Sensys Networks FLEXSPP Traffic Sensor System User Manual APCC Installation Guide

Sensys Networks, Inc. Traffic Sensor System APCC Installation Guide

Contents

Installation Guide

APCCSensys Networks VDS240 Wireless Vehicle Detection SystemAccess Point Controller Card (APCC) Installation GuideP/N 152-240-030-005, Rev GJune 2017DRAFT
Document PropertiesThis document is reference material for the Sensys Networks VDS240 wireless vehicle detection system from Sensys Networks, Inc.P/N 152-240-030-005 Rev G Sensys Networks, Inc. makes no representation or warranties with respect to the contents hereof and specifically disclaims any implied warranties of merchantability or fitness for any particular purpose. Furthermore, Sensys Networks reserves the right to revise this publication and to make changes from time to time in the content hereof without obligation of Sensys Networks to notify any person or organization of such revisions or changes. © 2007 - 2017 – All rights reserved.Sensys Networks and the Sensys Networks logo are trademarks of Sensys Networks, Inc. All other products, names and services are trademarks or registered trademarks of their respective owners.Regulatory StatementsFCC Compliance StatementThis device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference.(2) This device must accept any interference received, including interference that may cause undesired operation. Any changes or modifications to this product not authorized by Sensys Networks could void the EMC compliance and negate the authority to operate the product.RF Exposure StatementThis device has been tested and meets the FCC RF exposure guidelines. It should be installed and operated with a minimum distance of 20 cm between the radiator of RF energy and the body of users, operators, or others.Improper use or tampering with the device is prohibited and may not ensure compliance with FCC exposure guidelines.Documentation StatementThe user’s manual or instruction manual for an intentional or unintentional radiator shall caution the user that changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. In cases where the manual is provided only in a form other than paper, such as on a computer disk or over the Internet, the information required by this section may be included in the manual in that alternative form, provided the user can reasonably be expected to have the capability to access information in that form.DRAFT
WarningsNo Safety SwitchingSensys Networks does not allow its equipment to be used for safety applications such as controlling a mechanical gate or switching a train to avoid a collision.Lithium Thionyl Chloride BatteriesSensys Networks uses Lithium Thionyl Chloride batteries in the following products:Sensors (VSN240-F, VSN240-T, VSN240-S, VSN240-M, VSN240-F-2, VSN240-T-2)Repeaters (RP240-BH-2, RP240-BH-LL-2, FLEX-RP-B-2, FLEX-RP-B-LL-2)Lithium batteries are widely used in electronic products because they contain more energy per unit -weight than conventional batteries. However, the same properties that deliver high energy density also contribute to potential hazards if the batteries are damaged. Improper use or handling of the batteries may result in leakage or release of battery contents, explosion, or fire.Following are the recommendations of the battery manufacturer for proper use and handling of batteries in the Sensys Networks devices mentioned above:DO NOT charge or attempt to recharge the batteries (they are NOT rechargeable)DO NOT crush or puncture batteriesDO NOT short-circuit the batteriesDO NOT force over-discharge of the batteriesDO NOT incinerate or expose batteries to excessive heatingDO NOT expose battery contents to waterDO dispose of batteries and devices containing batteries in accordance with local regulationsNOTE:Sensys Networks wireless sensors contain no serviceable parts and should never be disassembled. Installation and removal of sensors from pavement should only be done by trained personnel and care should be taken to insure that the sensor casing is not punctured or crushed.Additional safety information is available from the battery's manufacturer:Sensor and repeater battery cell: http://www.ewtbattery.com/en/DownView.asp?ID=9Document ControlSensys Networks continually reviews and revises its technical publications Please address questions, suggestions, or corrections to support@sensysnetworks.com.DRAFT
Sensys Networks Technical PublicationsFor additional information regarding Sensys Networks products and applications, design guides, configuration guides, and best practices, refer to the Sensys Networks technical documents library available at http://sensysnetworks.com/resources?tech_docs.Contact InformationSensys Networks, Inc.1608 Fourth Street, Suite 200Berkeley, CA 94710 USA+1 (510) 548-4620www.sensysnetworks.comDRAFT
Sensys Networks, Inc. Access Point Controller Card (APCC) vInstallation Guide ContentsChapter 1: Introduction  ............................................................................................... 1What's Inside  ..................................................................................................................................1Chapter 2: Overview  ................................................................................................... 3Access Point Controller Card (APCC)  ........................................................................................3Contact Closure Expansion Card .........................................................................................3Types of APCC Configurations  ....................................................................................................4APCC System  ..........................................................................................................................4APCC Serial Port Protocol (SPP) Digital Radio  ..............................................................5Isolator ...............................................................................................................................5APCC Package Contents  ............................................................................................................5SPP Package Contents .................................................................................................................6Universal Mounting Kit Contents  ...........................................................................................7Additional Parts and Equipment Required  ................................................................................8Chapter 3: APCC Installation Considerations  ........................................................... 9Identifying the SPP and Sensors ...................................................................................................9SPP ............................................................................................................................................9Wireless Sensors .....................................................................................................................10Determining the Device Configuration  ....................................................................................10Configuration Worksheet .....................................................................................................10Determining Slots and Contact Closures  .................................................................................11Mapping Wireless Sensors to Contact Closures .......................................................................12Chapter 4: SPP Installation Considerations .............................................................. 13Powering the SPP  ........................................................................................................................13Acquiring Power From a Traffic Controller .........................................................................14Acquiring Power From Traffic Controller Using an Isolator  ...............................................14Voltages .................................................................................................................................15Cabling ..................................................................................................................................15Collecting Data From the APCC ...............................................................................................15Determining the Location of the SPP ........................................................................................16Optimal Location Criteria  ....................................................................................................16Chapter 5: APCC Installation Procedures ................................................................ 17Overview ......................................................................................................................................17Determining the Card ID and Setting it via Circuit-board Dip Switches SW1 and SW2 ......17Factory Default Card ID .......................................................................................................18Querying the Backplane for an Assigned Address ...........................................................18Setting the Slot-Number With Circuit-board Dip Switch SW2 ...........................................19DRAFT
vi Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Exception ........................................................................................................................19Setting the Shelf-Number With Circuit-board Dip Switch SW1  ........................................19Determining the Controller Type and Setting it via Circuit-board Dip Switch SW1  .............19Connecting the Cables to Each Device  .................................................................................20Cabling Summary  .......................................................................................................................21Chapter 6: SPP Installation Procedures  .................................................................... 23Tools Required for SPP Installation  .............................................................................................23Step-by-Step Procedures  ...........................................................................................................24Installing the Mounting Plate on Poles  ...............................................................................24Installing the Mounting Plate on Walls  ...............................................................................25Installing the Mounting Plate on Beams .............................................................................25Determining the Type of SPP Radio Bulkhead Connector  ..............................................26SPP Radio Bulkhead Connector ...................................................................................26Connecting the Cable to an SPP Radio with the Hex-head Connector .......................26Components ...................................................................................................................26Step-by-Step Procedures .....................................................................................................27Proper Fit (little to no gap between edges of cut)  ....................................................30Improper Fit (gap between edges of cut) ..................................................................30Proper Fit (bushing fully seated into guides)  ...............................................................31Improper Fit (bushing poorly seated into guides)  ......................................................32Proper Fit (recessed bushing, smooth face)  ...............................................................33Improper Fit (bushing not recessed, pinched edge, mushroomed face)  ..............33Removing the Cable Connection ......................................................................................33Chapter 7: Configuration  .......................................................................................... 35Overview ......................................................................................................................................35Configuration Methods ........................................................................................................36Configuring Channels With the Front-Panel Interface ............................................................36General Procedure  ..............................................................................................................36Saving the Configuration  ..............................................................................................37Enabling / Disabling a Channel  ..........................................................................................37Specifying the Channel Mode ............................................................................................38Setting a Presence Mode Modifier (Optional) ..................................................................38Using Delay and Extension  ............................................................................................38Specifying the Type of Communication Used by the Channel Status Monitor  ............39Starting TrafficDOT and Connecting to an APCC ...................................................................40Configuring Channels with TrafficDOT ......................................................................................42Entering controller card information  ..................................................................................42Configuring Channel State  .................................................................................................43Configuring Channel Mode  ................................................................................................43Configuring Presence Mode Modifier ................................................................................44Configuring Channel Holdover Duration ...........................................................................44Defining Sensor-to-Channel Mappings  ....................................................................................44Exiting TrafficDOT .........................................................................................................................45Appendix A: X Mode LED Displays for Slot Numbers .............................................. 47Examples ......................................................................................................................................48DRAFT
Sensys Networks, Inc. Access Point Controller Card (APCC) viiInstallation Guide Appendix B: Circuit-board Dip Switch SW1 Settings ............................................... 49Settings for Shelf Number  ...........................................................................................................49Settings for TS1 and TS2 Controllers  ...........................................................................................50Appendix C: Circuit-board Dip Switch SW2 Settings  .............................................. 51Settings for Slot Number  .............................................................................................................51Appendix D: Pre-Installation Worksheets  ................................................................ 53Appendix E: Contact Closure Card External Interfaces ......................................... 55Backplane Edge Connections  ..................................................................................................56IN RJ45 Connector Pin Assignments ..........................................................................................58OUT RJ45 Connector Pin Assignments  ......................................................................................58DRAFT
viii Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.DRAFT
Access Point Controller Card (APCC) 1Sensys Networks, Inc. Installation GuideChapter 1IntroductionThis guide provides information and procedures for installing Sensys Networks Access Point Controller Card (APCC) and the APCC Serial Port Protocol (SPP) digital radio in conjunction with the Sensys Networks VDS240 wireless vehicle detection system. This document is intended to be used by Sensys Networks customers, consultants, partners, dealers, and those who are interested in the application of wireless communication technology to the challenges of traffic detection, management, and control.What's InsideThis guide includes the following information:Chapter 1: Introduction, defines the purpose and scope of the guide.Chapter 2: Overview, provides an overview of the APCC and its additional components. It also describes the contents of a product shipment.Chapter 3: APCC Installation Considerations, provides the installation considerations for the APCC.Chapter 4: SPP Installation Considerations, provides the installation considerations for the SPP.Chapter 5: APCC Installation Procedures, provides instructions for installing and cabling the APCC.Chapter 6: SPP Installation Procedures, provides instructions for installing and mounting the SPP.Chapter 7: Configuration, provides instructions for configuring an APCC and expansion cards.Appendix A: X Mode LED Displays for Slot Numbers, depicts the channel LED displays when an APCC operates in X mode.DRAFT
Chapter 12 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Appendix B: Circuit-board Dip Switch SW1 Settings, depicts SW1 settings that identify the shelf number portion of the unique card address. Appendix C: Circuit-board Dip Switch SW2 Settings, depicts combinations of switch settings on the circuit-board dip switch SW2.Appendix D: Pre-Installation Worksheets, provides worksheets for capturing          pre-installation information.Appendix E: Contact Closure Card External Interfaces, provides the connector pin assignments for the external interfaces of contact closure master and expansion cards.DRAFT
Access Point Controller Card (APCC) 3Sensys Networks, Inc. Installation GuideChapter 2OverviewThis chapter provides an overview of the APCC and its additional components. The chapter also describes the contents of a product shipment.Access Point Controller Card (APCC)The Sensys Networks VDS240 Wireless Vehicle Detection System detects the presence and movement of vehicles with magneto-resistive sensors mounted in the pavement. Wireless sensors continuously transmit detection data to the APCC that collects and forwards data to remote traffic management systems or local traffic signal controllers such as the CalTrans Type 170, Type 2070 ATC and NEMA TS-1, and TS-2 controllers.The Sensys Networks Access Point Controller Card (APCC), is a second generation controller card that maintains low power consumption, supports multiple radios, and allows for additional communication and processing power. The APCC, which is compatible with all of Sensys Networks VDS240 Wireless Vehicle Detection System products, receives and processes data from the sensors. The APCC then relays the sensor detection data to a roadside traffic controller or remote server traffic management system.Contact Closure Expansion CardAdditional capacity (to handle more sensors or controller channels) is provided by a contact closure expansion card (EX card). EX cards use the same form factor as APCC cards and are daisy-chained to a CC interface on the APCC on the front-panel RJ45 jacks or backplane connectors. Up to 63 EX cards can be used per APCC card.DRAFT
Chapter 24 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Types of APCC ConfigurationsThe APCC single-slot configuration consists of dual APCC radio ports, Sensys Networks Expansion (EX) port, and contact closure interface via backplane to a traffic controller. It also has dual USB 2.0 full speed host ports and 10/100Base-T network access. The APCC dual-slot configuration adds an SD memory card, real-time battery-backed clock, dual serial (DB9) interface, or an optional built in cellular modem.Figure 2.1. APCC configurationsAPCC SystemThe minimum APCC system consists of an APCC and one SPP radio. The system can also consist of multiple SPP radios and an isolator that offers electrical isolation up to 1500V, surge protection up to 1500V, and AC power cross protection.Figure 2.2. APPC system configurationDRAFT
OverviewAccess Point Controller Card (APCC) 5Sensys Networks, Inc. Installation Guide APCC Serial Port Protocol (SPP) Digital RadioThe APCC, along with the SPP, maintains two-way wireless links to an installation’s sensors and repeaters, establishes overall time synchronization, and transmits configuration commands and message acknowledgements. Figure 2.3. SPP digital radioIsolatorThe isolator is an optional component that provides the following services:connects an SPP to the APCCisolates and routes power from the controller backplane to the SPPextends the communication for the APCC to and from the SPP at RS422 distance. Figure 2.4. IsolatorAPCC Package ContentsEach APCC is shipped with the items listed below. Verify that you have received all of them. In the event that some items are missing, contact Sensys Networks or the party that supplied the equipment to you.The items in a Sensys Networks APCC shipment include:An APCCAccess Point Controller Card Installation Guide (this document)Information sheetThe Sensys Networks APCC is shipped with a factory default configuration suitable for bench-testing the device and typically require further configuration to meet the needs of specific applications. Hardware serial numbers are found on the information sheet.The APCC and EX cards are available in the models as shown below. Verify that you have the correct model for your application.DRAFT
Chapter 26 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Table 1. APCC modelsSPP Package ContentsEach SPP is shipped with the items listed below. Verify that you have received all of them. In the event that some items are missing, contact Sensys Networks or the party that supplied the equipment to you.The items in an SPP shipment include:An SPP “Tool less” push/pull Ethernet bulkhead connectorInformation sheet (one per device)Item that is shipped separately:Universal mounting kit (kit can be purchased from Sensys Networks)SPP digital radios are shipped with a factory default configuration suitable for bench-testing the device and applicable to many field environments. The information sheet details the physical attributes of the SPP as well as key configuration elements.SPP information sheets contain the following elements:Serial number – a globally unique identifier for the SPPDefault RF channel – a critical configuration propertyDefault IP addressFirmware release versionNOTE:RF channel is essential for communicating and further configuring the wireless sensor network. Save all information sheets for the party who will configure and use the network after it is installed. Refer to the Configuration chapter of the Sensys Networks VDS240 Wireless Vehicle Detection System Reference Guide for more information about network operations and configuration.Product DescriptionAPCC-M APCC ModuleAPCC-M-E APCC Module with Enhanced EthernetAPCC-MP-E APCC Module with Peripheral Support and Enhanced EthernetAPCC-MP-EG APCC Module with Peripheral Support and Enhanced Ethernet, GSMAPCC -MP-EV APCC with Peripheral Support and Enhanced Ethernet, VerizonEX240 Expansion Card for Type 170, Type 2070, or NEMA TS1 or TS2 traffic controllersDRAFT
OverviewAccess Point Controller Card (APCC) 7Sensys Networks, Inc. Installation Guide Universal Mounting Kit ContentsThe following parts are included in the SPP mounting kit:SPP ball plate (rectangular, attached to the SPP at the factory, refer to Figure 2.5)Figure 2.5. Factory installed ball plate (rectangular)Surface mounting ball plate (square, refer to Figure 2.6)Figure 2.6. Surface (wall/beam/pole) mounting ball plate (square)Double socket arm (refer to Figure 2.7)Figure 2.7. Double socket armDRAFT
Chapter 28 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.5-foot clamp bandClamp fastenerAdditional Parts and Equipment RequiredAdditional parts and equipment required for installation and configuration of a APCC include the following:Standard Ethernet compatible, outdoor rated, 4-pair CAT5 (or better) cable (refer to Notes below)RJ45 jack kit and crimp toolCable tiesPC or laptop with Microsoft® Windows® XP Professional or Windows 7 (including 64-bit editions) and TrafficDOT, the system management software tool from Sensys Networks.NOTE:The APCC is available with a range of options. Verify that the APCC you are using with the contact closure card(s) is appropriate for that use.Notes1. Cabling – a minimum of one straight-through Ethernet cables are required.2. Laptop PC and TrafficDOT software – if contact closure cards will be configured via TrafficDOT's GUI, a suitable host is required.3. Contact closure card functions can be configured from the switches on the front panel eliminating the need for a laptop PC and TrafficDOT.DRAFT
Access Point Controller Card (APCC)  9Sensys Networks, Inc. Installation GuideChapter 3 APCC Installation ConsiderationsThis chapter provides the installation considerations for the APCC. Prior to installing an APCC ensure that the following aspects have been considered in the site design.1. Identify the devices that will be used with the APCC (refer to Identifying the SPP and Sensors).2. Determine the configuration of the APCC (refer to Determining the Device Configuration).3. Determine the number of available slots in the traffic controller's detector shelf and which contact closures are required (refer to Determining Slots and Contact Closures).4. Develop the sensor-to-contact closure card mappings (refer to Mapping Wireless Sensors to Contact Closures).Identifying the SPP and SensorsSPPEach APCC must connect to an SPP. This connection supplies power to the SPP and passes command and configuration data to/from the APCC. There is a one-to-one relationship between the APCC and master cards in a network. Determine the location of the SPP relative to the cabinet that will hold the APCC card. The Cat5 cable that connects to the SPP to the APCC, via an isolator, must meet standard length limitations (2,000 ft with isolator) for RS422 communication.DRAFT
Chapter 310 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Wireless SensorsEach channel of an APCC interfaces a designated set of sensors to a designated contact closure. Ensure information describing which sensor (or sensors) will actuate a given APCC is available.NOTE:Wireless sensors have a unique identifier known as the Sensor ID. Use this identifier to refer to sensors in design notes and plans.Determining the Device ConfigurationConfiguration of an APCC is based on the following design decisions:The number of APCC channels enabledThe operating mode (pulse or presence) of each channelThe use of and settings for any optional elements that modify the behavior of channels operating in presence modeThe channel status communication method (LED-only) used by each channelConfiguration WorksheetEach APCC supports up to four channels that are separately configured. Design decisions can be captured in a Channel Configuration Worksheet such as the one shown below. NOTE:Default values are shown in bold.Configuration Element Options Example Data1. Card identifier (Defined by the traffic controller or installer)2. Channel 1, 2, 3, 4 13. Channel State Enabled | Disabled Enabled4. Channel Mode Pulse | Presence Presence4a. Presence Mode Modifier(applicable only to channels in presence mode)4b. Modifier Type None | Delay | Expansion Delay4c. Modifier Duration 0 – 31 seconds in 1 sec increments (Delay, Delay16+)0 – 7.5 seconds in 0.5 second increments (Expansion)5DRAFT
APCC Installation ConsiderationsAccess Point Controller Card (APCC)  11Sensys Networks, Inc. Installation Guide Table 2. Channel configuration worksheet with example data (default values shown in bold)Notes1. Contact closure cards are addressed by the Card ID, a value dictated by the controller or supplied by the installer.2. Complete one worksheet for each channel.3. Channel Holdover Setting should not be used; set it to zero.4. The items listed in the section Other Information are not part of APCC configuration. They are relevant to other aspects of installing and operating the APCC.Determining Slots and Contact Closures Configuration of contact closure cards depends on (i) the availability of open slots on the controller backplane and (ii) the use of any predefined functions or phases for each slot – such as in the case of a standard CalTrans 322 shelf, where one contact closure card and three contact closure EX cards are required (one card per phase). Typically, a site survey of the traffic controller is required.Shelf and slot information from the controller are used to create an identifier, known as the Card ID, that uniquely defines an APCC in the network. WARNING!If using an APCC with an I/O board, it is essential that there is an empty slot directly to the left of the APCC.5. Channel Holdover Setting0 -.75 seconds in .05 second increments 06. Channel Status CommunicationsLED-only | LED and Tone LEDOther Information (Optional)APCC identifier (from APCC)192.2.68.100Distance from APCC (without Isolator)328 feet (100 meters) – 10BaseT  6 feetList of wireless sensor for the channel(use SensorIDs of each sensor)0707AC15020DConfiguration Element Options Example DataDRAFT
Chapter 312 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Mapping Wireless Sensors to Contact Closures The final installation consideration for contact closure cards are the assignment of sensors to specific channels.The four channels represent independent contact closures which, in turn, are actuated by the vehicle detection events transmitted by a defined group of wireless sensors. Each sensor may be associated with zero or one Card ID/Channel combinations.Up to 15 wireless sensors can be associated with the same card/channel, in which case the sensors are logically “OR-ed” together – meaning that if any sensor on the channel detects a vehicle, the corresponding contact closes.The sensor-to-contact closure channel mappings are stored in a sensor database that resides in memory. The sensor-to-contact closure channel mappings are maintained within TrafficDOT.Defining the channel mappings is aided by the use of a Channel Mapping Worksheet such as the one shown below.Table 3. Sensor-to-channel mapping worksheet with sample dataNotes1. The worksheet assumes one sensor per row. Use as many rows as necessary to assign all necessary sensors to channels.2. Do not duplicate Sensor ID values. (A wireless sensor may only be assigned once.)3. The sample data above depicts representative Card ID values. Since these values are rarely known prior to field installation, substitute a place-holder value so that the installer will understand how the wireless sensors are allocated to the channels.4. Values for Channel Extension and Location are optional.Card ID Channel (1 - 4) Sensor IDChannel Extension (opt.)Location / Lane / Description (opt.)3-02 106C2 0East bound, lane 13-02 106C3 0East bound, lane 23-05 214C7 0Advance C.33-06 30404 0Stop bar A13-15 105D7 0West bound, lane 1DRAFT
Access Points Controller Card (APCC) 13Sensys Networks, Inc. Installation GuideChapter 4SPP Installation ConsiderationsThis chapter provides the installation considerations for the SPP. Prior to installing the SPP, ensure that the following aspects have been considered in the site design.Powering the SPP Collecting Data From the APCCDetermining the Location of the SPPEach consideration is discussed below. In addition, refer to the Sensys Networks Wireless Vehicle Detection System Reference Guide, Design Guidelines for Freeway Applications, and Design Guidelines for Intersection Applications for more information.NOTE:Under Industry Canada regulations, this radio transmitter may only operate using an an-tenna of a type and maximum (or lesser) gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type and its gain should be chosen so that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for successful communication.Powering the SPPThe overall network design determines how the SPP is powered; two general models are supported:Acquiring power directly from a traffic controller cabinetAcquiring power from a traffic controller using optional isolator DRAFT
Chapter 414 Access Points Controller Card (APCC)Installation Guide Sensys Networks, Inc.Acquiring Power From a Traffic ControllerAn SPP can be directly interfaced to a traffic signal controller through an APCC. When this is the case, power to the SPP is drawn from the traffic controller as shown in the following figure.Figure 4.1. SPP radio powered from a traffic controllerAcquiring Power From Traffic Controller Using an IsolatorAn optional isolator can be used when acquiring power from the traffic controller as shown in following figure.DRAFT
SPP Installation ConsiderationsAccess Points Controller Card (APCC) 15Sensys Networks, Inc. Installation Guide Figure 4.2. SPP radio powered from a traffic controllerVoltagesThe APCC uses the following voltages drawn from one of the following sources:20VDC – 28 VDC (24 VDC nominal) – typically supplied from a nearby traffic controller cabinet or power pole10VDC – 16 VDC (12 VDC nominal) – typically supplied from a solar panelCablingStandard Ethernet compatible, outdoor rated, 4-pair CAT5 or better cable is required. The maximum cable length is 328 feet (100 meters) or 2,000 ft (610 meters) with isolator. The cable should be terminated with RJ45 connectors according to the TIA/EIA 568-B specification when it is installed.Collecting Data From the APCCThe APCC automatically collect detection events and, depending on the network design, forward them to upstream traffic information systems and management servers via an IP network connection. An on-board Ethernet network interface facilitates this. In situations where a wired network connection is not available, a modem supporting either GSM-based or CDMA-based cellular services may be added.The following connection models are supported for IP communications:Connection via a wired network path – for example, bench configuration prior to installation, field access based on patching a technician's laptop to the APCC via an Ethernet cable, or an available wide area network connection.DRAFT
Chapter 416 Access Points Controller Card (APCC)Installation Guide Sensys Networks, Inc.Connection via a wireless network path – for example, using GSM cellular networks (EDGE/GPRS data services) or CDMA cellular networks (1xRTT data services).Additionally, event data may be forwarded to a local traffic signal controller via an APCC. This interface converts event data to the signal pattern required by the traffic controller. Determining the Location of the SPPThe physical location of the SPP is the primary determinant of communications quality and, as such, the network's overall usefulness and reliability. Selecting a location involves several factors (including other local RF transmissions) that may make pre-assigned locations problematic. Optimal Location CriteriaOptimal locations for SPP digital radios meet all of the following criteria:are high enough to promote high quality RF communications on a sustained basisallow a line-of-sight path to (optional) isolator, wireless sensors, and repeatersare within recommended distances for the APCC, (optional) isolator, and wireless sensorsallow the SPP to be mounted with its bulkhead connector and cellular antenna (if applicable) pointed toward the groundare within specified cable length limitsdo not submit the SPP to avoidable vibration, shaking, or movementare reasonably accessible to field support personnelDRAFT
Access Point Controller Card (APCC) 17Sensys Networks, Inc. Installation GuideChapter 5APCC Installation ProceduresThis chapter provides the instructions for installing and cabling an APCC.OverviewInstallation and setup of APCC occurs at the site of the traffic controller and consists of the following activities:Determining the Card ID and Setting it via Circuit-board Dip Switches SW1 and SW2Determining the Controller Type and Setting it via Circuit-board Dip Switch SW1Connecting the Cables to Each DeviceDetermining the Card ID and Setting it via Circuit-board Dip Switches SW1 and SW2APCC and EX cards are addressed via a value known as the Card ID. A Card ID must be unique to the network and is required for communication between the APCC and the EX cards.Card ID values are expressed as: [ shelf number ] - [ slot number ].Both shelf-number and slot-number must be determined to create a Card ID.Some traffic controllers designate the card address, while others (typically older models) do not. In the latter case, the installer assigns the Card ID ensuring that it is unique to the network.Follow the procedures in this section for each contact closure card to be installed.DRAFT
Chapter 518 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Factory Default Card IDCard IDs are implemented on Sensys Networks contact closure cards via two dip switches found on the side of the card. In this guide, the switches – named SW1 and SW2 respectively – are referred as circuit-board dip switches to differentiate them from other dip switches on the front-panel of contact closure cards.A default Card ID of “03-15” is assigned at the factory and is shown in the following figure. NOTE:On the card, switches SW1 and SW2 are not as close to one another as shown in the figure.Figure 5.1. Default card ID (all dips down)Before proceeding, ensure that switches SW1 and SW2 are set as in Figure 5.1 and, additionally, that all front-panel switches are in the right-hand position.Querying the Backplane for an Assigned AddressThe APCC support an operating mode (called X mode) that queries the traffic controller backplane for an address. Because it can be difficult to determine from visual inspection if the backplane dictates card addresses, the standard practice is to use X mode to see if this is the case.X mode uses the four front-panel channel LEDs to visually indicate the backplane address assigned by the controller (if any). (Refer to Appendix A: X Mode LED Displays for Slot Numbers for a figure that depicts how the channel LEDs are used.)Follow these steps to use X mode to query the controller for a card address:1. Verify that the APCC is set to its default Card ID and that all front-panel switches are in the right-hand position.2. Reset the APCC by pressing the master reset button (located on front-panel next to channel LEDs) or removing the unit from the cabinet and re-inserting it.3. Observe the front-panel channel LEDs. Match the pattern of lighted LEDs with the figure in Appendix A: X Mode LED Displays for Slot Numbers.The address value that matches the LED display pattern (from Appendix A) is the slot number component of the Card ID.DRAFT
APCC Installation ProceduresAccess Points Controller Card (APCC) 19Sensys Networks, Inc. Installation Guide NOTE:After the cabinet backplane is queried for an address, be sure to take the APCC card out of X-mode by setting front-panel dip switch 2 to the right, and resetting the card.Setting the Slot-Number With Circuit-board Dip Switch SW2Circuit-board dip switch SW2 implements the slot number component of the Card ID. Set switch SW2 to match the value derived from the figure in Appendix A subject to the exception noted below.ExceptionIn cases where the controller does not assign an address, the installer will see a front-panel channel LED display pattern indicating an address of 15 (all LEDs lighted). This address can be used for the first contact closure card installed. However, subsequent cards must be given a different address – arbitrarily assigned by the installer. Any value between 0 and 15 may be used; remember that Card IDs must be unique for the network.Refer to Appendix C: Circuit-board Dip Switch SW2 Settings for a figure that illustrates how to set switch SW2 to values between 0 and 15.Setting the Shelf-Number With Circuit-board Dip Switch SW1Circuit-board dip switch SW1 implements the shelf number component of the Card ID. Shelf numbers are assigned by the installer after visually inspecting the cabinet.The convention is to consider the top-most shelf in the card rack as shelf zero and to increment the shelf number by one for each shelf below the top-most shelf. For example, the bottom shelf in a cabinet of four shelves would be considered shelf three.Set circuit-board dip switch SW1 to the shelf number using the two left-most switches. Refer to Appendix B: Circuit-board Dip Switch SW1 Settings for a figure that illustrates how to set switch SW1 to values between 0 and 3.Determining the Controller Type and Setting it via Circuit-board Dip Switch SW1At the factory, contact closure cards are set for use with Type 170, Type 2070 (without status relays), or NEMA TS1 traffic controllers. This setting is made with switch three of circuit-board dip switch SW1.Verify the controller type and set dip three of circuit-board dip switch SW1 as needed. Use the figure in Appendix B: Circuit-board Dip Switch SW1 Settings as a guide for setting switch three of SW1 to the proper value.DRAFT
Chapter 520 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Connecting the Cables to Each DeviceCable the devices according to the steps below. Refer to the section Cabling Summary below for figures that depict the supported cabling schemes.NOTE:The steps below are for a system configuration that contain an optional isolator, and an EX card. A figure of a minimal cabling configuration is shown in the Cabling Summary section.1. Connect a straight-through CAT5 (or better) cable, terminated with RJ45 connectors to the SPP and the port labeled “SPP” on the isolator.2. Connect a straight-through CAT5 (or better) cable, terminated with RJ45 connectors to the jack labeled “APCC” on the isolator and the port labeled “SPP-1 or SPP-0” on the APCC.The green LED labeled “POWER” on the APCC should light.When communication is established between the SPP and the APCC, the LED labeled “LINK” blinks periodically. When data from the radios are being transmitted to the APCC, a periodic blinking occurs.3. Connect a straight-through CAT5 (or better) cable, terminated with RJ45 connectors to the jack labeled “TO: EX CARD” on the APCC and the port labeled “IN” on the EX card.4. To connect a laptop PC to the system, connect a straight-through CAT5 (or better) cable, terminated with RJ45 connectors from the laptop to the port labeled “ETHERNET” on the APCC.5. To connect the APCC to a hub, bridge, switch, router or similar device, use a cross over Ethernet cable.NOTE:Steps 4 and 5 are optional. Connect the laptop PC to the APCC to configure or manage the contact closure cards through TrafficDOT, the system management tool from Sensys Networks.DRAFT
APCC Installation ProceduresAccess Points Controller Card (APCC) 21Sensys Networks, Inc. Installation Guide Figure 5.2. Cabling an isolator and hub or switch to an APCCCabling SummaryThe cabling to connect an APCC, SPP, and laptop is shown in the following figure.Figure 5.3. Cabling a PC or laptopDRAFT
Chapter 522 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.DRAFT
Access Point Controller Card (APCC) 23Sensys Networks, Inc. Installation GuideChapter 6SPP Installation ProceduresThis chapter provides the instructions for installing and mounting an SPP.Installing an SPP consists of the following:Attaching the square surface mounting ball plate to an available vertical surfaceAttaching the SPP to the surface mounting ball plate via the double socket armMounting hardware is included in the universal mounting kit provided with each SPP.Tools Required for SPP InstallationThe following tools are required for installing an SPP:RJ45 crimp tool – to terminate the SPP cable. (Sensys Networks recommends the EZ-RJPRO P/N 100044 from Platinum Tools.)Figure 6.1. EZ-RJPRORJ45 connectors – rated Cat5e or better; to terminate the SPP cableCat5e cable continuity line tester – to validate cable continuityOutdoor rated Cat5e Ethernet cable – to build the SPP cable; length is determined by the distance between the SPP mounting location and the source of power (typically a controller cabinet, solar panel or other available source)DRAFT
Chapter 624 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.2 straight-through Cat5 Ethernet cables – each approximately three feet in length; used in installations where the SPP is connected to a contact closure card in a controller cabinet.Additional straight-through Cat5 Ethernet cables – optional; each approximately one foot in length; these cables are used to daisy chain multiple contact closure cards. Required only in the case of multiple CC/EX cards.Lift truck – to install the SPP 16 – 30 feet above the road surfaceScrewdriver – combination flat and Phillips head endsUniversal mounting kit – double-socket arm holds the SPP. (Kit can be purchased from Sensys Networks.)Clamp band kit – for attaching double-socket arm to mounting pole. (Kit supplied by Sensys Networks.)Pliers – used to work the clamp bandWire cutters – used to cut the clamp bandStep-by-Step ProceduresThe square surface mounting ball plate can be installed on any available vertical surface sufficient to support the SPP including poles, walls or beams. This section provides procedures for pole installation; considerations for wall or beam mounting follow this section.Installing the Mounting Plate on PolesWhen attaching the square surface mounting ball plate to a pole, the clamp band is used to secure the ball plate to the pole. (Refer to Appendix A for more information about working with the clamp band.)Follow these steps to perform the installation:1. Use the measuring tape to determine the circumference of the pole that will hold the ball plate.2. Subtract four inches from the measured circumference and cut the band to that length. Cut the band through the center of the nearest round hole.3. Feed the clamp band through the square ball plate using the custom clamp holes (refer to the following figures) until the square ball plate is at the center of the band. Attach the fastener to one end of the band by diagonally inserting the end.DRAFT
SPP Installation ProceduresAccess Point Controller Card (APCC) 25Sensys Networks, Inc. Installation Guide Figure 6.2. Clamp band threading through surface mounting ball plate4. Use the cloth to clean the area of the pole that will meet the ball plate. Remove the double stick tape cover from the back of the plate, wrap the clamp band around the pole, and attach the second (non-engaged) end of the fastener. Tighten the clamp to secure it.5. Attach the double socket arm to the square ball plate.6. Attach the SPP ball plate to the other end of the double socket arm.Figure 6.3. Double socket arm installation7. Point the front of the SPP toward the wireless sensors and tighten the double socket arm to secure the SPP digital radio's position.Installing the Mounting Plate on WallsWhen attaching the square surface-mounting ball plate to a flat surface, the clamp band is not used. Instead, attach the ball plate to the surface with screws using each of the four corner holes.Installing the Mounting Plate on BeamsWhen attaching the square surface-mounting ball plate to a beam, the clamp band is not used. Instead, attach the ball plate to the beam with beam clamps using two of the four corner holes. Beam clamps are available from Sensys Networks.DRAFT
Chapter 626 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Determining the Type of SPP Radio Bulkhead ConnectorThe bulkhead connector mechanism used on SPPs from Sensys Networks is one type:Hex-head type Refer to the following figure to determine the proper installation procedure.SPP Radio Bulkhead ConnectorFigure 6.4. SPP radio bulkhead connector type: hex-headFigure 6.4 shows the SPP hex-head connector. Follow the procedures in the section Connecting the Cable to an SPP Radio with the Hex-head Connector to connect the Ethernet cable to SPPs using this connector type.Connecting the Cable to an SPP Radio with the Hex-head ConnectorFollow the steps in this section to properly connect the cable to the SPP via the hex-head bulkhead connector.ComponentsOpen the bulkhead connector kit and arrange the components as shown in the following figure. In the figure, the two principal connectors are labeled A and B respectively.NOTE:Two cable bushings are included; choose one to fit the outside diameter of the Ethernet cable being connected to the SPP. Additionally, a spare gasket is included; use the gasket only if the factory installed gasket is lost or visibly damaged.DRAFT
SPP Installation ProceduresAccess Point Controller Card (APCC) 27Sensys Networks, Inc. Installation Guide NOTE:Figures in this section depict only one of the bushings. The procedures apply equally to either bushing.Figure 6.5. Components used with the hex-head bulkhead connectorStep-by-Step Procedures1. Remove the factory installed hex-head cap from the bottom of the SPP and set it aside. The cap may be discarded after the cable has been completely connected.Figure 6.6. Remove the factory-installed cap2. Carefully inspect the factory installed gasket seated on the bulkhead connector. Ensure the gasket is seated smoothly and uniformly on the connector with the ridged edge of the gasket facing outward.DRAFT
Chapter 628 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Figure 6.7. Inspect the factory-installed gasketReplace the gasket if it does not uniformly seat or shows signs of fatigue or wear. (When replacing an SPP, always use a new gasket.)NOTE:Use gaskets from Sensys Networks only. Never substitute a different gasket; doing so exposes the device to environmental risk and voids the product warranty.Figure 6.8. Replace damaged or used gaskets3. Thread the cable through the Connector A as shown in the following figure.Figure 6.9. Thread cable through connector ADRAFT
SPP Installation ProceduresAccess Point Controller Card (APCC) 29Sensys Networks, Inc. Installation Guide 4. Thread the cable through Connector B as shown in the following figure.Figure 6.10. Thread cable through connector B5. Inspect the outer diameter (OD) of the Ethernet cable. Use the following chart to select one of the provided bushings based on the cable OD.NOTE:Use only one bushing. Discard the other bushing after the job is complete.Figure 6.11. Ethernet cable bushing chart (not to scale)6. Fit the bushing onto the cable between Connectors A and B as shown in the following figure. Proper fit is achieved when the bushing fully closes around the cable with no gap at the cut.Figure 6.12. Fit bushing onto cable between connector A and connector BDRAFT
Chapter 630 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Proper Fit (little to no gap between edges of cut)Figure 6.13. Correct fit: bushing closes fully around cable with little or no gapImproper Fit (gap between edges of cut)Figure 6.14. Incorrect fit: bushing does not close fully around cable leaving large gap7. Connect the cable to the RJ45 input jack on the bottom of the SPP.Figure 6.15. Connect cable to input jack8. Thread Connector B onto the hex-head nut on the bottom of the SPP and tighten by hand until it no longer turns easily.NOTE:Snug Connector A down by hand. Do not over-tighten or use tools.DRAFT
SPP Installation ProceduresAccess Point Controller Card (APCC) 31Sensys Networks, Inc. Installation Guide Figure 6.16. Thread connector B onto the SPP and hand tighten9. Slide the cable bushing toward the SPP and fully insert it into the guide fingers on Connector B as shown in the following figure. Proper fit is achieved when the edge of the bushing is flush with the edge of the guide fingers.Figure 6.17. Slide cable bushing fully into connector BProper Fit (bushing fully seated into guides)Figure 6.18. Proper fit of cable bushing into connector BDRAFT
Chapter 632 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Improper Fit (bushing poorly seated into guides)Figure 6.19. Improper fit of cable bushing into connector B10. Thread Connector A onto Connector B and tighten by hand until it no longer turns easily.NOTE:Snug Connector A down by hand. Do not over-tighten or use tools.Figure 6.20. Thread connector A onto connector B and hand tighten11. Inspect the seating of the bushing by looking at it from the exposed cable end of Connector A. Proper fit is achieved when all of the following conditions are met:bushing edge is recessed 1/8” to 1/4” below the lip of Connector Abushing face is smooth - not puckered or pinchedbushing face does not protrude out of Connector ADRAFT
SPP Installation ProceduresAccess Point Controller Card (APCC) 33Sensys Networks, Inc. Installation Guide Proper Fit (recessed bushing, smooth face)Figure 6.21. Proper fit of the cable bushing inside connector AImproper Fit (bushing not recessed, pinched edge, mushroomed face)Figure 6.22. Improper fit of the cable bushing inside connector ARemoving the Cable ConnectionPerform procedure above in reverse to remove the cable from the SPP.DRAFT
Chapter 634 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.DRAFT
Access Point Controller Card (APCC) 35Sensys Networks, Inc. Installation GuideChapter 7ConfigurationThis chapter explains how to configure channels and other operating elements of contact closure cards in the APCC and EX cards.NOTE:Prior to configuring channels, ensure that each contact closure card has been given a unique Card ID. Refer to the Identifying the SPP and Sensors section in the Installation Considerations chapter for more information.OverviewEach channel of an APCC or EX card is configured separately. Configuring a channel consists of the following activities:Enabling (or disabling) the channelSpecifying the channel modeSetting a presence mode modifier (optional)Specifying the type of communication used to disclose channel statusAdditionally, after channel configuration is completed, TrafficDOT is used to define the sensor-to-channel mappings stored on the APCC.After all configuration work is complete, including definition of sensor-to-channel mapping entries for all channels, Sensys Networks recommends verifying the operation of each channel using the front-panel channel LEDs.DRAFT
Chapter 736 Access Point Controller Card (APCC) Installation Guide Sensys Networks, Inc.Configuration MethodsConfiguration occurs through two mutually exclusive choices: (i) the card's front-panel interface or (ii) with TrafficDOT, the system management application from Sensys Networks. This chapter includes the following sections:Configuring Channels With the Front-Panel InterfaceStarting TrafficDOT and Connecting to an APCCConfiguring Channels with TrafficDOTDefining Sensor-to-Channel MappingsExiting TrafficDOTConfiguring Channels With the Front-Panel InterfaceAfter completing the configuration of all channels, continue setting up the APCC by starting the TrafficDOT software utility and defining the sensor-to-channel mappings.NOTE:If the APCC is configured with TrafficDOT, this section can be ignored.General ProcedureThe general procedure for configuring channels via the front-panel is provided below. Examples of specific configuration activities are included in the following sections. The steps are as follows:1. Select a channel.2. Move dip switches (as required) to represent the desired settings.3. Press the MASTER RESET button on the card front-panel and hold it down for a minimum of five seconds.DRAFT
ConfigurationAccess Point Controller Card (APCC) 37Sensys Networks, Inc. Installation Guide Figure 7.1. Configuration via the front-panel interfaceSaving the ConfigurationAfter the MASTER RESET button is pressed, the LINK LED flashes. When the flashing stops, the settings have been stored in flash memory.The sections below give examples of setting specific configurations via the front-panel interface. The procedures may be performed in any order or combination.Enabling / Disabling a ChannelAPCC and EX cards ship with channels one and two enabled. Sensys Networks recommends explicitly disabling all unused channels.Follow these steps to enable or disable a channel.1. Position front-panel dip switch 8 to the left to enable (to the right to disable) the channel.Figure 7.2. Enabling (disabling) a channel with front-panel dip switch 82. Press the Enter button for five seconds to save the configuration to flash memory or continue with other configuration activities described in this section.DRAFT
Chapter 738 Access Point Controller Card (APCC) Installation Guide Sensys Networks, Inc.Specifying the Channel ModeContact closure cards operate in either pulse or presence mode. (Refer to the Sensys Networks VDS240 Wireless Vehicle Detection System Reference Guide for information about the operating modes.)Follow these steps to specify the operating mode of the channel.1. Position front-panel dip switch 7 to the left to select presence mode or to the right to select pulse mode.Figure 7.3. Selecting the channel operating mode with front-panel switch 72. Press the Enter button for five seconds to save the configuration to flash memory or continue with other configuration activities described in this section.Setting a Presence Mode Modifier (Optional)Channels operating in presence mode may use a modifier to delay the onset of or extend the duration of a contact closure. The modifier type and scope is specified using front-panel dip switches five and six together. (Refer to the Sensys Networks VDS240 Wireless Vehicle Detection System Reference Guide for more information.)Using Delay and ExtensionWhen Delay or Extension are specified, the rotary dial is used to articulate the numeric value associated with the parameter.When Delay is specified, the value set on the rotary dial is taken directly. This allows the 16-step rotary switch to represent values from 0 to 15.When Delay+16 is specified, the value set on the rotary dial is incremented by 16. This allows the 16-step rotary switch to represent values from 16 to 31.When Extension (EXTN / 2) is specified, the value set on the rotary dial is divided by 2. This allows the 16-step rotary switch to represent values from 0 to 7.5 in ½ step increments.Specify a contact closure delay or extension for channels operating in presence mode by following these steps:1. Position front-panel dip switches 5 and 6 and the front-panel rotary switch to reflect the desired modifier and scope value. Use the figure below as a guide.DRAFT
ConfigurationAccess Point Controller Card (APCC) 39Sensys Networks, Inc. Installation Guide Figure 7.4. Setting a delay or extension with front-panel dip switches 5 and 6 (rotary switch not shown)NOTE:This step is optional; set both dips to right-hand position to disable the feature. Additionally, front-panel switches 5 and 6 are ignored for channels operating in pulse mode.2. Press the Enter button for five seconds to save the configuration to flash memory or continue with other configuration activities described in this section.Specifying the Type of Communication Used by the Channel Status MonitorContact closure cards indicate the status of each channel via the front-panel LEDs. The state of an LED corresponds directly to the channel state. When the LED is on, the channel relay is closed indicating a call. When the LED is not on, the channel relay is open.Additionally, a contact closure card can be set such that closed channel relays activate an audible tone (buzzer) as well as the front-panel LED for the channel. The audible channel status tone is set via front-panel dip switch one as follows:1. Position front-panel dip switch 1 to enable or disable the audible channel status monitor. Use the figure below as a guide.DRAFT
Chapter 740 Access Point Controller Card (APCC) Installation Guide Sensys Networks, Inc.Figure 7.5. Setting the channel monitor buzzer with front-panel dip switch 12. Press the Enter button for five seconds to save the configuration to flash memory or continue with other configuration activities described in this section.Starting TrafficDOT and Connecting to an APCCTrafficDOT is a configuration manager and monitoring tool for an access point and all its associated devices (sensors, repeaters, and contact closure cards). TrafficDOT provides a graphical user interface (GUI) to the network's devices, settings, and operations. The GUI simplifies both configuration and management of installations.TrafficDOT requires an IP network connection to the APCC. When configuring contact closure cards, the connection is made by cabling a laptop to an APCC or EX card. (Refer to the section Cabling Summary in Chapter 5 for additional information.)NOTE:Refer to the TrafficDOT Set Up and Operating Guide for a more information on using TrafficDOT with the Sensys Networks Wireless Vehicle Detection System.Connect to the APCC with TrafficDOT by following these steps:1. On a Windows laptop or PC, start TrafficDOT by clicking its icon. TrafficDOT's Main window opens with the Connect window open in front of it.DRAFT
ConfigurationAccess Point Controller Card (APCC) 41Sensys Networks, Inc. Installation Guide Figure 7.6. TrafficDOT Main and Connect windows2. Type the IP address of the APCC into the IP Address field and accept the default value in the TCP Port field. Click Connect.3. After clicking Connect, wait a moment for the Main window.Figure 7.7. Map viewDRAFT
Chapter 742 Access Point Controller Card (APCC) Installation Guide Sensys Networks, Inc.Configuring Channels with TrafficDOTTo select an controller card for configuration, click a controller card on your image map. The Controller Card Configuration window displays.Figure 7.8. Controller Card Configuration windowEntering controller card information To enter controller card information, select the controller card image on the map and enter the information into the Configuration Panel, or drag and drop a sensor onto the controller card icon, and then enter the information.DRAFT
ConfigurationAccess Point Controller Card (APCC) 43Sensys Networks, Inc. Installation Guide Figure 7.9. Controller Card Channels tabConfiguring Channel StateContact closure card channels are independent of one another and are individually configured. Each channel occupies one of the following states:Enabled – the channel is operational; Sensor event data collected by the access point is transmitted to the contact closure card.Disabled – the channel is not operational. (When a channel is disabled, its contact closure relay and status relay are continuously open.)The factory default configuration enable channels one and two. Ensure that any unused or unavailable channels are disabled.Configuring Channel ModeEnabled channels operate in one of the following modes:Pulse – the contact closure relay pulses for 0.125 seconds each time the leading edge of a vehicle is detected.Presence – the contact closure relay remains closed while a vehicle is detected.The factory default setting is pulse mode.DRAFT
Chapter 744 Access Point Controller Card (APCC) Installation Guide Sensys Networks, Inc.Configuring Presence Mode ModifierThe behavior of a channel operating in presence mode may adjusted by applying one of the following modifiers:Delay – defers the onset of the contact closure by a specified duration. If a vehicle moves off of the sensor before the specified delay expires, the contact does not close. Delay is expressed in seconds from zero to 31.Extension – increases the duration of the contact closure by a specified increment. Extension is expressed in half-seconds from zero t0 7.5.The modifiers do not apply to channels operating in pulse mode.Configuring Channel Holdover DurationThe Channel Holderover parameter allows an extension to the channel holdover duration when it is activated by the events from a particular sensor. Values from 0.0 to 0.75 are available for selection.Defining Sensor-to-Channel MappingsTo map sensors to an APCC or EX card, perform the following steps:1. Select a sensor from the image map.2. Open the Card Addresses window by clicking the Card Addresses tab. The Extension entry extends the duration of an APCC or EX card on a per-sensor basis. The Delay entry delays the duration of an APCC or EX card on a per-sensor basis; these entries are optional.The shelf number-slot number is a card address associated with an APCC or EX card, and channel is between 1 and 4.DRAFT
ConfigurationAccess Point Controller Card (APCC) 45Sensys Networks, Inc. Installation Guide Figure 7.10. Card Addresses window3. Select a Shelf number, a Slot number, and a Channel from the drop-down lists.NOTE:The C button clears the data in that row.4. Click Apply to save configuration.NOTE:To assign a sensor to multiple controller channels, supply entries to the additional Card Addresses areas.Exiting TrafficDOTEnd the TrafficDOT session by selecting Disconnect from the Connect menu.DRAFT
Chapter 746 Access Point Controller Card (APCC) Installation Guide Sensys Networks, Inc.DRAFT
Access Point Controller Card (APCC) 47Sensys Networks, Inc. Installation GuideAppendix AX Mode LED Displays for Slot NumbersThis appendix depicts the channel LED displays when an APCC operates in X mode.When a card is configured in X mode, the front-panel channel LEDs display one of the patterns shown in the figure below. Match the pattern of the front-panel channel LEDs to a pattern in the figure. Use the corresponding value found under the heading Address as the slot-number portion of the Card ID. (Refer to Examples after the figure.)DRAFT
Appendix A48 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Figure A.1. Channel LED display / slot number combinationsExamples1. All fours channel LEDs lighted indicates slot number 15.2. Single lighted LED on channel 2 indicates slot number 4.DRAFT
Access Point Controller Card (APCC) 49Sensys Networks, Inc. Installation GuideAppendix BCircuit-board Dip Switch SW1 SettingsThis appendix depicts combinations of switch settings on the circuit-board dip switch SW1.Settings for Shelf NumberThe figure below depicts SW1 settings that identify the shelf number portion of the unique card address. NOTE:The small, slide switches are referred to by number [1-4] starting with the left-most switch. Switches three and four of SW1 are not used in setting the shelf number.DRAFT
Appendix B50 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Figure B.1. SW1 settings for shelf number (switches 1 and 2 only)Settings for TS1 and TS2 ControllersThe following figure depicts SW1 settings that identify the type of traffic controller. Type 170 and TS1 controllers are set the same way.Figure B.2. SW1 settings for TS controller types (switch 3 only)NOTE:Slide switches one, two, and four are not used in setting the controller type.DRAFT
Access Point Controller Card (APCC) 51Sensys Networks, Inc. Installation GuideAppendix CCircuit-board Dip Switch SW2 SettingsThis appendix depicts combinations of switch settings on the circuit-board dip switch SW2.Settings for Slot NumberCircuit-board switch SW2 is used to designate the slot number portion of a contact closure card's Card ID. The switch combinations and the slot number values they represent are shown in the following figure. (Slot number values appear beneath the switches.)DRAFT
Appendix C52 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Figure C.1. SW2 settings for slot numberDRAFT
Access Point Controller Card (APCC) 53Sensys Networks, Inc. Installation GuideAppendix DPre-Installation WorksheetsThis appendix provides worksheets for capturing pre-installation information. Refer to the chapter APCC Installation Considerations for more information.Configuration Element Options Value1. Card identifier (Defined by the traffic controller or installer)2. Channel 1, 2, 3, 43. Channel State Enabled | Disabled4. Channel Mode Pulse | Presence4a. Presence Mode Modifier (applicable only to channels in presence mode)4b. Modifier Type None | Delay | Expansion4c. Modifier Duration 0 – 31 seconds in 1 sec increments (Delay)0 – 7.5 seconds in 0.5 second increments (Expansion)5. Channel Holdover Setting 0 -.75 seconds in .05 second incre-ments6. Channel Status CommunicationsLED-only | LED and ToneOther Information (Optional)APCC identifier (from APCC)DRAFT
Appendix D54 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Table 4. Channel configuration worksheetTable 5. Sensor-to-channel mapping worksheetDistance from Sensys APCC (without Isolator)328 feet (100 meters) - 10BaseTList of Wireless Sensor for the Channel(use SensorIDs of each sensor)Card ID Channel (1 - 4)Sensor IDChannel Extension (opt.)Location / Lane / Description (opt.)Configuration Element Options ValueDRAFT
Access Point Controller Card (APCC) 55Sensys Networks, Inc. Installation GuideAppendix EContact Closure Card External InterfacesThis appendix shows the connector pin assignments for the external interfaces of contact closure master and expansion cards.DRAFT
Appendix E56 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.Backplane Edge ConnectionsPin Function (TS1 mode) Function (TS2 mode)1Not connected Channel 1 Delay enable2Not connected Channel 2 Delay enable3Address 3 Address 34Daisy chain RS485 Uplink + Daisy chain RS485 Uplink +5Daisy chain RS485 Uplink - Daisy chain RS485 Uplink -6Address 0 Address 07Not connected Channel 1 status8Daisy chain RS485 Downlink + Daisy chain RS485 Down-link +9Daisy chain RS485 Downlink - Daisy chain RS485 Down-link -10 Address 1 Address 111 AC power neutral AC power neutral12 AC power line AC power line13 Not connected Not connected14 Not connected Not connected15 Address 2 Address 216 Not connected Channel 3 status17 Not connected Not connected18 Not connected Not connected19 Not connected Not connected20 Not connected Channel 2 status21 Not connected Not connected22 Not connected Channel 4 statusAGND GNDB24V 24VCReset input Reset inputDNot connected Not connectedENot connected Not connectedFChannel 1 collector Channel 1 collectorDRAFT
Contact Closure Card External InterfacesAccess Point Controller Card (APCC) 57Sensys Networks, Inc. Installation Guide Table 1.(continued from prior page) Backplane edge connectionsNotes1. Pins G, I, O, and Q are not implemented.HChannel 1 emitter Channel 1 emitterJNot connected Not connectedKNot connected Not connectedLChassis Ground Chassis GroundMAC power neutral AC power neutralNAC power line AC power linePNot connected Not connectedRNot connected Not connectedSChannel 3 collector Channel 3 collectorTChannel 3 emitter  Channel 3 emitter UNot connected Not connectedVNot connected Not connectedWChannel 2 collector Channel 2 collectorXChannel 2 emitter Channel 2 emitterYChannel 4 collector Channel 4 collectorZ Channel 4 emitter Channel 4 emitterPin Function (TS1 mode) Function (TS2 mode)DRAFT
Appendix E58 Access Point Controller Card (APCC)Installation Guide Sensys Networks, Inc.IN RJ45 Connector Pin AssignmentsTable 2. IN RJ45 connector pin assignmentsOUT RJ45 Connector Pin AssignmentsTable 3. OUT RJ45 connector pin assignmentsPin  Function on CC Card Function on EX Card1Not connected Daisy Chain RS485 Downlink +2Not connected Daisy Chain RS485 Downlink -3Not connected Daisy Chain Uplink +4RS485+ Not connected5RS485- Not connected6Not connected Daisy Chain RS485 Uplink -7+48V Not connected848V Return Not connectedPin  Function on CC and EX Cards1Daisy Chain RS485 Downlink +2Daisy Chain RS485 Downlink -3Daisy Chain RS485 Uplink +4Not connected5Not connected6Daisy Chain RS485 Uplink +7Not connected8Not connectedDRAFT

Navigation menu