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1 | Manual | Users Manual | 4.31 MiB |
SENSIT SYSTEM install guide 06-07-2017 | v1.6 RC6 SENSIT SYSTEM | MANUAL Introduction Introduction CONTENT 1 INTRODUCTION _______________________________________________________ 7 2 SENSIT SYSTEM________________________________________________________ 8 ARCHITECTURE _________________________________________________ 8 THE SENSIT SENSORS ____________________________________________ 9 2.2.1 SENSIT IR FLUSH MOUNT ___________________________________ 9 2.2.2 SENSIT IR _______________________________________________ 10 2.2.3 SENSIT FLUSH MOUNT ____________________________________ 11 2.2.4 SENSIT SURFACE MOUNT __________________________________ 12 RELAY NODES _________________________________________________ 13 2.3.1 SENSIT RELAY NODE 2G ___________________________________ 13 SENSIT GATEWAY ______________________________________________ 14 2.4.1 THE GATEWAY ___________________________________________ 14 2.4.2 GATEWAY COMMUNICATION BACKUP _______________________ 14 2.4.3 SENSIT BACKUP BATTERY __________________________________ 15 ADDITIONAL EQUIPMENT ________________________________________ 16 2.5.1 ELECTRONIC PARKING LICENSE ____________________________ 16 2.5.2 SENSIT DISPLAY __________________________________________ 17 2.5.3 SENSIT CONFIGURATION TOOL _____________________________ 18 SENSIT INTERFACE SOFTWARE ___________________________________ 19 3 INSTALLATION PROCEDURES ___________________________________________ 20 4-STEPS WITHOUT THE CONFIGURATION TOOL _____________________ 20 3.1.1 STEP 1 PREPARATION ___________________________________ 20 3.1.2 STEP 2 GATEWAY AND RELAY NODE INSTALLATION __________ 20 3.1.3 STEP 3 SENSIT INSTALLATION _____________________________ 20 3.1.4 STEP 4 SETTING UP THE SENSIT INTERFACE SOFTWARE _______ 20 4-STEPS WITH THE CONFIGURATION TOOL _________________________ 21 3.2.1 STEP 1 PREPARATION ___________________________________ 21 3.2.2 STEP 2 GATEWAYS AND RELAY NODE INSTALLATION _________ 21 3.2.3 STEP 3 SENSIT INSTALLATION _____________________________ 21 3.2.4 STEP 4 SETTING UP THE SENSIT INTERFACE SOFTWARE _______ 21 4 RELAYNODETOOL ____________________________________________________ 22 SCALED DRAWING ______________________________________________ 22 START A NEW PROJECT __________________________________________ 23 THE FIRST SEGMENT ____________________________________________ 23 4.3.1 IMPORT MAP ____________________________________________ 24 4.3.2 SET THE SCALE___________________________________________ 24 4.3.3 PLACE THE GATEWAY _____________________________________ 25 4.3.4 PLACE THE RELAY NODE __________________________________ 25 THE SECOND SEGMENT _________________________________________ 26 4.4.1 IMPORT MAP ____________________________________________ 26 4.4.2 SET THE SCALE___________________________________________ 27 4.4.3 PLACE THE GATEWAY _____________________________________ 27 4.4.4 PLACE THE RELAY NODE __________________________________ 28 SAVE THE PROJECT _____________________________________________ 29 EXPORT PROJECT FILES __________________________________________ 29 4.6.1 PROJECT FILE ____________________________________________ 29 4.6.2 SAVE AS IMAGE __________________________________________ 29 4.6.3 PRINT PROJECT __________________________________________ 29 REQUEST PROJECT REVIEW ______________________________________ 29 5 CONFIGURATION TOOL ________________________________________________ 30 DOWNLOADING THE APP ________________________________________ 30 STARTING THE CONFIGURATION TOOL AND INITIALIZE THE APP _______ 30 CONFIGURE THE GATEWAY ______________________________________ 31 CONFIGURE THE RELAY NODES ___________________________________ 31 CONFIGURE SENSIT _____________________________________________ 31 SIS SOFTWARE _________________________________________________ 31 2/111 SENSIT SYSTEM | MANUAL Introduction Introduction REPLACING THE BATTERIES ______________________________________ 32 6 INSTALLATION SENSIT GATEWAY ________________________________________ 33 SAFETY PRECAUTIONS __________________________________________ 33 IC AND FCC ID _________________________________________________ 33 GATEWAY INSTALLATION ________________________________________ 33 6.3.1 INSTALLATION CONDITIONS _______________________________ 33 6.3.2 REQUIRED INSTALLATION MATERIALS _______________________ 33 6.3.3 MOUNTING ______________________________________________ 34 6.3.4 AC POWER SUPPLY _______________________________________ 35 6.3.5 EXTERNAL SOLAR SET _____________________________________ 35 6.3.6 SIM CARD _______________________________________________ 36 6.3.7 ANTENNA _______________________________________________ 36 7 GATEWAY CONFIGURATION ____________________________________________ 37 TCP/IP CONFIGURATION _________________________________________ 37 7.1.1 GATEWAY TCP/IP SETTINGS ________________________________ 37 3G CONFIGURATION ____________________________________________ 39 7.2.1 PROFILE: ________________________________________________ 39 7.2.2 INFO: ___________________________________________________ 39 SENSIT GATEWAY LED BEHAVIOR _________________________________ 40 7.3.1 PWR (POWER) LED _______________________________________ 40 7.3.2 XPRT (XPORT) LED ________________________________________ 40 7.3.3 3G LED _________________________________________________ 40 7.3.4 STS (3G STATUS) LED _____________________________________ 41 7.3.5 SIM LED ________________________________________________ 41 7.3.6 SIS LED _________________________________________________ 41 7.3.7 RSSI LED ________________________________________________ 41 7.3.8 WSN LED INDICATIONS ___________________________________ 42 VERIFY COMMUNICATION _______________________________________ 42 8 MOUNTING THE SENSIT BACKUP BATTERY ________________________________ 43 SAFETY PRECAUTIONS __________________________________________ 43 INSTALLATION CONDITIONS _____________________________________ 43 REQUIRED INSTALLATION MATERIALS _____________________________ 43 MOUNTING ____________________________________________________ 43 8.4.1 DIMENSIONS ____________________________________________ 44 8.4.2 CONNECTION TO THE GATEWAY ____________________________ 45 9 POLE MOUNTING SET _________________________________________________ 46 REQUIRED INSTALLATION MATERIALS _____________________________ 46 MOUNTING ____________________________________________________ 46 10 MOUNTING THE RELAY NODE 2G _______________________________________ 47 SAFETY PRECAUTIONS __________________________________________ 47 IC AND FCC ID _________________________________________________ 47 DIMENSIONS __________________________________________________ 47 INSTALLATION CONDITIONS _____________________________________ 48 REQUIRED INSTALLATION MATERIALS _____________________________ 48 INSTALLATION PROCEDURE ______________________________________ 48 BATTERY REPLACEMENT ________________________________________ 49 11 MOUNTING THE SENSIT IR _____________________________________________ 50 SAFETY PRECAUTIONS __________________________________________ 50 IC AND FCC ID _________________________________________________ 50 DIMENSIONS __________________________________________________ 50 INSTALLATION CONDITIONS _____________________________________ 50 REQUIRED INSTALLATION MATERIALS _____________________________ 50 INSTALLATION PROCEDURE ______________________________________ 51 11.6.1 WITHOUT THE CONFIGURATION TOOL _______________________ 51 11.6.2 WITH THE CONFIGURATION TOOL __________________________ 52 REPLACEMENT _________________________________________________ 52 3/111 SENSIT SYSTEM | MANUAL Introduction Introduction 12 MOUNTING THE SENSIT IR FLUSH MOUNT ________________________________ 53 SAFETY PRECAUTIONS __________________________________________ 53 IC AND FCC ID _________________________________________________ 53 DIMENSIONS __________________________________________________ 53 INSTALLATION CONDITIONS _____________________________________ 53 INSTALLATION MATERIAL ________________________________________ 54 INSTALLATION PROCESS _________________________________________ 54 REPLACEMENT _________________________________________________ 54 13 MOUNTING THE SENSIT SURFACE MOUNT ________________________________ 55 SAFETY PRECAUTIONS __________________________________________ 55 IC AND FCC ID _________________________________________________ 55 DIMENSIONS __________________________________________________ 55 REQUIRED INSTALLATION MATERIALS _____________________________ 55 INSTALLATION PROCESS _________________________________________ 56 13.5.1 WITHOUT THE CONFIGURATION TOOL _______________________ 56 13.5.2 WITH THE CONFIGURATION TOOL __________________________ 57 REPLACEMENT _________________________________________________ 58 14 MOUNTING THE SENSIT EPL ____________________________________________ 59 SAFETY PRECAUTIONS __________________________________________ 59 IC AND FCC ID _________________________________________________ 59 DIMENSIONS __________________________________________________ 59 REQUIRED INSTALLATION MATERIALS _____________________________ 59 INSTALLATION PROCESS _________________________________________ 60 SYSTEM SETUP FOR EPL _________________________________________ 60 15 MOUNTING THE SENSIT DISPLAY ________________________________________ 61 SAFETY PRECAUTIONS __________________________________________ 61 DIMENSIONS __________________________________________________ 61 16 PROJECT SUPPORT ____________________________________________________ 62 SITE SURVEY & INSTALLATION ADVICE ____________________________ 62 ON-SITE CERTIFICATION _________________________________________ 62 17 SENSIT INTERFACE SOFTWARE __________________________________________ 63 INTRODUCTION ________________________________________________ 63 USERS ________________________________________________________ 63 17.2.1 LOGIN __________________________________________________ 63 17.2.2 DEFAULT LOGINS ________________________________________ 64 17.2.3 LOGOUT ________________________________________________ 64 SUPPORT WIDGET ______________________________________________ 65 DASHBOARD __________________________________________________ 66 MAPS _________________________________________________________ 67 17.5.1 PARKING ________________________________________________ 67 17.5.2 ENFORCEMENT __________________________________________ 68 17.5.3 ANALYSIS _______________________________________________ 68 PARKING ENFORCEMENT ________________________________________ 70 17.6.1 PERMIT ADMINISTRATION _________________________________ 71 17.6.2 PERMIT ZONE CONFIGURATION ____________________________ 72 DETECTION ____________________________________________________ 73 17.7.1 GATEWAY _______________________________________________ 73 17.7.2 NODE CROSS CHECK _____________________________________ 74 17.7.3 NODE PRESENCE _________________________________________ 74 DEFINITION ____________________________________________________ 75 17.8.1 RELAY NODE CONFIGURATION _____________________________ 75 17.8.2 PARKING BAY CONFIGURATION ____________________________ 75 17.8.3 PARKING LOT CONFIGURATION ____________________________ 77 17.8.4 MONITOR CONFIGURATION ________________________________ 77 Site Name _____________________________________________________ 77 Map List ______________________________________________________ 77 17.8.5 OVERSTAY CONFIGURATION _______________________________ 78 4/111 SENSIT SYSTEM | MANUAL Introduction Introduction 17.8.6 SENSOR CALIBRATION ____________________________________ 79 17.8.7 DISPLAY ________________________________________________ 79 Display Configuration ___________________________________________ 79 Display Current View ___________________________________________ 80 Display View Settings ___________________________________________ 80 MONITOR _____________________________________________________ 81 OCCUPANCY REPORT ___________________________________________ 81 17.10.1 OCCUPANCY LIST _____________________________________ 81 17.10.2 OVERSTAY REPORT ___________________________________ 81 17.10.3 PARKING VIOLATION PROBABILITY ______________________ 82 DIAGNOSE ____________________________________________________ 82 ICE DETECT MODE ____________________________________ 82 17.11.1 17.11.2 BATTERY LOW WARNINGS _____________________________ 82 17.11.3 SENSOR CALIBRATION ERRORS _________________________ 83 17.11.4 GATEWAY CONNECTION LOG __________________________ 83 BAD NETWORK EVENTS _______________________________ 83 17.11.5 17.11.6 PENDING TX MESSAGES _______________________________ 83 17.11.7 PENDING RX MESSAGES _______________________________ 83 SETTINGS _____________________________________________________ 84 17.12.1 USER SETTINGS ______________________________________ 84 Change Password ______________________________________________ 84 User administration ____________________________________________ 84 17.12.2 SYSTEM SETTINGS ____________________________________ 84 System Information _____________________________________________ 84 System Reboot_________________________________________________ 85 Time Configuration _____________________________________________ 85 Node Gateway List _____________________________________________ 85 Local Configuration _____________________________________________ 85 Active Http Sessions ____________________________________________ 87 Status Reading Interval Settings __________________________________ 87 17.12.3 EXPERT SETTINGS ____________________________________ 87 Console _______________________________________________________ 87 EPL settings ___________________________________________________ 88 18 ADVANCE CONFIGURATION ____________________________________________ 89 INKSCAPE _____________________________________________________ 89 19 FREQUENTLY ASKED QUESTIONS _______________________________________ 92 GENERAL ______________________________________________________ 92 MAGNETIC SENSOR _____________________________________________ 93 19.2.1 CALIBRATION ____________________________________________ 94 OPTICAL SENSOR _______________________________________________ 94 19.3.1 CALIBRATION ____________________________________________ 95 MORE INFORMATION SENSIT AND MOUNTING ______________________ 95 INSTALLATION _________________________________________________ 97 BATTERY LIFE __________________________________________________ 97 RELAY NODES _________________________________________________ 98 SENSIT GATEWAY ______________________________________________ 99 SENSIT INTERFACE SOFTWARE (SIS) ______________________________ 101 NETWORK & COMMUNICATION _________________________________ 103 TECHNICAL MATTERS __________________________________________ 104 20 APPENDIX __________________________________________________________ 105 A RAPID MORTAR ______________________________________________________ 105 B MODIFIED SILICON POLYMER _________________________________________ 106 Description ___________________________________________________ 106 B.1 Field of application ____________________________________________ 106 B.2 B.3 Advantages___________________________________________________ 106 B.4 Method of use ________________________________________________ 106 B.5 TECHNICAL DATA ______________________________________________ 107 5/111 SENSIT SYSTEM | MANUAL Introduction Introduction C POLYURETHAN ______________________________________________________ 108 D FCC AND IC DECLARATIONS ___________________________________________ 109 Compliance statements (part15.19) ______________________________ 109 F DISCLAIMER ________________________________________________________ 110 G DOCUMENT REVISION ________________________________________________ 111 6/111 SENSIT SYSTEM | MANUAL Introduction Introduction 1 INTRODUCTION The SENSIT vehicle detection system facilitates accurate measurement on occupancy of individual parking spaces in car parks, and on-street parking spaces. This information can be used to guide traffic to free parking spaces but can also be used for on-street parking enforcement and overstay detection. For on-street enforcement the number of occupied parking spaces can be compared with the number of payments realized by the pay station. For overstay detection the system alerts instantly a parking officer to the presence of nearby overstaying vehicles. Based on this information you can exactly determine which space to enforce. All the SENSIT vehicle detection sensors are featured with detection and communicate wireless, creating their own network. The SENSIT sensors do not require power wiring, in contrast to conventional systems that require wiring throughout the car park and mounting onto the ceiling. Easy installation of the sensors is guaranteed. Once installed no maintenance is required for years. The actual status (occupancy) of the sensor is transmitted to the Relay Node, which is part of the wireless mesh network. Different types of ruggedly designed sensors are available to accommodate installation in indoor car parks, on-street spaces and road surfaces. 7/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System 2 SENSIT SYSTEM ARCHITECTURE The actual status (occupancy) of the SENSIT sensors is finally collected by one or more SENSIT Gateway. The SENSIT sensors transmit their status via one or more Relay Nodes to the SENSIT Gateway. The SENSIT Gateway (formally known as Data Collector) is the interface between the wireless sensors network and the SENSIT Interface Software running on the server. The SENSIT Gateway transmits status information about the sensors to the server using TCP/IP via Ethernet or GPRS communication. Figure 1: System Architecture For a parking site you need at least one SENSIT Gateway, a Relay Node and a SENSIT per parking bay. 8/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System THE SENSIT SENSORS Four types of ruggedly designed sensors are available to accommodate installation in indoor car parks, on-street spaces and road surfaces. Until recently the standard, most used, SENSIT Sensor is the SENSIT IR. For regions with lots of snow the SENSIT Flush Mount is designed to withstand frequent snow ploughing. The SENSIT Surface Mount is designed for indoor car parks or roof tops where drilling is not allowed. For now all types will be available, in the future the standard SENSIT IR and SENSIT Flush Mount will be replaced with the new SENSIT IR Flush Mount sensor. 2.2.1 SENSIT IR FLUSH MOUNT Flush mount vehicle detection sensor featured with dual detection technology (infrared and earth-magnetic field detection. The sensor is resistant to snow ploughs and offers vandal resistant installation. SSENSIT Flush Mount Operating frequency Detection Load resistance Mounting Weight Dimensions Color Detection height Protection Operating temperature Power supply Antenna SENSIT IR FLUSH MOUNT EU: 868.2 MHz SENSIT IR FLUSH MOUNT CN: 868.2 MHz SENSIT IR FLUSH MOUNT US: 902-928 MHz (FHSS) SENSIT IR FLUSH MOUNT AU: 915-928 MHz (FHSS) SENSIT IR FLUSH MOUNT NZ : 920-925MHz (FHSS) SENSIT IR FLUSH MOUNT SG : 920-925MHz (FHSS) SENSIT IR FLUSH MOUNT ID: 923-925MHz (FHSS) SENSIT IR FLUSH MOUNT MY : 919-923MHz (FHSS) Magnetic and IR Accuracy: 98%
Heavy traffic Into the floor 350 gram 78 mm In the floor 72 mm Black 090 cm IP67, completely sealed housing PE
-40 ... +85C
(12.35 oz)
(3.07 inch)
(2.09 inch)
(0 35.5 inch)
(-40F +185F) Built in Lithium batteries expected lifetime of 5-10 years*
Included
* Under normal circumstances and dependent on settings. Note The SENSIT IR Flush Mount has a vandal resistance design but of course brute excessive force still can damage the device. 9/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System 2.2.2 SENSIT IR Vehicle detection sensor featured with dual detection technology (infrared and earth-magnetic field detection. The SENSIT IR is mounted into the floor of each parking space allowing for vandal resistant installation, making the unit suitable for on-street application. SSENSIT IR Operating frequency Detection Load resistance Mounting Weight Dimensions Color Detection height Protection Operating temperature Power supply Antenna SENSIT IR EU: 868.2 MHz SENSIT IR CN: 868.2 MHz SENSIT IR US: 902-928 MHz (FHSS) SENSIT IR AU: 915-928 MHz (FHSS) SENSIT IR NZ : 920-925MHz (FHSS) SENSIT IR SG : 920-925MHz (FHSS) SENSIT IR ID: 923-925MHz (FHSS) SENSIT IR MY : 919-923MHz (FHSS) Magnetic and IR Heavy traffic Into the floor 365 gram 78 mm In the floor 55 mm Above the floor 20 mm Black or Yellow (optional) 090 cm IP67, completely sealed housing PE
-40 ... +85C Accuracy: 98%
(12.87 oz)
(3.07 inch)
(2.16 inch)
(0.79 inch)
(0 35.5 inch)
(-40F +185F) Built in Lithium batteries expected lifetime of 5-10 years *
Included
* Under normal circumstances and dependent on settings. Note The SENSIT IR has a vandal resistance design but of course brute excessive force still can damage the device. 10/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System 2.2.3 SENSIT FLUSH MOUNT Vehicle detection sensor for flush mount installation in the road surface. The sensor is resistant to snow ploughs and offers vandal resistant installation. The SENSIT Flush Mount is featured with earth-magnetic field detection. SSENSIT Flush Mount Operating frequency Detection Load resistance Mounting Weight Dimensions Color Detection height Protection Operating temperature Power supply Antenna SENSIT FLUSH MOUNT EU: 868.2 MHz SENSIT FLUSH MOUNT CN: 868.2 MHz SENSIT FLUSH MOUNT US: 902-928 MHz (FHSS) SENSIT FLUSH MOUNT AU: 915-928 MHz (FHSS) SENSIT FLUSH MOUNT NZ : 920-925MHz (FHSS) SENSIT FLUSH MOUNT SG : 920-925MHz (FHSS) SENSIT FLUSH MOUNT ID: 923-925MHz (FHSS) SENSIT FLUSH MOUNT MY : 919-923MHz (FHSS) Magnetic Heavy traffic Into the floor 350 gram 78 mm In the floor 72 mm Black 090 cm IP67, completely sealed housing PE
-40 ... +85C
(12.35 oz)
(3.07 inch)
(2.09 inch)
(0 35.5 inch)
(-40F +185F) Accuracy: 95%
Built in Lithium batteries expected lifetime of 5-10 years*
Included
* Under normal circumstances and dependent on settings. Note The SENSIT Flush Mount has a vandal resistance design but of course brute excessive force still can damage the device. 11/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System 2.2.4 SENSIT SURFACE MOUNT Vehicle detection sensor designed for car parks where drilling is not allowed or non-permanent mounting is required. The unit is suitable for indoor car parks and rooftop parkings. The sensor can easily be glued onto the surface. Replacement can be achieved by removing the sensor installed in the mounting ring. The SENSIT Surface Mount is featured with dual detection technology (infrared and earth-magnetic field). SSENSIT Surface Mount Operating frequency Detection Load resistance Mounting Weight Dimensions Color Detection height Protection Operating temperature Power supply Antenna SENSIT SURFACE MOUNT EU: 868.2 MHz SENSIT SURFACE MOUNT CN: 868.2 MHz SENSIT SURFACE MOUNT US: 902-928 MHz (FHSS) SENSIT SURFACE MOUNT AU: 915-928 MHz (FHSS) SENSIT SURFACE MOUNT NZ : 920-925MHz (FHSS) SENSIT SURFACE MOUNT SG : 920-925MHz (FHSS) SENSIT SURFACE MOUNT ID : 923-925MHz (FHSS) SENSIT SURFACE MOUNT MY : 919-923MHz (FHSS) Magnetic and IR Accuracy: 98%
Regular traffic On the floor surface 455 gram Mounting ring: 240 Sensor:
Height:
Sensor black and yellow (optional black) ring 090 cm IP67, completely sealed housing PE
-40 ... +85C
(16.05 oz)
(9.45 inch)
(6.57 inch)
(1.38 inch) 167 cm 35mm
(0 35.5 inch)
(-40F +185F) Built in Lithium batteries expected lifetime of 5-9 years *
Included
* Under normal circumstances and dependent on settings. 12/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System RELAY NODES A Relay Node allows for communication increase and ensures a robust and reliable communication network. It ensures fast transmission of event messages from the vehicle detection sensors to the SENSIT Gateway. 2.3.1 SENSIT RELAY NODE 2G The Relay Node 2G is has an improved communication range and a battery lifetime. It ensures a robust and reliable communication network. The Relay Node 2G ensures fast transmission of event messages from the SENSIT sensors to the SENSIT Gateway. Relay Node 2G should be mounted preferable at about 3 6 meters [10- 20 ft] from the floor
(e.g. onto a lamppost) to allow for visible view of the sensors. RRelay Node 2G Operating frequency Weight Dimensions Mounting Mounting height Pole dimensions Protection Operating temperature Communication range *
Power supply **
Antenna connection SENSIT RELAY NODE 2G EU: 868.2 MHz SENSIT RELAY NODE 2G CN: 868.2 MHz SENSIT RELAY NODE 2G US: 902-928 MHz (FHSS) SENSIT RELAY NODE 2G AU: 915-928 MHz (FHSS) SENSIT RELAY NODE 2G NZ : 920-925MHz (FHSS) SENSIT RELAY NODE 2G SG : 920-925MHz (FHSS) SENSIT RELAY NODE 2G ID : 923-925MHz (FHSS) SENSIT RELAY NODE 2G MY : 919-923MHz (FHSS) 540 gram 200 x 170 x 204 mm Onto a pole, lamppost or wall, mounting bracket included. 3 6 meters Min. 40 mm Max. 150 mm IP65
-40 ... +85C
(10 20 ft.)
(1.57 inch)
(6 inch)
(7.87 x 6.69 x 8.03 inch)
(12.87 oz)
(-40F +185F)
(135 ft) 35 m DC RN 2G omnidirectional
(164 ft) 50 m DC RN 2G directional max.
(33 ft) 10 m DC GPRS RN 2G max.
(328 ft) RN 2G RN 2G max. 100m
(135 ft) SENSIT RN 2G omnidirectional 35 m
(164 ft) SENSIT RN 2G directional 50 m Replaceable Lithium batteries expected lifetime of 5 years Antenna included
* Dependent on the environment.
** Under normal circumstances and dependent on settings. 13/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System SENSIT GATEWAY The actual status (occupancy) of the SENSIT sensors is collected by one or more Gateway. The Gateway is the interface between the wireless sensors network and the SENSIT Interface Software running at the server. The Gateway transmits status information about the sensors to the server using TCP/IP via Ethernet or 3G mobile communication. For a parking site you need at least one Gateway, a Relay Node and a SENSIT per parking bay. One Gateway is required per 250 parking bays. All Gateway must be separated as far as possible from each other, preferably at the remote corners of the site. 2.4.1 THE GATEWAY The Gateway can be installed virtually anywhere due to its IP65 weatherproof housing and embedded 3G wireless modem. The only requirements in case it is uses the mobile internet are; an AC mains power supply and that it should be installed within reach of the SENSIT wireless network. SSENSIT Gateway Operating frequency Dimensions Weight Protection Color Operating temperature Communication range*
Communication Power input Antenna connection SENSIT GATEWAY EU: 868.2 MHz SENSIT GATEWAY CN: 868.2 MHz SENSIT GATEWAY US: 902-928 MHz (FHSS) SENSIT GATEWAY AU: 915-928 MHz (FHSS) SENSIT GATEWAY NZ : 920-925MHz (FHSS) SENSIT GATEWAY SG : 920-925MHz (FHSS) SENSIT GATEWAY ID : 923-925MHz (FHSS) SENSIT GATEWAY MY : 919-923MHz (FHSS) 252 x 251 x 89 mm 1850 gram IP65 Aluminum & dark blue side covers RAL5011
-40C +65C
(10 x 10 x 3.5 inch)
(65 oz)
(-40F +149F) From SENSIT to Gateway in principle unendless as the nodes communicate to each other. It is recommended to locate the nearest Relay Node within 25 meters (82 ft) of the Gateway. 3G mobile or RJ45 TCP/IP 110-240 VAC 50/60Hz or 12VDC (solar panel set) Antenna included
* Dependent on the environment. 2.4.2 GATEWAY COMMUNICATION BACKUP When both connection means are in place; as well Ethernet as the 3G modem by default the Gateway will connect via the Ethernet to the SIS. When the Ethernet connection fails the communication automatically will fall back to the 3G modem. 14/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System 2.4.3 GATEWAY EVENT BUFFER Furthermore the Gateway is equipped with an event buffer to store up to 24k events. This memory stores the events in case both communication means temporary fails. As soon as the communication is restored the Gateway will transmit the buffered events. 2.4.4 SENSIT BACKUP BATTERY The Gateway can be completed with a backup battery to make sure the Gateway stays alive when the mains power fails. This backup battery can also been used when the Gateway is powered by the public lighting pole. This cyclic use will have an influence on the lifetime of the internal lead-acid battery. SSENSIT BBattery ppack Dimensions Weight Protection Color Operating temperature Internal battery Lifetime*
Autonomous time**
(10 x 10 x 3.5 inch)
(134 oz) 252 x 251 x 89 mm 3800 gram IP65 Aluminum & dark blue side covers RAL5011
-15C +50C
(5F +122F) 12VDC | 7Ah (lead-acid)
>1000 discharge/charge cycles Up to 35 hours
* Depends upon the average depth of discharge.
** Depends upon communication means 3G/Ethernet, temperature and battery age Note By default the Gateway event buffer is disabled. At least version 1.6 has to be installed at your SIS before the event buffer function can work. 15/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System ADDITIONAL EQUIPMENT Additional equipment is available to expand the functionality of the SENSIT system. 2.5.1 ELECTRONIC PARKING LICENSE The Electronic Parking License (EPL) physically is a device that is positioned inside the car. Whenever the car stops for a specific period of time it considers the car to be parked and it will look for a wireless SENSIT network. If a network is detected, it will make itself know to the network. Its unique EPL identifier is registered at the server with SENSIT Interface Software (SIS). The SIS is triggered when parking bays that require a license change status (become occupied or free). When such a parking bay is occupied the system will calculate the odds of the parking bay being occupied by an unauthorized vehicle. EElectronnic Parking License Operating frequency SENSIT EPL EU: 868.2 MHz SENSIT EPL US: 902-928 MHz (FHSS) SENSIT EPL AU: 915-928 MHz (FHSS) Attaches with suction pads to the windscreen on the inside of the car 120 gram 116 x 72 x 27 mm Grey, RAL7016 IP32
-40 ... +85C
(-40F +185F)
(4.2 oz)
(4.6 x 2.8 x 1.1 inch) Mounting Weight Dimensions Color Protection Operating temperature Power supply Antenna User replaceable AAA 1.5V alkaline batteries Included 16/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System 2.5.2 SENSIT DISPLAY The SENSIT Display enables signage of available parking spaces for stand-alone parking guidance installations. The display is designed for outdoor use, indicating the number of available parking spaces per parking lot thus guiding motorists to the closest parking space. Availability of parking spaces can be indicated per zone, for the specific zone the SENSIT Display is allocated to. Configuration of the display can be realized using the SENSIT Interface Software. SSENSIT Display Display Dimensions Display dimensions Weight Protection Color Character height Number of digits Readability Luminance Viewing angle Operating temperature Power supply Relay outputs Graphical display for outdoor use, single sided 330 x 221 x 171 mm 320 x 160 x 15 mm
(13.0 x 8.7 x 6.7 inch)
(12.6 x 6.3 x 0.6 inch)
(208 oz)
(6.3 x 3.9 in) 5900 gram IP65, UV protected Stainless steel housing, Amber LEDs 160 x 100 mm [h x w]
3 5.000 cd/m2, readable in full sunlight. Ambient light luminance regulation. 70/35
-20 ... +60C
(32F +122F) 110-230 VAC 50/60Hz or PoE+ (25W) 3 Low voltage relays 17/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System 2.5.3 SENSIT CONFIGURATION TOOL The SENSIT Configuration Tool can be used during installation of the SENSIT system. This tool enables easy installation;
segmentation, calibration and administration (CVS-file including GPS-coordinates) of the SENSIT equipment (SENSIT Gateways, Relay nodes and sensors). The SENSIT The Configuration Tool works with an App which must be installed on an Android smartphone. This App, called SENSIT Configurator is available in the google play store. The communication between the App and Configuration Tool is over Bluetooth.
(7.9 x 5.9 x 2.4 inch)
(17.8 oz) SSENSIT Configuration Tool Dimensions Weight Protection Color Communication Operating temperature Battery powered Lifetime 200 x 115 x 93 mm 505 gram IP44 Yellow housing, black front Bluetooth
-10 ... +50C
(14F +122F) 2x 1.5V AA alkaline batteries About 40 hours of continuous use on a set of AA alkaline batteries. 18/111 SENSIT SYSTEM | MANUAL SENSIT System SENSIT System SENSIT INTERFACE SOFTWARE Installation Configuration Basic administration Integration SENSIT Interface Software allowing easy system integration into enforcement, traffic guidance or parking guidance management application. The main features of the SENSIT Interface Software to help you and make easy system integration possible are:
The SENSIT Interface Software enables easy installation of the wireless sensor network. Once the network and sensors are installed, the sensors will automatically appear in the software. Configuration of sensors to specific parking bays, parking zone and parking lot can easily be realized. Additionally the software configures and monitors communication of the SENSIT node network. It monitors the data transfer between the sensors and the SENSIT Gateways. Moreover it also analyzes communication reliability of the sensor network in a graphical map, automatically alerting areas for maintenance. Easy integration can be done via SOAP, REST or REST Hooks interface. SOAP or Simple Object Access Protocol, is a protocol specification for exchanging structured information. It relies on Extensible Mark-up Language (XML) for its message format. The SOAP interface can query data from the SIS using the http(s) interface, the found data is returned in a XML description format. Representational state transfer (REST) is a simple stateless architecture that generally runs over HTTP(S). REST involves reading a designated Web page that contains an XML file. The XML file describes and includes the desired content. 19/111 SENSIT SYSTEM | MANUAL Installation Procedures Installation Procedures 3 INSTALLATION PROCEDURES The installation of the SENSIT system is basically the same with or without a Configuration Tool and can be described in 4 major steps: The preparation, the installation of Gateways and Relay Nodes, the installation of SENSIT sensors and finally setting up the SENSIT Interface Software. In the next 2 paragraphs both methods are describe; with- or without the Configuration Tool. The functionality and used of the Configuration tool is described in more detail in chapter 5. 4-STEPS WITHOUT THE CONFIGURATION TOOL 3.1.1 STEP 1 PREPARATION a. Arrange a scaled map of the site. b. Make a site inspection to gather information:
Draw on the map where the parking bays are located.
Draw on the map where you can mount Relay Nodes
Draw on the map the possible locations for the Gateway. c. Make an installation plan:
Number every parking bays with a unique number.
Use the Relay Node Tool to plan the final Relay Node and Gateway locations to form a covering network. 3.1.2 STEP 2 GATEWAY AND RELAY NODE INSTALLATION Install and power-up the Gateway according the plan. a. b. Activate and install the Relay Nodes according the plan. c. Write the ID numbers of the Gateways and Relay Nodes at the right location in the plan. d. Verify at the server that all Gateways and Relay Nodes are online. 3.1.3 STEP 3 SENSIT INSTALLATION a. Free the bays and close off the parking area. b. Mark the right location at the road surface with a piece of chalk or paint. c. Distribute the SENSIT sensors at the, to be installed locations and activate them with the magnet. d. Make a list of the correct ID numbers and bay numbers. e. Verify at the server if all SENSIT sensors come online. f. Drill the holes and glue the SENSIT sensors. g. Calibrate the SENSIT sensors without cars or metal tools in the neighborhood of the SENSITs. 3.1.4 STEP 4 SETTING UP THE SENSIT INTERFACE SOFTWARE a. Make a (simple) Inkscape drawing of the site based on the map and gathered information during STEP 1 and STEP 2.
Draw the Relay Nodes and Gateways at the right locations
Draw the bays at the right locations b. Upload the SVG-drawing to the server. c. Make a correct CSV-file and upload it to the server. d. Verify if all Gateways, Relay Nodes and SENSIT sensors show up correctly in the system. Note There is also a planning-
tool (RelayNodeTool) available to plan the Relay Node and Data Collector locations. See chapter below for an example. Note Relay Node Tool is a planning-tool, to design the Relay Node and Gateway locations. See chapter below for an example. Note Ask your Nedap account manager for special installation tools to configure, calibrate and register the ID to bay bindings. Note Inkscape is an open-source drawing program to create the SVG (Scalable Vector Graphic) drawing. Note Inkscape is an open-source drawing program to create the SVG (Scalable Vector Graphic) drawing. 20/111 SENSIT SYSTEM | MANUAL Installation Procedures Installation Procedures 4-STEPS WITH THE CONFIGURATION TOOL As mentioned the installation of a SENSIT system with a Configuration tool is similar as the configuration without a tool and can also be described in 4-steps: The first and last step is exactly the same, the configuration of SENSIT Gateways, Relay Nodes and SENSIT sensors is automated with the Configuration Tool to prevent writing errors, automatic calibration and to make segmentation possible. 3.2.1 STEP 1 PREPARATION a. Arrange a scaled map of the site. b. Make a site inspection to gather information:
Draw on the map where the parking bays are located.
Draw on the map where you can mount Relay Nodes
Draw on the map the possible locations for the Gateway. c. Make an installation plan:
Number every parking bays with a unique number.
Use the Relay Node Tool to plan the final Relay Node and Gateway locations to form a covering network. 3.2.2 STEP 2 GATEWAYS AND RELAY NODE INSTALLATION Install and power-up the Gateway according the plan. a. b. Use the Configuration Tool for activation, segmentation and registration of the Gateway. Install the Relay Nodes according the plan. c. d. Use the Configuration Tool for activation, segmentation and registration of the Relay Nodes. e. Verify at the server that all Gateways and Relay Nodes are online. 3.2.3 STEP 3 SENSIT INSTALLATION a. Free the bays and close off the parking area. b. Mark the right location at the road surface with a piece of chalk or paint. c. Drill the holes and glue the SENSIT sensors. d. Use the Configuration Tool for activation, segmentation, calibration and registration of the SENSIT sensor. Make sure there are no cars or metal tools in the neighborhood of the SENSIT sensors. 3.2.4 STEP 4 SETTING UP THE SENSIT INTERFACE SOFTWARE a. Make a (simple) Inkscape drawing of the site based on the map and gathered information during STEP 1 and STEP 2.
Draw the Relay Nodes and Gateways at the right locations
Draw the bays at the right locations b. Upload the SVG-drawing to the server. c. Use the data received from the configuration tool app and make a correct CSV-file after upload it to the server. d. Verify if all Gateways, Relay Nodes and SENSIT sensors show up correctly in the system. Note Relay Node Tool is a planning-tool, to design the Relay Node and Gateway locations. See chapter 4 for an example. Note In chapter 5 a more detailed description about the configuration tool and how it works can be found. Note Inkscape is an open-source drawing program to create the SVG (Scalable Vector Graphic) drawing. 21/111 SENSIT SYSTEM | MANUAL RelayNodeTool RelayNodeTool 4 RELAYNODETOOL The RelayNodeTool software is developed to get a good estimation of the needed system components; Gateways and Relay Nodes. The estimation of needed components is based on drawings of the site. In this way you are able to get a good idea of the needed components. In this example we are going to design the SENSIT system for two segments; the parking basement and the outside parking terrain at the Nedap Headquarter office. SCALED DRAWING First get a drawing of the parking lot(s) and find out if it are open areas or closed
(indoor) areas. Try to get information about mounting locations, like lampposts and poles for Relay Nodes and power and internet for the Gateway. Below you can find a map of the Nedap Headquarter office, with its parking areas. Note Please keep in mind that with help of this RelayNodeTool you can determine the needed components, but it will always be an estimation. Figure 2: Example drawing of parking lots. The drawing of a segment can be copied out of the larger map e.g. via the standard Snipping Tool of Windows. Figure 3: The Basement and the outside area. 22/111 SENSIT SYSTEM | MANUAL RelayNodeTool RelayNodeTool START A NEW PROJECT Fill-in the project details; the project title, your name and you company name. Please also indicate the country and region where the project is situated. Figure 4: RelayNodeTool: Project details THE FIRST SEGMENT Via the option Segment -> Add new segment, or click on the tab <new> you can add a segment to the design. Fill-in the segment properties; the segment name and the number of parking bays. Figure 5: RelayNodeTool: Segment properties Note The Relay Node Tool will give you a warning if you have more than 500 bays in a segment. With more than 500 bays, segmentation is necessary. Please contact your Nedap account manager for more information. 23/111 SENSIT SYSTEM | MANUAL RelayNodeTool RelayNodeTool 4.3.1 IMPORT MAP First import the drawing via the Paste from clipboard option or open the map image file. Figure 6: RelayNodeTool: Map import. 4.3.2 SET THE SCALE Now set the scale, for an open area you set it at 25m if there isnt a clear indication about the size you can use the width of 10 parking bays:
Figure 7: RelayNodeTool: Scaling of the map. 24/111 SENSIT SYSTEM | MANUAL RelayNodeTool RelayNodeTool 4.3.3 PLACE THE GATEWAY Place at least one Gateway for every 250 bays. Use the information you already gathered or ask the client for the installation options for the Gateway(s). At least you need a power connection and an internet connection in case of Ethernet. Figure 8: RelayNodeTool: SENSIT Gateway placement. 4.3.4 PLACE THE RELAY NODE Place the Relay Nodes at locations were you can mount it e.g. at lampposts in a way that it covers all parking bays. With the tool you can choose between Relay Nodes 2G omni- or directional.. Figure 9: RelayNodeTool: RelayNode placement. Note The Relay Node Tool will give you a warning if you have more than 16 Relay Nodes in a segment. With more than 16 Relay Nodes, segmentation might be necessary. Please contact your Nedap account manager for more information. 25/111 SENSIT SYSTEM | MANUAL RelayNodeTool RelayNodeTool THE SECOND SEGMENT Via the option Segment -> Add new segment, or click on the tab <new> you can add a segment to the design. Fill-in the segment properties; the segment name and the number of parking bays. Figure 10: RelayNodeTool: Segment properties 4.4.1 IMPORT MAP Also import the drawing for the second segment via the Paste from clipboard option or open the map image file. Figure 11: RelayNodeTool: Map import for the second segment. 26/111 SENSIT SYSTEM | MANUAL RelayNodeTool RelayNodeTool 4.4.2 SET THE SCALE Also Set the scale, this location is a parking basement with a roof, large concrete columns and walls. This will influence the range of the Relay Nodes and therefore we advise to reduce the range with about 20%, so set the range to about 20m e.g. the width of 8 parking bays. Figure 12: RelayNodeTool: Scaling of the map. 4.4.3 PLACE THE GATEWAY Because this basement parking area is half open we can use the Gateway of the open area, so we dont need to add one for this segment. 27/111 SENSIT SYSTEM | MANUAL RelayNodeTool RelayNodeTool 4.4.4 PLACE THE RELAY NODE Place the Relay Nodes at locations were you can mount it e.g. at lampposts in a way that it covers all parking bays. With the tool you can choose between Relay Nodes 2G omni- or directional. There are 2 large concrete walls and after every 3 parking bays there is large concrete pillar, all is indicated with red. This will influence the range and radiation pattern of the Relay Nodes. Figure 13: Imported map with concrete wall and pillar indication. Probably with only 3 Relay Nodes 2G it is possible to get coverage of all bays, but because of these large influencing concrete objects we used 2 Relay Nodes 2G extra to make sure all SENSIT sensors are sufficient reachable. Figure 14: RelayNodeTool: RelayNode placement 28/111 SENSIT SYSTEM | MANUAL RelayNodeTool RelayNodeTool SAVE THE PROJECT Now you can save the project file:
Figure 15: RelayNodeTool: Project save. EXPORT PROJECT FILES 4.6.1 PROJECT FILE You can send the project file (*.rnproj) to a colleague or Nedap so it can be reviewed. 4.6.2 SAVE AS IMAGE You can save the segments you have designed to an image file, via the option File ->
Save image (current segment and use it in your offer. 4.6.3 PRINT PROJECT You can print the project file to a normal printer or to a PDF printer like the free PDF writer CutePDF (http://www.cutepdf.com/) and use this in your offer. REQUEST PROJECT REVIEW You can also request Nedap to review the project you have designed. Fill-in: your name, company, email address and phone number and write your comments on the design. With this information and the automatically added *.rnproj file Nedap can give you advise on the design. Figure 16: RelayNodeTool: Project review request 29/111 SENSIT SYSTEM | MANUAL Configuration tooL Configuration tooL 5 CONFIGURATION TOOL The SENSIT Configuration Tool can be used during installation for the following functionalities: Creating a CSV file, Storing the GPS coordinates, starting or restarting the SENSIT Gateways, SENSIT sensors and Relay Nodes, Calibrating sensors and dividing larger parking areas into segments. Please find below a figure of the Configuration Tool with a small description. ON/OFF Read Figure 17: Configuration tool. The Configuration Tool is equipped with two buttons and feedback LEDs. The Tool is powered with the black button, the green LED will light-up. The reader is started with the yellow button, the red LED will flash will the reader is active. DOWNLOADING THE APP The SENSIT Configuration Tool works with an Android app. This app, called SENSIT Configurator is available in the Google Play Store. The app and SENSIT Configuration Tool use Bluetooth to communicate. Make sure Bluetooth is enabled on your smartphone. STARTING THE CONFIGURATION TOOL AND INITIALIZE THE APP 1) Start the Configurator app on the Android smartphone 2) Turn on the Configuration Tool by pressing the black ON/OFF button, the green LED will light up. 3) Following steps are done on the app: Navigate to Options > Pair Device. Scan for devices. Connect to the device with the Bluetooth name that can be found on the label of the SENSIT Configuration Tool. 4) Wait until the tool name appears on the display of the smartphone. 5) Make sure the memory in the app is cleared before making a start: navigate to List Configured Nodes > Clear. 6) Check the segment setting, before configuring the first node. Navigate to Settings > General Settings > Set Segment ID > Select Segment ID. Segment 0 is the default value. 7) The tool is now ready for use. It is important to use the following commissioning sequence: first configure the SENSIT Gateways, second the Relay Nodes and finally the SENSIT sensors. Note At the portal an E-learning course about the Tools can be found, in here also the Configuration Tool is explained. Note Make sure during the calibration process, no vehicles or metal parts are in the parking bay or in the adjacent parking bays. Keep the SENSIT Configuration Tool and any steel objects, like safety shoes, at least 2 meters away from the SENSIT sensor. 30/111 SENSIT SYSTEM | MANUAL Configuration tooL Configuration tooL CONFIGURE THE GATEWAY 1) To configure Gateway, navigate to Manual Input 2) Enter the node ID, which can be found on backside of the Gateway and select Program Node. 3) Restart the Gateway by switching off the power for a few seconds. The app will detect that the SENSIT Gateway is starting up and will start the configuration sequence. The selected segment and GPS position will be programmed and saved in the List Configured Nodes. 4) When the app shows OK, the SENSIT Gateway is ready for use. 5) Repeat this process for all Gateways. Make sure to check the segment number before configuring the Gateways. CONFIGURE THE RELAY NODES 1) To configure the Relay Nodes, press the yellow button of the SENSIT Configuration Tool. During 20 seconds, the SENSIT Configuration Tool is active (red LED blinks). 2) Move the SENSIT Configuration Tool up and down over the front surface of the Relay Node. The Relay Node ID is detected and configuration is started automatically. During the configuration, the GPS position is stored in the app and the node segment is set. 3) After OK is indicated, the Relay node is ready for use. 4) Repeat this process for all Relay Nodes. Make sure to check the segment number before configuring the Relay Nodes CONFIGURE SENSIT 1) To configure the SENSIT sensors, start with the sensor in the first parking bay on the map in the SIS. 2) Press the yellow button of the SENSIT Configuration Tool. During 20 seconds, the SENSIT Configuration Tool is active (red LED blinks). 3) Rotate the SENSIT Configuration Tool over the surface of the sensor. 4) The SENSIT is activated and the ID number will appear in the app. The ID number and GPS coordinate are stored in the app and the sensor calibration is started. 5) When the display indicates OK, the sensor is ready for use. 6) Repeat this process for all SENSIT sensors by following the bay numbers sequentially. Make sure to check the segment number before configuring the SENSIT sensors. SIS SOFTWARE After configuring the SENSIT components, the stored app data must be transmitted to the SIS Software. Therefore go to list configured nodes, check the list and select Export. Select the media of your choice and send the data. The message contains a file in CSV format which can be loaded into the SIS software. 31/111 SENSIT SYSTEM | MANUAL Configuration tooL Configuration tooL REPLACING THE BATTERIES The lifetime of the 2x 1.5V AA alkaline batteries is about 40 hours of continuous use. The batteries can be replaced by a new set of batteries. For this the housing has to be opened, first remove the 4 screws at the front plate. 4--screws Figure 18: Configuration tool remove screws to open housing Now the front plate including the electronics can be removed out of the housing. Disconnect the reader antenna before you can completely remove the front including the batteries and electronics. Figure 19: Configuration tool: Battery replacement Before the batteries can be removed the rubber strap has to be loosened. Replace the empty batteries with 2 new 1.5V AA-type alkaline batteries, make sure the polarity is correct. Reinstall the rubber strap and reconnect the reader antenna before you close the housing again. Note Be careful when you open the housing and make sure the RFID antenna is disconnected before you completely open the housing to replace the batteries. 32/111
SENSIT SYSTEM | MANUAL Installation SENSIT Gateway Installation SENSIT Gateway INSTALLATION SENSIT GATEWAY 6 The SENSIT Gateway is available in one versions equipped with as well Ethernet as a 3G modem. The installation of the SENSIT Gateway is described in chapter 6.3. SAFETY PRECAUTIONS The following safety precautions should be observed during normal use, service and repair.
The SENSIT Gateway may only be installed and serviced by qualified service personnel. Installation should be conducted according national wiring rules. An external readily accessible disconnect device shall be incorporated into the installation of the equipment. Disconnect the power supply before removing or installing any parts. To be sure of safety, do not modify or add anything to the SENSIT Gateway other than mentioned in this manual or indicated by NEDAP N.V. IC AND FCC ID FCC ID: CGDSENSITGATEWAY and IC: 1444A-SENSITGATEWAY GATEWAY INSTALLATION Dry weather conditions. 6.3.1 INSTALLATION CONDITIONS The installation recommendation is based on the following environmental conditions;
6.3.2 REQUIRED INSTALLATION MATERIALS The following would be required for mounting of the SENSIT Gateway. In case of wall mounting.
The needed materials for pole mounting are described at chapter 9. Special Equipment:
Power drill Set screw driver Wall plugs or anchors including screws Mains disconnect device Round double wire cable with a minimum diameter of 5 mm (0,2 inch). External disconnect device is needed. External 6A slow blow circuit breaker is recommended. In case of a wired Ethernet a shield RJ45 cable. Ladder, Bucket-truck or an aerial platform Disconnect power before servicing the device. 33/111 SENSIT SYSTEM | MANUAL Installation SENSIT Gateway Installation SENSIT Gateway 6.3.3 MOUNTING The SENSIT Gateway can be installed virtually anywhere due to its IP65 weatherproof housing and embedded 3G wireless modem. The only requirements are an AC mains power supply and that it should be installed within reach of the SENSIT wireless network. Figure 20: Gateway dimensions (mm) 34/111 SENSIT SYSTEM | MANUAL Installation SENSIT Gateway Installation SENSIT Gateway 6.3.4 AC POWER SUPPLY Connect an AC mains power supply to the Gateway. An earth wire isnt needed due to the double isolated (Safety class II) design of the power supply. Input requirements: 100 240VAC 50/60Hz
Safety class II, UL 60950-1, Pass LPS (Limited power source).
Power supply is UL 508 listed.
Short circuit and overload protection.
DC ok LED indicator.
External disconnect device is needed. Figure 21: Power supply connection 6.3.5 EXTERNAL SOLAR SET It is also possible to connect an external 12V solar set to the SENSIT Gateway. The external solar set should include beside the solar panel a (solar)battery charger and a 12V battery. The set should be capable to source 120mA at 12VDC ( about 1.5W) continuously. 112V SSolar set
++ --
Figure 22: Solar panel set connection. Disconnect power before servicing the device. 35/111 SENSIT SYSTEM | MANUAL Installation SENSIT Gateway Installation SENSIT Gateway 6.3.6 SIM CARD Insert the standard (mini) SIM card at the top of the PCB as indicated. Note Make sure your remove the pin code from your SIM-
card e.g. by using your mobile phone. Note Example of standard (mini) SIM card. Figure 24: SIM Card installation Figure 23: Mini SIM card 6.3.7 ANTENNA The SENSIT Gateway is featured with two antennas. One for communication with the SENSIT nodes and the other is the mobile 3G antenna. NNote SIM card must be capable to receive and transmit SMS messages and to transfer Data. NNote Data usages is normally less than 250MB per month. NNote Some mobile providers disconnect an open TCP connection when no data transfer take place. The Gateway expect an uninterrupted TCP connection. NNote By default every 2 minutes a small package is transmitted by the SIS to verify the open TCP connection. 36/111 SENSIT SYSTEM | MANUAL Gateway Configuration Gateway Configuration 7 GATEWAY CONFIGURATION TCP/IP CONFIGURATION The standard SENSIT Gateway has an on-board TCP/IP communication. The TCP/IP communication is used to send the messages from the SENSIT vehicle detections sensors to the SENSIT Interface Software running on the server. 7.1.1 GATEWAY TCP/IP SETTINGS The default fixed IP-address for the SENSIT Gateway is 192.168.1.2. Configuration can be done using a web browser. By default there is no authentication needed, click OK when the authentication popup appears. Nedap strongly recommends to change the password. The fixed IP-address can be changed or set to DHCP, via at the left Network and Configuration:
Figure 25: SENSIT Gateway TCP/IP Network configuration Note Use a shield RJ45 cable to connect the Gateway. Note For safety reasons Nedap strongly recommends to set a password. 37/111 SENSIT SYSTEM | MANUAL Gateway Configuration Gateway Configuration Next the SENSIT server settings should be configured. These settings are provided to you when the SENSIT Interface Software (SIS) is installed on the server. These setting you fill-in via at the left side Tunnel, Connect Mode and Host 1:
Figure 26: SENSIT Gateway TCP/IP Tunnel configuration Fill in the (IP) Address: 217.114.111.246 is the default SIS server Address. In the provide PDF you find the correct Port number. To use both settings, click the Submit button. Figure 27: SENSIT Gateway Host IP-address and port setting Note The SENSIT Gateway automatically connect to the server via internet. Please make sure that the IP-address and assigned port is open in your firewall. 38/111 SENSIT SYSTEM | MANUAL Gateway Configuration Gateway Configuration 3G CONFIGURATION Where:
<apn>
<login>
<pwd>
<dns>
APN (Access Point Name) User name Password DNS (Domain Name Server) The 3G modem inside the SENSIT Gateway needs to be configured before it can access the internet and connect to the SENSIT Interface Software at the server. This is done by sending 2 SMS text messages to the SENSIT Gateway. Any GSM cell phone can be used to send these configuration text messages. 7.2.1 PROFILE:
First the APN settings should be configured. These settings depend upon the mobile network provider. The settings are sent in a SMS message using the following format:
PPROFILE:APN=<apn>;APNLOGIN=<login>;APNPASSWORD=<pwd>;DNS=<dns>;
Example:
PROFILE:APN=gprsinternet;APNLOGIN=gprs;APNPASSWORD=;DNS=;
Next the SENSIT server settings should be configured. These settings are provided to you when the SENSIT Interface Software (SIS) is installed on the server. The settings are sent in a SMS message using the following format:
PROFILE:HOSTNAME=<server>;PORT=<port>;SSL=<ssl>;
Example:
PROFILE:HOSTNAME=217.114.111.246;PORT=10000;SSL=false;
7.2.2 INFO:
To check the SIM card or the verify the mobile phone number a INFO SMS command returns some detail information. The returned information is the IMEI number, the IMSI number, mobile provider details, the signal quality and the software version. Example:
INFO:
SENSIT server hostname or ip-address Port number true / false depending if SSL security is used.
<server>
<port>
<ssl>
Where:
Note Make sure the SMS does not get longer than the default message size of 160 characters. Note The SENSIT Gateway will send a SMS back to the phone number you send the SMS with. All current settings are transmitted after sending a SMS message. 39/111 SENSIT SYSTEM | MANUAL Gateway Configuration Gateway Configuration SENSIT GATEWAY LED BEHAVIOR At the SENSIT Gateway there is a more detailed LED feedback implemented. At the left top corner, the power and general connection feedback and at the right of this the 3G modem feedback LEDs. The WSN LED indications can be found just above the tamper switch. Figure 28: SENSIT Gateway LED feedback 7.3.1 PWR (POWER) LED The first LED at the top left corner is the power (PWR) LED, this indicates if the SENSIT Gateway electronics is powered. The LED behavior is described below:
PPermanently off The electronics isnt powered. Permanently on The electronics is powered. 7.3.2 XPRT (XPORT) LED The second LED at the top left corner is the XPORT (XPRT) or Ethernet LED, this indicates if the SENSIT Gateway is connected via Ethernet to the SIS. The LED behavior is described below:
Permanently off Not connected with the SIS via Ethernet. Permanently on Connected with the SIS via Ethernet. 7.3.3 3G LED The second LED at the top left corner is the 3G LED, this indicates if SENSIT Gateway is connected via the 3G mobile network to the SIS. The LED behavior is described below:
Permanently off Not connected with the SIS via 3G. Permanently on Connected with the SIS via 3G.
Note Closing the tamper switch will disable the feedback LEDs 40/111 SENSIT SYSTEM | MANUAL Gateway Configuration Gateway Configuration 7.3.4 STS (3G STATUS) LED The first feedback LED of the 3G modem LEDs is the status (STS) LED of the 3G modem. This LED has the following behavior::
PPermanently off 3G Modem is not running. 500 ms on / 500ms off 3G Modem firmware is starting. Permanently on Firmware of the 3G modem is up and running. 7.3.5 SIM LED The second feedback LED of the 3G modem LEDs is the SIM-card LED. This LED has the following behavior::
Permanently off No SIM card inserted or detected. 500 ms on / 500ms off SIM card is inserted and busy to unlock or the SIM card is locked. Permanently on Sim card is unlocked. 7.3.6 SIS LED The second feedback LED of the 3G modem LEDs is the SENSIT Interface Server (SIS) LED and shows the connection to the (SIS) Server. This LED has the following behavior::
Permanently off An not unlocked SIM-card or searching for a (3G) network. 500 ms on / 500ms off Registered to a (3G) network. Permanently on Port is opened and connected to the (SIS) server. 7.3.7 RSSI LED The forth feedback LED of the 3G modem LEDs is the RSSI (Receive Signal Strength Indication) LED and shows the signal strength of the 3G base station. This LED has the following behavior::
Permanently off No (3G) network or RSSI level is below -100dBm. 500 ms on / 500ms off RSSI level is between -100 dBm and -70dBm. Permanently on RSSI level is above -70dBm.
Note Closing the tamper switch will disable the feedback LEDs 41/111 SENSIT SYSTEM | MANUAL Gateway Configuration Gateway Configuration 7.3.8 WSN LED INDICATIONS The SENSIT Gateway is featured with two LEDs indicating the WSN (Wireless SENSIT Network) operation. These LEDs can be found just above the tamper switch, see Figure 28: SENSIT Gateway LED feedback. The table below describes the function of the WSN LEDs. SSENSIT GGateway LLED indication. Green (D1) LED indicating the presence of active Relay Nodes in the wireless SENSIT network. LED indicating the activity of the SENSIT Gateway, the Gateway is stated and maintaining the wireless SENSIT network. Red (D2) Table 1: LED indications VERIFY COMMUNICATION Via the SENSIT Interface Software (SIS) a more detailed description can be found in chapter 17.1. After choosing: Detection Gateway choice at the left side of the screen. The powered and to the internet connected SENSIT Gateways, should show up automatically in the Gateways connected list. Figure 29: Verify connected SENSIT Gateways at the SIS 42/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT BACKUP Battery Mounting The SENSIT BACKUP Battery 8 MOUNTING THE SENSIT BACKUP BATTERY SAFETY PRECAUTIONS The following safety precautions should be observed during normal use, service and repair.
The SENSIT backup battery may only be installed and serviced by qualified service personnel. Disconnect the power supply of the SENSIT Gateway before removing or installing the SENSIT backup battery. To be sure of safety, do not modify or add anything to the SENSIT backup battery other than mentioned in this manual or indicated by NEDAP N.V INSTALLATION CONDITIONS
The installation recommendation is based on the following environmental conditions;
Dry weather conditions. REQUIRED INSTALLATION MATERIALS Ladder, Bucket-truck or an aerial platform Special Equipment:
Power drill Set screw driver Wall plugs or anchors including screws The following would be required for mounting of the SENSIT backup battery. In case of wall mounting.
The needed materials for pole mounting are described at chapter 9. MOUNTING The SENSIT backup battery must be mounted in the close vicinity of Gateway. Often it is installed back-to-back on a pole. Similar as the Gateway it can be installed virtually anywhere due to its IP65 weatherproof housing. 43/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT BACKUP Battery Mounting The SENSIT BACKUP Battery 8.4.1 DIMENSIONS The SENSIT back up battery is installed inside a similar housing as the Gateway. Only without the antennas and with a few less cable glands. The dimensions can be found below. Figure 30: Back up battery dimensions (mm) 44/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT BACKUP Battery Mounting The SENSIT BACKUP Battery 8.4.2 CONNECTION TO THE GATEWAY The SENSIT backup battery contains a lead-acid battery, a fuse and a connection wire that can directly be connected to the SENSIT Gateway. The SENSIT Gateway contains the circuit to charge the lead-acid battery when connected to mains. The figure below indicates the right connection and polarity to connect the SENSIT backup battery. Figure 31: SENSIT backup battery connection
--
++
++112VDC BBack up BBattery 45/111 SENSIT SYSTEM | MANUAL Pole mounting set Pole mounting set 9 POLE MOUNTING SET The Backup Battery and the SENSIT Gateway can be equipped with a pole mounting set. This set includes all mounting materials to mount a SENSIT Gateway or a Battery Pack housing to a round- (max. diameter is 300mm) or square pole (max. 250mm). REQUIRED INSTALLATION MATERIALS The following would be required for mounting the Pole mount set to a SENSIT Gateway or a Battery Pack housing and finally to a pole.
Ladder, Bucket-truck or an aerial platform size 10 for stainless steel strap Special Equipment:
Wrench:
Cutter:
Set screw driver MOUNTING The pole mount set includes all mounting materials to mount a SENSIT Gateway or a Battery Pack housing to a pole. The bracket can be bolted to the SENSIT Gateway or Battery Pack housing, see figure below for more details. Figure 32: Pole Mount set installation Furthermore the pole mount set includes, the needed bolts, washers and nuts (4x) and an adjustable clamp set, to strap the housing to the pole. 46/111 SENSIT SYSTEM | MANUAL Mounting The Relay Node 2G Mounting The Relay Node 2G 10 MOUNTING THE RELAY NODE 2G SAFETY PRECAUTIONS The following safety precautions should be observed during normal use, service and repair:
The Relay Node only be installed and serviced by qualified service personnel. To be sure of safety, do not modify or add anything to the SENSIT Relay Node 2G other than mentioned in this manual or indicated by Nedap N.V. IC AND FCC ID
FCC ID: CGDRELAY and IC: 1444A-RELAY DIMENSIONS See Figure 33 for the dimensions (in mm) of the Relay Node 2G unit. Figure 33: Dimensions Relay Node 2G (mm) 47/111 SENSIT SYSTEM | MANUAL Mounting The Relay Node 2G Mounting The Relay Node 2G INSTALLATION CONDITIONS The installation recommendation is based on the following environmental conditions;
Dry weather conditions. REQUIRED INSTALLATION MATERIALS The following would be required for mounting of the SENSIT Relay Node 2G.
Ladder, Bucket-truck or an aerial platform
T20
no. 5
size 10 Special Equipment:
TORX screw driver:
Allen key:
Wrench:
INSTALLATION PROCEDURE Below the mounting procedure for the Relay Node 2G. The Relay Node 2G features visual status feedback using two LED indicators: a green and a red LED. SSENSIT Relay Node 2G mounting procedure SStep 1:
Mounting Mount the reflector and top of the housing on the pole or wall. With the Nedap asterisk at the top. The Relay Node 2G can also be mounted without the reflector for an omni-directional radiation pattern. Remove the isolation tabs, to power up the Relay Node. SStep 2:
Power the Relay Node SStep 3:
Verify start-up SStep 4:
WSN search SStep 5:
WSN found SStep 6:
Final installation Green LED starts blinking fast (duration:
15 sec.), indicating that battery power has been connected correctly. Red LED starts to blink slowly. This indicates that the Relay Node didnt found an active WSN (wireless SENSIT Network) yet. It is searching for a WSN. Green LED starts slow blinking and red LED is turned off. This indicates that a WSN has been found. Now the Relay Node electronics can be installed at the pole or wall with a TORX
(T20) screw driver. Note When segmentation is needed, please use the Configuration Tool and set the right segment. Note The Green and Red feedback LEDs are located in the blue circle. Note After 15 minutes LED feedback is turned off, to save battery power. Note After 1 minute the LED feedback is turned off, to save battery power. 48/111 SENSIT SYSTEM | MANUAL Mounting The Relay Node 2G Mounting The Relay Node 2G BATTERY REPLACEMENT When the battery life of the Relay Node 2G fails after specified lifetime, the batteries can be changed make sure you use the right batteries:
D-cell Lithium Thionyl Chloride batteries (Li-SOCl2) 3.6V, recommended types are:
SAFT | LS 33600 XENO | XL-205F SSENSIT Relay Node 2G battery replacement SStep 1:
Opening the housing Open the Relay Node 2G housing by unscrewing the TORX, T20 screw. SStep 2:
Replace the batteries SStep 3:
Verify start-up SStep 4:
WSN search SStep 5:
WSN found SStep 6:
Final installation Remove the old batteries and dispose them in the correct manner. Place the new 3.6V Lithium (Li-
SOCL2) batteries (see suggested types above) and make sure the polarity is correct, as indicated. Green LED starts blinking fast
(duration: 15 sec.), indicating that battery power has been connected correctly. Red LED starts to blink slowly. This indicates that the Relay Node didnt found an active WSN (wireless SENSIT Network) yet. It is searching for a WSN. Green LED starts slow blinking and red LED is turned off. This indicates that a WSN has been found. Now the Relay Node electronics can be installed at the pole or wall with a TORX (T20) screw driver. Note Previous segmentation is stored, when the same segment still applies you dont need to segment the Relay Node 2G again. Note The Green and Red feedback LEDs are located in the blue circle. Note After 15 minutes LED feedback is turned off, to save battery power. Note After 1 minute the LED feedback is turned off, to save battery power. 49/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT IR Mounting The SENSIT IR 11 MOUNTING THE SENSIT IR SAFETY PRECAUTIONS The following safety precautions should be observed during normal use, service and repair:
The SENSIT IR may only be installed and serviced by qualified service personnel. To be sure of safety, do not modify or add anything to the SENSIT IR other than mentioned in this manual or indicated by NEDAP N.V.
IC AND FCC ID FCC ID: CGDSENSIT and IC: 1444A-SENSIT DIMENSIONS The SENSIT IR is designed for mounting into the floor of a parking space. See Figure 34 for the dimensions of the unit in mm. Figure 34: Dimensions SENSIT IR (mm). INSTALLATION CONDITIONS The installation recommendation is based on the following environmental conditions;
Ambient temperature between 5 to 40 C (41 to 104 F0 Dry weather conditions Surface based on concrete, asphalt or pavement REQUIRED INSTALLATION MATERIALS The following would be required for mounting of the SENSIT IR.
Automatic core drill
Dimensions 85 mm (3.35 in)
55 mm (2.16 in)
Liquid rapid mortar
Approx 100 ml We have good results with the rapid mortar TM 5R. See appendix B for specifications. Ensure to follow the guidelines and instructions as outlined on the filler material. Equipment:
Drill size:
Drill depth:
Filler material:
Required amount per sensor:
50/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT IR Mounting The SENSIT IR INSTALLATION PROCEDURE Below the mounting procedure for the SENSIT sensor with and without the Configuration Tool. 11.6.1 WITHOUT THE CONFIGURATION TOOL SSENSIT sensor mounting procedure SStep 1:
Preparation Indicate on the closed parking lot where the SENSIT sensor should be mounted. Distribute the SENSIT sensors over the parking lot and write down the correct ID numbers on your installation plan. Drill a hole of 85 mm [3.35 in] and at least 55 mm [2.16 in] deep into the center of the parking bay Apply the right amount of filler and pour into the hole. Double-check the node ID number and the parking bay on the installation plan and place the SENSIT sensor into the hole. After mounting the SENSIT sensors in all parking bays or a selection of parking bays. Clean up the parking bays and remove all
(metal) tools and objects. All SENSIT sensors are set into transport/stock mode during shipment. After installation all mounted SENSIT sensors must be swept with the reset magnet. After installation the SENSIT sensor must be calibrated. Ensure that the parking space is empty and that there is no car parked on top of the sensor or on neighboring parking bays. SENSIT sensors can be calibrated via the SENIST Interface Software (SIS). See chapter 17.8.6 for more information about calibration. Leave the filler harden for 8 hours before vehicles are allowed in the parking space again. Note Take attention that you fixate the SENSIT sensor during the curing time otherwise the sensor will start to float. Note Once out of the transport/stock mode the battery lifetime starts to count. Note When the SENSIT sensors are not calibrated they hardly send any messages. This is due to the fact that there are no events generated because the magnetic thresholds are not crossed. 51/111 Step 2:
Drilling SStep 3:
Gluing SStep 4:
Mounting SStep 5:
Cleaning-up SStep 6:
Activating SStep 7:
Calibrating SStep 8:
Glue curing SENSIT SYSTEM | MANUAL Mounting The SENSIT IR Mounting The SENSIT IR 11.6.2 WITH THE CONFIGURATION TOOL SSENSIT sensor mounting procedure SStep 1:
Preparation Indicate on the closed parking lot where the SENSIT sensor should be mounted. Distribute the SENSIT sensors over the parking according the installation plan. Drill a hole of 85 mm [3.35 in] and at least 55 mm [2.16 in] deep into the center of the parking bay Apply the right amount of filler and pour into the hole. Place the SENSIT sensor into the hole and make sure it doesnt start to float. After mounting the SENSIT sensors in all parking bays or a selection of parking bays. Clean up the parking bays and remove all
(metal) tools and objects. Use the Configuration Tool: Activate, perform the segmentation according the installation plan and calibrate the SENSIT sensor. Step 2:
Drilling SStep 3:
Gluing SStep 4:
Mounting SStep 5:
Cleaning-up SStep 6:
Activating Segmentation Calibration SStep 77::
Glue curing Leave the filler harden for 8 hours before vehicles are allowed in the parking space again. REPLACEMENT When the battery life of the SENSIT IR fails after specified lifetime, we advise to replace the unit completely. The SENSIT IR is fully sealed and for outdoor use, therefore batteries cannot be replaced. Drill out the old SENSIT IR and complete the mounting procedure as describe in the previous paragraph. Ensure to note the node ID number of the SENSIT IR to the parking bay. Update the parking bay configuration list in the SIS software to ensure the new sensor is linked to the right parking bay. Note Take attention that you fixate the SENSIT sensor during the curing time otherwise the sensor will start to float. Note Once out of the transport/stock mode the battery lifetime starts to count. 52/111 SENSIT SYSTEM | MANUAL mounting The SENSIT IR Flush Mount mounting The SENSIT IR Flush Mount 12 MOUNTING THE SENSIT IR FLUSH MOUNT SAFETY PRECAUTIONS The following safety precautions should be observed during normal use, service and repair.
The SENSIT Surface Mount may only be installed and serviced by qualified service personnel. To be sure of safety, do not modify or add anything to the SENSIT Surface Mount other than mentioned in this manual or indicated by NEDAP N.V.
IC AND FCC ID FCC ID: CGDSENSIT and IC: 1444A-SENSIT DIMENSIONS The SENSIT Flush Mount is designed for full mounting into the floor of a parking space. As the unit is fully flush with the road surface the unit is snow plough resistant. The SENSIT Flush Mount is only featured with magnetic detection. See Figure 35 for the dimensions of the unit in mm. The top of the SENSIT Flush Mount is laser engraved with the node ID number. Figure 35: Dimensions SENSIT Flush mount (mm). INSTALLATION CONDITIONS The installation recommendation is based on the following environmental conditions;
Ambient temperature between 5 to 40 C [41 to 104 F]
Dry weather conditions Surface based on concrete, asphalt or pavement 53/111 SENSIT SYSTEM | MANUAL mounting The SENSIT IR Flush Mount mounting The SENSIT IR Flush Mount INSTALLATION MATERIAL The following would be required for mounting of the SENSIT FLUSH MOUNT.
Automatic core drill Dimensions 85 mm (3.35 in) 75 mm (2.95 in) Liquid concrete mortar Approx. 100 ml Equipment:
Drill size:
Drill depth:
Filler material:
Required amount per sensor:
We have good results with the rapid mortar TM 5R. See appendix B for specifications. Ensure to follow the guidelines and instructions as outlined on the filler material. INSTALLATION PROCESS Installation process as described in paragraph 11.6, however with above mentioned drilling depth. See figure below for more details about the mounting depth of the SENSIT Flush Mount, dimensions in mm. Figure 36: Mounting depth SENSIT Flush mount (mm). REPLACEMENT When the battery life of the SENSIT Flush Mount fails after specified life time, we advise to replace the unit completely. The SENSIT Flush Mount is fully sealed, therefore batteries cannot be replaced. Drill out the old SENSIT Flush Mount and complete the mounting procedure as described in paragraph 11.6. Ensure to note the node ID number of the SENSIT IR to the parking bay. Update the parking bay configuration list in the SIS software to ensure the new sensor is linked to the right parking bay. 54/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT Surface Mount Mounting The SENSIT Surface Mount 13 MOUNTING THE SENSIT SURFACE MOUNT The SENSIT Surface Mount is designed for installations where the sensors cannot be drilled into the parking space e.g. multi storey car parks and rooftop car parks or existing car parks. SAFETY PRECAUTIONS The following safety precautions should be observed during normal use, service and repair.
The SENSIT Surface Mount may only be installed and serviced by qualified service personnel. To be sure of safety, do not modify or add anything to the SENSIT Surface Mount other than mentioned in this manual or indicated by NEDAP N.V. IC AND FCC ID
FCC ID: CGDSENSITSM and IC: 1444A-SENSITSM DIMENSIONS The SENSIT Surface Mount can easily be glued onto the surface of a parking space. The unit consists of two components;
Sensor core; the black core is the vehicle detection sensor. This unit can be replaced after end of battery life. Mounting ring; the mounting ring allows easy installation onto the surface of a parking space.
See Figure 37 for the dimensions of the unit, dimensions in mm. The top of the SENSIT Surface Mount is laser engraved with the node ID number. Figure 37: Dimensions SENSIT Surface Mount (mm). REQUIRED INSTALLATION MATERIALS The following would be required for mounting of the SENSIT FLUSH MOUNT.
Equipment:
Filler material:
Required amount per sensor:
Pneumatic kit dispenser MSP or PU glue Approx. 150 ml Note See Appendix 20B and 20C for more information about the recommended MSP or PU glue. 55/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT Surface Mount Mounting The SENSIT Surface Mount INSTALLATION PROCESS Follow the recommended installation procedure for the SENSIT Surface Mount as described below. In the chapters below you can find the installation procedure with and without the Configuration Tool. 13.5.1 WITHOUT THE CONFIGURATION TOOL SSENSIT Surface Mount mounting procedure Step 1:
Preparation Indicate on the closed parking lot where the SENSIT sensor should be mounted. Clean the location where the sensor should be mounted. Distribute the SENSIT sensors over the parking lot and write down the correct ID numbers on your installation plan. Pour the filler into the mounting ring of the SENSIT Surface Mount. A pneumatic kit dispenser makes it easy to apply the glue into the mounting ring. For good fixture with the surface please fill the entire mounting ring. Press firmly and double check the ID number. After mounting the SENSIT sensors in all parking bays or a selection of parking bays. Clean up the parking bays and remove all
(metal) tools and objects. All SENSIT sensors are set into transport/stock mode during shipment. After installation all mounted SENSIT sensors must be swept with the reset magnet. After installation the SENSIT sensor must be calibrated. Ensure that the parking space is empty and that there is no car parked on top of the sensor or on neighboring parking bays. SENSIT sensors can be calibrated via the SENIST Interface Software (SIS). See chapter 17.8.6 for more information about calibration. Leave the glue dry for at least 4 hours before vehicles are allowed in the parking space again. Step 2:
Gluing Step 3:
Mounting Step 4:
Cleaning-up Step 5:
Activating Step 6:
Calibrating Step 7:
Glue curing Note Ensure excessive glue is removed from the bottom black core part of the unit, as this will make it very difficult to replace the core part. For non-permanent mounting only glue the ring with a few dots of glue. Note Once out of the transport/stock mode the battery lifetime starts to count. Note When the SENSIT sensors are not calibrated they hardly send any messages. This is due to the fact that there are no events generated because the magnetic thresholds are not crossed. 56/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT Surface Mount Mounting The SENSIT Surface Mount 13.5.2 WITH THE CONFIGURATION TOOL SSENSIT Surface Mount mounting procedure Step 1:
Preparation Indicate on the closed parking lot where the SENSIT sensor should be mounted. Clean the location where the sensor should be mounted. Distribute the SENSIT sensors according your installation plan. Pour the filler into the mounting ring of the SENSIT Surface Mount. A pneumatic kit dispenser makes it easy to apply the glue into the mounting ring. For good fixture with the surface please fill the entire mounting ring. Press firmly. Step 2:
Gluing Step 3:
Mounting Step 4:
Cleaning-up Step 5:
Activating Segmentation Calibrating SStep 7:
Glue curing After mounting the SENSIT sensors in all parking bays or a selection of parking bays. Clean up the parking bays and remove all (metal) tools and objects. Use the Configuration Tool: Activate, perform the segmentation according the installation plan and calibrate the SENSIT sensor. Leave the glue dry for at least 4 hours before vehicles are allowed in the parking space again. Note Ensure excessive glue is removed from the bottom black core part of the unit, as this will make it very difficult to replace the core part. For non-permanent mounting only glue the ring with a few dots of glue. Note Once out of the transport/stock mode the battery lifetime starts to count. 57/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT Surface Mount Mounting The SENSIT Surface Mount REPLACEMENT When the battery life of the SENSIT Surface Mount fails after specified lifetime, we advise to replace the core. The core part of the SENSIT Surface Mount is fully sealed and for outdoor use, therefore batteries cannot be replaced. SSENSIT Surface Mount rreplacement procedure Step 1:
Remove core The mounting ring can remain positioned in the parking space. The core can be unscrewed using a TORX screwdriver. Unscrew the core by opening the 4 screws in the core part of the SENSIT Surface Mount using a T20 size bit screwdriver. Twist the core to lift up. Place a new core into the mounting ring by aligning the marks on the core part with the marks on mounting ring as indicated in figure 9. Strongly push down the core and secure with 4 screws. Write down the correct ID numbers of the replaced core on your installation plan. Activate the sensor, perform segmentation when needed and calibrate. Do this according the procedures for with or without the Configuration Tool as described in the previous chapter. Ensure to note the node ID number of the SENSIT Surface Mount to the parking bay and update the parking bay configuration list in the SENSIT Interface Software (SIS), see chapter 17.8.2 Note Once out of the transport/stock mode the battery lifetime starts to count. Note Also ensure not metal parts
(such as tools) arent positioned in the surrounding of the sensors as this might affect calibration. 58/111 Step 2:
Replace core Step 3:
Activating
(Segmentation) Calibration SStep 44::
Update SIS SENSIT SYSTEM | MANUAL Mounting The SENSIT EPL Mounting The SENSIT EPL 14 MOUNTING THE SENSIT EPL The SENSIT EPL is designed for installations at the windscreen of a vehicle. SAFETY PRECAUTIONS The following safety precautions should be observed during normal use, service and repair.
The SENSIT EPL may only be installed and serviced by qualified service personnel. To be sure of safety, do not modify or add anything to the SENSIT EPL other than mentioned in this manual or indicated by NEDAP N.V. IC AND FCC ID
FCC ID: CGDSENSITEPL and IC: 1444A-SENSITEPL DIMENSIONS The SENSIT EPL can easily be mounted on the inside of a vehicle. Clean the inside surface of the windshield and make sure it free of grease and dirt. Than attaches, the SENSIT EPL with the suction cups to the windscreen. See Figure 38 for the dimensions of the unit, dimensions in mm. The bottom of the SENSIT EPL is laser engraved with the node ID number. Figure 38: Dimensions SENSIT EPL (mm). REQUIRED INSTALLATION MATERIALS The following would be required for mounting of the SENSIT EPL.
Soft lint free cloth Isopropyl alcohol Equipment:
Cleaner material:
59/111 SENSIT SYSTEM | MANUAL Mounting The SENSIT EPL Mounting The SENSIT EPL INSTALLATION PROCESS Follow the recommended installation procedure for the SENSIT EPL as described below. SSENSIT Surface Mount mounting procedure Step 1:
Preparation Write down the unique ID-number of the SENSIT EPL and insert the AAA alkaline batteries. Step 2:
Cleaning Clean the windscreen at the location you like to install the SENSIT EPL. Step 3:
Mounting Attach the SENSIT EPL with the suction cups to the windscreen. Step4:
Registration Register the SENSIT EPL in the SIS by filling in the permit details and the by Step1 written unique ID-number, this explained in more details in chapter 17.6.1. SYSTEM SETUP FOR EPL To get the best performance of detecting EPLs in a SENSIT installation with different segments the next steps have to be performed and checked. 1. The SIS needs accurate GPS coordinates of all system components; DC, RN and SENSIT Sensors. The GPS coordinates can be uploaded into the SIS via the Parking bay configuration menu see chapter 17.8.2. 2. All active system components (DC and RN) needs at least firmware version 2D. 3. The EPL needs at least firmware version 2D. 4. Segmentation announcement has to be enabled for all active system components (DC and RN). Segmentation announcement can be enabled via REST. 60/111
SENSIT SYSTEM | MANUAL MOUNTING THE SENSIT DISPLAY MOUNTING THE SENSIT DISPLAY 15 MOUNTING THE SENSIT DISPLAY The SENSIT Display enables signage of available parking spaces for stand-alone parking guidance installations. The display is designed for outdoor use, indicating the number of available parking spaces per parking lot thus guiding motorists to the closest parking space. The display has adequate mechanical protection to withstand demanding environmental conditions and automatic regulation of LED luminance to optimally adept to surrounding conditions. SAFETY PRECAUTIONS The following safety precautions should be observed during normal use, service and repair:
The SENSIT Display may only be installed and serviced by qualified service personnel. Disconnect the power supply before removing or installing any parts. To be sure of safety, do not modify or add anything to the SENSIT Display other than mentioned in this manual or indicated by NEDAP N.V. DIMENSIONS In general the SENSIT Display is mounted inside a sign to be part of a (small) dynamic guidance system. The only requirements are an AC mains power supply and an Ethernet connection it is also possible to power the display over a PoE+
connection. The ambient light sensor for the automatic regulation of the LED luminance is located just above the LEDs in the center of the sign. The mounting dimension can be found below. Figure 39: Dimensions SENSIT DISPLAY (mm). Note Make sure the ambient light sensor isnt covered. Note 6x M5x15mm stainless steel bolts are included 61/111 SENSIT SYSTEM | MANUAL Project Support Project Support 16 PROJECT SUPPORT Based on our thorough project analysis including configuration and installation advice we can offer the customer the best AVI solution. SITE SURVEY & INSTALLATION ADVICE This will consist of an engineer visiting the site to visually inspect and analyze the location. We will then carry out calculations and provide you with detailed configuration and installation advice for the equipment for a specific project. ON-SITE CERTIFICATION An engineer will visit the site to inspect the installation of the equipment on reliable and accurate detection. Nedap engineers are not involved in installation (wiring) of any equipment. The installation must be completed before the engineer arrives on-
site. We will ensure that the operation confirms our commissioning requirements, only on condition of prior given installation advice. 62/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software 17 SENSIT INTERFACE SOFTWARE INTRODUCTION The SENSIT Interface Software (SIS) enables easy system integration into an enforcement, traffic guidance or parking guidance management application. The SENSIT Interface Software enables easy installation of the wireless sensor network. Once the network and sensors are installed and calibrated, the sensors will automatically appear in the software. Configuration of sensors to specific parking bays, parking zones and parking lot can easily be realized. Additionally the software configures and monitors communication of the SENSIT node network. It monitors the data transfer between the sensors and the SENSIT Gateways. Moreover it also analyzes communication reliability of the sensor network in a graphical map, automatically alerting areas for maintenance. The SENSIT Interface Software is installed on a hosted server, so no IT infrastructure is required at the client. The software application can be approached with any modern web browser that supports Java can connect to the software application. Each sensor site has a site specific URL indicated in the following way;
https://sitename.nedapparking.com USERS Start the web browser and enter the SENSIT Server hostname. A login screen will appear. Please view the document outlining the SENSIT Gateway configuration settings for the details on the URL, login and password for your site. This information is required to obtain access. 17.2.1 LOGIN The login screen provides access to the software. Enter username and password. Figure 40: Login screen 63/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software sensit 17.2.2 DEFAULT LOGINS User:
The SENSIT user has reduced functionality in the software. Only a subset of these options is available via the user login. Basically this login is available to check the status of the system. It does not allow changing the configuration or any other settings. User: parkingapp This login has reduced functionality in the software and is used for the Nedap parking app. User:
This user has reduced functionality in the software, used for third party integration via REST or SOAP. User:
This user has advanced functions and configuration possibilities. The initial username and password are provided to you by Nedap. 17.2.3 LOGOUT Click 'Logout' when you want to close the application. integrator sensitadv 64/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software SUPPORT WIDGET The Web Widget enables you to answer your questions without leaving the SIS webpage. You can get quick access to and search for knowledge base articles or send a question to our support. The support button appears in the top corner of every SIS page, just beside the logout button. When you click the Support button a search window appears in the bottom right corner, here you can type your search phrase, see figure below. Figure 41: Support knowledge base search When this knowledge base doesnt answer your question you can easily contact the helpdesk by filling in a contact form to submit a ticket, see figure below. After sending the question you will receive a confirmation by email with a new ticket number. Figure 42: Contact form Note The Support Widget is only available at Nedap hosted SIS installation. 65/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software DASHBOARD The Dashboard is designed to give the user an overview on how the SENSIT system is performing. The Dashboard page contains several Widgets. A Widget summarizes and displays the actual state of SENSIT system. Figure 43: Dashboard screen The Dashboard contains six main Widget categories: SENSIT sensor, Relay Nodes, Gateways, The wireless Network, the Server and system notifications. The functions of the Dashboard are self-explaining by hover over pop-ups and help balloons when needed. Every widget can be configured via the configuration symbol at the right corner of every widget, see figure below. The configuration symbol will automatically show if you move your mouse to the specific widget. In this screen you can change the different widget settings. Figure 44: Configuration symbol and widget settings screen Note Configuration is only available under sensitadv login. 66/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software MAPS The SIS is more map orientated. The Maps will show the actual parking lot status on an overview map and in more details. The SENSIT are placed on the map and their colors indicate the actual status. The SENSIT and other nodes can be placed on the open street map automatically when the GPS coordinates of all nodes are provided. It is also possible to configure your own map (SVG-file). See chapter 17.8.4 how to configure the overview map. Figure 45: Overview map The Maps has four main function:
1. Parking, showing the occupancy of the parking lots. 2. Enforcement, showing violations and overstays at the parking lots 3. Analysis, showing the Wireless SENSIT Network status, the segmentation and the sensor details. 4. Configuration, makes it possible to move the system component into the right location at the map. 17.5.1 PARKING At the parking map you can find the number of occupied and available bays. This can be showed for the whole system or per individual parking lot. At parking lot level the user can select a bay to get some more details and to individually deactivate a bay. Figure 46: Parking map, available and occupied bays. Bay 38 is selected 67/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software 17.5.2 ENFORCEMENT The enforcement map shows all violation and overstays of the system. This can be showed for the whole system or per individual parking lot. At parking lot level the user can select a bay to get some more details and also to individually deactivate a bay. Figure 47: Parking map, violations and overstays. 17.5.3 ANALYSIS The analysis map shows three different views; Network-, segmentation- and sensor view. The analysis map can be used to identify in more details possible issues with the system or a specific sensor. The network view indicates the uptime of every individual SENSIT component. Also at the overview map the number of SENSIT components with uptime issue are shown. Also at parking lot level the individual SENSIT components are marked red when the uptime is too low. Below an example of a just installed parking lot were all bays, Relay Node and Gateway indicate a poor uptime. Figure 48: Network view. 68/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Segmentation of larger parking lot is often needed to get a better performance and lower latency. In the segmentation view a single SENSIT component can be selected whereupon al corresponding nodes with the same segment number will light up blue. Figure 49: Segmentation view. At the sensor view every individual bay can be monitor about its sensor states (IR and magnetic) also the sensor can be calibrated. Both the IR sensor as the magnetic sensor can be calibrated independantly. Figure 50: Sensor view. 69/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software In this sensor view the IR and magnetic sensor can be analyzed as well as the SENSIT sensor and SIS conclusions by selecting the bay and click the Analyze sensor button. Figure 51: Analysis sensor view. PARKING ENFORCEMENT The Parking enforcement is a secondary dashboard, designed to give the user an overview on all parking enforcement related information. This parking enforcement dashboard summarizes and displays the actual status of a specific parking zone. Figure 52: Parking enforcement dashboard screen Different enforcement information of all parking zones are displayed: Permits in use, Occupied permit bays, Occupied bays, Bays in overstay and the Permit violations. The Electronic Parking License (EPL) is a hardware device that is physically placed inside a vehicle or it is an App that is running on a smartphone. Whenever the 70/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software vehicle with EPL hardware stops moving for a specific period of time, the EPL considers the vehicle to be parked. In that case, the EPL hardware will search for a SENSIT wireless network. If a network is detected, the EPL will make itself known to the network. As a result the unique EPL identifier is registered within the SENSIT Server system. The user of the EPL App is doing the same, it activates the parking action with it smartphone. When a parking bay that requires a license, becomes occupied, the SENSIT system is notified. The system will calculate the odds of the parking bay being occupied by an unauthorized vehicle. 17.6.1 PERMIT ADMINISTRATION In these screens all permit administration is performed. A permit is issued to a person and it can be a hardware EPL or an EPL App installed on a smart phone. Figure 53: Permit administration screen New permits can be added and existing permits can be edited or removed. A Residential permit number can be enter, name, license plate number and the EPL node ID in case of a issued hardware EPL. The permit can be disable and an expiration date can be used, an empty expiration date means valid forever. Than one or multiple parking zones can be selected where the permit is valid. Zone creation is explained in the next paragraph. Note An EPL is only valid for a selected (blue highlighted) Permit zone. 71/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Figure 54: Edit permit screen After creating a new permit, by filling in all needed details, a QR-code is automatically generated. The EPL App needs this QR-code. The QR-code contains the URL of the SIS where the permit is created and a unique identifier. 17.6.2 PERMIT ZONE CONFIGURATION In these screens all permit zone configuration is performed. A permit zone is a selection of one or multiple parking bays. A list of all available, already entered, zones are displayed in the screen below. Figure 55: Permit zone configuration screen New permit zones can be added and existing permits zones can be edited or removed. A permit zone name and description can be entered and the bays can be assigned in the selection screen. 72/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Figure 56: Add/Edit a permit zone screen A permit zone can be a parking lot(s), a parking zone(s), one or a selection of bays. This can easily be selected in the screen below. Figure 57: Permit zone bays assignment screen DETECTION 17.7.1 GATEWAY In the SENSIT Gateway menu you can configure communication gateway settings between the SENSIT Gateways and the SENSIT Server. Furthermore the screen provides an overview of the current SENSIT Gateway settings. The list of SENSIT Gateways is automatically updated. Gateway server setting Select 'enabled' to enable the connection from SENSIT Gateway to the server. Enter the TCP port (or default SSL port), to accept connections from the SENSIT Gateway(s). For a remote hosted SENSIT Server, the port number should not be changed. Because the port numbers are assigned by the Nedap system administrator. SENSIT Gateway connection settings In this menu you can set 'Host name' and communication 'Port' for the SENSIT Gateway. The SENSIT Gateway is displayed as a node, see below. The hostname of the SENSIT Gateway can normally be found on the housing. The SENSIT Server will try to establish a connection with the specified SENSIT Gateway. This does not work on remote hosted SENSIT Servers. See gateway server settings above. The screen provides an overview of the current SENSIT Gateway settings. When entering new SENSIT Gateways, the table is automatically updated. 73/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Figure 58: SENSIT Gateway server settings 17.7.2 NODE CROSS CHECK The menu option 'Node cross check' displays all nodes currently visible in the system that are not allocated to a parking bay. These could be new or replaced SENSITs, but also the Relay Nodes and SENSIT Gateways are shown here. Moreover this screen also displays parking bays without a node (if this information is entered via the parking bay configuration). Figure 59: Node cross check 17.7.3 NODE PRESENCE This screen will display information on the last received message from each node present in the network. It will outline the Node ID, type number, version and the timestamp of the last received message. Node presence check (min) If a node does not respond within a certain time period (default: 720 minutes) after transmission of the last message, the SENSIT Server will check if the node is still available. In this menu option you can select the time after receiving the last message (in minutes) when to send the Node presence check. Node presence check retry The 'Node presence check retry' specifies the number of times (default: 4) the SENSIT Server shall try to connect to the node. 74/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Figure 60: Node presence In the screenshot above several nodes are listed in the node cross check. For example node id 00.0000.72BC is a SENSIT IR (type 3109). Every different type of node has its own Type code, see below the general use types:
Type code 000c 0017 0018 3003 3109 310D 310E 8004 Node description Data Collector SENSIT Gateway Relay Node 2G Relay Node 1G SENSIT Flush Mount or SENSIT IR SENSIT Flush Mount or SENSIT IR Electronic Parking License (EPL) WSN Display DEFINITION 17.8.1 RELAY NODE CONFIGURATION You can click the Refresh button and verify if the Relay Node ID appears in the Current Relay Nodes list. Figure 61: Relay Node configuration screen The Relay Node ID is laser engraved on the Relay Node. There is also a 125kHz passive RFID label embedded into the Relay Node. This can be used for verification of the Relay Node or to localize Relay Nodes that are already installed in the field. 17.8.2 PARKING BAY CONFIGURATION In the menu 'Parking bay configuration' SENSITs are allocated by their Node ID to individual parking bays. The data is imported into the system via a csv-file (comma separated values). The following information should be entered into the csv-file separated by a comma (' ,
'). Note that the combination of parking lot-id and bay-number must be unique. Column 1 Column 2 Parking lot ID (number indicating the parking lot). Zone ID (number indicating zone on the parking lot the bay is 75/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software located in) Zone ID is also used to identify Relay Node (RN) or Gateway/DataCollector (DC). Bay number (number indicating individual parking bay). Bay number is also used to number a Relay Node or Data Collector Node ID. (SENSIT, Relay Node or Gateway/DataCollector) GPS, Latitude (optional, decimal degrees with min. 6 decimals). GPS, Longitude (optional, decimal degrees with min. 6 decimals). GPS, Altitude (optional, decimal degrees with min. 6 decimals). Column 3 Column 4 Column 5 Column 6 Column 7 Figure 62: Example parking bay configuration csv-file Select the csv-file by clicking the 'Browse'-button, then click 'Import' to import the selected file. When the csv-file is imported, the screen will display the information. At each given moment you can verify in this table the allocated SENSIT / Parking bay bindings. Refer to the node cross check display to verify if all SENSIT are assigned to a parking bay (see chapter 17.7.2). It is possible to incrementally expand the Parking bay configuration list by importing only additional allocation information (Parking lot ID, Zone ID, bay/place number and Node ID) via a new csv-file. Figure 63: Parking bay configuration Click the small green checkbox icon to (temporarily) inform the system that the parking bay is unavailable. Click the small pencil at the end of a row, an Update Node ID screen shows up, here you can change the Node ID number and the GPS coordinates. This can be used to replace a SENSIT or to correct a mistake. Note Ensure that the filename and file path do not include any spaces. Note The order of parkinglotid in the Monitor configuration screen determines the order of TABs in the Monitor map screen. 76/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Figure 64: Update Node ID 17.8.3 PARKING LOT CONFIGURATION The parking state logging feature periodically saves occupancy status in the database. Enable the 'parking lot state logging on' checkbox to start logging occupancy status of the parking lot in the database. The parking lot state logging interval setting selects the logging period in minutes. By default this is set to 60 minutes. Figure 65: Parking lot configuration 17.8.4 MONITOR CONFIGURATION Site Name Fill in here the site name. Map List Here you can load the parking lot graphic file (SVG-format) into the system and assign it to a parking lot. The SVG-file can be created with Inkscape
(http://inkscape.org). Nedap has an extension available for Inkscape that should be used to define where the parking bays are located on the map. See the advanced section, chapter 18.1 for more explanation and the workflow about the Inkscape program. When the SVG-file is created, enter the ParkinglotID and the title. Then select the svg-file by clicking the 'Browse'-button and click Upload' to upload the selected file into the system. Figure 66: Inkscape 77/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software 17.8.5 OVERSTAY CONFIGURATION The SENSIT Server can be used for overstay applications, specifically where there is a need for a maximum time limit for free parking. The menu 'Overstay configuration'
allows you to set several overstay parameters. Figure 67: Overstay configuration System overstay settings With this option the global overstay function can be enabled. The settable Allowed parking time is the overstay time for all SENSIT sensors defined at the SENSIT Interface Server. This setting determines how long a parking bay should be occupied before an overstay situation occurs. Overstay verification settings When enabled, the SENSIT Interface Server will ask the SENSIT sensor if all state events are received in case of an overstay. The last state event message is transmitted again to the SENSIT Server to verify the overstay. The Max number of retries (max value is 5) can be set. If an overstay verification fail it retry to receive the last state event message. If the final overstay verify attempts fail an unverified overstay event is generated. 78/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software 17.8.6 SENSOR CALIBRATION To ensure reliable operation of the system the SENSIT sensors should be calibrated before commissioning. Calibration values can be set for the magnetic detection in each axis (x, y and z). Default calibration values are 50 mGauss in each axis. The default value for the IR sensitivity is 9, the maximum. The IR sensitivity is only lowered in case of a ceiling or other coverage of the SENSIT sensors. Figure 68: SENSIT sensor calibration SENSIT nodes can be calibrated individually. This by entering the Node ID of the specific sensor you want to calibrate into the field 'Calibrate node number'. Alternatively you can calibrate all nodes or the nodes from a specific parking lot. When you click 'Calibrate all nodes' all SENSIT sensors in the network will automatically be calibrated. Click the 'Calibrate' button to start the calibration. In the menu an update message will start to keep you update on progress. Incorrect occupied spaces can be indicated if a vehicle parked in the neighboring parking space activates the magnetic sensor. If the percentage of incorrect occupied
(so actually free) is too high over the parking lot, the magnetic values can be adjusted by selecting a higher value e.g. 60 mGauss. If the percentage of incorrect free (actually occupied) spaces is too high the sensitivity of the magnetic threshold can be reduced to lower value e.g. 40 mGauss. 17.8.7 DISPLAY Display Configuration The 'Display configuration' screen allows you to control a display via the node network. This without any physical communication wiring. Only a power supply is required. The communication with a display is realized via a display node. Note that this functionality is only available for specific displays. Contact Nedap for more information. The display node is part of the network and can therefore communicate wirelessly via the node network. A maximum number of 2 displays can be controlled in a wireless mesh network of 500 sensors. Use of more displays will increase the communication latency. The update of a Display can be enabled and the update interval can be set. A choice can be made either to subtract the full threshold from the display value on forehand or to set the display at zero when the threshold value is reached. Note The SENSIT nodes can only be calibrated when the specific bay and neighboring bays are not occupied by vehicle. When all SENSIT nodes need to be calibrated the parking lot must be completely empty. Note Individual sensor can also easily been calibrated via the Maps. 79/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Figure 69: Display configuration The display will show the total number of available spaces on all the parking zones and parking lots it has been assigned to. In case you want to display information on individual zones, we advise you to allocate one display node to each parking zone. The display configuration information is imported into the system via a csv-file
(comma separated values). The following information should be entered into the csv-file separated by a comma (' , ').
Parking lot ID. Zone ID. Display node ID. Full threshold. When less parking places are available, the display will indicate FULL. Column 1 Column 2 Column 3 Column 4 Figure 70: Example display configuration csv-file Select the csv-file by clicking the 'Browse'-button, then click 'Import' to import the selected file. Display Current View The display current view shows the actual display information per display node. Display View Settings The display view settings allow configuring the weekdays and time periods during which the display information should be updated. This can be used for example in cases where the display should be off during nighttime. 80/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software MONITOR OCCUPANCY REPORT The occupancy report displays the actual number of occupied bays in a parking lot. Figure 71: Occupancy overview 17.10.1 The occupancy list shows the actual occupancy information per parking bay. OCCUPANCY LIST Figure 72: Occupancy list Please find below a small table, which explains the different symbols:
SState DDescription Occupied Free Overstay SSensor DDescription Optical and Magnetic occupied Magnetic occupied Optical occupied Free OVERSTAY REPORT 17.10.2 The overstay report shows all the parking bays that currently are in overstay. Moreover it also visualizes the parking start time for each parking bay. Figure 73: Overstay report 81/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software PARKING VIOLATION PROBABILITY 17.10.3 The parking violations probability overview shows a list of all occupied parking bays that require a license. The calculated violation probability is shown. Figure 74: Parking violations overview Third party applications can pick up items from this table using the documented SOAP or REST interface. For more information on specific SOAP commands see the SENSIT Software Integration Developer Guide. The REST API is explained at the left side under Documentation. Violations that exceed a certain violation probability threshold can trigger enforcement or more generic follow up activity. DIAGNOSE ICE DETECT MODE 17.11.1 Snowfall or ice-forming will obscure the IR sensor. Based on internal sensors1 and algorithms, the sensor will set a warning bit in the message data indicating possible snow or ice deposit. Based on this information, coming simultaneously from multiple sensors at the same parking lot, a global ice detection algorithm running on the SIS decides whether to use dual or magnetic detection only and switches the Sensor Select Mode accordingly. In the figure below an example of the automatic global ice detection situation of the system is shown. Figure 75: Ice detect mode BATTERY LOW WARNINGS 17.11.2 In this list all SENSIT with a low battery voltage are mentioned. These warnings show up whenever the battery voltage of a SENSIT drops below the 3 Volt (Alarm level). Figure 76: Battery low warnings 1 SENSIT Dual Technology sensors features a.o. a temperature sensor. 82/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software SENSOR CALIBRATION ERRORS 17.11.3 This screen indicates the SENSIT nodes that do not transmit any state event messages. For example, an event is created when a vehicle enters the parking bay and a difference in the magnetic field is has been detected. When the difference in the magnetic field does not result in a state change event, in other words no change in the occupancy, this might indicate that the SENSIT has not properly been calibrated. The screen indicates the number of events received from a specific SENSIT without a state change. 17.11.4 This screen shows a list of all connects and disconnects of the SENSIT Gateways in the system. GATEWAY CONNECTION LOG Figure 77: SENSIT sensor analysis BAD NETWORK EVENTS 17.11.5 This table shows all events that a SENSIT generates, when it detects possible problems in the wireless communication. Figure 78: Bad network events screen PENDING TX MESSAGES 17.11.6 This table show all message in the transmit queue. Figure 79: Pending TX messages screen 17.11.7 This table show all message in the receive queue. PENDING RX MESSAGES 83/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software SETTINGS USER SETTINGS 17.12.1 Change Password In this screen the password of the current logged in user can be changed. User administration In this screen new users can be created, deleted or changed. Figure 80: User administration screen SYSTEM SETTINGS 17.12.2 System Information The system information menu offers the user the possibility to download log files and to change system specific settings. Download log file This setting is used to provide remote support. The log file contains all the information required for Nedap's engineers to analyze system information. Download error log file This setting is used to provide remote support. The log file contains all the information required for Nedap's engineers to analyze system information. Download properties file The properties file contains all the system settings. This file can be used for support purposes to verify the system. Figure 81: System info 84/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software System Reboot Click the 'Reboot'-button to reboot the SENSIT Server. Time Configuration Configure here the time zone settings of the SENSIT Server. Node Gateway List Here you can activate if a message for a specific SENSIT is only transmitted via the SENSIT Gateway(s) in the Gateway list. In this way only the involved SENSIT Gateway(s) are transmitting the message into the (local) Wireless SENSIT Network and not too all SENSIT Gateways available in system. If a specific SENSIT doesnt communicate for in this case 24 hours the Gateway list will be clear for this SENSIT and a message for this specific SENSIT will be transmitted via all available SENSIT Gateways. Figure 82: Node gateway list screen Local Configuration Store events in database Select this option to store events in the database of the SENSIT Server. Normally this option should be selected. Recover lost messages The event messages have a sequence number. With this sequence number, the SENSIT Server can determine if messages were lost. When this happens the SENSIT Server can ask the SENSIT to resend these lost messages. Enable the checkbox if this is desired. Message recovery retry time Message recovery retry time (in minutes) is the repeat time the system will search for events it has not yet received. The search will be repeated after the set time. Restore received messages at startup Select this option if you want to restore events at SENSIT Server startup. Number of lost messages to recover at startup You can select the maximum number of messages you want to recover per node
(max. 32 messages). 85/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Sensor select mode SENSIT Dual Technology sensors feature an infrared sensor and a triple axis magnetometer. Both technologies work together to provide reliable and accurate vehicle detection. There are different modes of operation impacting how the status is calculated. For each individual sensor, the system tracks the actual status of the IR and magnetic sensor. Based on this information, the calculated state of the sensor
(i.e. free or occupied) is determined. The Sensor Select Mode setting determines how the calculation is made. There are five options for the Sensor Select Mode, see table below. SSettings Auto DDescription Sensor is automatically selected using intelligent algorithms (Recommended setting). Only the magnetic sensor is used. Only the optical (infrared) sensor is used. Magnetic Optical MagneticANDOptical The parking bay is occupied when both sensor detect the MagneticOROptical vehicle (magnetic + optical). The parking bay is occupied when at least 1 of the sensors detect the vehicle. In auto mode, an algorithm at sensor level monitors the operation and decides which sensor is most accurate. While the IR sensor is generally leading, the sensor alters the leading technology in case of incongruity (i.e. when the behavior of both technologies deviates from what is standard or expected). For example the optical sensor indicates a continuously occupied bay and the magnetic sensor senses alternating presence of a vehicle above the SENSIT sensor. After a number of mismatches (by default 10 consecutive mismatches) between the continuous occupied optical sensor and the magnetic sensor, the magnetometer will become leading. As soon as the optical sensor is clean, the sensor will automatically render IR detection leading. Calibrate error after .. magnetic events when occupied The SENSIT Server registers when both sensors of a SENSIT-IR disagree about the occupancy state. In automatic mode, the optical sensor has a higher priority. However when the optical sensor is dirty, this will have a negative result on the accuracy. This setting will generate a Calibration error when the optical sensor remains occupied while the magnetic sensor registered state changes several times. See also chapter 17.11.3. 86/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Figure 83: SENSIT local configuration Active Http Sessions In this screen you can see all user logged in to the web-server. All active open web sessions are shown. Status Reading Interval Settings Enable the status reading to make the SENSIT Server request the network performance statistical counters for every node. Preferably this is done at night when there are relatively few vehicle movements. The status reading can be shown in the Map, when selecting the Network Uptime Mode. Figure 84: Status reading EXPERT SETTINGS 17.12.3 Console The Console menu allows you to directly transmit commands to the SENSIT network. It is not recommended to experiment with the functionalities in this window unless instructed to you by Nedap technical support engineers. 87/111 SENSIT SYSTEM | MANUAL SENSIT Interface Software SENSIT Interface Software Figure 85: Console EPL settings The matching time window is adjustable and can be set differently for the SENSIT EPL and the EPL App. This matching time window specifies the allowed time uncertainty of an EPL or EPL App. Based on this value an EPL or EPL App is included or excluded in the matching algorithm. 88/111 SENSIT SYSTEM | MANUAL Advance Configuration Advance Configuration 18 ADVANCE CONFIGURATION INKSCAPE The maps for the Monitor map at the SIS must be in a Scalable Vector Graphic image. These SVG-file images can be created with an open-sources program Inkscape
(http://inkscape.org). Nedap has an extension available for Inkscape that should be used to define where the parking bays, Relay Nodes and Gateways are located on the map. After installing Inkscape and the Nedap Inkscape extensions the program can be started. By selecting Extensions -> SENSIT -> Create Bay bays can be added to the drawing and by selecting Extensions -> SENSIT -> Create Node nodes (Relay nodes or SENSIT Gateways) can be added to the drawing. See also the figure below. Figure 86: Inkscape SENSIT extensions After selecting the Create bay option a pop-up window appears, see Figure 87 below. You can add bays to the drawing. In this way a simple representation of the parking lot can be created. In this example 6 bays (bay number 1 to 6) are created. Figure 87: Inkscape, Create Bay The same for adding Relay Nodes and SENSIT Gateway. By selecting Extensions ->
SENSIT -> Create Node the Create Node pop-up window appears. In the example 89/111 SENSIT SYSTEM | MANUAL Advance Configuration Advance Configuration below a SENSIT Gateway with ID-number 8AB4 and a Relay Node with ID-number 8A9B is created and place at the right location in the map. Figure 88: Inkscape, Create Node When the drawing is finished the next step is to scale the drawing correctly so all bays, Relay Nodes and SENSIT Gateways are nicely places in the map. First select al objects, this can be done easily with Ctrl + A. Select: File -> Document Properties and then in Custom size, Resize page to content add some top, bottom left and right margin to the page and select the button Resize page to drawing or selection. See also Figure 89 below. Note Make sure the units is in pixels (px) otherwise the scaling in the monitor map might not work properly. Figure 89: Inkscape, Resize page Further make sure you remove the viewBox item via the XML editor. The XML-editor can be found via the menu Edit -> XML Editor the viewBox item can be deleted with the marked button, see screenshot below. 90/111 SENSIT SYSTEM | MANUAL Advance Configuration Advance Configuration Figure 90: Inkscape, remove viewBox After resizing the page and removing of the viewBox the file can be saved as a SVG-
file make sure you dont use spaces in the filename and after that uploaded to the SIS as described in chapter 17.8.4. 91/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions 19 FREQUENTLY ASKED QUESTIONS GENERAL WWhat types of SENSIT sensors are available and what is the difference?
There are 3 different types of SENSIT sensors available:
1 SENSIT IR - Magnetic and optical sensor suitable to be built-into the floor of each parking space. SENSIT Flush Mount - Magnetic sensor suitable to be built-into the floor of each parking space. SENSIT Surface Mount - Magnetic and optical sensor for mounting onto the floor of a parking space 2 3 What is the accuracy of the SENSIT Flush Mount?
The magnetic sensor can achieve an accuracy of 95%. What is the accuracy of the SENSIT IR and SENSIT Surface Mount?
The combination of the magnetic and optical sensor has an average accuracy of above 98%. How scalable is the SENSIT system?
The SENSIT system is quite scalable. The theoretical maximum number of SENSIT nodes in one network is about 65000. In general, large installation need to be divided into smaller sub-networks (segments), which makes it better manageable and easier to understand. Sites that have more than 500 sensors or more than 15 Relay Nodes need segmentation. Please contact your Nedap account manager. What is the temperature range for the SENSIT and SENSIT IR?
The temperature range for both SENSIT as well SENSIT IR is -40C to 85C [-40 to 185F]. Temperatures below -30C [-22F] might affect accuracy of the magnetic sensor. The accuracy on the optical sensor remains unchanged. How does the dual sensor technology principle work ?
The optical sensor is based on IR reflection, using a modulated high power IR LED transmitter and a sensitive IR diode as receiver. The IR radiation is reflected by the bottom of a vehicle and captured by the IR diode. The 3D magnetometer senses the variation in the earth magnetic field when a vehicle stops above the sensor. The magnetic status of the SENSIT sensor switches to occupied if at least one axis (X, Y or Z) measures a deviation of more than 50mGauss compared to the stored calibration vector. The IR sensor is potentially more accurate but sensitive to dirt, snow and ice. The triple axis magnetometer however is not influenced by dirt, snow or ice. By default, the sensor checks its IR sensor and magnetometer status every second. Both technologies work together to provide reliable and accurate vehicle detection. There are different modes of operation impacting how the status is calculated. For each individual sensor, the system tracks the actual status of the IR and magnetic sensor. Based on this information, the calculated state of the sensor (i.e. free or occupied) is determined. How does the energy efficient Wireless SENSIT Network work?
The medium access protocol is based upon time division multiple access (TDMA). Time is divided into time slots, which (Relay) nodes can use to transfer data without having to content for the medium or having to deal with energy wasting collisions of 92/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions transmissions. After the frame length, which consists of 16 time slots, the (Relay) node again has a period of time reserved for it. We have parameterized the duration of a time slot and the number of time slots. The default timeslot is 100ms and the number of timeslots in a frame is 16. In the US the system uses also Frequency Hop Spread Spectrum (FHSS); a pseudo random frequency hopping scheme every timeslot the SENSIT also changes the frequency. In this way the devices comply with FCC regulations. If a SENSIT sensor decides to transmit a messages it asks the first Relay Node within reach if it is allowed to transmit a message to this Relay Node, if allowed the Relay Node will receive the message from the SENSIT and retransmits this message to the next Relay Node or directly to the SENSIT Gateway. CCan a SENSIT sensor been used to replace a loop detector?
The SENSIT sensor is designed to detect a changes in either optical or earth magnetic field. A continuous flow of traffic would generate a constant status change. Moreover since the system is based on wireless communication, communication is slower compared to hard wired loop. We therefore do not advise to use the SENSIT sensor to replace safety loops for critical applications. MAGNETIC SENSOR Is the magnetic sensor influenced by snow or ice?
We have tested the system with about 15 cm (5.9 in) of snow during multiple tests. Snow did not affect the accuracy of the magnetic performance. Is the magnetic sensor influenced by dirt?
The magnetic sensor is not influenced by dirt like sand, mud or leafs. How quickly does the magnetic sensor in the node react to a change in status?
Default the magnetic sensor checks its status change every second. Can the magnetic sensor see the magnetic difference between a car and truck?
In a static parking application a SENSIT sensor cannot observe a difference between a small vehicle and a large truck. The variation in the earth magnetic field changes under a car or truck does not depend on the height of the vehicle but on where a car or truck stops. See also the image below to clarify this in more details. Image 1: Vehicle & earth magnetic field Image 2: Truck & earth magnetic field How does the SENSIT sensor detect a car and changes the magnetic status from free into occupied?
The magnetic status of the SENSIT sensor has changed if at any axis (X, Y, and Z) changes more than 50mGauss compared to the stored calibration vector. Normally the earth magnetic field vector is about 500mGauss. This can vary allot from place to place. In order to set the SENSIT sensor to local earth magnetic field we advise to calibrate the sensors. Note Setting or changing the overdrive filter affects reaction time. Note Default the overdrive filter is set at 8 seconds. 93/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions HHow can I avoid a vehicle driving over the SENSIT sensor to trigger a status change event message?
When a vehicle is driving over a or multiple SENSIT sensors to reach the final parking bay the overdriven SENSIT sensors will transmit an occupied and free event message. If the overdrive filter isnt set. By default the overdrive filter is set to eliminate these kinds of messages. After setting the overdrive filter the SENSIT sensor will only transmit a status change event if the SENSIT sensor has been occupied of free for the set time. 19.2.1 CALIBRATION Why calibrate?
The local earth magnetic field vector (value and direction) at an installed SENSIT sensor depends on the orientation of the SENSIT sensor, the amount of metal in the neighborhood and the location on the earth. When the calibration is done this local earth magnetic field vector is stored. It is therefore necessary to always calibrate the sensors. How can I see if the calibration is done correctly?
When connecting the SENSIT Gateway to the SIS, the SIS software will indicate calibration errors for sensors which are not calibrated. In the Sensor data message there is a magnetic un-calibrated bit which warns you if the SENSIT sensor thinks it is not calibrated well. Does the parking need to be fully empty to calibrate the SENSIT sensors?
Yes, preferably the parking needs to be fully empty in order to calibrate the SENSIT sensors. If you need to calibrate a single parking bay it is sufficient if only all neighboring bays are empty. Easy calibration can be realized through the SIS website. My parking lot is hardly ever empty, how can I calibrate the sensors?
If it is not possible to calibrate the entire parking lot, we suggest calibrating the parking lot section by section directly after installation of the SENSITs. OPTICAL SENSOR What is the measuring interval of the optical sensor?
The optical sensors periodically checks once per second if there is a status change.
(You can extend battery life by setting slowing measuring intervals.) Why is the SENSIT IR featured with two detection technologies?
Double detection technology provides a higher accuracy rate. Each detection technology has its advantages and disadvantages. The combination of both ensures a reliable detection product in all circumstances and differentiates our product from any other product in the market. The optical sensor is potentially more accurate but sensitive for dirt, snow and ice. We specify an average accuracy of 95% for the SENSIT Flush Mount (only magnet) and 98% for the SENSIT IR (magnet and optical). In cases of snow or the optical sensor being covered the unit will automatically switch to earth magnetic field detection. Which sensor is making the decision; occupied or free?
In most cases the optical sensor is indicating the final status. The algorithm inside the SENSIT sensor decides which type of sensor to trust. Of course you can ignore this and decide for yourself which sensor to use, because the state of the magnetic and the optical sensor is available. 94/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions WWhat is the detection principal of the optical sensor?
The optical sensor is based on IR reflection. We are using a high power IR LED as transmitter and a sensitive IR diode as receiver. The IR radiation is reflected by the bottom of a car or truck and is received by the IR receiving diode. This means the bay is occupied. Is the optical sensor influenced by snow or ice?
Yes the optical sensor detects based on something covering the sensor. In case the sensor is covered with snow or frost it will be seen as occupied. In the sensor data message there is a bit that warns you for possible ice on the SENSIT sensor. As the SENSIT IR is featured with dual sensing technology you can also decide to switch the sensors to magnetic detection in winter periods using the SIS software. Beside that on the SIS there is a global ice detection algorithm implemented which automatically can decide to switch to the magnetic sensor in case of ice or snow. See chapter 17.11.1 for more information. Is the optical sensor influenced by dirt?
The optical sensor is designed to not easily be covered with little amounts of dust or sand and therefore this will not affect the performance. Larger amounts of dirt will disable the optical sensor. At an outdoor parking-lot, the self-cleaning surface of the SENSIT IR ensures that dirt is automatically flushed of and does not easily attach to the SENSIT IR. This makes it a very usable and practical system. The sites world-wide installed outdoors have since installation (in about 2006) never been cleaned. What happens in case of sandstorms, when the optical sensor is covered?
When the optical is covered with sand the sensor cannot detect reflections of a vehicle that parks over the SENSIT sensor. So the optical sensor will indicate a free bay, the secondary (magnetic) sensor will detect the movement of the different cars above the SENSIT sensor. After a few (default: 10) mismatches between the continuous occupied optical sensor and the magnetic sensor the final status will be indicated by the magnetic sensor. As soon as the optical sensor is clean, the SENSIT sensor will automatically switch back to optical detection again. Is the SENSIT IR affected by direct sun light?
Normally the optical IR sensor is not affected by sunlight. Only at locations close to the equator when the sun is directly above the SENSIT IR the optical sensor can give an overexposure alert, which will indicate a free bay. 19.3.1 CALIBRATION What is the maximum range of the optical sensor?
The IR reflection depends very much on the reflection coefficient of surface it radiates at. Ceilings of over 3 meters (9 feet) are seen by the optical sensor. You can set the sensitivity of the optical sensor when applying the sensors for indoor applications. Can the optical sensor been used indoors?
The optical sensor can be used indoors, for this the IR transmitting power needs to be adjusted (calibrated) to avoid the unit from detecting the ceiling. MORE INFORMATION SENSIT AND MOUNTING What filling material should I use?
The best way to fix the SENSIT sensors into the floor of the parking space is using 95/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions rapid mortar (eg.TM 5R). Ensure to fixate the SENSIT sensors during curing time, to avoid them from floating in the mortar. When you want to use another brand of rapid mortal please sent us the datasheet so we can analyze this and advise you on use. IIs a SENSIT IR snow plough resistant?
When using the SENSIT IR in environments with snowy weather conditions, we advise to set a tolerance on the snow plough of 2 cm [0.78 in] to ensure the top of the sensor is not damaged by the snow plough. The SENSIT IR is not fully snow plough resistant; however it can withstand a few incidental hits. The SENSIT Flush Mount is snow plough resistant and can be used in areas with frequent snow conditions, at the cost of a bit lower accuracy. 96/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions INSTALLATION HHow much time does an installation take?
Based on installation experiences, an estimation of the needed man hours for installing about 100 SENSIT IR is provided below. Task Preparation Installation SENSIT IR Installation Relay Nodes Testing Description Making a simple drawing of the parking lot and upload it to the SIM Determine location of every SENSIT IR, drilling holes and fixing them Mounting the Relay Nodes Making a csv file, upload it to the SIS and verify if all SENSIT sensors are online Man hours 2 8 1 4 How do I start?
Please read chapter 3 of this document for a 4-step installation plan. BATTERY LIFE What is the battery life?
The battery life of the SENSIT sensor in a good performing network is 5 years this with default settings of the network and the measurement intervals. Can batteries be exchanged?
The SENSIT sensors are fully sealed to ensure reliable operation in the outdoor environment and to avoid any water leakage to the electronics. The batteries cannot be replaced, as this would create water leakage and unreliable operation. The SENSIT sensor needs to be replaced after end of battery life. The batteries of the Relay Node 2G can be replaced, see chapter 10.7. Can I extend battery life of the SENSIT sensor by adjusting communication settings?
Yes you can extend battery life by adjusting the communication settings. Default the SENSIT sensors are set to 16 timeslots. This communication setting will realize a battery life time of 5 years and will achieve a good latency (fast and reliable communication network). For applications where slower communication (more latency) is allowed 32 timeslots is recommended to extend battery life time. Installations using over 15 Relay Nodes should also be set to 32 time slots. How can I change the communication settings to extend battery life?
Please consult Nedap how to change the communication settings if your application allows slower communication or if your application needs more than 15 Relay Nodes. How do we know if a SENSIT sensor runs out of batteries?
The battery voltages will be requested by the SENSIT Interface Server on a regular basis. The SIS will display an icon in the node presence list in the SIS if the battery is low or almost empty. See chapter 17.11.2 and chapter EError! Reference source not ound. for more information. If I keep the product in stock for some time, do the batteries run down?
When shipped the units are in stock/transport mode to save battery life. That is why Note A network uptime below 99% will reduce the battery life significantly. 97/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions you need to swipe the SENSIT sensors with a reset magnet to get them out of stock mode. In stock/transport mode the SENSIT sensors hardly use any power. In this way you can have a SENSIT sensor in stock for e.g. a year without influencing the final battery life. RELAY NODES WWhat is a Relay Node?
A Relay node consists of a SENSIT configured in an active role and a Relay Node mounting set. The mounting set allows for easy mounting of the Relay node onto a lamppost. The Relay node is a normal SENSIT but configured differently, a Relay Node has a more active role in the wireless network compared to a SENSIT. That is why we call a Relay Node an active node and a SENSIT a passive node. The continuous transmitting and receiving of an active node consumes more power than a passive node who is only listening to a few active nodes to stay synchronized and to receive incoming messages. The battery life of the Relay Node will be about 2 to 3 years. The advantage is that a Relay Node is still completely wireless and does not require any power or communication cabling. What is a Relay Node 2G?
A Relay node 2G is a dedicated product for relaying message from the SENSIT sensors to the SENSIT Gateway. The Relay Node 2G has an active role and in the Wireless SENSIT Network. The battery lifetime of the Relay Node 2G is similar as the lifetime of the SENSIT sensors. The Relay Node 2G is wireless and does not require any power or communication cabling. Why are Relay Nodes required?
Relay nodes are required to ensure a faster communication path to the SENSIT Gateways, a more robust network and less energy consumption. Relay Nodes are required to ensure that SENSIT sensors positioned in the area can communicate directly via the Relay Node back to the central system. If each SENSIT sensor would need to communicate via the other SENSIT sensors installed in the floor, more communication hops are needed. This will cause a slower communicating network, with a higher chance of missing a message and higher energy consumption. How much Relay Nodes do I need to install?
The number of Relay Nodes depends on various parameters: number of SENSIT sensors, distances and obstructions. A minimum of 1 Relay Nodes and 1 SENSIT Gateway is required per installation to create a 2 path communication possibility for each SENSIT sensor. Nedap can provide you with more detailed information on the amount of Relay Nodes per installation for your site. Has Nedap a tool to determine the number of needed Relay Nodes?
There is a tool available to make a better estimation of needed equipment, see chapter 4. Please ask your Nedap account manager for more information. Note Use of Relay nodes is mandatory to ensure a fast communicating, more stable and a less energy consuming SENSIT network. 98/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions 25 m 50 m 25 m 25 m 35 m 50 m 10 m 100m 35 m 50 m WWhat is the communication distance between Relay Nodes and other components of the system?
Below the maximum recommended distances between the different nodes. SENSIT Gateway Relay Node Relay Node Relay Node SENSIT
Relay Node SENSIT Gateway SENSIT SENSIT Gateway Relay Node 2G omni-directional SENSIT Gateway Relay Node 2G directional Data Collector GPRS Relay Node 2G Relay Node 2G Relay Node 2G
Relay Node 2G omni-directional SENSIT SENSIT
Relay Node 2G directional How do I replace a Relay Node?
After end of battery life, the SENSIT can easily be taken out of the Relay Node mounting set. Only the SENSIT sensor configured as Relay Node would need to be replaced. The batteries of a Relay Node 2G can be replaced, see chapter 10.7. Can the Relay Nodes also be used for indoor car parks?
Yes, the Relay Nodes can also be used for indoor car parks, see also picture below. Indoor car parks might require more Relay Nodes due to mounting height restrictions and influence of concrete on communication.
(82 ft)
(164 ft)
(82 ft)
(82 ft)
(115 ft)
(164 ft)
(33 ft)
(328 ft)
(115 ft)
(164 ft) SENSIT GATEWAY What is the SENSIT Gateway?
The SENSIT Gateway is the central unit which collects the events from SENSIT sensors via the Relay nodes and transmits this information to the host system or SENSIT Interface Software. What is a Data Collector?
The Data Collector is the previous name for the SENSIT Gateway. Can I implement data from the SENSIT Gateway directly?
No, this feature is not supported and subject to change. For easy integration we advise to use the SENSIT Interface Software. What is the most critical part of the SENSIT system?
The most critical part is the SENSIT Gateway when the power of the SENSIT Gateway is interrupted or if the SENSIT Gateway is damaged the whole Wireless SENSIT Network will stop working. Only with a good and powered SENSIT Gateway the wireless network will start. By using an UPS, (short) power failure can be solved. 99/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions WWhere do I mount the SENSIT Gateway?
The SENSIT Gateway can be installed within 25 m [84 ft] from the first SENSIT node or Relay Node. Be sure not to position the SENSIT Gateway in a metal enclosure as it will block the RF communication. The SENSIT Gateway can be mounted in a plastic housing, which is transparent for RF signals. What power wiring (cable specs) do I need for the standard Data Collector?
Power: 100-240 VAC, 50-60 Hz, 180mA, Power input: 5 VDC, max 1A Power consumption: 5VA Communication between Data Collector and SIS: Ethernet Cat 5 E Can the Data Collector GPRS be powered by a solar panel?
There are already several customers who autonomously power the Data Collector GPRS with a solar panel. Also the Data Collector GPRS at the Nedap test-site is powered by a solar panel
(since December 2011). The autonomous solar panel system at the Nedap test-site is a 30Wp Solar panel, a charge regulator and two 22Ah /12V battery in parallel. See picture at the right The Data Collector will not consume more than 60mA at 12VDC on average. Can the SENSIT Gateway be powered by a solar panel?
The SENSIT Gateway can also be powered by a Solar panel and it will not consume more than 120mA at 12VDC on average. How much data will a the SENSIT Gateway use?
Normally the data usage will be below 250MB per month. Can I replace the antenna for one that I can mount on top of a metal box and keep the SENSIT Gateway inside this metal cabinet?
As for operational purposes this should not be an issue, on the condition that a suitable antenna is applied. However ETSI and FCC does not allow change of the antenna, and therefore as a manufacturer we cannot approve antenna change for this reason. How often does the SENSIT sensor send an event to the SENSIT Gateway to alert a status change?
The SENSIT sensor sends an event message immediately after a status change. The baud-rate of the Data Collector is 115200 can I change it into another value?
The baud-rate of the Data Collector is fixed, you cannot change it. Can I built the SENSIT Gateway into a pay & display machine?
Yes, when the pay & display machine is featured with Ethernet communication, this communication could be applied. Keep into consideration that the RF antenna of the Gateway should be positioned behind RF transparent material (such as plastic) and not incorporated in metal. 100/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions SENSIT INTERFACE SOFTWARE (SIS) WWhat is the SIS?
The SIS (SENSIT Interface Software) allows for easy configuration and filtering of event messages received by the SENSIT Gateway. The SIS enables configuration, installation, basic administration and integration of the SENSIT system SIS functionality includes;
Easy integration via SOAP or REST Easy remote support via web interface DNNP (Dynamic Node Numbering Protocol) Connection of multiple SENSIT Gateways Filtering of events Easy event configuration Easy management of the entire Wireless SENSIT Network Automatic calibration Debug and analyze tool Automatic collection of missing messages Configuration of parking bays Stand-alone system with control of display per zone. Graphics to indicate parking spaces and overstay Why use a SIS?
Configuration and integration of the data from the SENSIT system becomes much easier. The site can be accessed remotely allowing Nedap to give you better support on the installation. Can I control a display with the SIS?
Yes using a wireless display node built-into a display, the display can become part of the Wireless SENSIT Network (WSN). You can set in the SIS software which parking zone the display should control and indicate. See chapter 17.8.7 for more information. Using this option a simple standalone application could be created with displays indicating available spaces. No more than 2 wireless displays are allowed in the WSN to make sure the display messages arent influencing the WSN too much. 101/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions HHow does the overstay sequence work?
The accuracy of detection is of critical importance when using the information for enforcement applications. You want to avoid issuing unjustified tickets. In the table below the whole overstay sequence and how to check an overstay is explained. Event Car parked Overdrive filter (8s) passed. Event at DC No change after 1 hour Overstay time elapsed T t1 t2 t3 t4 t5 t6 t7 SENSIT Detected optical +
magnetic Event created and transmitted, including;
sequence number, t2 Event (created at t2) retransmitted SIS Event stored in database, including; t2, t3 and t4. SIS verifies sequence number Event already stored, so ignored by SIS Bay status changed into: overstay, verify request transmitted t9 t8 Bay status changed into: verified overstay Last event (created at t2) is retransmitted Verify message received Verify event received Enforcement officer is notified and arrives at the bay, enforcer sends verification rrequest SOAP request received Verify message received Verify event received Enforcer receives verification and can decide to issue a tticket after his final observations. Last event (created at t2) is retransmitted Verify request transmitted Bay status answered via the SOAP t10 t11 t12 How do we know when a SENSIT or Relay Node is working well?
With the node cross check menu on the SIS you can detect if all SENSIT sensors are still communicating. Logged in as an advanced user it is possible to get a graphical overview of the performance of the wireless SENSIT network. For more information, see chapter EError! Reference source not found.. 102/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions NETWORK & COMMUNICATION HHow much events can a SENSIT node store?
Every SENSIT node is capable of storing 32 events in its internal memory. What causes the latency of a SENSIT sensor?
The latency is built up out of different aspects;
The measurement interval;
The interval the SENSIT sensor verifies it status changed, default set at 1 second. The overdrive filter;
The overdrive delay set in the SENSIT sensor is by default set at 8 seconds. The number of hops;
The number of hops a message needs to arrive at the SENSIT Gateway, every hop Passive collisions;
In a busy car park multiple SENSIT sensors want to transmit their status change message simultaneous, which might create passive collisions. In order to reduce this we advise to ensure that each SENSIT sensor can at least communicate with 2 Relay Nodes offering multiple communication paths. takes about 2 seconds. Example with default settings and without passive collisions:
The magnetic and optical sensor measures every second if the status of the bay is changed. The overdrive filter waits 8 seconds before it transmits the event. In this example the event is transmitted via 2 Relay Nodes; first from the SENSIT to the nearest Relay Node and then from this Relay Node to the Relay Node close to the SENSIT Gateway and finally from this Relay Node to the SENSIT Gateway. The total (worst-case) time needed is:
Measurement + overdrive + SENSITRN + RNRN + RN SENSIT Gateway
= 1+8+2+2+2 = 15s Example with default settings and with one passive collision:
The magnetic and optical sensor measures every second if the status of the bay is changed. The overdrive filter waits 8 seconds before it transmits the event. In this example the event is transmitted via 2 Relay Nodes; the sequence of transmitting the messages is the same as in the example above but now a collision occurred in the first transmission; another SENSIT transmitted an event at the same time to the Relay Nodes. The total (worst-
case) time needed is now:
Measurement + overdrive + collision + SENSITRN + RNRN + RN SENSIT Gateway = 1+8+10+2+2+2 = 25s How many seconds does an event message take in general?
The transfer time is depending on the number of hops and if passive collisions take place. A collision free transfer via one Relay Node takes less than 5 seconds, for every extra hop add 2 seconds. For a busy parking lot take into account at least 10 seconds extra for possible passive collisions. Is the package number always increasing per SENSIT?
Yes, the package number is automatically increased in sequence number per SENSIT and the message is unique based on a combination of SENSIT ID number and package number. 103/111 SENSIT SYSTEM | MANUAL Frequently Asked Questions Frequently Asked Questions HHow do we map the double words corresponding to "Sent time" and "event time" to real dates?
The double word is the time in seconds from January 1st 1970 this is also used within UNIX and therefore also known as 'Unix-time'. TECHNICAL MATTERS What is the MTBF of the various components of the Wireless Space Count system?
In the table below the MTBF, MTTR and MTTF is given, so far this are estimated values. SENSIT component MTBF SENSIT IR Flush Mount SENSIT IR SENSIT Flush Mount SENSIT Surface Mount Relay Node Relay Node 2G SENSIT Gateway 63 years 63 years 63 years 76 years 65 years 52 years 16 years MTTR without spare 7 days 7 days 7 days 7 days 7 days 7 days 14 days MTTR with spare 1 hour 1 hour 1 hour 1 hour 1 hour 1 hour 1 hour MTTF
~40 years
~40 years
~40 years
~40 years
~40 years
~40 years
~40 years 104/111 SENSIT SYSTEM | MANUAL Appendix Appendix 20 APPENDIX RAPID MORTAR A 105/111 SENSIT SYSTEM | MANUAL Appendix Appendix B MODIFIED SILICON POLYMER Description Field of application SSabatack Fast u l t r a - f a s t b o n d i n g B.1 Sabatack Fast is an ultra fast-acting 2-component, elastic, humidity-curing, MS polymer-based construction adhesive. Its primary use is bonding with fast hardening, handling after only 2 hours, which makes this product excellent for use in mass production. Sabatack Fast has a medium viscosity and a high modulus elasticity. B.2 Industrial and hand-made vehicle and coachwork construction, marine, ventilation and air conditions, electro-technology, equipment assembly, metal and tin processing, plastics technology, civil & environmental engineering and building &
construction. For the elastic bonding of frames, profiles, plates etc. Also for sealing seams, overlaps, joints and cracks. Suitable for interior and exterior use. Excellent for use in mass production. B.3
Advantages fast and controlled curing, high end strength adhesion without primer, fast drying can be painted wet-on-wet, hardly any shrinkage no blistering, almost odorless free from solvents, isocyanates and silicones UV-stable, high temperature resistance certificates: Wheelmark (164.106/1121/WCL MED0326), ISEGA (in connection with HACCP) Method of use B.4 For instructions for use, repaint ability and pre-treatment, see the relevant info sheets at wwww.saba.nl 106/111 SENSIT SYSTEM | MANUAL Appendix Appendix TECHNICAL DATA B.5 Order information Other packaging and colours on request. The shelf life may vary for large packaging. Safety recommendations For more information about safety, see the relevant SABA safety data sheet. Component A Component B Basis Density Solids content Open time Tack free Cure rate Hardness Shore A Volume alteration Modulus at 100%
Tensile strength Elongation at break Shear strength Working temperature Storage temperature Temperature resistance Short temperature resistance Packaging Contents Color Article No. Shelf life MS polymer, humidity-curing MS polymer, humidity-curing
(EN 542) approx. 1.380 kg/m3 approx. 1.144 kg/m3 approx. 100% approx. 85%
(23 C, 50% RLV) approx. 10 minutes
(23 C, 50% RLV) completely after approx. 12 hours
(23 C, 50% RLV) even after 48 hours
(EN ISO 868) approx. 55
(EN ISO 10563) < 5%
(ISO 37/DIN 53504) approx. 1.5 N/mm2
(ISO 37/DIN 53504) approx. 2.6 N/mm2
(ISO 37/DIN 53504) approx. 330%
(ISO 4587) approx. 1.7 N/mm2 min. +5 C to max. +35 C min. +5 C to max. +25 C min. -40 C to max. +120 C max. +180 C (30 minutes) dual-cartridge 490 ml (contains 7 items) White (RAL 9003) black (RAL 9011) 100201 DJW 100862 DJW 9 months (in unopened packaging) 107/111 SENSIT SYSTEM | MANUAL Appendix Appendix C POLYURETHAN PP E R M A P U R 2 6 5 4 A / B Universal Polyurethane liquid adhesive PERMAPUR 2654 A/B consists of two components A-component (Polyol) and a B-
component (Isocyanate). The resin is supplied in a bi-pack. PERMAPUR 2654 A/B is used as an universal polyurethane resin which can be applied by pouring the fluid. The system is insensitive to moist and shows no blistering and is therefore less critical in processing. Technical details Color:
Color mix:
Processing time:
Gel time:
Curing time:
Viscosity:
Hardness:
Specific gravity:
Specific resistance:
Breakdown voltage:
Max. Temperature:
Water absorption:
Storage:
A-component black fluid B component dark brown fluid Black 10 min / 20C 15 min / 20C 24 h /20C 4.500 mPa.sec/20C 45 Shore D 1,5 g/cm3 1 x 1014 W.cm 20 KV/mm
-25C tot +120C
<1%
At room temperature (20 C) in tightly closed Verpa Branching 12 months 108/111 SENSIT SYSTEM | MANUAL Appendix Appendix D FCC AND IC DECLARATIONS Compliance statements (part15.19) This device complies with part 15 of the FCC Rules and with Industry Canadas licence-exempt RSSs. Operation is subject to the following two conditions:
(1) This device may not cause interference; and
(2) This device must accept any interference, including interference that may cause undesired operation of the device. Warning (15.21) Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. Cet appareil se conforme aux normes RSS exempts de license du Industry Canada. Lopration est soumis aux deux conditions suivantes:
(1) cet appareil ne doit causer aucune interfrence, et
(2) cet appareil doit accepter nimporte quelle interfrence, y inclus interfrence qui peut causer une opration non pas voulu de cet appareil. Les changements ou modifications nayant pas t expressment approuvs par la partie responsable de la conformit peuvent faire perdre lutilisateur lautorisation de faire fonctionner le matriel. FCC and ISED Radiation Exposure Statement This equipment complies with FCC (OET Bulletin 65) and Canadian radiation exposure limits set forth in RSS-102 for a uncontrolled environment. This equipment should be installed and operated with a minimum distance of 20 cm between the radiator and your body. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Cet quipement est conforme a RSS-102 limites nonces pour un environnement non contrl. Cet quipement doit tre install et utilis avec une distance minimale de 20 cm entre le radiateur et votre corps. ISED EMC Declaration This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numrique de Classe B est conforme la norme Canadienne ICES-003. FCC Information to the user (15.105(b)) Note: This equipment has been tested and found to comply with the limits for a class B digital devices, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequent energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does not cause harmful interference to radio or television reception, which can be determine by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver. Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. To ensure compliance with FCC regulations, use only the shielded interface cables provided with the product, or additional specified components or accessories that can be used with the installation of the product 109/111 SENSIT SYSTEM | MANUAL Appendix Appendix F DISCLAIMER This information is furnished for guidance, and with no guarantee as to its accuracy or completeness; its publication conveys no license under any patent or other right, nor does the publisher assume liability for any consequence of its use; specifica-
tions and availability of goods mentioned in it are subject to change without notice;
it is not to be reproduced in any way, in whole or in part, without the written consent of the publisher. 110/111 SENSIT SYSTEM | MANUAL Appendix Appendix G DOCUMENT REVISION VVersion DDate 1.3.3 1.4 1.4.1 24-02-2014 14-04-2014 12-05-2014 1.4.2 15-07-2014 1.4.3 27-10-2014 1.5.0 17-12-2014 1.5.1 1.5.2 1.5.3 17-12-2014 10-03-2015 28-04-2015 1.5.5 12-11-2015 1.5.6 1.6 04-04-2016 06-06-2017 CComment Start documents and new corporate style Adjustments for 1.4 release. Adjustments for release 1.4.1, RelayNodeTool added, Document renamed. Adjustments for release 1.4.2, FCC & IC Declaration and some small textual improvements. Adjustments for release 1.4.3, some small textual improvements. Adjustments for release 1.5.0; Parking enforcement screens. Adjustments for release 1.5.1; DNNP Adjustments for release 1.5.2; EPL Adjustments for release 1.5.3, some small textual improvements. Adjustments for release 1.5.5; EPL improvements, support widget Adjustments for release 1.5.6; SG version added. Adjustments for release 1.6; SENSIT Gateway, Back up battery, Configuration Tool and SIS Maps. 111/111
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2017-07-20 | 902.4 ~ 927.6 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2017-07-20
|
||||
1 | Applicant's complete, legal business name |
N. V. Nederlandsche Apparatenfabriek NEDAP
|
||||
1 | FCC Registration Number (FRN) |
0007696149
|
||||
1 | Physical Address |
Parallelweg 2
|
||||
1 |
Groenlo, N/A 7141 DC
|
|||||
1 |
Netherlands
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
r******@twn.tuv.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
CGD
|
||||
1 | Equipment Product Code |
SENSITGW
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
R****** H****
|
||||
1 | Title |
Approbation Officer
|
||||
1 | Telephone Number |
00315********
|
||||
1 | Fax Number |
00315********
|
||||
1 |
r******@nedap.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | SENSIT GATEWAY US | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output power listed is conducted. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
TUV Rheinland Taiwan Ltd.
|
||||
1 | Name |
A****** H********
|
||||
1 | Telephone Number |
88622********
|
||||
1 | Fax Number |
+886-********
|
||||
1 |
A******@tuv.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.40000000 | 927.60000000 | 0.0068000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC