CISCO思科路由器

Cisco 工业500 系列 WPAN IR

Cisco 500 Series WPAN Industrial RoutersDeploy enterprise-class WPAN communicationsCisco 500 Series wireless personal area network (WPAN) industrial routers provide unlicensed 915-MHz industrial, scie

  • 型号: Cisco IR510 Cisco IR529 Cisco IR530

Cisco 500 Series WPAN Industrial Routers


Deploy enterprise-class WPAN communications

Cisco 500 Series wireless personal area network (WPAN) industrial routers provide unlicensed 915-MHz industrial, scientific, and medical band WPAN communications. They help enable a diverse set of Internet of Things applications, including smart metering, smart grids, distribution automation, supervisory control and data acquisition, and street lighting.

Features and benefits

Key hardware and software capabilities

Key hardware and software capabilities

These routers have a rugged industrial hardware design and a highly resilient architecture. They increase the uptime of communications networks and grid availability to help ensure message delivery. Choose from multiple platforms.

Distribution automation gateway platform

Distribution automation gateway platform

Built to withstand harsh environments, the IR509 model provides enterprise-class RF mesh connectivity to Ethernet- and serial-enabled IoT devices like recloser controls, cap bank controls, and voltage regulator controls.

Range-extender platform

Range-extender platform

The ruggedized IR529 model platforms provide range extension functionality to enhance the RF mesh reliability by adding paths and nodes. They also enable connectivity in low-end p


Cisco IR530 Series Resilient Mesh Range Extenders Data Sheet

Product overview

The Cisco® IR500 range extender provides unlicensed 902-928MHz, ISM-band IEEE 802.15.4g/e/v Wireless Personal-Area Network (WPAN) communications to diverse Internet of things (IoT) applications. It extends the range of the RF wireless mesh network, providing longer reach between WPAN endpoints and other WPAN networks. There are two products in the family: The IR529 and IR530. IR530 represents a high performance, new generation of the Cisco RF Mesh range extender.

The IR530 Range extenders take full advantage of world class Cisco networking expertise in IPv6, security. It provides an open, high performance RF mesh solution based on the following standards:

   IEEE 802.15.4 g/e/v

   IETF 6LoWPAN

   IETF Routing Protocol for Low Power and Lossy Networks (RPL)

   IETF Constrained Application Protocol (CoAP)

Figure 1.      Cisco Resilient Mesh Range Extender IR530 for Industrial IoT

图片关键词

Solution overview

The IR530 are components of the Cisco Industrial IoT FAN Solution, which meets these challenges using designs from the industry-leading Cisco GridBlocks Architecture. A typical communications network for the distribution grid is a two-tier architecture with a Neighborhood Area Network (NAN) and a Wide Area Network (WAN).

The NAN connects smart endpoints via meshing and the mesh network is aggregated at an intelligent device such as Field Area Router (FAR) mounted on a pole top of in secondary substations. The WAN tier provides network connectivity from the FAR to the utility’s control center, over either a public cellular network or Ethernet fiber network. For areas that need extended RF coverage, a range extender is deployed rather than another CGR to increase the field RF coverage at lower cost.

The Cisco FAN solution comprises important elements as shown below:

   Cisco Resilient Mesh End point reference design, which provide Resilient Mesh connectivity to end points such as DA devices, sensors and smart meters.

   Cisco IR509 or IR510 (DA gateway).

   Cisco IR529 or IR530 (Range extender).

   Cisco 1000 Series Industrial IoT Routers providing FAR capabilities.

   Cisco ASR 1000 Series Aggregation Services Routers providing Headend Router (HER) capabilities.

   Cisco IoT Field Network Director and Industrial Operations Kit for network management.

Figure 2.      Cisco Industrial IoT field area network solution

图片关键词

Key benefits

   Lowers Total Cost of Ownership (TCO) by consolidating disparate communications networks used for Advanced Metering Infrastructure (AMI) and DA applications.

   Delivers a communications platform for standards-based, interoperable smart grid and IoT applications using IP-based technologies and innovations.

   Increases communications network uptime and grid availability, helps ensure message delivery through a rugged industrial hardware design and highly resilient solution architecture.

   Improves visibility, availability, and reliability of the distribution grid through enterprise-class network.

   Facilitates graceful migration and integration of legacy assets with support for several IoT-specific protocols.

Cisco IR530 range extender features

IR530 family includes three product SKUs for different region profiles:

Model

Description

IR530SB-OFD-FCC/K9

IR530 with single antenna and battery, 915MHz-WPAN. For North and South America except Brazil.

IR530SB-OFD-BRZ/K9

IR530 with single antenna and battery, 915MHz-WPAN. For Brazil.

IR530SB-OFD-ANZ/K9

IR530 with single antenna and battery, 915MHz-WPAN. For Australia and New Zealand.

Table 1.       Cisco IR530 hardware specifications

Feature

IR530 Hardware Specifications

Dimensions (W x D x H)

5.2” x 7.23” x 10.37”

Typical Weight Fully Configured

8.4 lbs. (3.8 kg)

Pole Mount

Yes

Operating Temperature

-40°C to +70°C (-40°F to 158°F) with IEEE 1613 type test up to 85°C (185°F) for 16 hours

Typical Power Consumption or Dissipation

Normal operation: 6W Max

With BBU charging: 23W Max

IEEE 802.15.4 WPAN

IEEE 802.15.4g/e/v

Frequency Support

902-928 MHz (and subset of it to comply with national regulations)

  North America- ISM: 902-928 MHz
  Australia: 915-928 MHz
  Brazil: 902-907.5, 915-928 MHz

RF Modulations and PHY Data Rates

Frequency Hopping Spread Spectrum (FHSS) OFDM: 31 channels in 902 – 928 MHz, 800kHz channel spacing. OFDM PHY data rates of 50 kbps, 200 kbps, 400 kbps, 800 kbps and 1200 kbps

FHSS 2FSK 150 kbps: 64 channels in 902 – 928 MHz, 400 kHz channel spacing

FHSS 2FSK 50 kbps: 129 channels in 902 – 928 MHz, 200 kHz channel spacing

Average Conducted Transmitter Output Power

30 dBm typical at all FSK rates

28 dBm typical at 50 kbps and 200 kbps OFDM

27 dBm typical at 400 kbps OFDM

25 dBm typical at 800 kbps OFDM

24 dBm typical at 1200 kbps OFDM

Antenna Connector

RF Mesh N connector (female)

RS 232 Serial Console Port

1

Digital Alarm Inputs

1

Integrated AC Power Supply Input Range

85 – 264 VAC, 47 – 63 Hz

Smart Grid Compliance

  IEC-61850-3
  IEEE1613

Immunity

  EN61000-6-2
  EN61000-3-3 (ESD)
  EN61000-4-2 (ESD)
  EN61000-4-3 (RF)
  EN61000-4-4 (EFT)
  EN61000-4-5 (SURGE)
  EN61000-4-6 (CRF)
  EN61000-4-11 (VDI)
  EN 55024, CISPR 24
  EN 55035, CISPR 35
  EN61000-6-1

Emissions

  47 CFR, Part 15
  RSS-247
  EN61000-3-2 (Harmonics)
  EN61000-3-3 (Flicker)
  ICES-003 Class A
  EN55032 Class A
  CISPR32 Class A
  AS/NZS 3548 Class A
  VCCI V-3
  CNS 13438
  EN 300-386

Safety

  USA: UL 60950-1
  Canada: CAN/CSA C22.2 No. 60950-1
  Australia/New Zealand: AS/NZS 60950.1
  Rest of world: IEC 60950-1
  UL certified to UL/CSA 60950-1, 2nd Ed.

CB report to IEC60950-1, 2nd Ed., covering all group differences and national deviations

Ingress Protection (dust/water)

IEC 60529, IP67

UL 50E, type 4X

Table 2.       Cisco IR530 software specifications

Feature

Software Specification IR530

PHY/MAC Layer

  IEEE 802.15.4g WPAN
  IEEE 802.15.4e WPAN MAC extensions
  IEEE 802.15.4.v Wi-SUN PHY
  6LoWPAN – RFC 4919, 4944 and 6282

Network and Transport Layer

  RFC RFC 2460 IP6
  RFC 0768: User Datagram Protocol
  RFC 1661: The Point-to-Point Protocol (PPP)
  RFC 2460: Internet Protocol, Version 6 (IPv6) Specification
  RFC 3306: Unicast-Prefix-based IPv6 Multicast Addresses
  RFC 3315: Dynamic Host Configuration Protocol for IPv6 (DHCPv6)
  RFC 3484: Default Address Selection for Internet Protocol version 6 (IPv6)
  RFC 3748: Extensible Authentication Protocol (EAP)
  RFC 4291: IP Version 6 Addressing Architecture
  RFC 4492: Elliptic Curve Cryptography (ECC) Cipher Suites for Transport Layer Security (TLS)
  RFC 4861: Neighbor Discovery for IP version 6 (IPv6)
  RFC 4862: IPv6 Stateless Address Autoconfiguration
  RFC 5072: IP Version 6 over PPP
  RFC 5216: The EAP-TLS Authentication Protocol
  RFC 5280: Internet X.509 Public Key Infrastructure Certificate and Certificate Revocation List (CRL) Profile
  RFC 5915: Elliptic Curve Private Key Structure
  RFC 5958: Asymmetric Key Packages
  RFC 6090: Fundamental Elliptic Curve Cryptography Algorithms
  IETF Routing Protocol for Low Power and Lossy Networks (RPL) (RFC 6206, 6550, 6551, 6553, 6554, 6719)
  Adopted data rates:
   1200, 800, 400, 200, 50 kbps OFDM
   150 and 50 kbps 2FSK

Application Features

  DHCPv6 (RFC 3315) for IPv6 address allocation
  IETF Draft RFC Constrained Application Protocol (CoAP) for network management

Security

  Encryption: AES-128 (IEEE 802.11i for WPAN key management)
  Authentication and authorization: IEEE 802.1x for WPAN authentication and encryption; X.509 certificate support with integration into customer’s PKI
  Hardware-based device identity: IEEE 802.1AR (hardware-ready)
  Role-Based Access Control (RBAC) for device configuration
  Secure boot loader and signed firmware images

Table 3.       Cisco IR530 antenna options

Item

Specification

ANT-WPAN-OD-OUT-N

  Omnidirectional antenna for 863 - 915 MHz WPAN
  N male connector
  Outdoor, direct mount to IR530
  1.5 dBi gain

ANT-WPAN-OM-OUT-N

  Omnidirectional antenna for 902 - 928 MHz WPAN
  N female connector
  Outdoor, mast mount
  4 dBi gain

ANT-LPWA-DB-O-N-5

  Omnidirectional antenna for 863 - 928 MHz WPAN
  N female connector
  Outdoor, mast mount
  5.6 dBi gain

Table 4.       Cisco R530 RF cable options

Items

Specification

Outdoor Cable Options

CAB-L400-5-N-N

5-ft (1.5 m) Low Loss LMR 400 Cable with N Connectors (straight to right angle)

CAB-L400-5-N-NS

5-ft (1.5 m) Low Loss LMR 600 Cable with N Connectors (straight to straight)

CAB-L400-20-N-N

20-ft (6 m) Low Loss LMR 400 Cable with N Connectors

CAB-L600-30-N-N

30-ft (9.14 m) Ultra Low Loss LMR 600 Cable with N Connectors

Table 5.       Cisco IR530 RF accessories

Items

Specification

CGR-LA-NM-NF

Lightning arrestor, N male to N female

Ordering information

The Cisco IR530 range extenders are available to any Cisco authorized partner. For more information, please contact your Cisco representative.


Cisco IR529 Resilient Mesh Range Extenders Data Sheet

The Cisco® IR529 Resilient Mesh Range Extenders provide unlicensed 902-928 MHz ISM band IEEE 802.15.4g/e RF mesh communications to enable a diverse set of Internet of Things (IoT) applications such as Advanced Metering Infrastructure (AMI), Distribution Automation (DA), and smart city wireless sensor networks. These platforms provide enterprise-class RF connectivity to other Cisco Field Area Network (FAN) infrastructure devices such as CGR 1000 routers, IR509 DA gateways, and Cisco IoT partner endpoint devices, including industrial wireless sensors and electricity. In addition, the IR529 Range Extenders withstand harsh environments and are purpose built to be installed on pole mounts in demanding outdoor environments.

IR529 range extenders provide a cost-effective means for extending the coverage area of RF mesh networks so that more IPv6 endpoints can connect to Cisco’s mesh network across greater distances and challenging RF environments. These devices take full advantage of Cisco world-class networking technologies. The IR529 Series Range Extenders offer innovative capabilities in IPv6, self-healing mesh networking, end-to-end security, standards-based solutions for legacy protocol transport, network management, and ease of deployment.

Figure 1 displays the Cisco IR529 Base Range Extender (IR529WP-915S/K9) and the Cisco IR529 Advanced Range Extender (IR529UBWP-915D/K9).

Figure 1.      Cisco IR529 base (single omni antenna) range extender and IR529 advanced (dual antenna) range extender

图片关键词

Benefits

   IPv6 multihop networking to extend the reach and coverage of IoT IEEE 802.15.4g/e RF mesh networks

   2FSK 150kbs modulation or 75kbps with Forward Error Correction (FEC)

   Compact ruggedized IP67 form factor with optional battery backup units

   Flexible antenna options that provide pervasive local area RF coverage or directional antennas for connecting RF nodes across greater distances

   Delivers state-of-the-art IPv6 communications platform that is standards-based and interoperable for large-scale smart grid and IoT sensor deployments

   Lowers Total Cost of Ownership (TCO) by aggregrating hard-to-reach wireless sensor endpoints into existing RF mesh networks

   Supports graceful migration and integration of legacy assets with support for several industry-standard protocols

   Increases communications network uptime and grid availability to help ensure message delivery based on rugged industrial hardware design and highly resilient solution architecture

Architectural capabilities

Table 1.       Architectural capabilities of Cisco IR529 range extenders

Architectural principles

Cisco IR500 range extender capabilities

Network reliability and Disaster Recovery (DR) architectures

Highly resilient design that optimizes communications network uptime and grid availability to help ensure message delivery:

  Standards-based routing protocol for low-power and lossy networks (IETF RPL) extends to last mile with route propagation to other routing protocols such as Open Shortest Path First (OSPF)
  Interference-avoiding frequency hopping spread spectrum and per-device spatial frequency reuse
  Rugged industrial design and compliance with IEC-61850-3 and IEEE 1613 for utility environments

More details on standards support can be found in Table 3.

Network security

Comprehensive security capabilities based on open standards and Cisco innovation:

  Access control based on X.509 certs, IEEE 802.1x, and utility Public Key Infrastructure (PKI)
  Data confidentiality and privacy based on link-layer AES-128 bit encryption and IEEE 802.11i
  Device and platform integrity based on firmware signing and cert-based, role-based access control

More details on security capabilities can be found in Table 3.

Ease of use to reduce TCO

Enterprise-class network management and device management capabilities, based on open standards and Cisco innovation:

  Network and device management tools for easy deployment, upgrades, and remote monitoring
  Highly secure, automated, zero-touch deployment solution
  Comprehensive wireless monitoring capabilities for multiple communication technologies

Unified FAN architecture

Architecture based on different choices of wired and wireless technologies:

  Media-independent network services based on IP architectures
  Separation of network services and applications

Cisco IR529 range extenders specifications

Table 2 lists hardware specifications, and Table 3 lists software features for IR529 Range Extenders.

Table 2.       Cisco IR529 series hardware specifications


Base RE hardware specifications

Advanced RE with single-antenna hardware specifications

Advanced RE with dual-antenna hardware specifications

Cisco product ID

IR529WP-915S/K9

IR529UBWP-915S/K9

IR529UBWP-915D/K9 w/BBU

IR529UWP-915D/K9 w/o BBU

Dimensions (W x D x H)

9.4 cm x 14.5 cm x 19.3 cm (3.7 in. x 5.7 in. x 7.6 in.)

18.36 cm x 26.34 cm x 12.32 cm (7.23 in. x 10.37 in. x 4.85 in.)

18.36 cm x 26.34 cm x 12.32 cm (7.23 in. x 10.37 in. x 4.85 in.)

Pole mount

Yes

Yes

Yes

Typical weight fully configured

2.3 kg (5.1 lbs)

3.8 kg (8.4 lbs)

Without optional BBU: 3.2 kg (7.0 lbs)

With optional BBU: 3.9 kg (8.5 lbs)

Operating temperature

-40°C to +60°C (-40°F to 140°F)

-40°C to +70°C (-40°F to 158°F) with type test up to 85°C (185°F) for 16 hours

-40°C to +70°C (-40°F to 158°F) with type test up to 85°C (185°F) for 16 hours

Typical power consumption or dissipation

4-5W depending on configuration

4-5W depending on configuration

4-5W depending on configuration

Maximum power consumption

9W peak; 6W steady state

9W peak; 6W steady state

With BBU charge: 23W max

9W peak; 6W steady state

With BBU charge: 23W max

Maximum power consumption

8W peak, 5W steady state

8W peak, 5W steady state

8W peak, 5W steady state

Frequency support

902-928 MHz (and FW configurable subsets to comply with in-country regulations)

  North America - ISM: 902-928 MHz
  Australia: 915-928 MHz
  Brazil: 902-907.5, 915-928 MHz
  Hong Kong: 920-925 MHz
  Singapore: 920-925 MHz

902-928 MHz (and FW configurable subsets to comply with in-country regulations)

  North America - ISM: 902-928 MHz
  Australia: 915-928 MHz
  Brazil: 902-907.5, 915-928 MHz
  Hong Kong: 920-925 MHz
  Singapore: 920-925 MHz

902-928 MHz (and FW configurable subsets to comply with in-country regulations)

  North America - ISM: 902-928 MHz
  Australia: 915-928 MHz
  Brazil: 902-907.5, 915-928 MHz
  Hong Kong: 920-925 MHz
  Singapore: 920-925 MHz

Spread spectrum technology

FHSS

FHSS

FHSS

Receiver sensitivity

-105 dBm

-105 dBm

-101 dBm

Transmitter output

30 dBm

30 dBm

26.5 dBm

Antenna connector

Type N, female

Type N, female

Type N, female (x2)

Direct-mount antenna

1.5 dBi omnidirectional

1.5 dBi omnidirectional

1.5 dBi omnidirectional

Externally mounted antenna

5 dBi omnidirectional

5 dBi omnidirectional

5 dBi omnidirectional

10 dBi yagi-directional

Battery backup options

No

Yes

Charging operates -40°C to +45°C (-40°F to 113°F)

Discharge operates -40°C to +55°C (-40°F to 131°F)

Optional

Charging operates -40°C to +45°C (-40°F to 113°F)

Discharge operates -40°C to +55°C (-40°F to 131°F)

Console and AUX port
(RJ-45)

1

1

1

Integrated AC/DC power supply

85 – 264 VAC, 47 – 63 Hz

90 - 264 VAC, 47 – 63 Hz

90 - 264 VAC, 47 – 63 Hz

Environmental compliance

  IEC-61850-3 (Temperature)
  IEC-61850-3 (Temp/Humidity)
  IEC-61850-3 (Transport)
  IEC-61850-3 (Transport)
  IEC-61850-3 Cm (Vibe/Shock/Drop)
  IEC-61850-3 S3 (Earthquake)
  IEEE1613 VS2 (Op Vibe)
  IEC-61850-3 (Temperature)
  IEC-61850-3 (Temp/Humidity)
  IEC-61850-3 (Transport)
  IEC-61850-3 (Transport)
  IEC-61850-3 Cm (Vibe/Shock/Drop)
  IEC-61850-3 S3 (Earthquake)
  IEEE1613 VS2 (Op Vibe)
  IEC-61850-3 (Temperature)
  IEC-61850-3 (Temp/Humidity)
  IEC-61850-3 (Transport)
  IEC-61850-3 (Transport)
  IEC-61850-3 Cm (Vibe/Shock/Drop)
  IEC-61850-3 S3 (Earthquake)
  IEEE1613 VS2 (Op Vibe)

Smart grid

  C37.90 high-voltage impulse
  IEC-61850-3
  IEEE1613
  C37.90 high-voltage impulse
  IEC-61850-3
  IEEE1613
  C37.90 high-voltage impulse

Immunity

  EN61000-6-2
  EN61000-4-2 (ESD)
  EN61000-4-3 (RF)
  EN61000-4-4 (EFT)
  EN61000-4-5 (SURGE)
  EN61000-4-6 (CRF)
  EN61000-4-11 (VDI)
  EN 55024, CISPR 24
  EN50082-1
  EN61000-6-2
  EN61000-4-2 (ESD)
  EN61000-4-3 (RF)
  EN61000-4-4 (EFT)
  EN61000-4-5 (SURGE)
  EN61000-4-6 (CRF)
  EN61000-4-11 (VDI)
  EN 55024, CISPR 24
  EN50082-1
  EN61000-6-2
  EN61000-4-2 (ESD)
  EN61000-4-3 (RF)
  EN61000-4-4 (EFT)
  EN61000-4-5 (SURGE)
  EN61000-4-6 (CRF)
  EN61000-4-11 (VDI)
  EN 55024, CISPR 24
  EN50082-1

EMC

  47 CFR, Part 15
  ICES-003 Class A
  EN55022 Class A
  CISPR22 Class A
  AS/NZS 3548 Class A
  VCCI V-3
  CNS 13438
  EN 300-386
  47 CFR, Part 15
  ICES-003 Class A
  EN55022 Class A
  CISPR22 Class A
  AS/NZS 3548 Class A
  VCCI V-3
  CNS 13438
  EN 300-386
  47 CFR, Part 15
  ICES-003 Class A
  EN55022 Class A
  CISPR22 Class A
  AS/NZS 3548 Class A
  VCCI V-3
  CNS 13438
  EN 300-386

Safety

  USA: UL 60950-1 Cat II Overvoltage Category II
  Canada: CAN/CSA C22.2 No. 60950-1 Cat II
  Rest of world: IEC 60950-1 Cat II
  UL/cUL certified to UL/CSA 60950-1 Cat II, 2nd Ed.
  CB report to IEC60950-1Cat II, 2nd Ed., covering all group differences and national deviations
  USA: UL 60950-1 Cat IV Overvoltage Category II
  Canada: CAN/CSA C22.2 No. 60950-1 Cat IV
  Rest of world: IEC 60950-1 Cat IV
  UL/cUL certified to UL/CSA 60950-1 Cat IV, 2nd Ed.
  CB report to IEC60950-1Cat IV, 2nd Ed., covering all group differences and national deviations
  USA: UL 60950-1 Cat IV Overvoltage Category II
  Canada: CAN/CSA C22.2 No. 60950-1 Cat IV
  Rest of world: IEC 60950-1 Cat IV
  UL/cUL certified to UL/CSA 60950-1 Cat IV, 2nd Ed.
  CB report to IEC60950-1 Cat IV, 2nd Ed., covering all group differences and national deviations

Ingress protection (dust/water)

IEC 60529, IP67

UL 50E, type 4X

IEC 60529, IP67

UL 50E, type 4X

IEC 60529, IP67

UL 50E, type 4X

Table 3.       Cisco range extender software specifications


Software specifications for base range extender, advanced RE with single antenna, and advanced RE with dual antenna

Layer-2

  IEEE 802.15.4g WPAN
  IEEE 802.15.4e WPAN MAC extensions
  6LoWPAN – RFC 4944 and 6282

IP/Layer-3

  IPv4 (RFC 791, 826, 1918)
  RFC 0768: User Datagram Protocol
  RFC 1661: The Point-to-Point Protocol (PPP)
  RFC 2460: Internet Protocol, Version 6 (IPv6) Specification
  RFC 3306: Unicast-Prefix-based IPv6 Multicast Addresses
  RFC 3315: Dynamic Host Configuration Protocol for IPv6 (DHCPv6)
  RFC 3484: Default Address Selection for Internet Protocol version 6 (IPv6)
  RFC 3748: Extensible Authentication Protocol (EAP)
  RFC 4291: IP Version 6 Addressing Architecture
  RFC 4346: The Transport Layer Security (TLS) Protocol Version 1.1
  RFC 4492: Elliptic Curve Cryptography (ECC) Cipher Suites for Transport Layer Security (TLS)
  RFC 4861: Neighbor Discovery for IP version 6 (IPv6)
  RFC 4862: IPv6 Stateless Address Autoconfiguration
  RFC 5072: IP Version 6 over PPP
  RFC 5216: The EAP-TLS Authentication Protocol
  RFC 5280: Internet X.509 Public Key Infrastructure Certificate and Certificate Revocation List (CRL) Profile
  RFC 5915: Elliptic Curve Private Key Structure
  RFC 5958: Asymmetric Key Packages
  RFC 6090: Fundamental Elliptic Curve Cryptography Algorithms
  RFC 6282: Compression Format for IPv6 Datagrams in Low Power and Lossy Networks (6LoWPAN)
  RFC 6550: RPL: IPv6 Routing Protocol for Low power and Lossy Networks

Application layer

  DHCPv6 (RFC 3315) - for IPv6 address allocation
  IETF Constrained Application Protocol (CoAP) (draft RFC CoAP) - for CSMP network management

Security

  Encryption: AES-128 (IEEE 802.11i – for WPAN key management)
  Authentication, Authorization: IEEE 802.1x – for WPAN authentication and encryption, X.509 certificate support with integration into customer’s PKI
  Hardware-based device identity: IEEE 802.1AR (hardware-ready)
  Role-based access control for device configuration
  Secure boot loader and signed firmware images

Quality of service

  Classification and marking: Layer 3- Differentiated Services Code Point (DSCP)
  Congestion management: Priority Queuing (PQ)





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