new Sub Admin will now appear in the Admin list with "Read Only" privilege.
The main Administrator maintains full "Read/Write" privilege and can modify or remove any Sub Administrators. Sub Administrators only have read-only access to monitor the system.
The document provides operating instructions for the MICROMASTER 430 inverter. It includes information on installation, commissioning, functions, system parameters, troubleshooting, specifications, and available options for the MICROMASTER 430 inverter ranging from 7.5 kW to 250 kW. The document contains sections on safety instructions, an overview of the inverter, installation procedures, commissioning modes, operating modes and functions, system parameters, and troubleshooting help. It aims to guide users on features and proper usage of the MICROMASTER 430.
The document is a user manual for the TB100 Rugged Business Tablet. It provides instructions on installing, operating, and maintaining the tablet. Safety information is also included, such as guidelines for charging the battery within 0-40°C and storing the battery between -20-60°C. Regulatory information from various organizations like the FCC and Taiwan NCC is also listed.
This document provides safety instructions for using the CPC 100 test system and its accessories. It states that only authorized and qualified personnel should use CPC 100 after carefully reading the manuals. Proper grounding and safe operation procedures must be followed, and life-threatening voltages and currents can be present, so extreme caution is necessary when connecting cables or test objects. The emergency stop button should be used as needed for safety.
The document provides instructions for setting up and operating the CT-4030 wireless control jammer. It can jam cell phone signals across various frequency bands. The jammer unit and accessories like antennas and cables are described. Safety standards for handling the equipment are also outlined. Installation involves selecting a suitable location and checking that all required parts are available. The jammer can be powered using the AC adapter or UPS backup system.
This document provides installation, operation and maintenance instructions for VLT 6000 Series adjustable frequency drives. It contains safety warnings and guidelines for working with electrical equipment. Proper grounding, clearances and wiring practices are described to ensure safe installation and use of the drives.
The document provides operating instructions for the MICROMASTER 420 inverter. It includes sections on installation, commissioning, functions, troubleshooting, specifications, and options. The operating instructions give information on features, parameter structure, control modes, and troubleshooting help for the MICROMASTER 420. It also includes appendices on changing parts, applicable standards, and a list of abbreviations.
The document provides operating instructions for the MICROMASTER 420 inverter. It includes sections on installation, commissioning, functions, troubleshooting, specifications, and options. The operating instructions give information on features, parameter structure, control modes, and troubleshooting help for the MICROMASTER 420. It also provides details on electrical installation, safety instructions, and EMC guidelines.
The Cambium PMP 430 fixed wireless broadband solution provides high throughput, extended range, and low total cost of ownership for network operators. It offers over 45 Mbps of throughput per access point using 10 and 20 MHz channels and OFDM technology. The PMP 430 has a range of up to 30 miles using high gain antennas. It provides a scalable and cost-effective solution for network expansion as demand increases.
The document discusses a bus priority application that uses wireless communication between buses and traffic lights. The application aims to increase public transportation efficiency by giving buses priority at traffic lights. Buses are equipped with devices like an industrial computer and GPS to determine location and communicate wirelessly with traffic light controllers. This allows buses to request the traffic lights change to green as they approach, improving bus flow and reducing traffic and pollution. Over 20 installations across multiple countries have implemented this application using Adeunis wireless modems.
This document provides a configuration and user guide for Cambium Networks' PMP 400/430 point-to-multipoint and PTP 200/230 point-to-point product lines. It includes an introduction, product descriptions, specifications, installation instructions, and configuration information for the wireless bridges and subscriber modules. The guide covers radio technology, applications, power and grounding, and administration systems for the Cambium Networks products.
This document summarizes a radio link solution from Adeunis RF for monitoring photovoltaic solar energy installations. It outlines the benefits of using a wireless connection between solar inverters and a data logger over running cables, including easy installation, lower costs, and real-time monitoring over long ranges. It provides details on Adeunis RF's radio modems that operate in the 863-870 MHz and 406-470 MHz frequency bands and can transmit data up to 25 km.
Sub10 was founded in 2010 to produce wireless Ethernet bridges operating at frequencies above 50GHz, known as millimeter wave spectrum. They began by selling the Huber+Suhner SL-60 60GHz product under the Liberator brand. In 2011, Sub10 acquired Huber+Suhner's entire wireless business and moved production to new headquarters in Newton Abbot, UK. Looking ahead, Sub10 plans to launch their own Dominator product line in 2012 to complement the existing Liberator systems and address network applications such as mobile backhaul, building connectivity, and temporary connections.
Motorola solutions enterprise wireless lan antenna specification guide versio...Advantec Distribution
This document provides guidelines for selecting antennas and other accessories for enterprise wireless local area networks (WLANs). It describes various antenna types that are compatible with Motorola access points for the 2.4 GHz and 5 GHz bands. It also provides information on antenna cables, adapters, mounting kits and other components. The document specifies the regulatory transmission power limits for Motorola access points in different countries and regions.
This document provides specifications for high performance modular plug connectors for voice and data applications. The modular plugs have 8 positions on 1.02mm centerline spacing and are available in unshielded or shielded models, as well as line and keyed housings. The plugs are made of flame retardant polycarbonate and accept 26-24 AWG stranded or solid copper wire. Cable preparation instructions are provided, specifying a strip length of 25.4mm for unshielded cable and methods for preparing shielded cable. Requirements for storage, chemical exposure, and cable selection are also outlined.
Cambium Networks Point-to-Point wireless systems have an impressive track record for durability and reliability, with over 2.2 billion operational field hours. They are engineered to withstand extreme temperatures, harsh weather, high winds, and hazardous environments. Field data shows mean time between failures of over 150 years for some models, and all systems undergo rigorous testing before deployment to ensure reliable operation in challenging conditions.
The document discusses the advanced features of the Bosch Communications Systems SIP interface called C-Soft. It provides an overview of the SIP call windows and controls for placing and managing SIP calls. Key features covered include call holding, forwarding, conferencing, transferring calls and using the contact list. The interface allows integration of radio systems with SIP calls and supports up to 5 users in a conference call. It also discusses licensing options using software keys instead of dongles.
This document provides a user guide for the Cambium CMM4 device. It includes sections on product description and specifications for the CMM4 controller board and integrated Ethernet switch. It also covers planning considerations for typical cabling configurations, power planning, and syncing multiple CMMs. The document details how to configure the CMM4's IP parameters, ports, users, and other settings through its web interface. It provides guidance on technical support contact options and disclaimers regarding copyright, restrictions, and use in hazardous environments.
The document discusses the MTRBi interface, which allows an IP C-Soft Software-based console to control the Motorola MOTOTRBOTM Professional Digital Two-Way Radio System. The MTRBi interface supports key MOTOTRBOTM features like private calls, radio checks, zone and channel changes. It also supports GPS integration and sending/receiving text messages. The interface allows public safety, government, and commercial customers to utilize full console control with their MOTOTRBOTM system.
The document describes the Motorola PTP 800 Licensed Ethernet Microwave system. It offers high throughput communications up to 368 Mbps for deploying multi-service networks. The system provides high-performance and scalable connectivity using licensed frequency bands between 6-38 GHz. It includes an upgradeable Outdoor Unit that is durable and can withstand extreme weather conditions.
This document provides a summary of key information from a Cambium PTP 250 user guide:
- The PTP 250 is a point-to-point wireless system consisting of an outdoor unit (ODU) and a Power over Ethernet injector.
- Safety guidelines must be followed when installing or servicing the equipment, such as using proper grounding and working safely around power lines.
- The document reviews the components of the system including the ODU, PoE injector, cabling, and lightning protection. Wireless operation details such as spectrum management, adaptive modulation, and radar avoidance are also covered.
- Planning considerations for regulatory compliance, site selection, link planning, and using connectorized units
This document provides a summary of key information from a Cambium PTP 250 user guide:
- The PTP 250 is a point-to-point wireless system consisting of an outdoor unit (ODU) and a Power over Ethernet injector.
- Safety guidelines must be followed when installing or servicing the equipment, such as using proper grounding and working safely around power lines.
- The document reviews the components of the system including the ODU, PoE injector, cabling, and lightning protection. Wireless operation details such as spectrum management, adaptive modulation, and radar avoidance are also covered.
- Planning considerations for regulatory compliance, site selection, link planning, and using connectorized units
The document is a user guide for the Cambium PTP 600 Series product. It provides an overview of the system components including the outdoor unit (ODU), powered indoor unit (PIDU), cabling and lightning protection equipment, and PTP-SYNC unit. It describes the wireless operation using time division duplexing and other technologies. It also covers Ethernet bridging, telecoms circuits, and system management functions. The guide contains safety and regulatory information and provides details to ensure proper installation and compliance.
