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ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
Page 1 of 36 04/09/2010
U.S. Customary 06/03/10
DESCRIPTION This work shall consist of furnishing and installing CCTV Camera Assemblies of the type described in the special notes in accordance with the contract documents and as directed by the Engineer.
MATERIALS All materials furnished, assembled, fabricated or installed shall be new, corrosion resistant and in strict accordance with the details shown in the contract documents and these special specifications.
Each of the CCTV Camera Assembly types shall deliver high quality full-motion video during day or night operation with the video and control/status data transmitted over a communications network (specified elsewhere). Each type of CCTV Camera Assembly shall consist of a solid state color/monochrome CCTV camera with infra-red cut filter, motorized zoom lens, pressurized enclosure, pan/tilt unit, integral camera control receiver, and all cabling required to interface the CCTV Camera Assembly with equipment in the field cabinet. The CCTV Camera Assembly shall be designed for mounting on poles or walls as shown in the plans. Connections between the equipment shall be through water proof connectors. Repair, replacement, and parts service for the CCTV Camera Assembly shall be available within the contiguous United States or Canada.
The Barrel and Dome Type CCTV Camera Assemblies shall be compliant with the latest version of the NTCIP Standards, as defined by AASHTO, ITE, and NEMA.
The Barrel Type CCTV Camera Assembly and Dome Type CCTV Camera Assembly shall meet the following minimum requirements:
1. General 1.1. Weight
1.1.1. Barrel 40 pounds (max)
1.1.2. Dome 16 pounds (max)
1.2. Dimensions
1.2.1. Barrel 15 inches (w) x 18 inches (h) (max)
1.2.2. Dome 11.25 (w) x 14 inches (h) (max)
1.3. Temperature Range -22 degrees F to +131 degrees F (operating)
1.4. Humidity 0 – 100% relative humidity
1.5. Wind Meets all performance criteria when subjected to a 90 mph wind and able to withstand a 125 mph wind.
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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1.6. Supply Voltage 120 VAC ± 10% at 60 Hz. For domes operating at 24 VAC 115/24 VAC transformer shall be provided as part of this item and mounted in the equipment cabinet which is provided as part of another pay item
1.7. Power Consumption 100 W (max) Including heater/defogger.
1.8. Electrical Interfaces
1.8.1. Power and control cables between the CCTV Camera Assembly and the associated field cabinet shall be in accordance with the manufacturer’s recommendations. Shop drawings showing the configuration of the harness along with the manufacturer’s recommendations shall be submitted to the Engineer for approval prior to fabrication.
1.8.2. Type RG59 coaxial cable shall be used to connect the camera to the field communications interface. All video connectors shall be BNC.
1.8.3. Control signals between the camera assembly and a controlling device shall be via the EIA-422 protocol. Other protocols may be submitted to the Engineer for approval.
1.8.4. Electrical connections between the positioning device and camera/lens shall be through a pre-wired feed-through rather than through a wiring harness.
1.9. NEMA Rating 4X
1.10. Enclosure Material Main body shall be painted anodized aluminum, with ¼ inch thick optically clear tempered glass, or optically clear tempered polycarbonate viewing window. All hardware shall be stainless steel.
1.11. Enclosure Pressure Enclosure shall be pressurized to prevent the ingress of dust and wind blown particles, per the requirements of the NEMA rating. The thresholds at which high and low pressure alarms are displayed on the video image shall be provided with the manufacturer catalog cuts.
2. Camera 2.1. Imager ¼” color interline transfer CCD, progressive scan
2.2. Format NTSC composite 1Vp-p @ 75 ohms, unbalanced
2.3. Resolution 470 horizontal TV lines
2.4. Sensitivity at 35 IRE 3 lux at 1/60 second shutter speed - color
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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0.3 lux at 1/60 second shutter speed – monochrome
2.5. Signal to Noise Ratio 50 dB min (AGC off)
2.6. Lens 23x optical zoom, 3.6mm to 82.8mm; other zoom ranges are subject to approval by the Engineer.
2.7. Focus Auto and manual.
2.8. Iris Auto and manual.
2.9. Aperture F1.6
2.10. Automatic White Balance Compensation shall be provided.
2.11. Back Light Compensation shall be provided.
2.12. Automatic Gain Control shall be provided.
2.13. Automatic Light Compensation Video shall not change more than 2:1 with light level change of 40,000:1 when using the specified zoom lens with auto iris control circuitry.
3. Functional 3.1. Field Controller A field camera controller or software that runs on a
notebook computer with the Windows™ operating system, (version as approved by the Engineer) shall be provided to permit local programming and control of the camera and lens.
3.2. Presets 32 (min) stored in non-volatile memory.
3.3. Alerts Low/high pressure and low/high temperature shall be displayed over the video image.
3.4. Movement Capable of continuous, simultaneous pan and tilt movements, and meeting the following requirements:
3.4.1. Barrel Pan: 360 degrees continuous rotation with a step angle of 0.1 degrees
Tilt: -83 to +33 degrees with a step angle of 0.1 degrees
Pan Speed: Manual 0.1 to 40 degrees/second
Tilt Speed: Manual 0.1 to 20 degrees/second
3.4.2. Dome Pan: 360 degrees continuous rotation
Tilt: -90 to +2 degrees with a step angle of 0.1 degrees
Pan Speed: Manual 0.1 to 80 degrees/second
Tilt Speed: Manual 0.1 to 40 degrees/second
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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3.5. Home Position Indication shall be provided on the camera assembly such that the camera assembly may be mounted with home position on the positioning device at true North.
3.6. Labels Labels shall be provided as follows, labels shall be positioned such that they do not interfere with the view. Labels shall be able to be disabled as necessary.
3.6.1. Camera ID 20 alphanumeric characters (min)
3.6.2. Preset ID
3.6.3. Low/High Pressure
3.6.4. Low/High Temperature
3.7. Heater/defroster/defogger A built in thermostatically controlled heater/defroster/defogger shall be provided. The defroster/defogger shall prevent icing and fogging of the viewing window. The heater shall be sized and thermostat set to permit operation of the camera over the specified environmental conditions. A minimum of 40° F hysteresis shall be provided in the thermostat to prevent continuous cycling of the heater, blower, defroster or defogger. Either snubbers or Metal Oxide Varistors (MOV) of appropriate ratings shall be installed across the switch outputs of all thermostats. The MOVs shall be connected to ground.
3.8. Sunshield Extends beyond viewing window to prevent sun glare on the lens.
3.9. Zones 8 (min) user selectable zones.
4. NTCIP
To ensure compatibility and interchangeability with equipment furnished in previous and future contracts, the Barrel and Dome Type CCTV Camera Assemblies shall be compliant with the latest version of the NTCIP Standards, as defined by AASHTO, ITE, and NEMA.
The following conformance groups within the NTCIP 1205:2001 standard shall be supported with the values defined in these tables. For the purposes of this specification NTCIP 1205 Conformance Statements shall be considered mandatory, except where noted.
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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CONFORMANCE STATEMENTS Object Or Table Name
Reference
Conformance Requirement Within The Group
Configuration NTCIP 1201:1996 Mandatory
Database Management NTCIP 1201:1996, Amendment 1 Optional
Time Management NTCIP 1201:1996, Amendment 1 Optional
CCTV Configuration NTCIP 1205 Mandatory
Extended Functions NTCIP 1205 Mandatory
Motion Control NTCIP 1205 Mandatory
On-Screen Menu Control NTCIP 1205 Optional
CCTV Configuration Conformance Group
MIB
Object Or Table Name
NTCIP Reference
NYSDOT Specification
Section Reference
Expected Value
3.2.1 rangeMaximumPreset NTCIP 1205
3.2 32..255
3.2.2 rangePanLeftLimit NTCIP 1205
3.4 35999
3.2.3 rangePanRightLimit NTCIP 1205
3.4 35999
3.2.4 rangePanHomePosition NTCIP 1205
3.5 0
3.2.5 trueNorthOffset NTCIP 1205
3.5 0
3.2.6 rangeTiltUpLimit NTCIP 1205
3.4.1 3300 3.4.2 200
3.2.7 rangeTiltDownLimit NTCIP 1205
3.4.1 26300 27000
3.4.2 27000 3.2.8 rangeZoomLimit NTCIP
1205 2.6 0..65535
3.2.9 rangeFocusLimit NTCIP 1205
2.7 0..65535
3.2.10 rangeIrisLimit NTCIP 1205
2.8 0..65535
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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MIB
Object Or Table Name
NTCIP Reference
NYSDOT Specification
Section Reference
Expected Value
3.2.11 rangeMinimumPanStepAngle NTCIP 1205
3.4 10
3.2.12 rangeMinimumTiltStepAngle NTCIP 1205
3.4 10
3.3.1 timeoutPan NTCIP 1205
- 0..65535
3.3.2 timeoutTilt NTCIP 1205
- 0..65535
3.3.3 timeoutZoom NTCIP 1205
- 0..65535
3.3.4 timeoutFocus NTCIP 1205
- 0..65535
3.3.5 timeoutIris NTCIP 1205
- 0..65535
3.11.1 labelMaximum NTCIP 1205
3.6 9..255
3.11.2 labelTable NTCIP 1205
3.6
3.11.2 labelEntry NTCIP 1205
3.6
3.11.2.1 labelIndex NTCIP 1205
3.6 0..255
3.11.2.2 labelText NTCIP 1205
3.6 0..255
3.11.2.3 labelFontType NTCIP 1205
3.6 1
3.11.2.4 labelHeight NTCIP 1205
3.6 0..255
3.11.2.5 labelColor NTCIP 1205
3.6 7
3.11.2.6 labelStartRow NTCIP 1205
3.6 0..255
3.11.2.7 labelStartColumn NTCIP 1205
3.6 0..255
3.11.2.8 labelStatus NTCIP 1205
3.6 Bit 7 = 0,1 Bit 6 = 0,1
3.11.3 labelLocationLabel NTCIP 1205
3.6 0..255
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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MIB
Object Or Table Name
NTCIP Reference
NYSDOT Specification
Section Reference
Expected Value
3.11.4 labelEnableTextDisplay NTCIP 1205
3.6 Bit 7 - ON
Extended Functions Conformance Group
MIB
Object Or Table Name
NTCIP Reference
NYSDOT Specification
Section Reference
Expected Value
3.6.1 systemCameraFeatureControl NTCIP 1205
1.6, 3.7 Byte 1
Bit 7 = 0,1
Bit 6 = 0,1
Bit 5 = 0
Bit 4 = 0
Bit 3 = 0
Byte 2
Bit 7 = 1
3.6.2 systemCameraFeatureStatus NTCIP 1205
