Cisco Systems IR509UWP IR509 915Mhz WPAN Router User Manual

Cisco Systems Inc IR509 915Mhz WPAN Router

Users Manual 4

CHAPTER29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL3-1Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide 3Battery Backup UnitA selection of the WPAN advanced range extender models support one battery backup unit (BBU), which provide power to the rang extender if the AC power supply fails or is not available. For more information about the WPAN advanced range extender models that support a BBU, see the “WPAN Range Extender Models Supporting BBUs” section on page 3-1.This chapter describes the BBU features and installation procedures, and includes the following sections:  • Battery Backup Units, page 3-1  • BBU Configuration during Transportation, page 3-4  • Disabling and Enabling the BBU in the Range Extender, page 3-4  • Installing a BBU in the Range Extender, page 3-5  • BBU Technical Specifications, page 3-5Battery Backup UnitsThis section contains information about:  • WPAN Range Extender Models Supporting BBUs, page 3-1  • Battery Backup Operations, page 3-2  • BBU Status, page 3-2  • Battery Backup Mode, page 3-2  • BBU Firmware Upgrade, page 3-3WPAN Range Extender Models Supporting BBUsTable 3-1 details the WPAN range extender models that support a BBU.
Table 3-1 WPAN Range Extender Models Supporting BBUsWPAN Range Extender Model Description BBU SupportIR529-WP-915S/K9 Connected Grid Basic Range Extender—IEEE 802.15.4e/g WPAN 900 MHz NoIR529-UBWP-915S/K9 Connected Grid Advanced Range Extender, configurable with single antenna and battery backup support—IEEE 802.15.4e/g WPAN 900 MHzYes (BBU is optional)IR529-UBWP-915D/K9 Connected Grid Advanced Range Extender, configurable with dual antenna and battery backup support—IEEE 802.15.4e/g WPAN 900 MHzYes (BBU is optional)IR529-UWP-915D/K9 Connected Grid Advanced Range Extender, configurable with dual antenna—IEEE 802.15.4e/g WPAN 900 MHz No29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL3-2Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 3      Battery Backup Unit Battery Backup UnitsBattery Backup OperationsThe battery backup unit (BBU) provides the WPAN range extender with an emergency power source if the AC power source is unavailable. The unit is mounted in the range extender housing.Table 3-2describes the BBU model.Table 3-2 BBU ModelsBBU Model DescriptionCGR-BATT-4AH Battery backup unit, capacity = 48 Watt-hoursBBU StatusThe BBU is automatically enabled and begins supplying power when the range extender detects that power is not being received from the AC power supply. The BBU continues to supply power to the range extender until at least one of the following conditions is met:  • BBU is completely discharged  • AC power to the range extender is enabled  • BBU is disabled via the Connected Grid Network Management System (CG-NMS) software application.Battery Backup ModeThis section describes impact on the range extender configuration and operating capabilities when the range extender switches from AC power to BBU power.The topics covered include:  • Range Extender Configuration, page 3-3  • Range Extender Interface Operation, page 3-3
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL3-3Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 3      Battery Backup Unit Battery Backup UnitsRange Extender ConfigurationThe range extender software configuration is not impacted when the range extender switches from AC power to BBU power.Range Extender Interface OperationWhen the BBU is operating and powering the range extender, the range extender operates and performs normally. The range extender does not power off any interfaces to conserve power when AC power is not available, and the range extender is being powered by the BBU.BBU Firmware UpgradeIt is only possible to use the CG-NMS to upgrade the BBU firmware and to show information about the BBU firmware upgrade.To upgrade the BBU firmware and to show information about the BBU firmware upgrade, use the CG-NMS firmware upgrade option.The firmware upgrade is executed in background and an output message is generated in the CG-NMS when the BBU firmware upgrade is complete. During the firmware upgrade, you can use the CG-NMS to view the state of the BBU firmware upgrade.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL3-4Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 3      Battery Backup Unit BBU Configuration during TransportationBBU Configuration during TransportationThe BBU configuration during transportation is controlled by a dedicated bit in the BBU NVRAM register called the Transportation bit or (T-bit).The T-Bit is set at the factory and is used to place the BBU in a disabled (low power) state. This is necessary in order to preserve the battery charge while the WPAN range extender device (with BBU installed) is in storage, or being transported between the factory and the final installation site.This sections contains:  • Setting the BBU NVRAM Register T-bit, page 3-4  • BBU NVRAM Register T-bit Settings and BBU Status, page 3-4Setting the BBU NVRAM Register T-bitThe T-bit in the BBU NVRAM register is set to 1 using the CG-NMS.Note The T-bit is set to 1 by Cisco manufacturing at the factory. The T-bit is reset to 0 or cleared only by the CG-NMS during ZTD deployment.BBU NVRAM Register T-bit Settings and BBU StatusTable 3-3 BBU NVRAM T-bit Settings and BBU StatusT-bit Setting BBU StatusT-bit = 1   • AC ON: BBU enabled automatically (to allow battery to charge)  • AC OFF: BBU disabled automatically (to prevent battery from discharging)T-bit = 0 The BBU can be set to a disabled or enabled status for AC ON or OFF conditions.Note If the BBU is disabled due to being < 5% capacity, it will be enabled automatically when AC power resumes. If the customer disables the BBU, the customer must enable the BBU manually.Disabling and Enabling the BBU in the Range ExtenderIn normal operating mode (T-bit is off), the BBU automatically begins to supply power to the range extender when it detects that power is not being received from the AC power supply. You may wish to disable and enable the BBU for the following reasons:  • To inhibit the BBU discharge during storage, shipping or transportation in order to preserve battery life.  • To replace the battery in an installed and operating range extender.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL3-5Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 3      Battery Backup Unit Installing a BBU in the Range ExtenderThe BBU can be disabled and enabled by using the CG-NMS. These steps are described in the following sections:  • Disabling the BBU, page 3-5  • Enabling the BBU, page 3-5Disabling the BBUFor information on how to disable the BBU, see the Cisco Connected Grid Network Management System User Guide.Enabling the BBUFor information on how to enable the BBU, see the Cisco Connected Grid Network Management System User Guide.Installing a BBU in the Range ExtenderA BBU can only be installed in the WPAN range extender by a Cisco trained technician. Contact your Cisco representative for support.BBU Technical SpecificationsThis section describes the specifications and standards supported by the BBU.  • Range Extender Power Path Selection, page 3-5  • Discharge Conditions, page 3-6  • Charge Conditions, page 3-6  • Operating and Storage Temperatures, page 3-7  • Battery Life, page 3-7Range Extender Power Path SelectionDuring normal operation, the range extender is powered by the integrated AC power supply. The BBU enters discharge mode and begins providing power to the range extender when the AC power is interrupted outside a range of 85V to 250V for more than 20 ms. The BBU charges or discharges only; it does not support both simultaneously.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL3-6Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 3      Battery Backup Unit BBU Technical SpecificationsDischarge ConditionsTable 3-4 Battery Backup Unit—Discharging Specifications Discharge Conditions DescriptionPower load 4–6 W typicalDuration 8–12 hours typicalEntry to discharge11. All conditions met.  • AC power (range of 85V to 250V) not detected for more than 20 ms  • Remaining BBU capacity >5%  • External ambient temperature is within -40 to 122°F (-40 to 50°C)Exit discharge22. Any condition met and system is detected.   • AC power restored in the range of 85V to 250V for more than 20 ms.  • Remaining BBU capacity <5%  • External ambient temperature is outside of -40 to 122°F (-40 to 50°C)Charge ConditionsTable 3-5 Battery Backup Unit—Charge Specifications Charge Conditions DescriptionPower draw No more than 20 W when chargingState of charge No more than 90%Entry to charging limit11. All conditions are met.  • Charge is enabled  • State of Charge (SOC) <85%  • AC power detected in the range of 85V to 250V for more than 20 ms.  • External ambient temperature is within -4 to 104°F (-20 to 40°C)Exit charging22. Any condition is met  • Charge is disabled  • AC power (range of 85V to 250V) not detected for more than 20 ms.  • External ambient temperature is outside of -4 to 104°F (-20 to 40°C)
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL3-7Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 3      Battery Backup Unit BBU Technical SpecificationsOperating and Storage TemperaturesTable 3-6 Battery Backup Unit—Operating and Storage Temperatures BBU State Local BBU Internal Temperature11. Internal BBU heaters allow the outside ambient temperature to drop much lower than the BBU internal temperature, thereby preserving battery life and expanding the operating temperature. Charging +32 to 122°F (0 to 50°C) -4 to 104°F (-20 to 40°C)Discharging -4 to 140°F (-20 to 60°C) -40 to 122°F (-40 to 50°C)Operation (Idle) -4 to 140°F (-20 to 60°C) -40 to 122°F (-40 to 50°C)Storage and shipping +14 to 113°F (-10 to 45°C) for 3 months maximum Short-term: +14 to 113°F (-10 to 45°C) for 3 months maximumLong-term: +27 to 77°F (-3 to 25°C) - 65% Relative Humidity - 40 to 90% SOCBattery LifeTable 3-7 Battery Backup Unit — Battery Life Product ID Battery Life Charge-Discharge CyclesCGR-BATT-4AH 5 years 500External Ambient Temperature
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL3-8Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 3      Battery Backup Unit BBU Technical Specifications
CHAPTER29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL4-1Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide 4AntennaThis chapter contains information about the antennas for the Cisco WPAN gateway and WPAN range extender devices. The antennas provide connectivity to the CG-Mesh.This chapter contains the following sections:  • Antennas Overview, page 4-1  • Installing or Replacing Antennas, page 4-7Antennas Overview  • WPAN Gateway Antenna Configurations, page 4-1  • WPAN Range Extender Antenna Configurations, page 4-4WPAN Gateway Antenna Configurations  • Gateway Pole Mounted Antenna with Below Grade Conduit Routed Cabling Configuration, page 4-2  • Gateway Enclosure Mounted Antenna Configuration, page 4-3  • Gateway Pole Mounted Antenna with Enclosure Interface Lightning Arrestor Configuration, page 4-4
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL4-2Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 4      Antenna Antennas OverviewGateway Pole Mounted Antenna with Below Grade Conduit Routed Cabling ConfigurationTable 4-1 Pole Mounted Antenna with Below Grade Conduit Routed Cabling Configuration for the IR509U-WP-915/K9 Gateway Antenna Arrangement and Connector(s)Enclosure Internal Cable Lightning Arrestor or Adapter Outdoor Cable AntennaPole mounted antenna, single antenna cable routed through below grade conduit, 1 QMA (f) antenna connectorSelect one cable from:  • 1 RA-QMA (m) to N (m) cable, LMR-240-FR, 10’, Cisco PID11. PID = Product Identifier CAB-L240-10-Q-N, Cisco PN22. PN = Part number 37-1351-02  • 1 RA-QMA (m) to N (m) cable, LMR-240-FR, 15’, Cisco PID CAB-L240-15-Q-N, Cisco part number 37-1352-02  • 1 RA-QMA (m) to N (m) cable, LMR-240-FR, 20’, Cisco PID CAB-L240-20-Q-N, Cisco PN 37-1353-02—A single cable routed from inside the enclosure to outside the enclosure1 900 MHz ISM band, omni stick, 24”, 5 dBi, N (f), Cisco PID ANT-WPAN-OM-OUT-N, Cisco PN 07-1163-02
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL4-3Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 4      Antenna Antennas OverviewGateway Enclosure Mounted Antenna ConfigurationTable 4-2 Enclosure Mounted Antenna Configuration for the IR509U-WP-915/K9 Gateway Antenna Arrangement and Connector(s)Enclosure Internal Cable Lightning Arrestor or Adapter Outdoor Cable AntennaAntenna directly mounted to lightning arrestor at enclosure interface to exterior, 1 QMA (f) antenna connectorSelect one cable from:  • 1 RA-QMA (m) to N(m) cable, LMR-240-FR, 10’, Cisco Product Identifier (PID) CAB-L240-10-Q-N, Cisco PN 37-1351-02  • 1 RA-QMA (m) to N(m) cable, LMR-240-FR, 15’, Cisco PID CAB-L240-15-Q-N, Cisco PN 37-1352-02  • 1 RA-QMA (m) to N(m) cable, LMR-240-FR, 20’, Cisco PID CAB-L240-20-Q-N, Cisco PN 37-1353-021 lightning arrestor, N (f)-N (f), Cisco PID CGR-LA-NF-NF, Cisco PN 07-1158-01—1 900 MHz ISM band, omni stick, 8”, 1.5 dBi, N (f), Cisco PID ANT-WPAN-OD-OUT-N, Cisco PN 07-1318-01
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL4-4Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 4      Antenna Antennas OverviewGateway Pole Mounted Antenna with Enclosure Interface Lightning Arrestor ConfigurationTable 4-3 Pole Mounted Antenna with Enclosure Interface Lightning Arrestor Configuration for the IR509U-WP-915/K9 Gateway Antenna Arrangement and Connector(s)Enclosure Internal Cable Lightning Arrestor or Adapter Outdoor Cable AntennaPole mounted antenna, lightning arrestor at enclosure interface to exterior, antenna exterior and internal cables used, 1 QMA (f) antenna connectorSelect one cable from:  • 1 RA-QMA (m) to N(m) cable, LMR-240-FR, 10’, Cisco Product Identifier (PID) CAB-L240-10-Q-N, Cisco PN 37-1351-02  • 1 RA-QMA (m) to N(m) cable, LMR-240-FR, 15’, Cisco PID CAB-L240-15-Q-N, Cisco PN 37-1352-02  • 1 RA-QMA (m) to N(m) cable, LMR-240-FR, 20’, Cisco PID CAB-L240-20-Q-N, Cisco PN 37-1353-021 lightning arrestor, N (f)-N (f), Cisco PID CGR-LA-NF-NF, Cisco PN 07-1158-01Select one option from:  • 1 RA-N(m) to N(m) cable, LMR-400-DB, 5’, Cisco PID CAB-L400-5-N-N, Cisco PN 37-1436-01  • 1 N(m) to N(m) cable, LMR-400-DB, 5’, Cisco PID CAB-L400-5-N-NS, Cisco PN 37-1446-01  • 2 RA-N(m) to N(m) cables, LMR-400-DB, 20’, Cisco PID CAB-L400-20-N-N, Cisco PN 37-1392-01  • 2 RA-N(m)-N(m) cables, LMR-600-DB, 30’, Cisco PID CAB-L600-30-N-N, Cisco PN 37-1396-011 900 MHz ISM band, omni stick, 24”, 5 dBi, N (f), Cisco PID ANT-WPAN-OM-OUT-N, Cisco PN 07-1163-02WPAN Range Extender Antenna Configurations  • Basic Range Extender Antenna Configuration, page 4-5  • Single Antenna Advanced Range Extender—Direct Connect Antenna Configuration, page 4-5  • Single Antenna Advanced Range Extender—Pole Mounted Antenna Configuration, page 4-6  • Dual Antenna Advanced Range Extender—Dual Antenna Configuration, page 4-6
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL4-5Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 4      Antenna Antennas OverviewBasic Range Extender Antenna ConfigurationTable 4-4 Antenna Configuration for the IR529-WP-915S/K9 Basic Range Extender Antenna Arrangement and Connector(s)Enclosure Internal CableLightning Arrestor or Adapter Outdoor Cable AntennaSingle antenna, 1 N (f) antenna connector—Select one option from:  • None— when using a 1.5 dBi direct connect antenna  • 1 Lightning Arrestor, DC Pass, N (m)-N (f), Cisco PID CGR-LA-NM-NF, Cisco PN 07-1091-01Select one option from:  • None—when using a 1.5 dBi direct connect antenna  • 1 RA-N (m) to N (m) cable, LMR-400-DB, 5’, Cisco PID CAB-L400-5-N-N, Cisco PN 37-1436-01  • 1 N(m) to N(m) cable, LMR-400-DB, 5’, Cisco PID CAB-L400-5-N-NS, Cisco PN 37-1446-01  • 2 RA-N(m) to N(m) cables, LMR-400-DB, 20’, Cisco PID CAB-L400-20-N-N, Cisco PN 37-1392-01  • 2 RA-N(m)-N(m) cables, LMR-600-DB, 30’, Cisco PID CAB-L600-30-N-N, Cisco PN 37-1396-01Select one antenna from:  • 1 900 MHz ISM band, omni stick, 8”, 1.5 dBi, N (m), Cisco PID ANT-WPAN-OD- OUT-N, Cisco PN 07-1318-01  • 1 900 MHz ISM band, omni stick, 24”, 5 dBi, N (f), Cisco PID ANT-WPAN-OM-OUT-N, Cisco PN 07-1163-02Single Antenna Advanced Range Extender—Direct Connect Antenna ConfigurationTable 4-5 Direct Connect Antenna Configuration for the IR529-UBWP-915S/K9 Single Antenna Advanced Range Extender Antenna Arrangement and Connector(s)Enclosure Internal CableLightning Arrestor or Adapter Outdoor Cable AntennaDirect connect single antenna, 1 N (f) connector—None None Select one antenna from:  • 1 900 MHz ISM band, omni stick, 8”, 1.5 dBi, N(m), Cisco PID ANT-WPAN-OD- OUT-N, Cisco PN 07-1318-01
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL4-6Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 4      Antenna Antennas OverviewSingle Antenna Advanced Range Extender—Pole Mounted Antenna ConfigurationTable 4-6 Mast Mounted Antenna Configuration for the IR529-UBWP-915S/K9 Single Antenna Advanced Range Extender Antenna Arrangement and Connector(s)Enclosure Internal CableLightning Arrestor or Adapter Outdoor Cable AntennaPole mounted single antenna, 1 N (f) antenna connector—1 Lightning Arrestor, DC Pass, N (m)-N (f), Cisco PID CGR-LA-NM-NF, Cisco PN 07-1091-01Select one option from:  • 1 RA-N (m) to N (m) cable, LMR-400-DB, 5’, Cisco PID CAB-L400-5-N-N, Cisco PN 37-1436-01  • 1 N (m) to N (m) cable, LMR-400-DB, 5’, Cisco PID CAB-L400-5-N-NS, Cisco PN 37-1446-01  • 2 RA-N (m) to N (m) cables, LMR-400-DB, 20’, Cisco PID CAB-L400-20-N-N, Cisco PN 37-1392-01  • 2 RA-N (m)-N (m) cables, LMR-600-DB, 30’, Cisco PID CAB-L600-30-N-N, Cisco PN 37-1396-011 900 MHz ISM band, omni stick, 24”, 5 dBi, N (f), Cisco PID ANT-WPAN-OM-OUT-N, Cisco PN 07-1163-02Dual Antenna Advanced Range Extender—Dual Antenna ConfigurationNote The dual antenna configuration applies to the dual antenna advanced range extender models with and without battery support: - IR529-UBWP-915D/K9 (with battery support - IR529-UWP-915D/K9 (without battery support)
Table 4-7 Dual Antenna Configuration for the IR529-UBWP-915D/K9 and IR529-UWP-915D/K9 Dual Antenna Advanced Range Extenders Antenna Arrangement and Connector(s)Enclosure Internal CableLightning Arrestor or Adapter Outdoor Cable AntennaDual antenna, 2 N (f) antenna connectors—2 Lightning Arrestors, N (m)-N (f), Cisco PID CGR-LA-NM-NF, Cisco PN 07-1091-01Select one option:  • 2 RA-N (m) to N (m) cables, LMR-400-DB, 20’, Cisco PID CAB-L400-20-N-N, Cisco PN 37-1392-01  • 2 RA-N (m)-N (m) cables, LMR-600-DB, 30’, Cisco PID CAB-L600-30-N-N, Cisco PN 37-1396-012 900 MHz ISM Band, directional Yagi antennas, 10 dBi, N (f), Cisco PID ANT-WPAN-OD-OUT-N, Cisco PN 07-1328-0129/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL4-7Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 4      Antenna Additional Information for WPAN Gateway Antenna InstallationsAdditional Information for WPAN Gateway Antenna InstallationsFor all outdoor antenna/WPAN gateway installations, the coax shield should be grounded (earthed) in accordance with ANSI/NFPA 70, the National Electrical Code (NEC), in particular Section 820.93, Grounding of Outer Conductive Shield of a Coaxial Cable.In addition, please refer to Section 820.93 of the National Electrical Code, ANSI/NFPA 70: 2005; and EN60728-11: 2005, which provide guidelines for proper grounding and, in particular, specify that the coaxial cable shield shall be connected to the grounding system of the building, as close to the point of cable entry as practical.For indoor antenna/WPAN gateway installations, no additional considerations are required.Installing or Replacing AntennasDepending on the configuration you specified, the WPAN gateway and WPAN range extender could be shipped with all required antennas already installed and connected. You may need to install an antenna when you purchase an antenna separately to replace a faulty or damaged antenna.For procedures and safety information required to install or replace antennas, see the Connected Grid Antenna Installation Guide, at: www.cisco.com/go/cg-modules.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL4-8Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 4      Antenna Installing or Replacing Antennas
CHAPTER29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-1Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide 5Operation and ConfigurationThis chapter describes the operation of the WPAN gateway and WPAN range extender and how to configure the devices:  • Information about WPAN Gateway and WPAN Range Extender Operation, page 5-1  • WPAN Gateway and WPAN Range Extender Data Flow, page 5-3  • Information about Raw Socket Transport and MAP-T, page 5-5  • Information about WPAN Gateway and WPAN Range Extender Configuration, page 5-11  • Configuring the WPAN Gateway and WPAN Range Extender, page 5-12  • CG-NMS WPAN Device Management Related Operations, page 5-20Information about WPAN Gateway and WPAN Range Extender Operation  • WPAN Gateway and WPAN Range Extender and the Cisco Field Area Network, page 5-1  • Role of the WPAN Gateway and WPAN Range Extender in the Cisco FAN, page 5-2WPAN Gateway and WPAN Range Extender and the Cisco Field Area NetworkThe WPAN gateway and WPAN range extender operate in the Cisco Connected Grid (CG) Field Area Network (FAN). The FAN solution provides an urban-scale IPv6-based networking solution for connecting and managing a multitude of devices in a smartgrid architecture. The Cisco CG FAN consists of three components:  • Connected Grid Endpoint (CGE) devices  • Connected Grid Router (CGR) devices  • Connected Grid Network Management System (CG-NMS)CGEs are the CG FAN end points. The CGEs may be electric meters, or Distribution Automation (DA) devices. The CG FAN utilizes low-cost mesh networking technology to connect CGEs. The link technologies may utilize Radio Frequency (e.g. IEEE 802.15.4g) and, or Power Line Communication (e.g. IEEE P1901.2) media.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-2Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration Information about WPAN Gateway and WPAN Range Extender OperationCGRs provide wide-area connectivity for CGEs. In addition to providing wide-area connectivity, because CGRs typically have more resources than CGEs, CGRs support critical functions for secure network access control, routing, and management of CGEs. In a typical deployment, a single CGR may provide wide-area connectivity for hundreds or thousands of CGEs.CG-NMS provides the necessary back-end infrastructure for supporting the CGEs and CGRs in the Cisco CG FAN. CG-NMS is responsible for managing secure network access, configurations, and firmware updates for all CGR and CGEs in a CG FAN deployment. Each device registers with the CG-NMS and periodically reports information that assists a network operator in assessing the health of the network and diagnosing any issues that may occur.The Cisco Industrial Routers (IR) 500 Series WPAN Gateway and WPAN Range Extender provide unlicensed 902-to-928 MHz ISM-band wireless personal area network (WPAN) communications to diverse Internet of things (IoT) applications. Among the IoT applications supported are smart grid, distribution automation (DA), and supervisory control and data acquisition (SCADA). The devices supply radio frequency (RF) mesh connectivity to one IPv4/Ethernet and serial IoT device, including recloser control, cap bank control, voltage regulator controls, and other remote terminal units (RTUs).The devices provide an open standards RF mesh solution based on the following standards:   • IEEE 802.15.4 g/e  • IETF 6LoWPAN  • IETF Routing Protocol for Low Power and Lossy Networks (RPL)  • IETF Mapping of Address and Port—Translation (MAP-T)  • IETF Constrained Application Protocol (CoAP)Role of the WPAN Gateway and WPAN Range Extender in the Cisco FAN  • Role of the WPAN Gateway, page 5-2  • Role of the WPAN Range Extender, page 5-3Role of the WPAN GatewayThe WPAN Gateway provides IPv4/IPv6 connectivity to DA Devices. The gateway connects to DA Devices using serial ports (RS232/RS485) and, or an Ethernet port using IPv4. The gateway provides remote connectivity to:  • serial DA devices over CG-Mesh by transporting serial data in TCP/IP  • IPv4 DA devices over the IPv6-based CG-Mesh by using Mapping of Address and Port using Translation (MAP-T), as specified in draft-ietf-software-map-tWPAN Gateway and Serial-based DA DevicesThe CGR800-WPAN connects serial-based DA devices and exports them over the IPv6-based Field Area Network by the following means:  • RS232/RS485 Port—the gateway RS232/RS485 serial port is used to connect RS232/RS485-based DA devices and transport serial data traffic over TCP. The gateway configuration and management of the serial port is done via CSMP and the CG-NMS.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-3Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration WPAN Gateway and WPAN Range Extender Data Flow  • RS232 Port—the gateway RS232 serial port is used to connect RS232-based DA devices and transport serial data traffic over TCP. The gateway configuration and management of the serial port is done via CSMP and the CG-NMS.  • Raw TCP Serial Transport—the CGR800-WPAN makes the bi-directional serial data stream for the serial ports available over IPv6 via the IEEE 802.15.4g interface.WPAN Range Extender and Ethernet-based DA DevicesThe WPAN gateway connects IPv4-based DA devices to the IPv6-based FAN by the following means:  • Ethernet Port—the gateway Ethernet port is used to provide IPv4 connectivity to DA devices. The gateway exports configuration and management of the Ethernet port via CSMP and the CG-NMS.  • DHCP—the CGR800-WPAN implements a DHCP Server to support dynamic configuration of IPv4-based DA devices. The CGR800-WPAN exports DHCP configuration and management via CSMP.  • Mapping of Address and Port using Translation (MAP-T)—The gateway provides shared or uniquely addressed IPv4 host connectivity to and across an IPv6 domain using MAP-T. The gateway implements the MAP Customer Edge (CE) functionality, as described in draft-ietf-software-map-t. Each MAP domain must also include a device that implements the MAP Border Router (BR) functionality (e.g. ASR-1000). The gateway configuration and management of MAP-T is done via CSMP and the CG-NMS.  • NAT44—The gateway uses NAT44 to translate private IPv4 addresses used by DA devices connected to the Ethernet port to public IPv4 addresses used with MAP-T.Role of the WPAN Range ExtenderThe WPAN range extender is an IEEE 802.15.4g-2012 IPv6 router device that allows additional flexibility in locating IEEE 802.15.4g devices, resulting in extra connectivity among CG-Mesh devices. For example, while CG-Mesh electric meters must be placed where electric metering occurs, the range extender may be placed anywhere AC power is available. The range extenders support the full CG-Mesh network platform, including IEEE 802.15.4g, IEEE 802.1X, IPv6, and RPL.WPAN Gateway and WPAN Range Extender Data Flow  • Data Flow Prerequisites, page 5-3  • Data Flow Paradigms, page 5-4Data Flow PrerequisitesThe mandatory components for a Cisco IR 500 Series WPAN gateway and WPAN range extender deployment are:  • Cisco ASR 1000 router configured as a MAP-T border router  • Cisco CGR 1000 router configured as a WPAN router (a WPAN module is installed)  • Cisco IR 500 series WPAN gateway and WPAN range extender configured and installed
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-4Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration WPAN Gateway and WPAN Range Extender Data FlowData Flow ParadigmsThere are two potential data flow paradigms with the WPAN gateway and WPAN range extender devices:  • Serial DA device remote connectivity over CG-Mesh by transporting serial data in TCP/IP—this is achieved by routing traffic between a WPAN gateway serial port attached DA device and an application server through a Raw Socket connection  • IPv4 DA device remote connectivity over the IPv6-based CG-Mesh by using Mapping of Address and Port using Translation (MAP-T)—this is achieved by routing traffic between a WPAN gateway Ethernet port connected IPv4 DA device and an application serverBoth traffic flows involves MAP-T enabling non-IPv6 traffic to be transparently forwarded over 6LoWPAN, or the mesh network that is IPv6 only. Figure 5-1 shows the deployment of the WPAN gateway and WPAN range extender devices and the role of Raw Socket and MAP-T.Figure 5-1 WPAN Gateway and WPAN Range Extender DeploymentCGR 2010(Raw TCP Server)SCADA/DMS serverRaw TCP Session for Serial protocolsStandard-based IPv4 overIPv6 - IETF MAP-TSCADA SCADAIP WANCGR 1000WPANGatewayWPANGatewayWPANGatewayReal Time Unit (RTU)RTUsWPAN Range ExtenderWPAN Range ExtenderRaw TCP: natively or throughIP/Serial Redirector SWNative IPv4 SCADA protocol391923
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-5Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration Information about Raw Socket Transport and MAP-TFor more information about Raw Socket and MAP-T, see the “Information about Raw Socket Transport and MAP-T” section on page 5-5.Information about Raw Socket Transport and MAP-T  • Raw Socket, page 5-5  • MAP-T, page 5-8Raw SocketRaw Socket is a method for transporting serial data through an IP network. It transports streams of characters from one serial interface to another over an IP network for utility applications.The feature can be used to transport Supervisory Control and Data Acquisition (SCADA) data from Remote Terminal Units (RTUs). For the WPAN gateway and WPAN range extender deployment, Raw Socket Transport uses TCP as the transport protocol.Raw Socket Transport supports the following for each asynchronous serial interface:  • TCP as the transport protocol, with built-in auto TCP connection retry mechanism.  • Interface configuration as either a server or a client. The WPAN gateway can only be set up as a server or as a client but not both simultaneously.  • One server per interface, but multiple clients.Note For the one server per interface with multiple clients arrangement, the number of clients may be limited to one or two. Contact Cisco for more information.For more information about the Raw Socket deployment read the following sections:  • TCP Transport, page 5-5  • Raw Socket Configurations, page 5-6  • Raw Socket and Serial Protocol Operation, page 5-7TCP TransportThe TCP transport CG FAN scenario is that one router acts as a Raw Socket server, listening for TCP connection requests from the other CG FAN routers, which are configured as Raw Socket clients. in Figure 5-1, for example, the CGR 2010 acts as the Raw socket server, and it listens for TCP connection requests from the WPAN gateways, which are configured as Raw Socket clients.A Raw Socket client receives streams of serial data from the RTUs and accumulates this data in its buffer, then places the data into packets, based on user-specified packetization criteria. The Raw Socket client initiates a TCP connection with the Raw Socket server and sends the packetized data across the IP network to the Raw Socket server, which retrieves the serial data from the packets and sends it to the serial interface, and on to the utility management system.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-6Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration Information about Raw Socket Transport and MAP-TRaw Socket ConfigurationsRaw Socket transport uses a client-server model on the WPAN gateway. The WPAN gateway can be either a server or a client but not both. At most one server and multiple clients can be configured on a single asynchronous serial line.Figure 5-2, Figure 5-3, and Figure 5-4 show three different Raw Socket configurations and scenarios involving the WPAN gateway. In these examples, serial data is transferred between RTUs and a utility management system across an IP network that includes several CGR 1000 and CGR 2010 routers.Figure 5-2 Raw Socket and Client/Server Setup on RoutersApplication communicatesthrough COM portsCGR 1000Series Routers(Clients)CGR 2010(Server)RS232 orRS485IP InfrastructureSerial interfacesSCADAServer391924RTUsWPAN RangeExtendersWPANGateways(Clients)Raw Socket Master andClient set-up on routersIn Figure 5-2, a Raw Socket CGR1000 router client receives streams of serial data from the WPAN gateway attached RTUs and accumulates the data before placing it into packets. The CGR 2010 router acts as a Raw Socket server, listening for TCP connection requests from the WPAN gateway, which are configured as Raw Socket clients.The WPAN gateway Raw Socket client initiates a TCP connection with the CGR2010 Raw Socket server, and sends the packetized data across the IP network to the CGR2010 Raw Socket server, which retrieves the serial data from the packets and sends it to the serial interface, and on to the SCADA server.Figure 5-3 Raw Socket Client/Server Setup between Routers and SCADA Server with IP/Serial Redirector SoftwareRaw Socket Master and Client set-upbetween routers and SCADA serverApplication communicatesthrough COM ports mappedto IPv4 and TCP ports byIP/Serial redirector software(as long as the WPANgateway does not supportRaw Socket UDP)CGR 1000Series Routers(Clients)CGR 2010(Server)IP InfrastructureEthernetSCADAServer391925RS232 orRS485RTUsWPAN RangeExtendersWPANGateways(Clients)In Figure 5-3, a Raw Socket CGR1000 router client receives streams of serial data from the WPAN gateway attached RTUs and accumulates the data before placing it into packets. The CGR1000 Raw Socket clients initiates a TCP connection with the SCADA server, and sends the packetized data across the IP network to the SCADA server. The SCADA server communicates through COM ports mapped to IP and TCP/UDP ports, by IP/Serial Redirector software.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-7Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration Information about Raw Socket Transport and MAP-TFigure 5-4 Raw Socket Client/Server Setup between Routers and SCADA Server with Direct RAW Socket CommunicationRaw Socket Master and Client set-upbetween routers and SCADA serverApplication communicates directlyover Raw Socket (IP + TCP/UDP ports)IP InfrastructureEthernetSCADAServer391929RS232 orRS485RTUsWPAN RangeExtendersWPANGateways(Clients)CGR 2010(Server)CGR 1000Series Routers(Clients)In Figure 5-4, a Raw Socket CGR1000 router client receives streams of serial data from the WPAN gateway attached RTUs and accumulates the data before placing it into packets. The CGR1000 Raw Socket clients initiates a TCP connection with the SCADA server, and sends the packetized data across the IP network to the SCADA server. The SCADA server communicates directly over Raw Socket IP and TCP/UDP ports.Raw Socket and Serial Protocol OperationFigure 5-5 shows a Raw Socket DA deployment scenario involving a SCADA server, WPAN range extenders, and WPAN gateways with RTUs attached to the serial ports.Figure 5-5 Raw Socket and Serial ProtocolWPAN Gateway RemoteTerminal Units (RTUs)(Clients)Raw Socket connectionSerial protocol connectionRS232 orRS485IPInfrastructureEthernetSCADAServer391926When running a serial protocol over a Raw Socket, there are two different layers that establish their own connectivity:  • Raw Socket layer—Assuming the SCADA server handles the Raw Socket session (the other alternative is the Raw Socket is handled by a router), the Raw Socket session is established between the SCADA server and the WPAN gateway. One side is the listener (Raw Socket TCP server), the other is the client (Raw Socket TCP client).  • Serial protocol layer—The serial protocol session, i.e. DNP3, IEC 60870-5-101, Modbus, etc., runs on the serial protocol layer, and this also has server/master and client sides. This serial protocol session runs from the SCADA server to the attached device (RTU).
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-8Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration Information about Raw Socket Transport and MAP-TMAP-T6LoWPAN is an IPv6-only adaptation layer for the physical (PHY) and media access control (MAC) layer technologies implementing it. No IPv4 adaptation layer is defined for these PHY and MAC layers, so the Mapping of Address and Port using Translation (MAP-T) architecture is used as an IPv4-IPv6 translation mechanism. The “mapping of address and port” mechanism defines how IPv4 nodes can communicate over an IPv6-only infrastructure.MAP-T was developed as a transition mechanism due to IPv4 address exhaustion, MAP-T is based on a double stateless NAT64 translation. It specifies a stateless algorithmic address and transport layer port mapping scheme, and allows embedding of IPv4 address and port numbers in an IPv6 address when forwarding the IPv4 traffic across an IPv6-only network.The use of MAP-T in the WPAN gateway enables the use of a same address, if required by a customer, on the attached field devices since IPv4 traffic coming through the Ethernet port will go through NAT44. By using MAP-T, the WPAN gateway is using an open standard to integrate non-IP and IPv4 communications over 6LOWPAN/RPL networks.In a Field Area Network (FAN) scenario, where hundreds of WPAN gateways are deployed across multiple Field Area Routers (FARs), such as CGR 1000, a MAP-T domain begins at the WPAN gateway level and ends with the head-end aggregation routers, such as ASR1000 as shown in Figure 5-6.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-9Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration Information about Raw Socket Transport and MAP-TFigure 5-6 MAP-T in a FAN and WPAN Gateway ScenarioRTUsWPAN RangeExtenderCGR 1000MAP-T DomainMAP-TBorder RelayASR 1000SCADAServerIP WAN391927WPANGatewaysThere are defined IPv6 and IPv4 MAP-T prefixes inside the MAP-T domain enabling the NAT64 translation process to identify addresses to be translated, as well as get proper reachability and routing through the MAP-T domain.NAT44 is a component of the MAP solution, but the NAT44 in MAP differs from traditional NAT44 deployments in that instead of assigning a public IPv4 address range to each field device for translation (in the case of NAT), or a single public IPv4 address for translation (in the case of Port Address Translation (PAT)) to each field device, it extends the granularity beyond a single public IPv4 address, by being able to assign a port range to each of the field devices sharing the same IPv4 public address. This unique address and port range combination is then translated into the IPv6 address space when transitioning into the IPv6 domain using the MAP field device. The MAP algorithm still retains the ability to assign the full IPv4 address or an IPv4 prefix to the MAP field device, but the WPAN gateway only leverages the full IPv4 address to be allocated on a per WPAN gateway basis.MAP-T Mapping Rules and Map Domain ParametersInside the MAP-T domain are defined IPv6 and IPv4 MAP-T prefixes enabling the NAT64 translation process to identify addresses to be translated as well as get proper reachability and routing through the MAP-T domain. Those are known as:  • MAP-T Default Mapping Rule (DMR): an IPv6 prefix used to address all destinations outside the MAP-T domain.  –DMR IPv6 prefix and prefix length embeds any IPv4 addresses outside the MAP-T domain. For example, within a MAP-T domain using a DMR IPv6 prefix = 2610:D0:1200:CAFE::/64, all IPv4 translated packet sources and destinations outside the MAP-T domain have an IPv6 address based on this prefix, i.e. sending packets to IPv4 100.1.1.2 translated to IPv6 2610:d0:1200:cafe:64:101:200:0. The SCADA server IPv4 address is an example of a destination outside of the MAP-T domain.  • MAP-T Basic Mapping Rule (BMR): the IPv6 and IPv4 prefixes used to address MAP-T nodes inside the MAP-T domain –BMR IPv4 prefix and prefix length are the IPv4 subnet selected to address all IPv4 nodes in a MAP-T domain. For example, a MAP-T domain set-up with 153.10.10.0/24 as IPv4 subnet has all IPv4 nodes configured with IPv4 address from this subnet, BMR IPv4 prefix = 153.10.10.0 and prefix length = 24
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-10Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration Information about Raw Socket Transport and MAP-T –BMR IPv6 prefix and prefix length are used to embed the IPv4 address of nodes inside the MAP-T domain. For example, a MAP-T domain is configured with a MAP-T IPv6 BMR = 2031:6f8:147e:10::/56. Packets sent or received from IPv4 nodes inside the MAP-T domain have a translated IPv6 address based on this prefix, i.e. 2031:6f8:147e:10fe:99:a0a:fe00:0 for a MAP-T IPv4 node set-up with IPv4 153.10.10.254.  –BMR Share ratio: MAP-T being designed for various deployment scenarios, it could be feasible to allocate to a MAP-T node either an IPv4 prefix (smaller than the MAP-T BMR IPv4 prefix), or a single IPv4 address (/32) or share a single IPv4 address (/32) between several nodes. In the later case, it requires indicating how many bits for port numbers are assigned, which is called “BMR share ratio”. In case of IR 500 deployment, it is recommended to use a single IPv4 address (/32) per IR 500 with a share ratio = 1 to keep the addressing simple. –BMR Embedded Address (EA) bits indicate – in the case of share ration = 1 – the length of the IPv4 suffix embedded in the MAP-T IPv6 End-user IPv6 prefix. For example, in case of an IPv4 /24 prefix allocated to a MAP-T domain, the BMR EA value derived from it is 8.MAP-T Addressing Rules ExampleFigure 5-7 is an example of a MAP-T domain, and the domain parameters are provided in Table 5-1. The Table 5-2 details the translated addresses.Figure 5-7 MAP-T DomainCGR 1000MAP-T DomainMAP-TBorder RelayASR 1000 SCADAServerIP WAN391928RTUsWPAN RangeExtenderWPANGatewaysThe Default Mapping Rule is 2610:D0:1200:CAFE::/64.Table 5-1 MAP-T Domain ParametersMAP-T Domain Parameter SettingRule IPv6 Prefix 2031:6F8:147E:1000::Rule IPv6 Prefix length /56Rule IPv4 Prefix 153.10.10.0Rule IPv4 Prefix Length /24Share Ratio 1EA bits length 8Note If EA bits + Rule IPv4 prefix lengths are equal to 32, then a full IPv4 address is to be assigned. The address is created by concatenating the Rule IPv4 prefix and the EA-bits.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-11Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration Information about WPAN Gateway and WPAN Range Extender ConfigurationNote End-user IPv6 prefix = Rule IPv6 Prefix + IPv4 Suffix (EA bits field)Table 5-2 Translated AddressesCase No. MAP IPv4 address End-user IPv6 prefix MAP IPv6 address1153.10.10.1 2031:6f8:147e: 1001:: 2031:6f8:147e:1001:99:a0a:100:02153.10.10.2 2031:6f8:147e:1002:: 2031:6f8:147e:1002:99:a0a:200:03153.10.10.32 2031:6f8:147e: 1020:: 2031:6f8:147e:1020:99:a0a:2000:04153.10.10.254 2031:6F8:147E:10fe:: 2031:6f8:147e: 10fe:99:a0a:fe00:0Information about WPAN Gateway and WPAN Range Extender Configuration  • Role of CG-NMS, page 5-11  • CG-NMS Device Classification, page 5-11  • CSMP Client, page 5-12  • Role of CG-DM, page 5-12Role of CG-NMSThe IR500 series WPAN gateway and WPAN range extender are managed and configured by the Connected Grid Network Management System (CG-NMS) application.CG-NMS Device ClassificationCG-NMS uses groups to manage devices. Each device must be classified into a group.For CG-NMS based management and configuration, the WPAN gateway and WPAN range extender are classified according to the device category, device type, and group information in Table 5-3.Table 5-3 Classification Information for IR 500 Series DevicesClassification Entity Classification InformationDeviceCategory EndpointdeviceType ir500default config group default-ir500default firmware group default-ir500tunnel provisioning group Not applicable
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-12Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration Configuring the WPAN Gateway and WPAN Range ExtenderCSMP ClientCSMP Client is a GUI field tool used to manage and monitor the WPAN gateway and WPAN range extender hardware and networking information. The “GET” function in the field tool is used to obtain status and performance information about the devices in real time. The “POST” function is used to set device parameters in real time.CSMP Client can be used as a diagnostic tool to check a single device or the whole mesh network. The field tool has two connection modes to connect a WPAN gateway or WPAN range extender:  • Point-to-Point Protocol (PPP) over Serial console port  • IPv6 through WPAN networkRole of CG-DMCG-DM is a GUI field tool used to troubleshoot, configure and to update firmware images on WPAN Gateway devices.Configuring the WPAN Gateway and WPAN Range Extender  • Accessing the Configuration through the Console Port, page 5-12  • Uploading a Device to CG-NMS, page 5-16  • Registering with CG-NMS, page 5-17  • Configuring an IR 500 Series Device with CG-NMS, page 5-17Accessing the Configuration through the Console PortYou can access the WPAN gateway or WPAN range extender configuration by connecting to the console port on either device.WarningDo not connect or disconnect cables to the ports while power is applied to the switch or any device on the network because an electrical arc can occur. This could cause an explosion in hazardous location installations. Be sure that power is removed from the switch and cannot be accidentally be turned on, or verify that the area is nonhazardous before proceeding. Statement 1070WarningIf you connect or disconnect the console cable with power applied to the switch or any device on the network, an electrical arc can occur. This could cause an explosion in hazardous location installations. Be sure that power is removed or the area is nonhazardous before proceeding. Statement 1080  • Connecting to the WPAN Gateway Console Port, page 5-13  • Connecting to the WPAN Range Extender Console Port, page 5-13
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-13Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration Configuring the WPAN Gateway and WPAN Range ExtenderConnecting to the WPAN Gateway Console PortTo connect to the WPAN gateway console port:Step 1 Connect the RJ-45-to-DB-9 adapter cable to the 9-pin serial port on the PC. Connect the other end of the cable to the WPAN gateway console port.Figure 5-8 Connecting the Console Cable391433Connecting to the WPAN Range Extender Console PortTo connect to the WPAN gateway range extender:Step 1 Use a 0.5 in. (13 mm) socket wrench to remove the console port cover. See Figure 5-9.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-14Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration Configuring the WPAN Gateway and WPAN Range ExtenderFigure 5-9 Removing the Console Port Cover123914301Console port cover 10.5 in. (13 mm) Socket wrenchStep 2 Connect the RJ-45-to-DB-9 adapter cable to the 9-pin serial port on the PC. Connect the other end of the cable to the WPAN range extender console port. See Figure 5-10.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-15Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration Configuring the WPAN Gateway and WPAN Range ExtenderFigure 5-10 Connecting the Console Cable39143211Console portStep 3 When you are finished configuring the WPAN range extender, disconnect the cable from the console port, and place the console port cover back on the console port to cover it. Use a 0.5 in. (13 mm) socket wrench to torque the console port cover to 6-7 ft-lbs (8.13-9.49 N-m). See Figure 5-11.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-16Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration Configuring the WPAN Gateway and WPAN Range ExtenderFigure 5-11 Covering the Console Port139142921Console port cover 20.5 in. (13 mm) Socket wrenchUploading a Device to CG-NMSWPAN gateway and WPAN range extender devices can be uploaded to CG-NMS using a Device Properties CSV file. For more information see the “Common Device Operations” section of the Cisco Connected Grid Network Management System User Guide.A sample file content for a WPAN gateway device is:eid, deviceType, endUserIPv6Prefix, endUserIPv6PrefixLen, lat, lng00173b12003d003b, ir500, 2001:dead:beaf:2::,64,12,12A sample file for a WPAN range extender is:eid, deviceType, lat, lng00173b12003d003b,ir500,12,12Note The WPAN range extender does not require an endUserIPv6Prefix.Note eid: Is the EUI64 version of the MAC of WPAN interface of the device
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-17Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration Configuring the WPAN Gateway and WPAN Range ExtenderendUserIPv6Prefix and endUserIPv6PrefixLen are described in the configuration section below.Every uploaded WPAN gateway and WPAN range extender device is put in the "default-ir500" config and firmware groups if a group name is not specified in the csv.Registering with CG-NMSWPAN gateway and WPAN range extender devices use CSMP for communicating with CG-NMS. The registration process involves handshaking between the devices and the CG-NMS.During registration, CG-NMS pushes a configuration file from a user defined CG-NMS configuration file to each device.You use a configuration template to define the configuration file for each group dedicated to the WPAN gateway and WPAN range extender devices. The configuration file and its contents are pushed to the devices when they register with CG-NMS.Configuring an IR 500 Series Device with CG-NMSDuring registration, CG-NMS pushes the user defined configuration from the "template" to each device. You can also initiate an on demand configuration push to all devices in the group using a "Push Configuration” option in CG-NMS.For more information see the “Editing the ENDPOINT Configuration Template” and the “Pushing Configurations to Endpoints” sections of the Cisco Connected Grid Network Management System User Guide.The configuration tasks include:  • Configuring Serial Interface Settings, page 5-17  • Configuring MAP-T Settings, page 5-18  • Configuring Raw Socket Settings, page 5-18  • Configuring Mesh Link Settings, page 5-19  • Configuring NAT44, page 5-19Configuring Serial Interface SettingsThe WPAN gateway serial interface settings include: –Media Type (RS232 or RS485) –Parity –Baud Rate –Stop Bit –Data bits –Flow controlFor more information see the “Editing the ENDPOINT Configuration Template” section of the Cisco Connected Grid Network Management System User Guide.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-18Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration Configuring the WPAN Gateway and WPAN Range ExtenderConfiguring MAP-T SettingsThe MAP-T settings for the WPAN gateway are: –DefaultMapping IPv6 Prefix –IPv4 Prefix –IPv6 Prefix Length –IPv4 Prefix Length –EA Bits LengthFor more information see the “Editing the ENDPOINT Configuration Template” section of the Cisco Connected Grid Network Management System User Guide.MAP-T Settings for a WPAN Gateway in FANNote On the Cisco IOS ASR1000 and CGR1000, MAP-T rules are set-up by indicating the following MAP-T domain rules: - IPv6 BMR - IPv4 BMR - IPv6 DMR On the WPAN gateway, the MAP-T IPv6 is an End-user IPv6 prefix that integrates the MAP-T BMR IPv6 rules + IPv4 suffix value, the length being based on the BMR EA length value.  For example, a CG-NMS CSV file for a WPAN gateway contains: eid,devicetype,lat,lng,meshPanid,status,endUserIPv6Prefix,endUserIPv6PrefixLen00173B1500340036,ir500,37.4187911,-121.9196689,10,unheard,2019:1111:2222:1000::,48The file content can be read as:  • IPv6 BMR = 2019:1111:2222::  • IPv6 BMR prefix length = 48  • IPv6 End-User prefix = IPv6 BMR = 2019:1111:2222:1000:: giving the WPAN gateway an IPv4 address = MAP-T IPv4 prefix = CG-NMS set-up + IPv4 suffix = 10 (or .16 decimal)Configuring Raw Socket SettingsThe Raw Socket settings for the WPAN gateway are:  • Initiator—Designates the device as the client or server (initiator = 0—denotes server; initiator = 1, 2, 3 etc—denotes client)  • TCP idle timeout (min)—Sets the time to maintain an idle connection  • Local port—Sets the port number of the device  • Peer port—Sets the port number of the client/server connected to the device  • Peer IP address—Sets the IP address to the host connected to the device  • Connect timeout—Sets the TCP client connect timeout for Initiator DA Gateway devicesFor more information, see the “Editing the ENDPOINT Configuration Template” and the “Raw Sockets Metrics and Sessions” sections of the Cisco Connected Grid Network Management System User Guide.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-19Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration Configuring the WPAN Gateway and WPAN Range ExtenderConfiguring Mesh Link SettingsFor configuring mesh link settings such as ‘Mesh SSID’ and ‘Transmit Power’ see the “Managing Devices” chapter of the Cisco Connected Grid Network Management System User Guide.Configuring NAT44Note This section only applies to the WPAN gateway.NAT44 settings for the WPAN gateway can be configured. In order to configure NAT44 properties you can edit the device template or use the import a CSV file method.For more information see the “Editing the ENDPOINT Configuration Template” or “Adding a File to CG-NMS” sections of the Cisco Connected Grid Network Management System User GuideThe following fields can be specified:  • nat44InternalAddress0  • nat44InternalPort0  • nat44ExternalPort0where 0-3 are four valid map index.You must make sure that the config group that the device belongs to has Ethernet enabled. You can select the Enable Ethernet checkbox and save the config template for the config group before the config push.Because all three fields for a map index are required values, all three fields must be specified for the Nat44 configuration to be applied.Default values of 127.0.0.1, 0, 0 respectively have to be explicitly specified from CSV for a device in case any of the other settings for a particular map index need not be configured.If an invalid IPv4 address or other invalid values for a port is specified then NAT44 settings for that par-ticular map index will be ignored during config push.Related CGR 1000 and ASR 1000 Configurations  • Configuring Raw Socket Configuration on CGR 1000 Series and CGR 2010 Routers, page 5-19  • Configuring the WPAN Settings on CGR 1000 Series Routers, page 5-20  • Configuring an IPv6 DHCP Address Pool on CGR 1000 Series Routers, page 5-20  • Configuring MAP-T on ASR 1000 Routers, page 5-20  • Configuring IPv6 Routing on the CGR 1000 Series and ASR 1000 Routers, page 5-20Configuring Raw Socket Configuration on CGR 1000 Series and CGR 2010 RoutersFor information about configuring Raw Socket on the CGR 1000 series and ASR 1000 routers, see the following guides:  • Raw Socket Transport Software Configuration Guide for Cisco 1000 Series Connected Grid Routers (Cisco IOS)
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-20Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration CG-NMS WPAN Device Management Related Operations  • “Raw Socket Transport” chapter of Cisco 1000 Series Connected Grid Routers SCADA Software Configuration Guide  • Configuring Raw Socket Protocol on the CGR 2010 RouterConfiguring the WPAN Settings on CGR 1000 Series RoutersAn SSID and PAN ID must be configured on the CGR1000 series router. For information about configuring and SSID and PAN ID, see the Cisco Connected Grid WPAN Module for CGR 1000 Series Installation and CG-Mesh Configuration Guide on Cisco.com.Configuring an IPv6 DHCP Address Pool on CGR 1000 Series RoutersThe IPv6 addresses of the WPAN gateway and WPAN range extender are allocated from a central DHCPv6 server during the process of joining the mesh. The CGR1000 router only needs to be configured as a DHCPv6 Relay.For information about configuring the CGR 1000 series router as a DHCP relay, see the “Configuring IPv6 DHCP Relay” section of the Cisco Connected Grid WPAN Module for CGR 1000 Series Installation and CG-Mesh Configuration Guide.Configuring MAP-T on ASR 1000 RoutersMAP-T must be configured on the ASR 1000 router.For information about configuring MAP-T on the ASR 1000 series router, see the “Mapping of Address and Port Using Translation” chapter of the IP Addressing: NAT Configuration Guide, Cisco IOS XE Release 3S (ASR 1000).Configuring IPv6 Routing on the CGR 1000 Series and ASR 1000 RoutersIPv6 routing needs to be configured on the CGR 1000 series and ASR 1000 routers. For information about configuring IPv6 on the CGR 1000 series and ASR 1000 routers, see the following guides:  • “Configuring IPv6 Multicast Agent” chapter of Cisco Connected Grid WPAN Module for CGR 1000 Series Installation and CG-Mesh Configuration Guide  • “IPv6 Routing: OSPFv3” chapter of IP Routing: OSPF Configuration Guide, Cisco IOS XE Release 3S (Cisco ASR 1000)  • “IPv6 Policy-Based Routing” chapter of IP Routing: Protocol-Independent Configuration Guide, Cisco IOS XE Release 3S (ASR 1000)  • IP Routing: BGP Configuration Guide, Cisco IOS XE Release 3S (Cisco ASR 1000)  • “IPv6 Routing: Static Routing” chapter of IP Routing: Protocol-Independent Configuration Guide, Cisco IOS XE Release 3S (ASR 1000)CG-NMS WPAN Device Management Related Operations  • Performing Periodic Inventory, page 5-21  • Uploading Firmware, page 5-22  • Creating Rules and Events, page 5-22
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-21Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Chapter 5      Operation and Configuration CG-NMS WPAN Device Management Related OperationsPerforming Periodic InventoryDepending on the report periodic interval set in the configuration template, devices report regular inventory metrics to CG-NMS using CSMP. CG-NMS stores the reported properties and metrics.For more information, see the “Configuring Rules” section of the Cisco Connected Grid Network Management System User Guide.The properties and metrics of a sample WPAN device reported include:  • Inventory –Name –EID –Device Category –Manufacturer –Status –IP Address –Last Heard –Last Property Heard –Last Metric Heard –Model Number –Serial Number –Firmware Version –Config Group –Firmware Group –Location –Labels –Meter Certificate  • Mesh Device Health –Uptime  • Mesh Link Settings –SSID –PANID –Transmit Power –Security Mode  • Mesh Link Metrics –Mesh Link Transmit Speed –Mesh Link Receive Speed –Mesh Link Transmit Packet Drops –Mesh route RPL Hops –Mesh Route RPL Link Cost
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIAL5-22Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Chapter 5      Operation and Configuration CG-NMS WPAN Device Management Related Operations –Mesh Route RPL Path Cost –Mesh Route RSSI –Mesh Route Reverse RSSI  • Network Routes Metrics  • Routing Path Metrics  • Raw Socket Metrics  • MAP-T InformationUploading FirmwareUploading of firmware to WPAN gateway and WPAN range extender devices can be performed by the CG-NMS. You can:  • Upload ir500 firmware images to CG-NMS via the GUI.  • Execute a firmware upload to a specific group of devices.  • Perform “Set Backup” and “Schedule Reload” operations.For more information, see the “Configuring Devices” and “Pushing Configurations to Endpoints” sections of the Cisco Connected Grid Network Management System User Guide.Creating Rules and EventsYou can create rules and events for WPAN gateway and WPAN range extender devices using CG-NMS.For more information, see the “Configuring Rules” section of the Cisco Connected Grid Network Management System User Guide.
A-1Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide APPENDIX29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALATechnical SpecificationsThis appendix provides the technical specification for the Cisco WPAN gateway and Cisco WPAN range extender devices. The sections include:  • Environmental and Operational Specifications, page A-1  • Power Specifications, page A-3  • Alarm Ratings, page A-3  • Mechanical Specifications, page A-4  • Hazardous Location Specifications, page A-5  • Declaration of Conformity for RF Exposure, page A-5Environmental and Operational Specifications  • WPAN Gateway Environmental and Operational Specifications, page A-1  • WPAN Range Extender Environmental and Operational Specifications, page A-2WPAN Gateway Environmental and Operational SpecificationsTable A-1 Environmental and Operating Specifications for WPAN Gateway Description SpecificationOperating Temperature –40 to 158 °F (–40 to 70 °C)Altitude 3000 MHumidity IP30 Rated, Non-condensingStorage Temperature -40C to +85CStorage Altitude 3000 MVibration Per IEEE 1613 and IEC 61850Shock Per IEEE 1613 and IEC 61850Seismic Per IEC 61850
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALA-2Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Appendix A      Technical Specifications Environmental and Operational SpecificationsWPAN Range Extender Environmental and Operational Specifications  • Basic Range Extender, page A-2  • Advanced Range Extender, page A-2Basic Range ExtenderTable A-2 describes the environmental and operating specifications for the basic range extender model (IR529-WP-915S/K9).Table A-2 Environmental and Operating Specifications for Basic WPAN Range Extender Description SpecificationOperating Temperature –40 to 140 °F (–40 to 60 °C)Altitude 3000 MHumidity IP67 RatedStorage Temperature -40C to +85CStorage Altitude 3000 MVibration Per IEEE 1613 and IEC 61850Shock Per IEEE 1613 and IEC 61850Seismic Per IEC 61850Advanced Range ExtenderTable A-3 describes the environmental and operating specifications for the following advanced range extender models:  • IR529-UBWP-915S/K9  • IR529-UBWP-915D/K9  • IR529UWP-915D/K9Table A-3 Environmental and Operating Specifications for Advanced WPAN Range Extender Description SpecificationOperating Temperature –40 to 158 °F (–40 to 70 °C)Altitude 3000 MHumidity IP67 RatedStorage Temperature -40C to +85CStorage Altitude 3000 MVibration Per IEEE 1613 and IEC 61850Shock Per IEEE 1613 and IEC 61850Seismic Per IEC 61850
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALA-3Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Appendix A      Technical Specifications Power SpecificationsPower Specifications  • WPAN Gateway Power Requirements, page A-3  • WPAN Range Extender Power Requirements, page A-3WPAN Gateway Power RequirementsTable A-4 WPAN Gateway Power Requirements Description SpecificationDC Input Voltage   • Maximum Operating Range: 2.3 A @ 9.5 VDC to 0.33 A @60 VDC  • Nominal: 12, 24, or 48 VDCMaximum DC Input Voltage Rating   • 0.33 A@ 60 VDC  • 0.4 A @ 48 VDC   • 0.75 A @ 24 VDC   • 1.5 A @ 12 VDCWPAN Range Extender Power RequirementsTable A-5 WPAN Range Extender Power Requirements Description SpecificationAC Input Voltage 90–264 VACMaximum Rated Current Draw   • IR529-WP-915S/K9: 1 A  • IR529-UBWP-915S/K9: 1 A  • IR529-UBWP-915D/K9: 1 A  • IR529UWP-915D/K9: 1 AMaximum Power Consumption   • IR529-WP-915S/K9: 12 W  • IR529-UBWP-915S/K9: 18 W  • IR529-UBWP-915D/K9: 18 W  • IR529UWP-915D/K9: 12 WAlarm RatingsTable A-6 lists the alarm ratings for the Cisco WPAN gateway.
Table A-6 WPAN Gateway Alarm Ratings Alarm Ratings SpecificationAlarm input electrical specification    • States: Open or Closed Circuit  • Wire: 24 AWG to 18 AWG29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALA-4Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Appendix A      Technical Specifications Mechanical SpecificationsMechanical Specifications  • WPAN Gateway Mechanical Specifications, page A-4  • WPAN Range Extender Mechanical Specifications, page A-4WPAN Gateway Mechanical SpecificationsTable A-7 WPAN Gateway Mechanical Specifications Characteristic SpecificationEnclosure Type IP30 enclosureDimensions (Height x Width x Depth) 1.125 x 4.0 x 5.0 in. (2.86 x 10.16 x 12.7 cm)Weight IR509U-WP-915/K9: 0.82 lbs (0.37 kg)WPAN Range Extender Mechanical SpecificationsTable A-8 WPAN Range Extender Mechanical Specifications Characteristic SpecificationEnclosure Type IP67 sealed enclosureDimensions (Height x Width x Depth) The model dimensions are:  • IR529-WP-915S/K9 model: 3.57 x 5.70 x 7.59 in. (9.08 x 14.49 x 19.29 cm)  • IR529-UBWP-915S/K9 model: 4.85 x 7.23 x 10.37 in. (12.32 x 18.37 x 26.34 cm)  • IR529-UBWP-915D/K9 model: 4.85 x 7.23 x 10.37 in. (12.32 x 18.37 x 26.34 cm)  • IR529UWP-915D/K9 model: 4.85 x 7.23 x 10.37 in. (12.32 x 18.37 x 26.34 cm)Weight   • IR529-WP-915S/K9: 3.08 lbs (1.40 kg)  • IR529-UBWP-915S/K9: 8.40 lbs (3.81 kg)  • IR529-UBWP-915D/K9: 8.48 lbs (3.85 kg)  • IR529UWP-915D/K9: 7.03 lbs (3.19 kg)
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALA-5Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Appendix A      Technical Specifications Hazardous Location SpecificationsHazardous Location SpecificationsThe hazardous location standards for the WPAN gateway are listed in Table A-9. Note There are no hazardous location standards for the WPAN range extender.Table A-9 Hazardous Locations Standards for the WPAN Gateway Hazardous Locations StandardsIECEx Test Report: IEC 60079-0 6th EditionIEC 60079-15 4th EditionATEX EN 60079-0:2012EN 60079-15:2010+A11:2013North American divisions: ANSI/ISA 12.12.01-2013CSA C22.2 No. 213-M1987North American zones: UL 60079-0, 5th Ed, 2009-10-21UL 60079-15, 3rd Ed, 2009-7-17CAN/CSA C22.2 No. 60079-15-12 Ed. 1CAN/CSA C22.2 No. 60079-0-11 Ed. 2Declaration of Conformity for RF Exposure  • United States, page A-5  • Canada, page A-5United StatesThis system has been evaluated for RF exposure for Humans in reference to ANSI C 95.1 (American National Standards Institute) limits. The evaluation was based on ANSI C 95.1 and FCC OET Bulletin 65C rev 01.01. The minimum separation distance from the antenna to general bystander is 9 inches (23 cm) to maintain compliance.CanadaThis system has been evaluated for RF exposure for Humans in reference to ANSI C 95.1 (American National Standards Institute) limits. The evaluation was based on RSS-102 Rev 2. The minimum separation distance from the antenna to general bystander is 9 inches (23cm) to maintain compliance.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALA-6Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Appendix A      Technical Specifications Declaration of Conformity for RF Exposure
B-1Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide APPENDIX29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALBCable and Connectors  • Connector Specifications, page B-1  • Cables and Adapters, page B-5Connector Specifications  • WPAN Gateway Power and Alarm Connector, page B-1  • WPAN Gateway Console Port, page B-2  • WPAN Gateway RS232/RS485 DCE Serial Port, page B-2  • WPAN Gateway RS232 DTE Serial Port, page B-3  • WPAN Gateway USB Port, page B-3  • WPAN Gateway 10/100 Fast Ethernet Port, page B-4  • WPAN Range Extender Power Connector, page B-4  • WPAN Range Extender Console Port, page B-5WPAN Gateway Power and Alarm ConnectorFigure B-1 shows the WPAN gateway power and alarm connector. The connector is a 4 way screw terminal header. Table B-1 describes the connector pinouts.
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALB-2Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Appendix B      Cable and Connectors Connector SpecificationsFigure B-1 WPAN Gateway Power and Alarm Connector391216Table B-1 WPAN Gateway Power and Alarm Connector Pinouts Pin Label Signal Description1 V Positive DC power connection2RT Return DC power connection3 A Alarm reference or Alarm in4 A Alarm reference or Alarm inWPAN Gateway Console PortThe console port on the WPAN gateway uses an RJ-45 connector. The console port is an RS232 serial port. Table B-7 describes the pinouts.Table B-2 WPAN Gateway Console Port Pinouts Pin Signal1RTS output2DTR input3TxD output4GND5GND6RxD input7DSR output8CTS inputWPAN Gateway RS232/RS485 DCE Serial PortThe WPAN Gateway RS232/RS485 serial port uses an RJ45 connector. Table B-3 shows the pinouts, depending on whether the user selects RS232 or RS485.
Table B-3 WPAN Gateway RS232/RS485 DCE Serial Port Pinouts Pin RS232 Signal (Full Duplex) RS485 Signal (Full Duplex) RS485 (Half Duplex)1DSR/RI—Data Set Ready/Ring Indicator (out) TX+ (out) TX/RX+ (in/out)2DCD—Data Carrier Detect (out) TX- (out) TX/RX- (in/out)3DTR—Data Terminal Ready (in) RX- (in) Not used4SGND—Signal Ground  COM COM5RxD—Receive Data (out) Not used Not used6TxD—Transmit Data (in) RX+ (in) Not used7CTS—Clear to Send (out) Not used Not used8RTS—Request to Send (in) Not used Not used29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALB-3Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Appendix B      Cable and Connectors Connector SpecificationsWPAN Gateway RS232 DTE Serial PortThe WPAN gateway RS232 DTE serial port uses and RJ-45 connector. Table B-4 describes the pinouts.Table B-4 WPAN Gateway RS232 DCE Port Pinouts Pin Signal1DSR (in)2DCD (in)3DTR (out)4SGND5RXD (in)6TXD (out)7CTS (in)8RTS (out)WPAN Gateway USB PortThe WPAN gateway USB port uses a Standard A connector. Table B-5 describes the pinouts.Table B-5 WPAN Gateway USB Port Pinouts Pin Name Description1 V +5 VDC 2D- Data-3D+ Data+4GND Ground
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALB-4Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Appendix B      Cable and Connectors Connector SpecificationsWPAN Gateway 10/100 Fast Ethernet PortThe 10/100 Fast Ethernet port uses an RJ-45 connector. Figure B-2 shows the pinouts. This port supports Auto-MDIX (Automatic TX/RX crossover) and Auto-Polarity (Auto +/- polarity detection and correction).Figure B-2 WPAN Gateway 10/100 Fast Ethernet Port Pinouts391949231 45678Pin Label12345678RD-RD+TD-NCNCTD+NCNCWPAN Range Extender Power ConnectorFigure B-3 shows the WPAN range extender 3 pin power connector. The pinouts are described in Table B-6.Figure B-3 WPAN Range Extender Power Connector300595NotchTable B-6 WPAN Range Extender Power Connector Pinouts Pin Signal Name Signal Description1 L AC line2 N AC neutral3Chassis Chassis ground
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALB-5Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide Appendix B      Cable and Connectors Cables and AdaptersWPAN Range Extender Console PortThe console port on the WPAN range extender uses and RJ-45 connector. The console port is an RS232 serial port. Table B-7 describes the pinouts.Table B-7 WPAN Range Extender Console Port Pinouts Pin Signal1RTS2DTR3TxD4GND5GND6RxD7DSR8CTSCables and Adapters  • WPAN Gateway and WPAN Range Extender Console Port Adapter Pinouts, page B-5WPAN Gateway and WPAN Range Extender Console Port Adapter PinoutsThe console port uses an 8-pin RJ-45 connector. If you did not order a console cable, you need to provide an RJ-45-to-DB-9 adapter cable to connect the console port to a PC console port. You can order an adapter (part number ACS-DSBUASYN=).Table B-8 lists the pinouts for the console port, the RJ-45-to-DB-9 adapter cable, and the console device.Table B-8 Console Port Signaling Using a DB-9 Adapter Device Console Port (DTE) RJ-45-to-DB-9 Terminal Adapter Console DeviceSignal DB-9 Pin SignalRTS 8CTSDTR 6DSRTxD 2RxDGND 5GNDRxD 3TxDDSR 4DTRCTS 7RTS
29/OCT/2014 REVIEW DRAFT — CISCO CONFIDENTIALB-6Cisco IR500 Series WPAN Gateway and Range Extender Installation and Configuration Guide  Appendix B      Cable and Connectors Cables and Adapters

Navigation menu