The document provides an overview of the Cambium PTP 500 and PTP 300 wireless bridge systems:
- The systems consist of outdoor units (ODUs), powered indoor units (PIDUs), and optional PTP-SYNC units. ODUs contain the radio and antenna and are mounted outdoors, while PIDUs provide power and network connections indoors.
- Key features include wireless bridging using time division duplexing in multiple frequency bands, adaptive modulation, MIMO, and intelligent dynamic frequency selection to avoid radar interference.
- Systems support Ethernet bridging between customer networks and management. Back-to-back links allow connection of multiple sites.
- Management is provided through a web interface, SNMP
This document summarizes key information from a user guide for Cambium PTP 500 and PTP 300 wireless systems, including:
- The document provides no guarantees about accuracy and disclaims liability for errors.
- Copyrighted materials in the document and software may not be copied without permission.
- Strict safety guidelines must be followed when installing or servicing equipment, such as using proper grounding and not working near power lines.
- Regulatory requirements including radar detection must be met or installers may face penalties.
This document summarizes key information from a user guide for Cambium PTP 500 and PTP 300 wireless systems, including:
- The document provides no guarantees about accuracy and disclaims liability for errors.
- Copyrighted materials in the document and software may not be copied without permission.
- Outdoor units must be properly grounded for safety and to protect against lightning. Power must come from approved indoor power units.
- Strong radio frequency fields are present near antennas and power must be turned off before maintenance near antennas. Minimum separation distances from antennas must be maintained for safety.
- Devices must meet regulatory requirements for detecting and avoiding radar to prevent interference with licensed systems in some countries and bands.
This document provides a user guide for the PTP 800 Licensed Ethernet Microwave system. It contains important safety information for installing and operating the equipment, including guidelines for working at heights, grounding the system properly, and ensuring safety from RF exposure and thermal hazards. The document also details how to contact Motorola for support or to report any problems.
This document provides guidelines for safely installing and operating Cambium PTP 600 series radio equipment in hazardous locations. It specifies the allowed operating envelope, part numbers and product labels, installation and operating requirements, and instructions for installing integrated and connectorized units. Special attention must be paid to limiting radio frequency emissions to prevent explosions.
The document provides safety guidelines for installing and operating Cambium PTP 600 Series radio products in hazardous locations. Key points include:
- The maximum Effective Isotropic Radiated Power (EIRP) is limited based on the gas group in the location.
- Only products with ATEX/Hazloc labels can be used in hazardous areas.
- Integrated antennas have pre-set power limits; external antennas require ensuring limits are not exceeded.
- Indoor units like the PIDU must be located in safe areas away from hazards.
- Proper certification labels must be present and limitations in installation manuals followed.
The document provides guidance on safely installing and operating Cambium PTP 600 Series radio products in hazardous locations. Key points include:
- The products are certified for use in ATEX Zone 2 and NEC Class 1 Division 2 areas with specific EIRP limits depending on the gas group.
- Only models with the correct certification labels can be used. Integrated units have preset power limits.
- External antennas require ensuring limits are not exceeded. The indoor PIDU and accessories are not certified for hazardous areas.
- Installation must meet ATEX/NEC standards and not exceed radio regulatory or hazardous location EIRP limits for the frequency band and region.
This document is the preface section of a user manual. It contains various safety instructions and regulatory information. Key details include warnings about lithium battery safety, proper disposal of used batteries, FCC radio frequency interference statements, and CE conformity markings. The preface also lists the table of contents for the full manual and notes a reversion history section at the end.
The document provides essential information for installing and configuring the Cambium PMP 450 module, including:
- The default IP address, administrator username and password, and software upgrade procedure.
- Two options for resetting the module to factory defaults via the radio GUI.
- Safety guidelines for working with power lines, at heights, and grounding and protective earth. RF exposure risks near the antenna are also noted.
The document provides information about configuring and resetting the Cambium PMP 450 wireless system:
1. The default IP address, username, and password for accessing the management GUI are listed.
2. There are two options for resetting the radio to factory default settings - either through the radio GUI interface or by using an override plug during power up.
3. Instructions are provided for upgrading the software version and guidelines for safety, regulatory compliance, and warranty information.
The document provides configuration information for the Cambium PMP 450 wireless system, including:
- The default IP address, username, and no default password for access to the management GUI.
- Instructions for software upgrades and resetting the unit to factory defaults using the radio GUI.
- Safety and regulatory guidelines that must be followed when installing or operating the equipment.
This document is the user manual for a handheld thermal monocular camera. It provides legal information, trademarks, disclaimers, and safety instructions regarding the use and operation of the camera. The manual explains that no warranties are provided and the company is not responsible for damages resulting from use of the camera. It also provides regulatory compliance information for FCC, EU, and Industry Canada standards.
허니웰 3800r 산업용 바코드스캐너는 판독 범위가 뛰어나고 품질이 나쁜 바코드를 읽으며 탁월한 내구성을 자랑하는 가장 강력한 선형 이미저 입니다.
3800r 바코드스캐너는 13 밀 (mil) 바코드에 대해 24 인치 (610mm)의 판독 범위를 자랑하는 동급 최강의 제품입니다.
허니웰은 30년간의 바코드 판독 경험을 바탕으로 새로운 소프트웨어인 디지타이저로 저품질 바코드 판독문제를 해결하여 수동입력 작업시간을 줄였습니다.
충격흡수 고무 접촉면과 Lexan® 하우징은 1.8 m 높이의 콘크리트 낙하에서도 견딜 수 있습니다.
Superior Read Range
Imaging technology now extends the read range out to 24˝ (610 mm) on the bar codes used in retail applications
Fast and Aggressive Decode
Even on poorly printed or damaged codes, the 270 scans per second scan rate and software digitizer quickly processes the data and transmits it to your application
Durable
Built to last, there are no moving parts to wear out. Full impact resistant bumpers and a 5 year warranty make the 3800r one of the toughest scanners on the market
Reads Emerging Codes that will be Part of Tomorrow’s Solutions
Supports the EAN·UCC system, including GTIN, EAN/UCC-14, and GS1 DataBar
Connectivity
Supports all common interfaces : keyboard wedge, TTL RS232, IBM retail, USB, wand emulation, HHLC, and True RS232
OPERATIONAL
Light Source : Visible Red LED 630 nm
Visual Indicators : Green = good read
Host System Interfaces : USB, True RS232, TTL level RS232, Keyboard Wedge, IBM 46xx (RS485),
Light Pen (Wand) Emulation, Laser Emulation
MECHANICAL
Dimensions (LxWxH) : 135 mm x 81 mm x 157 mm (5.3˝ x 3.2˝ x 6.2˝)
Weight : 184 g (6.5 oz)
ELECTRICAL
Input Voltage : 4.5 - 12 VDC
Operating Power (typical) : 1.2 W (235 mA @ 5 V); 1.7 W (145 mA @ 12 V)
Standby Power (typical) : 430 mW (86 mA @ 5 V); 780 mW (65 mA @ 12 V)
DC Transformers : Class 2: 5 VDC @ 2.4 A
LED Class : Class 1: IEC60825-1, EN60825-1
EMC : FCC Part 15, ICES-003, EN55022 Class B
ENVIRONMENTAL
Operating Temperature : 32°F to 122°F (0°C to 50°C)
Storage Temperature : -40°F to 140F (-40°C to 60°C)
Humidity : 0 to 95% relative humidity, non-condensing
Drop : Designed to withstand 1.8 m (6´) drops
Environmental Sealing : IP41
Light Levels : 70,000 Lux (6,503 foot-candles)
SCAN PERFORMANCE
Scan Pattern : Linear Image (3648 pixels)
Scan Speed : 270 scans per second
Motion Tolerance : 5 cm/s (2 in/s) with 13 mil UPC at optimal focus
Scan Angle : Horizontal: 47°
Print Contrast : 20% minimum reflectance difference
Pitch, Skew : 65°, 65°
Decode Capabilities : Reads standard 1D and GS1 DataBar symbologies.
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com
허니웰 3800i 산업용 바코드스캐너는 초당 270 회, 82 인치 (208 cm) 범위의 바코드를 읽을 수 있습니다.
스캐너 케이스와 밀봉된 광학 모듈에는 충격 흡수를 위한 고무 오버몰드 (overmold)가 장착되어 2 미터 콘크리트 낙하시에도 견딜 수 있습니다.
3800i 스캐너는 IP54 등급으로 먼지와 물이 스캐너에 유입되어 성능이 저하되는 것을 방지합니다.
혹독한 외부환경, 겨울철 -30 ° C (-22 ° F)의 조건의 온도에서도 작업할 수 있도록 설계되었습니다.
Superior Read Range
Imaging technology now extends the performance range out to 82 inches (208 cm) on linear codes. Long range reading performance eliminates the need to reach and climb to scan codes.
Durable
There are no moving parts to wear out and Honeywell backs this with an industry-leading 3 year warranty. Reliable performance year after year with no downtime.
Easy to Use
True point and shoot handheld ergonomics easily fi ts oversized gloved hands. Intuitive aiming means operators will become productive quickly.
Rugged Packaging
An impact absorbing, shock resistant housing withstands fi fty 6.5 foot (2 meter) drops, and is sealed to prevent dust, moisture, and other contaminants from entering the scanner. Designed to survive the most demanding industrial applications.
Fast and Aggressive Decode
Even on poorly printed or damaged codes, the 270 scans per second digital image logic is over 6 times faster than other technologies. Spend less time trying to re-scan poor codes and speed up the work process.
PERFORMANCE
Illumination : 630 nM Visible Red LED
Receiving Device : 3648 element linear imager
Reading Width : 15 mil. code, 15 in. (38.1 cm) from nose, 10 in. (25.4 cm) wide
Resolution : 7.5 mil. at 9 in. (22.9 cm) distance
Skew Angle : +65o
Pitch Angle : +65o
Horizontal Velocity : 2 in. (5.1 cm) per second
Minimum Symbol Contrast : 20%
Scan Rate : Up to 270 scans per second
Decode Rate : 270 decodes per second
MECHANICAL/ ELECTRICAL
Dimensions (without aimer) :
Length : 5.3 in. (13.5 cm)
Height : 6.4 in. (16.3 cm)
Width : 3.2 in. (8.1 cm)
Weight : 7.5 oz. (213 g)
Dimensions (with aimer*) :
Length : 5.3 in. (13.5 cm)
Height : 6.5 in. (16.5 cm)
Width : 3.2 in. (8.1 cm)
Weight : 8.4 oz. (238 g)
Housing : UL 94V0 grade
Power Requirements : 4.5 - 14Vdc at scanner
Current Draw (maximum) :
Input : 5V, 12V
Scanning : 235mA, 142mA
Idle : 68mA, 49mA
POWER SUPPLY
Noise Rejection : Maximum 100mV peak to peak, 10 to 100 kHz
ENVIRONMENTAL
Operating Temperature : -22oF to +122oF (-30oC to +50oC)
Storage Temperature : -40oF to +140oF (-40oC to +60oC)
Humidity : 0 to 95%, non-condensing
Sealing : IP54 (water and dust resistant)
Mechanical Shock : Operational after 50 drops from 6.5 ft. (2 m) to concrete
Ambient Illumination : 0 - 70,000 lux
ESD Protection : Functional after 15kV discharge
LED Classifi cation : Class 1 under EN60825-01
>하이온아이티
주소 : 서울 금천구 가산디지털2로 165, 1304호 (백상스타타워2차)
대표번호 : 02-2038-0018 / 이메일 : hion@hionit.com
홈페이지 : http://hionsmart.com
The document provides essential information about configuring and operating Cambium PMP 450 modules, including:
- Default IP address and login credentials for management access.
- Software upgrade and factory reset procedures.
- Two options for resetting the module to factory defaults.
- Safety guidelines and regulatory compliance information for installation and operation.
The document is an installation guide for several Fast Ethernet Media Converters from Allied Telesyn:
- It provides an overview of the key features of the media converters such as status LEDs, Auto MDI/MDI-X, link test and missing link buttons, and external power adapters.
- It describes the standalone and back-to-back network topologies that can be used with the media converters.
- It provides instructions on reviewing safety precautions, selecting an installation site, planning the installation, unpacking the device, installing it on a desktop or rackmounting it, powering it on and cabling it, and registering the warranty.
- It directs the
1. Obtain a new license key from Cambium using the unique Access Key.
2. Connect to the PTP 600 unit and navigate to the License Key page.
3. Enter the new license key to enable the optical interface capability.
4. Connect the fiber optic cable to the SFP module and configure the SFP settings.
5. The unit can now be connected to the fiber network and configured for operation.
Similar to Cambium network ptp 800 series 05 00 user guide (20)
Cambium Networks is an industry leader in point-to-multipoint and point-to-point wireless broadband solutions. They have shipped over 4 million nodes totaling over $1 billion to networks in more than 150 countries. Their ePMP product line provides affordable and scalable wireless access networks through features like GPS synchronization, high scalability and consistent performance, interference mitigation technology, and effective quality of service capabilities.
The VX 9000 virtualized software-based wireless LAN controller combines the power of virtualization with Motorola Solutions' WiNG Controller. It provides centralized management of wireless networks through a single interface with high scalability, flexibility and advanced wireless services. Key features include integrated network security, the advanced WiNG 5 operating system, plug-and-play deployment, simplified licensing and infinite scalability through virtualization. It supports all major hypervisors and public/private clouds for maximum deployment flexibility at low cost.
The NX 7500 integrated services platform provides comprehensive management of up to 2,048 network elements through a single interface. It allows all network infrastructure to intelligently route traffic for maximum speed and throughput without congestion. The NX 7500 offers advanced wireless LAN performance for mid-sized and campus environments with features such as plug-and-play installation, hierarchical management, smart routing, BYOD support, and integrated security services. It provides flexibility and investment protection through modular upgrades.
The document discusses the challenges retailers face in supporting increased wireless applications and next-generation Wi-Fi in stores. It introduces the Motorola AP 8200 Series as a solution that provides high-performance wireless connectivity for customers and staff. The AP 8200 Series allows easy access, security, support for 802.11ac Wi-Fi, bandwidth for applications, and performance for many users. It provides flexibility, a cost-effective upgrade to 802.11ac, and features for security, environmental monitoring, location services, and more.
The document describes the innovative features of the Motorola AP 8222 wireless access point. It has a sleek design suitable for retail, office, and other customer-facing spaces. It provides dual-band 802.11ac and 802.11n wireless connectivity at speeds up to 1.3Gbps. Key features include advanced beamforming, gap-free security, and support for bandwidth-heavy applications like video calling. The access point is centrally managed through Motorola's WiNG 5 networking operating system.
The AP 8163 is a ruggedized outdoor mesh access point designed to withstand extreme weather conditions. It has three radios - two for client access across 2.4GHz and 5GHz bands, and a third radio that can be used for wireless intrusion prevention scanning or dynamic frequency selection to avoid radar interference. The advanced WiNG 5 operating system allows the access points to self-optimize the network for best performance. Key features include powerful antennas for extended range, mesh networking for redundancy, and security features like firewalls and wireless intrusion prevention.
The document describes the features and capabilities of the Motorola AP 8122 3x3 MIMO 802.11n access point. It delivers high throughput to support enterprise applications including voice and HD video using 802.11n technology with standard 802.3af PoE. It has advanced features like load balancing, pre-emptive roaming, and dual band radios to increase network reliability, resilience, and security. The access point also supports advanced wireless capabilities such as voice over wireless, location services, and guest access controls.
The document describes the innovative features of the AP 7532 wireless access point. It provides the highest wireless speeds available with 3x3 MIMO and 256 QAM modulation on both 2.4GHz and 5GHz radios. It has a dual radio 802.11ac/802.11n design that provides a upgrade path to 1.3Gbps 802.11ac speeds while maintaining support for existing devices. It offers various advanced features like load balancing, security, sensor support and quality of service for voice. The access point is designed to deliver maximum performance at a low cost.
The AP 7502 is a dual-band 802.11ac wireless access point designed for installation in small spaces like hotel rooms. It has a compact wall-mount design, supports the latest WiFi standards, and includes features to ensure reliable connectivity even in challenging environments. Setup and management are simplified through zero-touch provisioning and both standalone and controller-based operation modes.
The document describes the innovative features of the AP 7522 wireless access point. It provides dual-band 802.11ac and 802.11n radios for high performance WiFi. It offers internal or external antenna options and can function as both an access point and wireless sensor. The access point provides security, load balancing, and other features to support mission critical applications on the wireless network.
"Choosing proper type of scaling", Olena SyrotaFwdays
Imagine an IoT processing system that is already quite mature and production-ready and for which client coverage is growing and scaling and performance aspects are life and death questions. The system has Redis, MongoDB, and stream processing based on ksqldb. In this talk, firstly, we will analyze scaling approaches and then select the proper ones for our system.
zkStudyClub - LatticeFold: A Lattice-based Folding Scheme and its Application...Alex Pruden
Folding is a recent technique for building efficient recursive SNARKs. Several elegant folding protocols have been proposed, such as Nova, Supernova, Hypernova, Protostar, and others. However, all of them rely on an additively homomorphic commitment scheme based on discrete log, and are therefore not post-quantum secure. In this work we present LatticeFold, the first lattice-based folding protocol based on the Module SIS problem. This folding protocol naturally leads to an efficient recursive lattice-based SNARK and an efficient PCD scheme. LatticeFold supports folding low-degree relations, such as R1CS, as well as high-degree relations, such as CCS. The key challenge is to construct a secure folding protocol that works with the Ajtai commitment scheme. The difficulty, is ensuring that extracted witnesses are low norm through many rounds of folding. We present a novel technique using the sumcheck protocol to ensure that extracted witnesses are always low norm no matter how many rounds of folding are used. Our evaluation of the final proof system suggests that it is as performant as Hypernova, while providing post-quantum security.
Paper Link: https://eprint.iacr.org/2024/257
Ivanti’s Patch Tuesday breakdown goes beyond patching your applications and brings you the intelligence and guidance needed to prioritize where to focus your attention first. Catch early analysis on our Ivanti blog, then join industry expert Chris Goettl for the Patch Tuesday Webinar Event. There we’ll do a deep dive into each of the bulletins and give guidance on the risks associated with the newly-identified vulnerabilities.
What is an RPA CoE? Session 1 – CoE VisionDianaGray10
In the first session, we will review the organization's vision and how this has an impact on the COE Structure.
Topics covered:
• The role of a steering committee
• How do the organization’s priorities determine CoE Structure?
Speaker:
Chris Bolin, Senior Intelligent Automation Architect Anika Systems
Have you ever been confused by the myriad of choices offered by AWS for hosting a website or an API?
Lambda, Elastic Beanstalk, Lightsail, Amplify, S3 (and more!) can each host websites + APIs. But which one should we choose?
Which one is cheapest? Which one is fastest? Which one will scale to meet our needs?
Join me in this session as we dive into each AWS hosting service to determine which one is best for your scenario and explain why!
In the realm of cybersecurity, offensive security practices act as a critical shield. By simulating real-world attacks in a controlled environment, these techniques expose vulnerabilities before malicious actors can exploit them. This proactive approach allows manufacturers to identify and fix weaknesses, significantly enhancing system security.
This presentation delves into the development of a system designed to mimic Galileo's Open Service signal using software-defined radio (SDR) technology. We'll begin with a foundational overview of both Global Navigation Satellite Systems (GNSS) and the intricacies of digital signal processing.
The presentation culminates in a live demonstration. We'll showcase the manipulation of Galileo's Open Service pilot signal, simulating an attack on various software and hardware systems. This practical demonstration serves to highlight the potential consequences of unaddressed vulnerabilities, emphasizing the importance of offensive security practices in safeguarding critical infrastructure.
FREE A4 Cyber Security Awareness Posters-Social Engineering part 3Data Hops
Free A4 downloadable and printable Cyber Security, Social Engineering Safety and security Training Posters . Promote security awareness in the home or workplace. Lock them Out From training providers datahops.com
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/how-axelera-ai-uses-digital-compute-in-memory-to-deliver-fast-and-energy-efficient-computer-vision-a-presentation-from-axelera-ai/
Bram Verhoef, Head of Machine Learning at Axelera AI, presents the “How Axelera AI Uses Digital Compute-in-memory to Deliver Fast and Energy-efficient Computer Vision” tutorial at the May 2024 Embedded Vision Summit.
As artificial intelligence inference transitions from cloud environments to edge locations, computer vision applications achieve heightened responsiveness, reliability and privacy. This migration, however, introduces the challenge of operating within the stringent confines of resource constraints typical at the edge, including small form factors, low energy budgets and diminished memory and computational capacities. Axelera AI addresses these challenges through an innovative approach of performing digital computations within memory itself. This technique facilitates the realization of high-performance, energy-efficient and cost-effective computer vision capabilities at the thin and thick edge, extending the frontier of what is achievable with current technologies.
In this presentation, Verhoef unveils his company’s pioneering chip technology and demonstrates its capacity to deliver exceptional frames-per-second performance across a range of standard computer vision networks typical of applications in security, surveillance and the industrial sector. This shows that advanced computer vision can be accessible and efficient, even at the very edge of our technological ecosystem.
GraphRAG for Life Science to increase LLM accuracyTomaz Bratanic
GraphRAG for life science domain, where you retriever information from biomedical knowledge graphs using LLMs to increase the accuracy and performance of generated answers
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/temporal-event-neural-networks-a-more-efficient-alternative-to-the-transformer-a-presentation-from-brainchip/
Chris Jones, Director of Product Management at BrainChip , presents the “Temporal Event Neural Networks: A More Efficient Alternative to the Transformer” tutorial at the May 2024 Embedded Vision Summit.
The expansion of AI services necessitates enhanced computational capabilities on edge devices. Temporal Event Neural Networks (TENNs), developed by BrainChip, represent a novel and highly efficient state-space network. TENNs demonstrate exceptional proficiency in handling multi-dimensional streaming data, facilitating advancements in object detection, action recognition, speech enhancement and language model/sequence generation. Through the utilization of polynomial-based continuous convolutions, TENNs streamline models, expedite training processes and significantly diminish memory requirements, achieving notable reductions of up to 50x in parameters and 5,000x in energy consumption compared to prevailing methodologies like transformers.
Integration with BrainChip’s Akida neuromorphic hardware IP further enhances TENNs’ capabilities, enabling the realization of highly capable, portable and passively cooled edge devices. This presentation delves into the technical innovations underlying TENNs, presents real-world benchmarks, and elucidates how this cutting-edge approach is positioned to revolutionize edge AI across diverse applications.
Driving Business Innovation: Latest Generative AI Advancements & Success StorySafe Software
Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
This webinar is ideal for professionals seeking to harness the power of AI within their data management systems while ensuring high levels of customization and security. Whether you're a novice or an expert, gain actionable insights and strategies to elevate your data processes. Join us to see how FME and AI can revolutionize how you work with data!
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
Building Production Ready Search Pipelines with Spark and MilvusZilliz
Spark is the widely used ETL tool for processing, indexing and ingesting data to serving stack for search. Milvus is the production-ready open-source vector database. In this talk we will show how to use Spark to process unstructured data to extract vector representations, and push the vectors to Milvus vector database for search serving.
3. PTP 800 Series User Guide
Important safety information
This section describes important safety guidelines that must be observed by personnel
installing or operating PTP 800 equipment.
To prevent loss of life or physical injury, observe the safety guidelines in this
section.
Power lines
Exercise extreme care when working near power lines.
Working at heights
Exercise extreme care when working at heights.
Grounding and protective earth
The outdoor unit (ODU) and compact modem unit (CMU) for the PTP 800 must be properly
grounded. It is the user’s responsibility to install the equipment in accordance with
national regulations. In the USA, follow Section 810 of the National Electric Code,
ANSI/NFPA No.70-1984 (USA). In Canada, follow Section 54 of the Canadian Electrical
Code. These codes describe correct installation procedures for grounding the ODU, CMU,
mast, lead-in wire and discharge unit, size of grounding conductors and connection
requirements for grounding electrodes. Other regulations may apply in different countries
and therefore it is recommended that installation of the outdoor unit be contracted to a
professional installer.
The PTP 800 ODU and CMU must be grounded to a protective earth in accordance with
the Local Electrical Regulations.
phn-2513_001v000 (Apr 2012) I
4. Important safety information
Electrical safety
The power cable connections must meet International Electrotechnical Commission (IEC)
safety standards.
Always power down and unplug the equipment before servicing.
When using alternative DC supplies, such as battery-backed DC power source, the supply
must be SELV rated.
Primary disconnect device
The power supply must include a primary disconnect device with appropriate fusing.
External cables
Safety may be compromised if outdoor rated cables are not used for connections that will
be exposed to the weather.
RF exposure near the antenna
Strong radio frequency (RF) fields will be present close to the antenna when the
transmitter is on. Always mute the transmitter before undertaking maintenance activities
in front of the antenna.
Ensure that people cannot stand or walk in front of the antenna within ± 10 degrees of the
antenna axis and within the minimum distances listed in Table 208 (ETSI) or Table 209
(FCC). The minimum distances in these tables have been calculated using worst-case
assumptions. Reduced separation distances may be appropriate under some
circumstances. Further details are provided in Radiation hazard assessment on page 4-85.
Thermal safety
The CMU may be hot to the touch when in operation. The CMU must not be operated in
ambient temperatures exceeding 40 deg C unless mounted in a Restricted Access
Location. For more information, see Maximum operating ambient temperature for the
CMU on page 5-76.
II phn-2513_001v000 (Apr 2012)
5. PTP 800 Series User Guide
Contents
Important safety information ........................................................................................... I
About This User Guide ..................................................................................................... 1
General information ..................................................................................................................... 2
Version information................................................................................................................ 2
Contacting Cambium Networks ............................................................................................. 2
Problems and warranty ................................................................................................................ 4
Security advice ............................................................................................................................. 6
Warnings, cautions, and notes ..................................................................................................... 7
Caring for the environment.......................................................................................................... 8
Licensing requirements ............................................................................................................... 9
Operating license ................................................................................................................... 9
Cambium license agreement .................................................................................................. 9
Chapter 1: Product description .................................................................................. 1-1
Overview ................................................................................................................................... 1-2
Key features ........................................................................................................................ 1-2
Supported bands and frequencies ...................................................................................... 1-3
Typical users and applications ............................................................................................ 1-4
System components ............................................................................................................ 1-5
Link types ............................................................................................................................ 1-6
Compact modem unit (CMU) .................................................................................................... 1-8
CMU description ................................................................................................................. 1-8
CMU interfaces ................................................................................................................... 1-9
Further reading on the CMU ............................................................................................ 1-12
Outdoor unit (ODU) ................................................................................................................. 1-13
ODU description ................................................................................................................ 1-13
ODU interfaces .................................................................................................................. 1-15
Further reading on the ODU ............................................................................................. 1-17
Indoor RF unit (IRFU) ............................................................................................................. 1-18
IRFU description ............................................................................................................... 1-18
Transceivers ...................................................................................................................... 1-19
Branching unit .................................................................................................................. 1-19
phn-2513_001v000 (Apr 2012) i
6. Contents
IRFU availability ............................................................................................................... 1-19
IRFU configuration options ............................................................................................... 1-20
IRFU interfaces ................................................................................................................. 1-25
Further reading on the IRFU ............................................................................................ 1-26
Antennas and couplers ............................................................................................................ 1-27
Antennas ........................................................................................................................... 1-27
Remote mounting kits (RMKs) .......................................................................................... 1-29
Coupler mounting kits....................................................................................................... 1-30
Direct mount dual-polar antennas .................................................................................... 1-32
Further reading on antennas and couplers....................................................................... 1-34
Cabling and lightning protection ............................................................................................ 1-35
Lightning protection (ODU platforms only) ...................................................................... 1-35
RFU to CMU connections ................................................................................................. 1-35
CMU to network connections............................................................................................ 1-35
Cable grounding (ODU platforms only) ............................................................................ 1-35
Further reading on cabling and lightning protection ....................................................... 1-37
Wireless operation .................................................................................................................. 1-38
Channel bandwidth ........................................................................................................... 1-38
Modulation modes ............................................................................................................. 1-38
Adaptive coding and modulation....................................................................................... 1-39
Automatic transmitter power control ............................................................................... 1-39
Maximum receive power ................................................................................................... 1-40
Maximum transmit power ................................................................................................. 1-40
Security ............................................................................................................................. 1-40
Further reading on wireless operation ............................................................................. 1-41
Ethernet bridging.................................................................................................................... 1-42
Customer network............................................................................................................. 1-42
Management network ....................................................................................................... 1-43
Protocol model .................................................................................................................. 1-46
Further reading on Ethernet bridging .............................................................................. 1-50
System management ............................................................................................................... 1-51
Management agent ........................................................................................................... 1-51
Web server ........................................................................................................................ 1-51
Installation wizard ............................................................................................................ 1-53
Configuration pages .......................................................................................................... 1-53
RADIUS authentication ..................................................................................................... 1-53
Email alerts ....................................................................................................................... 1-54
ii phn-2513_001v000 (Apr 2012)
7. PTP 800 Series User Guide
SNMP ................................................................................................................................ 1-54
Simple Network Time Protocol (SNTP)............................................................................. 1-56
SNMPv3 security............................................................................................................... 1-56
System logging (syslog) .................................................................................................... 1-59
AES license........................................................................................................................ 1-60
Login information .............................................................................................................. 1-61
Flexible capacity upgrades ............................................................................................... 1-61
Software upgrade .............................................................................................................. 1-62
Recovery mode .................................................................................................................. 1-62
Further reading on system management .......................................................................... 1-63
1+1 Hot Standby link protection ............................................................................................ 1-64
1+1 Hot Standby overview ............................................................................................... 1-64
1+1 Hot Standby link antenna options ............................................................................. 1-65
Bridging in 1+1 links ........................................................................................................ 1-66
Receive Diversity............................................................................................................... 1-67
Further reading on 1+1 Hot Standby ............................................................................... 1-70
FIPS 140-2............................................................................................................................... 1-71
FIPS 140-2 capability ........................................................................................................ 1-71
FIPS 140-2 mode ............................................................................................................... 1-72
Further reading on FIPS 140-2 ......................................................................................... 1-73
Chapter 2: Planning considerations ........................................................................... 2-1
Link planning ............................................................................................................................ 2-2
Process ................................................................................................................................ 2-2
Site selection ....................................................................................................................... 2-3
Wind loading ....................................................................................................................... 2-3
Maximum IF cable length ................................................................................................... 2-3
Power supply considerations .............................................................................................. 2-4
PTP LINKPlanner ................................................................................................................ 2-5
Grounding and lightning protection.......................................................................................... 2-7
The need for power surge protection .................................................................................. 2-7
Standards ............................................................................................................................ 2-7
Lightning Protection Zones ................................................................................................. 2-8
General protection requirements ........................................................................................ 2-9
Protection requirements for a mast or tower installation ................................................. 2-11
Protection requirements for the ODU on a high rise building .......................................... 2-13
Protection requirements for the IRFU .............................................................................. 2-17
Data network planning ............................................................................................................ 2-18
phn-2513_001v000 (Apr 2012) iii
8. Contents
Management mode ........................................................................................................... 2-18
VLAN membership ............................................................................................................ 2-19
Priority for management traffic ........................................................................................ 2-19
IP interface........................................................................................................................ 2-19
Quality of service for bridged Ethernet traffic ................................................................. 2-19
Fast Ethernet port shutdown ............................................................................................ 2-21
Security planning .................................................................................................................... 2-22
Planning for SNTP operation ............................................................................................ 2-22
Planning for AES encryption ............................................................................................. 2-22
Planning for HTTPS/TLS operation ................................................................................... 2-23
Planning for FIPS 140-2 operation ................................................................................... 2-24
Planning for SNMPv3 operation ....................................................................................... 2-25
Planning for RADIUS operation ........................................................................................ 2-28
Planning 1+0 links .................................................................................................................. 2-30
Concept of a 1+0 link........................................................................................................ 2-30
Antenna, RFU and CMU configurations for 1+0 .............................................................. 2-30
Network configurations for 1+0 ....................................................................................... 2-34
Planning 1+1 Hot Standby links ............................................................................................. 2-35
Concept of a 1+1 Hot Standby link .................................................................................. 2-35
Antenna, RFU and CMU configurations for 1+1 .............................................................. 2-35
Designating primary and secondary units ........................................................................ 2-42
Link Planning for 1+1 Hot Standby links ......................................................................... 2-42
Network configurations for 1+1 ....................................................................................... 2-43
Planning for Receive Diversity .......................................................................................... 2-46
Planning 2+0 links .................................................................................................................. 2-49
Concept of a 2+0 link........................................................................................................ 2-49
Antenna, RFU and CMU configurations for 2+0 .............................................................. 2-49
Network configurations for 2+0 ....................................................................................... 2-55
Frequency spacing in 2+0 ODU based links..................................................................... 2-55
Frequency spacing in 2+0 IRFU based links ................................................................... 2-55
Ordering components ............................................................................................................. 2-57
Ordering CMUs ................................................................................................................. 2-57
Ordering antennas ............................................................................................................ 2-59
Ordering ODUs ................................................................................................................. 2-69
Ordering IF cable, grounding and LPUs ........................................................................... 2-80
Ordering RMKs and waveguides....................................................................................... 2-85
Ordering coupler mounting kits ........................................................................................ 2-88
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9. PTP 800 Series User Guide
Ordering OMKs ................................................................................................................. 2-90
Ordering IRFUs and accessories....................................................................................... 2-91
Ordering network connection components ....................................................................... 2-96
Ordering capacity upgrades.............................................................................................. 2-97
Chapter 3: Legal information ..................................................................................... 3-1
Cambium Networks end user license agreement ..................................................................... 3-2
Acceptance of this agreement ............................................................................................. 3-2
Definitions ........................................................................................................................... 3-2
Grant of license ................................................................................................................... 3-2
Conditions of use ................................................................................................................. 3-3
Title and restrictions ........................................................................................................... 3-4
Confidentiality ..................................................................................................................... 3-4
Right to use Cambium’s name ............................................................................................ 3-5
Transfer ............................................................................................................................... 3-5
Updates ............................................................................................................................... 3-5
Maintenance........................................................................................................................ 3-5
Disclaimer ........................................................................................................................... 3-6
Limitation of liability ........................................................................................................... 3-6
U.S. government ................................................................................................................. 3-7
Term of license .................................................................................................................... 3-7
Governing law ..................................................................................................................... 3-7
Assignment .......................................................................................................................... 3-8
Survival of provisions .......................................................................................................... 3-8
Entire agreement ................................................................................................................ 3-8
Third party software ........................................................................................................... 3-8
Hardware warranty ................................................................................................................. 3-20
Limit of liability ....................................................................................................................... 3-21
Chapter 4: Reference information .............................................................................. 4-1
Equipment specifications .......................................................................................................... 4-2
CMU specifications ............................................................................................................. 4-2
ODU specifications .............................................................................................................. 4-5
IRFU specifications ............................................................................................................. 4-8
Flexible waveguide specifications ..................................................................................... 4-10
Coupler mounting kit specifications ................................................................................. 4-15
Protection interface specifications.................................................................................... 4-17
Wireless specifications ............................................................................................................ 4-19
General wireless specifications ......................................................................................... 4-19
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10. Contents
Frequency bands and channel separation ........................................................................ 4-20
Capacity, transmit power and sensitivity .......................................................................... 4-22
Data network specifications .................................................................................................... 4-71
Ethernet interfaces ........................................................................................................... 4-71
Ethernet bridging.............................................................................................................. 4-72
Syslog message formats .......................................................................................................... 4-73
Format of syslog server messages .................................................................................... 4-73
Configuration and status messages .................................................................................. 4-73
Event messages ................................................................................................................. 4-74
Network management specifications ...................................................................................... 4-76
Standard SNMP MIBs ....................................................................................................... 4-76
Electromagnetic compliance ................................................................................................... 4-81
Electrical safety compliance ............................................................................................. 4-81
EMC immunity compliance ............................................................................................... 4-81
Compliance testing ........................................................................................................... 4-82
Notifications ...................................................................................................................... 4-83
Radiation hazard assessment .................................................................................................. 4-85
ETSI method ..................................................................................................................... 4-85
FCC method ...................................................................................................................... 4-87
Chapter 5: Installation .............................................................................................. 5-1
Preparing for installation .......................................................................................................... 5-2
Safety precautions during installation ................................................................................ 5-2
Grounding and lightning protection requirements ............................................................. 5-2
Selecting installation options .............................................................................................. 5-2
Preparing personnel............................................................................................................ 5-3
Preparing inventory ............................................................................................................ 5-3
Preparing tools .................................................................................................................... 5-3
Unit pre-configuration ........................................................................................................ 5-4
Installing antennas and ODUs .................................................................................................. 5-5
Installing a direct mount antenna with one ODU ............................................................... 5-6
Installing a remote mount antenna with one ODU ............................................................. 5-9
Installing a direct mount antenna with two ODUs (via coupler) ...................................... 5-20
Installing a remote mount antenna with two ODUs (via coupler) .................................... 5-26
Installing a direct mount dual-polar antenna with two ODUs .......................................... 5-32
Installing the IF and ground cables ........................................................................................ 5-35
Preparing IF cables ........................................................................................................... 5-37
Fitting an N type connector to an IF cable ....................................................................... 5-37
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11. PTP 800 Series User Guide
Connecting the ODU to the top LPU ................................................................................. 5-41
Weatherproofing an N type connector .............................................................................. 5-44
Hoisting the main IF cable ................................................................................................ 5-48
Installing and grounding the main IF cable ...................................................................... 5-51
Making an IF cable ground point ...................................................................................... 5-53
Installing and grounding the IF cable at building entry ................................................... 5-57
Testing the ODU and IF cable ................................................................................................. 5-59
Recommended pre-power tests ......................................................................................... 5-59
Test equipment ................................................................................................................. 5-59
Test preparation ................................................................................................................ 5-60
Testing cable loss .............................................................................................................. 5-61
Measuring distance to fault .............................................................................................. 5-66
Installing antennas and IRFUs ................................................................................................ 5-69
Preparation ....................................................................................................................... 5-69
Installing the IRFU in the rack ......................................................................................... 5-70
Connecting the flexible waveguide to the IRFU ............................................................... 5-71
Connecting the CMU cables to the IRFU .......................................................................... 5-72
Grounding the IRFU .......................................................................................................... 5-73
Connecting power to the IRFU ......................................................................................... 5-75
Installing the CMU .................................................................................................................. 5-76
Maximum operating ambient temperature for the CMU .................................................. 5-76
Operation of CMU in a Restricted Access Location .......................................................... 5-76
Mounting the CMU ........................................................................................................... 5-77
Grounding the CMU .......................................................................................................... 5-80
Connecting the CMU to the IF cable ................................................................................ 5-80
Connecting the CMU power supply .................................................................................. 5-81
Preparing network connections (1+0 and 2+0 links) ............................................................. 5-83
Installing a copper data interface ..................................................................................... 5-84
Installing a fiber data interface......................................................................................... 5-85
Installing a management interface ................................................................................... 5-86
Connecting fiber cables to the CMU ................................................................................. 5-87
Preparing network connections (1+1 Hot Standby) ............................................................... 5-88
Installing an out-of-band protection splitter ..................................................................... 5-89
Installing a redundant copper interface ........................................................................... 5-90
Installing a redundant fiber interface ............................................................................... 5-91
Installing a Fiber-Y interface ............................................................................................ 5-92
Installing a protection cable ............................................................................................. 5-93
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12. Contents
Replacing IRFU components................................................................................................... 5-94
Replacing a transceiver .................................................................................................... 5-95
Replacing a branching unit ............................................................................................... 5-98
Replacing filters .............................................................................................................. 5-100
Replacing a fan assembly ................................................................................................ 5-101
Replacing an RF cable .................................................................................................... 5-103
Chapter 6: Configuration and alignment .................................................................... 6-1
Preparing for configuration and alignment .............................................................................. 6-2
Safety precautions during configuration and alignment .................................................... 6-2
Regulatory compliance during configuration and alignment ............................................. 6-2
Selecting configuration options .......................................................................................... 6-2
Task 1: Connecting to the unit .................................................................................................. 6-3
Configuring the management PC ........................................................................................ 6-3
Updating the ARP table ...................................................................................................... 6-5
Connecting to the PC and powering up .............................................................................. 6-6
Logging into the web interface ........................................................................................... 6-6
Task 2: Configuring IP and Ethernet interfaces ....................................................................... 6-8
Managing the units during configuration and alignment ................................................... 6-8
Configuring the IP interface and management mode ....................................................... 6-10
Reconnecting to the management PC ............................................................................... 6-17
Task 3: Installing license keys ................................................................................................ 6-18
Checking licensed capabilities .......................................................................................... 6-18
Generating a new license key ........................................................................................... 6-20
Entering a new license key ............................................................................................... 6-20
Starting the full capacity trial ........................................................................................... 6-21
Task 4: Upgrading software version ....................................................................................... 6-22
Checking the installed software version ........................................................................... 6-22
Upgrading to a new software version ............................................................................... 6-23
Task 5: Configuring security ................................................................................................... 6-25
Configuring AES encryption ............................................................................................. 6-26
Configuring AES encryption in an operational link .......................................................... 6-28
Configuring HTTPS/TLS.................................................................................................... 6-29
Using the Security Wizard ................................................................................................ 6-30
Configuring local user accounts ....................................................................................... 6-39
Changing own user password ........................................................................................... 6-45
Protecting access to the summary and status pages ........................................................ 6-46
Configuring RADIUS authentication ................................................................................. 6-47
viii phn-2513_001v000 (Apr 2012)
13. PTP 800 Series User Guide
Task 6: Configuring protection ............................................................................................... 6-50
Configuring unprotected links .......................................................................................... 6-50
Configuring 1+1 Hot Standby links .................................................................................. 6-51
Upgrading an unprotected link to 1+1 Hot Standby ........................................................ 6-58
Task 7: Configuring wireless interface ................................................................................... 6-60
Prerequisites for the Installation Wizard .......................................................................... 6-60
Starting Installation Wizard .............................................................................................. 6-60
Step 1: Enter equipment details ....................................................................................... 6-62
Step 2: Enter details of the radio license .......................................................................... 6-66
Step 3: Configuring wireless parameters ......................................................................... 6-69
Step 4: Confirming installation configuration ................................................................... 6-70
Step 5: Skipping antenna alignment ................................................................................. 6-72
Step 6: Completing configuration without alignment ....................................................... 6-73
Task 8: Setting up SNMP agent .............................................................................................. 6-74
Configuring SNMPv3 agent .............................................................................................. 6-74
Configuring SNMPv1/2c agent ......................................................................................... 6-83
Task 9: Configuring alarms and messages.............................................................................. 6-87
Configuring generation of diagnostics alarms .................................................................. 6-87
Configuring generation of email messages ....................................................................... 6-89
Task 10: Configuring syslog .................................................................................................... 6-91
Configuring system logging (syslog) ................................................................................. 6-91
Task 11: Configuring remote access ....................................................................................... 6-93
Configuring web-based management attributes ............................................................... 6-93
Task 12: Aligning antennas ..................................................................................................... 6-96
Introduction to antenna alignment ................................................................................... 6-96
Prerequisites for alignment .............................................................................................. 6-97
Aligning protected antennas ............................................................................................. 6-97
Aligning dual-polar antennas ............................................................................................ 6-97
Aligning a pair of antennas ............................................................................................... 6-98
Step 5: Starting antenna alignment .................................................................................. 6-98
Step 6: Aligning antennas ................................................................................................. 6-98
Step 7: Completing alignment ........................................................................................ 6-103
Task 13: Reviewing configuration and performance ............................................................ 6-104
Reviewing system configuration attributes..................................................................... 6-104
Comparing actual to predicted performance .................................................................. 6-108
Task 14: Configuring quality of service ................................................................................ 6-109
Configuring quality of service ......................................................................................... 6-109
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14. Contents
Task 15: Connecting link to the network .............................................................................. 6-112
Connecting to the network.............................................................................................. 6-112
Setting the real-time clock .............................................................................................. 6-113
Saving the system configuration ..................................................................................... 6-117
Configuring for FIPS 140-2 applications .............................................................................. 6-119
Prerequisites for FIPS 140-2 configuration .................................................................... 6-119
Configuration procedures for FIPS 140-2 ....................................................................... 6-120
Checking that the unit is in FIPS 140-2 secure mode..................................................... 6-120
HTTPS key size warning ................................................................................................. 6-121
Chapter 7: Operation ................................................................................................. 7-1
Web-based management ........................................................................................................... 7-2
Accessing the web interface ............................................................................................... 7-2
Using the menu options ...................................................................................................... 7-4
Viewing the system summary ............................................................................................. 7-6
Viewing the system status .................................................................................................. 7-7
Identifying a unit from the web browser title ................................................................... 7-12
Logging out ....................................................................................................................... 7-14
Managing alarms and events .................................................................................................. 7-15
Managing alarms .............................................................................................................. 7-15
Managing email alerts ...................................................................................................... 7-24
Managing SNMP traps ...................................................................................................... 7-24
Managing event notification messages ............................................................................. 7-31
Disabling and enabling the wireless interface ........................................................................ 7-32
Disabling wireless transmission........................................................................................ 7-32
Enabling wireless transmission ........................................................................................ 7-32
Managing 1+1 Hot Standby links ........................................................................................... 7-33
Viewing the status of a 1+1 Hot Standby link .................................................................. 7-33
Using the Protected Link page ......................................................................................... 7-36
Forcing protection switches.............................................................................................. 7-37
Enabling and disabling fault protection ............................................................................ 7-43
Replacing a CMU in a 1+1 Hot Standby link .................................................................... 7-48
Managing security .................................................................................................................. 7-51
Exiting FIPS 140-2 mode .................................................................................................. 7-51
Zeroizing critical security parameters .............................................................................. 7-51
Displaying login information ............................................................................................. 7-52
Disabling AES encryption ................................................................................................. 7-52
Changing AES encryption keys ......................................................................................... 7-53
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15. PTP 800 Series User Guide
Changing the log-out timer ............................................................................................... 7-55
Managing performance ........................................................................................................... 7-57
Checking system statistics and counters .......................................................................... 7-57
Resetting system statistics and counters .......................................................................... 7-62
Viewing diagnostics .......................................................................................................... 7-62
Using the diagnostics plotter ............................................................................................ 7-63
Downloading diagnostic data ............................................................................................ 7-64
Changing the diagnostics refresh period .......................................................................... 7-65
Maintaining the system ..................................................................................................... 7-66
Restoring, upgrading and rebooting ....................................................................................... 7-67
Restoring the system configuration .................................................................................. 7-67
Upgrading software .......................................................................................................... 7-68
Rebooting .......................................................................................................................... 7-69
Upgrading software in an operational 1+1 Hot Standby link ........................................... 7-69
Checking the recovery version .......................................................................................... 7-70
Using recovery mode .............................................................................................................. 7-71
Entering recovery mode .................................................................................................... 7-71
Selecting recovery option ................................................................................................. 7-72
Upgrading software image ................................................................................................ 7-74
Resetting IP and Ethernet configuration to factory defaults ............................................ 7-75
Erasing configuration........................................................................................................ 7-76
Zeroizing security parameters .......................................................................................... 7-76
Downgrading PTP 800 software........................................................................................ 7-77
Chapter 8: Troubleshooting ....................................................................................... 8-1
Connecting to the web management interface ......................................................................... 8-2
Check the CMU power indicator ......................................................................................... 8-2
Check the DC supply to the CMU ....................................................................................... 8-2
Check the CMU status indicator ......................................................................................... 8-3
CMU out of service ............................................................................................................. 8-3
Check the Management port Ethernet connection ............................................................. 8-4
Check the copper Data port Ethernet connection .............................................................. 8-5
Check the fiber Data port Ethernet connection .................................................................. 8-6
Check IP network connection ............................................................................................. 8-7
Check browser settings ....................................................................................................... 8-8
Installing the link ...................................................................................................................... 8-9
Connect to the web management interface ........................................................................ 8-9
Check RFU status................................................................................................................ 8-9
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16. Contents
Transmitter status............................................................................................................. 8-10
Antenna alignment ............................................................................................................ 8-10
Check transmit and receive frequencies........................................................................... 8-11
Check waveguide and antennas ........................................................................................ 8-11
Check link status ............................................................................................................... 8-11
Check IRFU status LEDs ................................................................................................... 8-12 136H
Testing protection switchover ................................................................................................ 8-13
407H 137H
Check protection interface status ..................................................................................... 8-13
408H 138H
Check that protection switching is enabled ...................................................................... 8-13
409H 139H
Check the status of the wireless interface ........................................................................ 8-14
410H 1320H
Check the link protection cable ........................................................................................ 8-14
41H 132H
Force a protection switchover .......................................................................................... 8-14
412H 132H
Check the configuration of the active and inactive units.................................................. 8-14
413H 132H
Glossary ........................................................................................................................... I
41H 1324H
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17. PTP 800 Series User Guide
List of Figures
Figure 1 Typical PTP 800 deployment (ODU platform) ................................................................. 1-5
Figure 2 Typical PTP 800 deployment (IRFU platform) ................................................................ 1-5
Figure 3 PTP 800 CMU ................................................................................................................. 1-8
Figure 4 CMU front panel ............................................................................................................. 1-9
Figure 5 ODU-A ........................................................................................................................... 1-14
Figure 6 ODU-B ........................................................................................................................... 1-14
Figure 7 ODU front view ............................................................................................................. 1-15
Figure 8 ODU rear view .............................................................................................................. 1-16
Figure 9 ODU-A side view ........................................................................................................... 1-16
Figure 10 ODU-B side view ......................................................................................................... 1-16
Figure 11 Top and front view of IRFU shelf (with single transceiver and waveguide) ............... 1-18
Figure 12 IRFU 1+0 configuration.............................................................................................. 1-20
Figure 13 IRFU 1+1 Tx MHSB configuration ............................................................................. 1-21
Figure 14 IRFU 1+0 Tx MHSB Ready configuration .................................................................. 1-22
Figure 15 IRFU 1+1 Tx MHSB / Rx SD configuration ................................................................ 1-23
Figure 16 IRFU 2+0 configuration.............................................................................................. 1-24
Figure 17 IRFU transceiver interfaces ........................................................................................ 1-25
Figure 18 Typical PTP 800 antenna with ODU (Cambium direct mount interface) .................... 1-27
Figure 19 Direct mount mechanical interface ............................................................................ 1-28
Figure 20 ODU clipped onto direct mount mechanical interface................................................ 1-28
Figure 21 Remote mount antenna waveguide interface ............................................................. 1-28
Figure 22 RMK showing the ODU interface ................................................................................ 1-30
Figure 23 RMK showing the waveguide interface ...................................................................... 1-30
Figure 24 ODU coupler mounting kit .......................................................................................... 1-31
Figure 25 Two ODUs and antenna mounted on a coupler .......................................................... 1-32
Figure 26 Orthogonal mode transducer ...................................................................................... 1-33
Figure 27 Cable grounding kit for 1/4" and 3/8" cable ............................................................... 1-36
Figure 28 PTP 800 LPU end kit ................................................................................................... 1-36
Figure 29 Forwarding behavior in out-of-band local management mode ................................... 1-47
Figure 30 Forwarding behavior in out-of-band management mode ............................................ 1-47
Figure 31 Forwarding behavior in in-band mode ........................................................................ 1-47
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18. List of Figures
Figure 32 Inactive unit frame forwarding – out-of-band management ....................................... 1-48
Figure 33 Inactive unit frame forwarding – in-band management ............................................. 1-48
Figure 34 Protocol layers between Ethernet and wireless interfaces ........................................ 1-49
Figure 35 Protocol layers between external interfaces and the management agent ................. 1-49
Figure 36 Receive Diversity Ethernet frames ............................................................................. 1-68
Figure 37 Indication of FIPS 140-2 capability ............................................................................ 1-71
Figure 38 FIPS operational mode alarm ..................................................................................... 1-72
Figure 39 LINKPlanner profile view ............................................................................................. 2-5
Figure 40 LINKPlanner configuration and performance details ................................................... 2-6
Figure 41 LINKPlanner Bill of Materials view .............................................................................. 2-6
Figure 42 Rolling sphere method to determine the lightning protection zones ........................... 2-8
Figure 43 Grounding and lightning protection on mast or tower ............................................... 2-12
Figure 44 Grounding and lightning protection on mast or tower (protected end) ..................... 2-13
Figure 45 Grounding and lightning protection on building ........................................................ 2-14
Figure 46 Grounding and lightning protection inside high building .......................................... 2-15
Figure 47 Grounding and lightning protection inside high building (protected end) ................. 2-16
Figure 48 Grounding requirements for the IRFU and CMU ....................................................... 2-17
Figure 49 Schematic view of 1+0 ODU direct mount link end ................................................... 2-31
Figure 50 Schematic view of 1+0 ODU remote mount link end ................................................. 2-32
Figure 51 Schematic view of 1+0 IRFU link end ........................................................................ 2-33
Figure 52 Schematic view of network connections for a 1+0 link end ....................................... 2-34
Figure 53 ODUs coupled to single direct mount antenna (schematic) ....................................... 2-36
Figure 54 ODUs coupled to single remote mount antenna (schematic) ..................................... 2-37
Figure 55 ODUs with separate direct mount antennas (schematic) ........................................... 2-38
Figure 56 ODUs with separate remote mount antennas (schematic) ......................................... 2-39
Figure 57 IRFU 1+1 Tx MHSB with single remote mount antenna (schematic) ........................ 2-40
Figure 58 IRFU 1+1 Tx MHSB / Rx SD with two remote mount antennas (schematic) ............. 2-41
Figure 59 Schematic of 1+1 out-of-band network connections (redundant copper or fiber) ..... 2-44
Figure 60 Schematic of 1+1 out-of-band network connections (Fiber-Y) ................................... 2-45
Figure 61 Schematic of 1+1 in-band network connections ........................................................ 2-46
Figure 62 ODUs coupled to single direct mount antenna - co-polar links (schematic)............... 2-50
Figure 63 ODUs coupled to a single remote mount antenna - co-polar links (schematic) .......... 2-51
Figure 64 ODUs coupled to a single direct mount antenna - cross-polar links (schematic) ....... 2-52
Figure 65 ODUs connected to a dual polar remote mount antenna - cross-polar links (schematic)
................................................................................................................................................ 2-53
Figure 66 IRFU 2+0 with single remote mount antenna (schematic) ........................................ 2-54
Figure 67 Locations of waveguide flanges .................................................................................. 4-10
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19. PTP 800 Series User Guide
Figure 68 Waveguide flanges – 6 GHz ........................................................................................ 4-12
Figure 69 Waveguide flanges – 7 to 15 GHz ............................................................................... 4-13
Figure 70 Waveguide flanges – 18 to 38 GHz ............................................................................. 4-14
Figure 71 Waveguide flanges – 11 GHz tapered transition......................................................... 4-14
Figure 72 European Union compliance label .............................................................................. 4-84
Figure 73 Dual-polar antenna in remote mount configuration ................................................... 5-10
Figure 74 Words embossed on coupler (asymmetric shown) ...................................................... 5-21
Figure 75 Correct orientation of LPUs ........................................................................................ 5-36
Figure 76 ODU and top LPU grounding ...................................................................................... 5-41
Figure 77 Using the hoist line ..................................................................................................... 5-50
Figure 78 IF cable grounding on a mast or tower ...................................................................... 5-51
Figure 79 Grounding at building entry ....................................................................................... 5-57
Figure 80 Example of a cable analyzer ....................................................................................... 5-60
Figure 81 Example of the cable test............................................................................................ 5-60
Figure 82 Cable loss plot for a 17 meter cable with no ODU...................................................... 5-62
Figure 83 Cable loss plot for a 17 meter cable with ODU connected ......................................... 5-63
Figure 84 Cable loss plot for a 100 meter cable with no ODU.................................................... 5-64
Figure 85 Cable loss plot for a 100 meter cable with ODU connected ....................................... 5-64
Figure 86 DTF plot for a 17 meter cable with no ODU ............................................................... 5-67
Figure 87 DTF plot for a 17 meter cable with ODU connected................................................... 5-68
Figure 88 IRFU rack mounting ................................................................................................... 5-70
Figure 89 Partial rear view of IRFU with waveguide port .......................................................... 5-71
Figure 90 Connecting the coaxial cable to the IRFU .................................................................. 5-72
Figure 91 IRFU grounding terminal (front option) ..................................................................... 5-73
Figure 92 IRFU grounding terminal (rear option) ...................................................................... 5-73
Figure 93 IRFU power connection .............................................................................................. 5-75
Figure 94 CMU kit contents ........................................................................................................ 5-77
Figure 95 CMU mounted on bench ............................................................................................. 5-78
Figure 96 CMU mounted with bracket........................................................................................ 5-78
Figure 97 CMU with rack mounting kit and blanking plate........................................................ 5-79
Figure 98 CMU mounted in rack ................................................................................................. 5-79
Figure 99 Rack mounted CMU with a right angled IF cable connector ..................................... 5-79
Figure 100 CMU ground connector ............................................................................................ 5-80
Figure 101 Cambium AC to DC converter ................................................................................... 5-81
Figure 102 Copper data interface connections ........................................................................... 5-84
Figure 103 Fiber data interface connections .............................................................................. 5-85
Figure 104 Management interface connections .......................................................................... 5-86
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20. List of Figures
Figure 105 Out-of-band protection splitter connections ............................................................. 5-89
Figure 106 Redundant copper interface connections ................................................................. 5-90
Figure 107 Redundant fiber interface connections .................................................................... 5-91
Figure 108 Optical Y interface connections ................................................................................ 5-92
Figure 109 Protection cable connections .................................................................................... 5-93
Figure 110 IRFU components (example) .................................................................................... 5-94
Figure 111 Transceiver replacement (1+0 example) .................................................................. 5-96
Figure 112 Branching unit replacement ..................................................................................... 5-98
Figure 113 Filter replacement .................................................................................................. 5-100
Figure 114 Fan assembly replacement ..................................................................................... 5-101
Figure 115 RF cable installation and removal (1+1 Tx MHSB / Rx SD example) ..................... 5-103
Figure 116 LAN Configuration page with VLAN disabled .......................................................... 6-11
Figure 117 Confirm LAN Configuration ...................................................................................... 6-17
Figure 118 Software License Key page ....................................................................................... 6-19
Figure 119 Software License Key page with full capacity trial in progress ............................... 6-21
Figure 120 Software Version in System Status page .................................................................. 6-23
Figure 121 Installation Configuration page ................................................................................ 6-27
Figure 122 Security Configuration Wizard page......................................................................... 6-31
Figure 123 Step 1: Enter Key of Keys page ................................................................................ 6-32
Figure 124 Step 2: TLS Private Key and Public Certificate page ............................................... 6-33
Figure 125 Step 3: User Security Banner page .......................................................................... 6-33
Figure 126 Step 4: Login Information Settings page .................................................................. 6-34
Figure 127 Step 5: Random Number Entropy Input page .......................................................... 6-34
Figure 128 Step 6: Enter Wireless Link Encryption Key page .................................................... 6-35
Figure 129 Step 7: HTTP and Telnet Settings page.................................................................... 6-36
Figure 130 Step 8: Commit Security Configuration page ........................................................... 6-38
Figure 131 Local User Accounts page (identity-based user accounts not shown)...................... 6-40
Figure 132 Identity-based user accounts .................................................................................... 6-44
Figure 133 Change Password page ............................................................................................. 6-46
Figure 134 Webpage Properties page ......................................................................................... 6-46
Figure 135 RADIUS Configuration page ..................................................................................... 6-48
Figure 136 Protection Configuration page (protection disabled) ............................................... 6-50
Figure 137 Protection Configuration page for 1+1 (Primary) .................................................... 6-53
Figure 138 Protection Configuration page for 1+1 with Rx Diversity (Primary) ........................ 6-53
Figure 139 Protection Configuration page for 1+1 (Secondary) ................................................ 6-54
Figure 140 Protection Configuration page for 1+1 with Rx Diversity (Secondary).................... 6-54
Figure 141 Current Installation Summary page ......................................................................... 6-61
xvi phn-2513_001v000 (Apr 2012)