1.6, 3.7 Byte 1
Bit 7 = 0,1
Bit 6 = 0,1
Bit 5 = 0
Bit 4 = 0
Bit 3 = 0
3.6.3 systemCameraEquipped NTCIP 1205
1.6, 3.7 Bit 7 = 1
Bit 6 = 1
Bit 5 = 0
Bit 4 = 0
Bit 3 = 0
3.6.4 systemLensFeatureControl NTCIP 1205
2.6, 2.7, 2.8 Byte 1
Bit 7 = 0,1
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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MIB
Object Or Table Name
NTCIP Reference
NYSDOT Specification
Section Reference
Expected Value
Bit 6 = 0,1
Byte 2
Bit 7 = 0,1
3.6.5 systemLensFeatureStatus NTCIP 1205
2.6, 2.7, 2.8 Byte 1
Bit 7 = 0,1
Bit 6 = 0,1
3.6.6 systemLensEquipped NTCIP 1205
2.6, 2.7, 2.8 Byte 1
Bit 7 = 1
Bit 6 = 1
3.7.1 alarmStatus NTCIP 1205
3.3 Bit 7 = 0
Bit 6 = 0
Bit 5 = 0
Bit 4 = 0,1
Bit 3 = 0,1
Bit 2 = 0
Bit 1 = 0
3.7.2 alarmLatchStatus NTCIP 1205
3.3 Bit 7 = 0
Bit 6 = 0
Bit 5 = 0
Bit 4 = 0,1
Bit 3 = 0,1
Bit 2 = 0
Bit 1 = 0
3.7.3 alarmLatchClear NTCIP 1205
3.3 Bit 7 = 0
Bit 6 = 0
Bit 5 = 0
Bit 4 = 0,1
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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MIB
Object Or Table Name
NTCIP Reference
NYSDOT Specification
Section Reference
Expected Value
Bit 3 = 0,1
Bit 2 = 0
Bit 1 = 0
3.7.4 alarmTemperatureHighLowThreshold NTCIP 1205
Not Applicable
3.7.5 alarmTemperatureCurrentValue NTCIP 1205
Not Applicable
3.7.6 alarmPressureHighLowThreshold NTCIP 1205
Not Applicable
3.7.7 alarmPressureCurrentValue NTCIP 1205
Not Applicable
3.7.8 alarmWasherFluidHighLowThreshold NTCIP 1205
Not Applicable
3.7.9 alarmWasherFluidCurrentValue NTCIP 1205
Not Applicable
3.7.10 alarmLabelIndex NTCIP 1205
1.3, 1.11 Byte 1 = 0
Byte 2 = 0
Byte 3 = 0
Byte 4 = 0
Byte 5 = 0
Byte 6 = 0
Byte 7 = 0
3.8.1 inputStatus NTCIP 1205
Not Applicable
3.8.2 inputLatchStatus NTCIP 1205
Not Applicable
3.8.3 inputLatchClear NTCIP 1205
Not Applicable
3.8.4 inputLabelIndex NTCIP Not
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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MIB
Object Or Table Name
NTCIP Reference
NYSDOT Specification
Section Reference
Expected Value
1205 Applicable
3.9.1 outputStatus NTCIP 1205
Not Applicable
3.9.2 outputControl NTCIP 1205
Not Applicable
3.9.3 outputLabelIndex NTCIP 1205
Not Applicable
3.10.1 zoneMaximum NTCIP 1205
3.9 8..255
3.10.2 zoneTable NTCIP 1205
3.9 INTEGER
3.10.2.1 zoneIndex NTCIP 1205
3.9 1..255
3.10.2.2 zoneLabel NTCIP 1205
3.9 1..255
3.10.2.3 zonePanLeftLimit NTCIP 1205
3.4, 3.9 0..35999
3.10.2.4 zonePanRightLimit NTCIP 1205
3.4, 3.9 0..35999
3.10.2.5 zoneTiltUpLimit NTCIP 1205
3.4.1, 3.9 0..3300
3.4.2, 3.9 0..200
3.10.2.6 zoneTiltDownLimit NTCIP 1205
3.4.1, 3.9 0..26300
3.4.2, 3.9 0..27000
Motion Control Conformance Group
MIB
Object Or Table Name
NTCIP Reference
NYSDOT Specification
Section Reference
Expected Value
3.10.1 zoneMaximum NTCIP 1205 Not Applicable
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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3.4.1 presetGotoPosition NTCIP 1205 3.2 0..n 3.4.2 presetStorePosition NTCIP 1205 3.2 0..n 3.5.1 positionPan NTCIP 1205 3.4 4 Byte msg 3.5.2 positionTilt NTCIP 1205 3.4 4 Byte msg 3.5.3 positionZoomLens NTCIP 1205 2.6 4 Byte msg 3.5.4 positionFocusLens NTCIP 1205 2.7 4 Byte msg 3.5.5 positionIrisLens NTCIP 1205 2.8 4 Byte msg
n = number of presets supported by the CCTV Camera Assembly
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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CONSTRUCTION DETAILS The Contractor shall install and program the specified CCTV field equipment at locations shown on the plans. Each camera assembly shall be installed such that the line of sight of the camera is in the center line of the desired field of view when the camera is in the mid point of the desired motion between the limit stops. Each camera assembly shall be installed such that the home position for each camera shall be set to true North. The Engineer will provide the field of view of each camera, the limit settings of its vertical and horizontal movements and the programmable parameters prior to installation. The Contractor shall furnish and install the mounting hardware, including brackets, mounting plates, bolts, connectors, cabling between the camera housing and equipment cabinet, and weather heads required for the installation of the camera assembly.
The Contractor shall install and connect the control, power and coaxial cables between the camera assembly and the equipment cabinet in accordance with the manufacturer’s recommendation.
The Contractor shall electrically bond the camera assembly and the pole mounted adapter to the pole. The camera assembly shall be connected to the pole mounting adapter through a No. 6 AWG braided conductor.
1. Warranties and Guarantees The Contractor shall provide warranties and guarantees to the State of New York Department of Transportation in accordance with Article 104-08 of the Standard Specifications.
2. Documentation 2.1. Manuals
Six (6) advance copies of equipment manuals furnished by the manufacturer shall be submitted to the Engineer for review at least ten (10) days prior to the scheduled start of the first Operational Stand-Alone Test. The Engineer will verify the manufacturer’s equipment manual as part of the test and integration process. The equipment manual incorporating the Engineer’s corrections and comments shall be integrated by the Contractor into the operations and maintenance manual as described in the Special Notes. The manuals shall, as a minimum, include the following:
Complete and accurate schematic diagrams.
Complete installation and operation procedures.
Complete performance specifications (functional, electrical, mechanical and environmental) of the unit.
Complete list of replaceable parts including names of vendors for parts not identified by universal part numbers such as JEDEC, RETMA or EIA.
Complete maintenance and troubleshooting procedures.
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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2.2. Testing
In addition to the testing requirements defined in the Special Notes the following testing shall be performed, the Contractor shall provide all equipment necessary to perform these tests, at no additional cost to the State:
2.2.1. NTCIP Compliance Testing
The purpose of this test is to verify the operation of the CCTV Camera Assembly (Dome and Barrel Types) using the NTCIP specific communications protocols.
2.2.1.1 The contractor shall prepare a test script that shall be provided to the engineer for review as part of the 30-Day submittal requirements that shall test all required functionality of the camera assembly and demonstrate that the appropriate requests and responses are transmitted and received by the CCTV Camera Assembly and the control software.
2.2.1.2 Wherever a range of acceptable values is specified in the NTCIP conformance tables contained within this document, the Contractor shall submit the actual values for review as part of the 30-Day submittal requirements.
2.2.1.3 Test cases are attached as an appendix to this specification. Failure to satisfactorily complete these tests shall be cause for immediate rejection of the proposed equipment.
2.2.2. Operational Stand-Alone Test
The purpose of this test is to verify the operation of all installed equipment between the equipment cabinet and the end device, including all electrical, ground, and data connections.
2.2.2.1 Pre-requisites for this test are as follows:
• Satisfactory completion of NTCIP compliance testing;
• Satisfactory completion of sub-system specific staging tests, with complete resolution of any issues documented during these tests;
• Permanent installation of all equipment into the local equipment cabinet for the site under test;
• Permanent connection of electrical power to the local equipment cabinet for the site under test, portable-generator supplied electric power shall not be acceptable.
2.2.2.2 This test shall demonstrate the following:
• Local control of all camera and pan-tilt unit functions;
• Video output from the CCTV Camera;
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.10140011 – DOME TYPE CCTV CAMERA ASSEMBLY
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• Operation of the local camera control software or controller.
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
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2.2.3. Group Site Acceptance Test
The purpose of this test is to verify the operation of all installed equipment from an aggregation point, e.g. a hub cabinet, to each end device, including equipment installed in local equipment cabinets.
2.2.3.1 Pre-requisites for this test are as follows:
• Satisfactory completion of the operational stand-alone test for each end device connected to the aggregation point, with complete resolution of any issues documented during these tests;
• Permanent installation of all equipment into the equipment cabinet for the aggregation site under test;
• Permanent connection to the communications network at each end device and at the aggregation location, including all test documentation required for acceptance of the installed network;
• Permanent connection of electrical power to the equipment cabinet for the aggregation site under test, portable-generator supplied electric power shall not be acceptable.
2.2.3.2 This test shall demonstrate the following:
• Operation of the communications network and any required modems, protocol converters, multiplexers, or any other communications interface between end devices and the aggregation point;
• Remote control of all camera and pan-tilt unit functions at each CCTV Camera over the installed communications network;
• Video output from the CCTV Camera over the installed communications network;
• Operation of the local camera control software or controller over the installed communications network.
2.2.4. Sub-System Integration Test
The purpose of this test is to verify the operation of all installed equipment between a central operations and control facility and end devices deployed in the field, including all equipment installed in intermediate locations and in local equipment cabinets.
2.2.4.1 Pre-requisites for this test are as follows:
• Satisfactory completion of the group site acceptance test for each aggregation point, with complete resolution of any issues documented during these tests;
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
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• Permanent installation of all sub-system equipment into the central operations and control facility under test;
• Permanent connection to the communications network at the central operations and control facility, any aggregation points, and each end device including all test documentation required for acceptance of the installed network;
• Permanent connection of electrical power to the equipment under test at the central operations and control facility, portable-generator supplied electric power or temporary connections to a building power system shall not be acceptable.
2.2.4.2 This test shall demonstrate the following:
• Operation of the communications network and any required modems, protocol converters, multiplexers, or any other communications interface between end devices and the central operations and control facility.
• Remote control of all camera and pan-tilt unit functions at each CCTV Camera over the installed communications network;
• Video output from the CCTV Camera over the installed communications network;
• Operation of the local camera control software or controller over the installed communications network.
2.2.5. System Acceptance Test
The purpose of this test is to ensure interoperability of all sub-systems from central to the end device, including all parts in between; detailed requirements for the system acceptance test are provided in the Special Notes.
METHOD OF MEASUREMENT
This work will be measured as the number of CCTV Camera Assemblies of the type described in the special notes satisfactorily furnished, installed, tested, and made fully operational as part of the traffic management system.
BASIS OF PAYMENT
The unit price bid shall include the cost of furnishing all labor, materials, test equipment, and equipment necessary to satisfactorily complete the work.
Progress payments will be made as follows:
ITEM 683.10130011 – BARREL TYPE CCTV CAMERA ASSEMBLY
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• Forty-percent of the bid price for each item will be paid when the CCTV Camera Assembly of the type described in the special notes is installed and having passed the Operational Stand-Alone Test.
• Twenty-five percent of the bid price for each item will be paid upon successful completion of the Group Site Acceptance Test.
• Twenty-five percent of the bid price for each item will be paid upon successful completion of the Sub-system Integration Test.
• Ten percent will be paid upon System Acceptance.
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
APPENDIX AA: NTCIP TEST PROCEDURES FOR CCTV CAMERA ASSEMBLIES
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1. INTRODUCTION – PURPOSE OF DOCUMENT The National Transportation Communications for ITS Protocols (NTCIP) standards are intended to promote the development of interoperable equipment within the Intelligent Transportation Systems (ITS) industry. Any component that does not fully follow the rules defined by the NTCIP standards will inhibit or preclude interoperability from being realized. As a result, the industry needs a well-defined and consistent way to test equipment that claims conformance to the NTCIP standards. This document is intended to be used as an appendix to Special Specifications for CCTV Camera Assemblies without regard to any one Special Specification. 1.1. Reference Documentation
Some of the documents reviewed during the development of this test procedure are listed below:
• Special Specification for Barrel Type CCTV Camera Assembly • Special Specification for Dome Type CCTV Camera Assembly • NTCIP 1205:2001 – Object Definitions for Closed Circuit Television (CCTV)
Camera Control • NTCIP 8007v01-20a – Testing and Conformity Assessment Documentation within
NTCIP Standards Publications v01
1.2. Field Device Test Environment Testing shall be performed either at the manufacturer’s facility or at a mutually agreed to location, such as a contractor’s field office, or vendor’s facility. The following shall be made available for the purposes of testing:
• Mains power for the device under test (DUT), video monitor, notebook computer, and any other devices requiring electrical power during the performance of the test.
• Two of each type of CCTV Camera Assembly being procured for the contract. • Notebook computer pre-loaded with NTCIP testing software (Device Tester for
NTCIP, by Intelligent Devices). • Color video monitor. • Communications interface(s) to simulate the communications link from the central
location to the field device. • All necessary cables. • Test report from a “Dry Run” of the testing for each type of CCTV Camera Assembly,
with a written explanation of any failures, and the action taken to correct the errors. Figure 1-1 is the test set up for a dome type camera assembly, while Figure 1-2 illustrates the set up for a barrel type camera assembly. In both cases the set up is identical, and the same test shall be run on each camera assembly type.
In the test cases described in Section 2 of this document one, or all, of the tests shall be set to run and repeat over a fixed period of time to verify the reliability of the DUT.
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
APPENDIX AA: NTCIP TEST PROCEDURES FOR CCTV CAMERA ASSEMBLIES
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Figure 1-1 Test Environment for Dome Camera Assembly
Figure 1-2 Test Environment for Barrel Camera Assembly
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
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APPENDIX AA: NTCIP TEST PROCEDURES FOR CCTV CAMERA ASSEMBLIES
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2. TEST CASES
2.1. TC001 – Device Interrogation
Test Case:
TC001
Title: Device Interrogation
Description: The purpose of this test is to verify that the device reports the applicable parameters required for the Central System to know the manufacturer, software version, and limits of pan, tilt, and zoom.
Pass/Fail Criteria:
The DUT shall pass every step described in this test case in order to pass this test.
Step Test Procedure Results
1. Get globalMaxModules.0 Pass / Fail
2. Verify that the Response Value for globalMaxModules.0 (X) is greater than 0.
Pass / Fail
3. For each value of N, from 1 though X (obtained is Step 2), perform steps 4 through 15
4. Get moduleNumber.N Pass / Fail
5. Verify that the Response Value for moduleNumber.N equals N. Pass / Fail
6. Get moduleDeviceNode.N Pass / Fail
7. Verify that the Response Value for moduleDeviceNode.N equals 1.3.6.1.4.1.1206.4.2.7. (CCTV)
Pass / Fail
8. Get moduleMake.N Pass / Fail
9. Verify that the Response Value for moduleMake.N indicates the manufacturer of the module.
Pass / Fail
10. Get moduleModel.N Pass / Fail
11. Verify that the Response Value for moduleModel.N indicates the correct model number for the component
Pass / Fail
12. Get moduleVersion.N Pass / Fail
13. Verify that the Response Value for moduleVersion.N indicates the correct version number of the component.
Pass / Fail
14. Get moduleType.N Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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15. Verify that the Response Value for moduleType.N indicates the correct type:
Note:
1 (other)
2 (hardware)
3 (software)
Pass / Fail
16 Get rangeMaximumPreset.0 Pass / Fail
17. Verify that the Response Value for rangeMaximumPreset.0 is correct for the camera assembly being tested.
Pass / Fail
18. Get rangePanLeftLimit.0 Pass / Fail
19. Verify that the Response Value for rangePanLeftLimit.0 is correct for the camera assembly being tested.
Pass / Fail
20. Get rangePanRightLimit.0 Pass / Fail
21. Verify that the Response Value for rangePanRightLimit.0 is correct for the camera assembly being tested.
Pass / Fail
22. Get rangePanHomePosition.0 Pass / Fail
23. Verify that the Response Value for rangePanHomePosition.0 is correct for the camera assembly being tested.
Pass / Fail
24. Get rangeTrueNorthOffset.0 Pass / Fail
25. Verify that the Response Value for rangeTrueNorthOffset.0 is correct for the camera assembly being tested.
Pass / Fail
26. Set rangeTrueNorthOffset.0 to 4500 (45 degrees) Pass / Fail
27. Get rangeTrueNorthOffset.0 Pass / Fail
28. Verify that the Response Value for rangeTrueNorthOffset.0 is 4500 Pass / Fail
29. Get rangeTiltUpLimit.0 Pass / Fail
30. Verify that the Response Value for rangeTiltUpLimit.0 is correct for the camera assembly being tested.
Pass / Fail
31. Get rangeTiltDownLimit.0 Pass / Fail
32. Verify that the Response Value for rangeTiltDownLimit.0 is correct for the camera assembly being tested.
Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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33. Get rangeZoomLimit.0 Pass / Fail
34. Verify that the Response Value for rangeZoomLimit.0 is correct for the camera assembly being tested.
Pass / Fail
35. Get rangeFocusLimit.0 Pass / Fail
36. Verify that the Response Value for rangeFocusLimit.0 is correct for the camera assembly being tested.
Pass / Fail
37. Get rangeIrisLimit.0 Pass / Fail
38. Verify that the Response Value for rangeIrisLimit.0 is correct for the camera assembly being tested.
Pass / Fail
39. Get rangeMinimumPanStepAngle.0 Pass / Fail
40. Verify that the Response Value for rangeMinimumPanStepAngle.0 is correct for the camera assembly being tested.
Pass / Fail
41. Get rangeMinimumTiltStepAngle.0 Pass / Fail
42. Verify that the Response Value for rangeMinimumPanStepAngle.0 is correct for the camera assembly being tested.
Pass / Fail
Test Case Result:
Pass / Fail
Test Case Notes:
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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2.2. TC002 – Pan Camera
Test Case:
TC002
Title:
Pan Camera
Description: The purpose of this test is to verify that the operator can correctly pan the camera to the left and right.
Pass/Fail Criteria:
The DUT shall pass every step described in this test case in order to pass this test.
Step Test Procedure Results
1. Set PositionPan.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
2. Delay for two (2) seconds Pass / Fail
3. Set PositionPan.0 to
Mode: 3 (continuous),
Speed: -20,
Position or offset: 0
The Hex value for this configuration is 03 EC 00 00
Pass / Fail
4. Delay for five (5) seconds Pass / Fail
5. Verify that the camera pans left slowly Pass / Fail
6. Get PositionPan.0 Pass / Fail
7. Verify that the Response Value is equal to 03 EC 00 00. Pass / Fail
8. Set PositionPan.0 to
Mode: 3 (continuous),
Speed: -127,
Position or offset: 0
The Hex value for this configuration is 03 81 00 00
Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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9. Delay for two (2) seconds Pass / Fail
10. Verify that the camera pans left quickly Pass / Fail
11. Get PositionPan.0 Pass / Fail
12. Verify that the Response Value is equal to 03 81 00 00. Pass / Fail
13. Set PositionPan.0 to
Mode: 3 (continuous),
Speed: 100,
Position or offset: 0
The Hex value for this configuration is 03 64 00 00
Pass / Fail
14. Delay for two (2) seconds Pass / Fail
15. Verify that the camera pans right Pass / Fail
16 Get PositionPan.0 Pass / Fail
17. Verify that the Response Value is equal to 03 64 00 00. Pass / Fail
18. Set PositionPan.0 to
Mode: 0 (stop movement),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 00 00 00 00
Pass / Fail
19. Delay for one (1) second Pass / Fail
20. Verify that the camera stops panning Pass / Fail
21. Get PositionPan.0 Pass / Fail
22. Verify that the Response Value is equal to 00 00 00 00. Pass / Fail
23. Set PositionPan.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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24. Delay for two (2) seconds Pass / Fail
25. Verify that the camera moves to absolute zero Pass / Fail
26. Get PositionPan.0 Pass / Fail
27. Verify that the Response Value is equal to 02 00 00 00. Pass / Fail
28. Get panPositionQuery.0 Pass / Fail
29. Verify that the Response Value is equal to zero (0). A Response Value of 65535 indicates that panPositionQuery.0 is not supported.
Pass / Fail
30. Set PositionPan.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 18000
The Hex value for this configuration is 02 00 46 50
Pass / Fail
31. Delay for two (2) seconds Pass / Fail
32. Verify that the camera moves to absolute 180 degrees Pass / Fail
33. Get PositionPan.0 Pass / Fail
34. Verify that the Response Value is 02 00 46 50 Pass / Fail
35. Get panPositionQuery.0 Pass / Fail
36. Verify that the Response Value is equal to 18000. A Response Value of 65535 indicates that panPositionQuery.0 is not supported.
Pass / Fail
37. Set PositionPan.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
38. Delay for two (2) seconds Pass / Fail
39. Record the camera position Pass / Fail
40. For each value of N, from 1 through 8, perform steps 33 through 36 Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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41. Set PositionPan.0 to
Mode: 1 (delta),
Speed: -100,
Position or offset: 4500
The Hex value for this configuration is 01 9C 11 94
Pass / Fail
42. Delay for two (2) seconds Pass / Fail
43. Verify that the camera pans left by 45 degrees Pass / Fail
44. Get panPositionQuery.0 Pass / Fail
45. Verify that the Response Value has incremented by 4500 from the previous value of this step, where the initial value is zero (0). A Response Value of 65535 indicates that panPositionQuery.0 is not supported.
Pass / Fail
46. Verify that the camera is in the same position as recorded in step 39. Pass / Fail
47. Set PositionPan.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
Test Case Result:
Pass / Fail
Test Case Notes:
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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2.3. TC003 – Tilt Camera
Test Case:
TC003
Title: Tilt Camera
Description: The purpose of this test is to verify that the operator can correctly pan the camera to the left and right.
Pass/Fail Criteria:
The DUT shall pass every step described in this test case in order to pass this test.
Step Test Procedure Results
1. Set PositionTilt.0 to
Mode: 3 (continuous),
Speed: -20,
Position or offset: 0
The Hex value for this configuration is 03 EC 00 00
Pass / Fail
2. Delay for two (2) seconds Pass / Fail
3. Verify that the camera tilts down slowly Pass / Fail
4. Get PositionTilt.0 Pass / Fail
5. Verify that the Response Value is equal to 03 EC 00 00. Pass / Fail
6. Set PositionTilt.0 to
Mode: 3 (continuous),
Speed: 125,
Position or offset: 0
The Hex value for this configuration is 03 7D 00 00
Pass / Fail
7. Delay for two (2) seconds Pass / Fail
8. Verify that the camera tilts up quickly Pass / Fail
9. Get PositionTilt.0 Pass / Fail
10. Verify that the Response Value is equal to 03 7D 00 00. Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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11. Set PositionTilt.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
12. Delay for two (2) seconds Pass / Fail
13. Verify that the camera moves to absolute zero Pass / Fail
14. Get PositionTilt.0 Pass / Fail
15. Verify that the Response Value is equal to 02 00 00 00. Pass / Fail
16 Get tiltPositionQuery.0 Pass / Fail
17. Verify that the Response Value is equal to zero (0). A Response Value of 65535 indicates that tiltPositionQuery.0 is not supported.
Pass / Fail
18. Set PositionTilt.0 to
Mode: 3 (continuous),
Speed: 10,
Position or offset: 0
The Hex value for this configuration is 03 0A 00 00
Pass / Fail
19. Delay for one (1) second Pass / Fail
20. Set PositionTilt.0 to
Mode: 0 (stop movement),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 00 00 00 00
Pass / Fail
21. Delay for one (1) second Pass / Fail
22. Verify that the camera stops panning Pass / Fail
23. Get PositionPan.0 Pass / Fail
24. Verify that the Response Value is equal to 00 00 00 00. Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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Test Case Result:
Pass / Fail
Test Case Notes:
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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2.4. TC004 – Camera Presets
Test Case:
TC004
Title: Camera Presets
Description: The purpose of this test is to verify that the operator can correctly store and use preset camera positions.
Pass/Fail Criteria:
The DUT shall pass every step described in this test case in order to pass this test.
Step Test Procedure Results
1. Set PositionPan.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 4500
The Hex value for this configuration is 02 00 11 94
Pass / Fail
2. Delay for two (2) seconds Pass / Fail
3. Set PositionTilt.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
4. Delay for two (2) seconds Pass / Fail
5. Set PositionZoomLens.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 1
The Hex value for this configuration is 02 00 00 01
Pass / Fail
6. Delay for two (2) seconds Pass / Fail
7. Set presetStorePostion.0 to value 1 Pass / Fail
8. Record camera position Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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9. Get presetStorePostion.0 Pass / Fail
10. Verify that the Response Value equals 1 Pass / Fail
11. Set PositionPan.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 18000
The Hex value for this configuration is 02 00 46 50
Pass / Fail
12. Delay for two (2) seconds Pass / Fail
13. Set PositionTilt.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 28000
The Hex value for this configuration is 02 00 6D 60
Pass / Fail
14. Delay for two (2) seconds Pass / Fail
15. Set PositionZoomLens.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 32000
The Hex value for this configuration is 02 00 7D 00
Pass / Fail
16 Delay for two (2) seconds Pass / Fail
17. Set presetStorePostion.0 to value 7, or some other arbitrary value N Pass / Fail
18. Record camera position Pass / Fail
19. Get presetStorePostion.0 Pass / Fail
20. Verify that the Response Value equals 7 (N) Pass / Fail
21. Set presetGotoPostion.0 to 1 Pass / Fail
22. Delay for six (6) seconds Pass / Fail
23. Verify that the camera is in the position recorded in step 8 Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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24. Get presetGotoPostion.0 Pass / Fail
25. Verify that the Response Value equals 1 Pass / Fail
26. Get presetPositionQuery.0 Pass / Fail
27. Verify that the Response Value equals 1 Pass / Fail
28. Set presetGotoPostion.0 to 7 (or other value N chosen in step 17) Pass / Fail
29. Delay for six (6) seconds Pass / Fail
30. Verify that the camera is in the position recorded in step 17 Pass / Fail
31. Get presetGotoPostion.0 Pass / Fail
32. Verify that the Response Value equals 7 (N) Pass / Fail
33. Get presetPositionQuery.0 Pass / Fail
34. Verify that the Response Value equals 7 (N) Pass / Fail
35. Repeat steps 21 through 34 for varying values of N Pass / Fail
36. Set PositionPan.0 to
Mode: 2 (absolute)
Speed: 0,
Position or offset: 9000
The Hex value for this configuration is 02 00 23 28
Pass / Fail
37. Delay for two (2) seconds Pass / Fail
38. Verify that the camera pans Pass / Fail
39. Set PositionTilt.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 1500
The Hex value for this configuration is 02 00 05 DC
Pass / Fail
40. Delay for two (2) seconds Pass / Fail
41. Verify that the camera tilts Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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42. Set PositionZoomLens.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 10000
The Hex value for this configuration is 02 00 27 10
Pass / Fail
43. Delay for two (2) seconds Pass / Fail
44. Verify that the camera zooms Pass / Fail
45. Get presetPositionQuery.0 Pass / Fail
46. Verify that the Response Value equals 0 Pass / Fail
47. Set PositionPan.0 to
Mode: 2 (absolute)
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
48. Delay for two (2) seconds Pass / Fail
49. Set PositionTilt.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
50. Delay for two (2) seconds Pass / Fail
51. Set PositionZoomLens.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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Test Case Result:
Pass / Fail
Test Case Notes:
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
APPENDIX AA: NTCIP TEST PROCEDURES FOR CCTV CAMERA ASSEMBLIES
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2.5. TC005 – Reliability
Test Case:
TC004
Title: Reliability
Description: The purpose of this test is to verify the reliability of the DUT
Pass/Fail Criteria:
The DUT shall pass every step described in this test case in order to pass this test.
Step Test Procedure Results
1. Set PositionPan.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 4500
The Hex value for this configuration is 02 00 11 94
Pass / Fail
2. Delay for two (2) seconds Pass / Fail
3. Set PositionTilt.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 0
The Hex value for this configuration is 02 00 00 00
Pass / Fail
4. Delay for two (2) seconds Pass / Fail
5. Set PositionZoomLens.0 to
Mode: 2 (absolute),
Speed: 0,
Position or offset: 1
The Hex value for this configuration is 02 00 00 01
Pass / Fail
6. Delay for two (2) seconds Pass / Fail
7. Set presetStorePostion.0 to value 1 Pass / Fail
8. Record camera position Pass / Fail
ITEM 683.1013 11 – BARREL TYPE CCTV CAMERA ASSEMBLY
ITEM 683.1014 11 – DOME TYPE CCTV CAMERA ASSEMBLY
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9. Repeat steps 1 through 8, changing the position of the camera and zoom lens, and Set presetStorePostion.0 to values 2 through 32.
The purpose of this is to set 32 presets with differing positions.
Pass / Fail
10. Set presetGotoPostion.0 to 1 Pass / Fail
11. Delay for six (6) seconds Pass / Fail
12. Verify that the camera is in the position recorded in step 8 Pass / Fail
13. Get presetGotoPostion.0 Pass / Fail
14. Verify that the Response Value equals 1 Pass / Fail
15. Repeat steps 10 through 14, incrementing presetGotoPostion.0 by 1 until N = 32
Pass / Fail
16. Repeat steps 10 through 15 for a period of twelve (12) hours.
This may be achieved using an automated script with an error logging function.
Pass / Fail
17. Verify that camera operates without error.
If an automated script is used the error log should be examined for failures, and attached to this procedure.
Pass / Fail
Test Case Result:
Pass / Fail
Test Case Notes: