Ganz C-AllView Installer's Manual
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Ganz C-AllView Installer's Manual

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C-AllView &
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Summary of Contents for Ganz C-AllView

  • Page 1 C-AllView & C-AllView Ti installer’s guide...

  • Page 3: Table Of Contents

    Contents Introduction Welcome Installation Camera mounting Camera telemetry settings Power and signal connections Camera power requirements Mains power supply (C-ADN3 models) Fuses Connecting the composite cable Connecting external links Vehicle power supply (C-ADN3V models) Thermal image focusing (Ti models only) Further information WEEE statement Changes to control protocols Safety Disclaimer Dimensions Camera Unit Specifications: Mechanical and general items Specifications: Camera modules...

  • Page 4: Introduction

    Introduction Welcome These are no ordinary cameras. Thanks to careful development and rigorous testing, these cameras are equipped to survive in harsh environments and provide enhanced features. Two main models are available to offer optical only or optical plus thermal imaging abilities. The numerous benefits of both camera types include: • Flat toughened glass window – scratch resistant, maintenance-free and optically correct, • Integral Wiper – to clean away rain and deposits caused by wind, sea spray and road traffic, • Hard anodised aluminium castings, with optional powder coating to prevent corrosion in the harshest of marine environments, • M4 marine grade stainless steel case fastenings, • Optional washer system, • Optional infra-red LED illumination system, • Day/night switching by external contact closure (optional alarm interface), • Multiple native control protocols: Coaxial and RS485, • Optional RS485 alarm interfaces. Optical only Optical plus thermal imaging...

  • Page 5: Installation

    Installation Camera mounting The camera is designed to be mounted upright or hang- ing. By nature of its rugged construction the camera is a heavy item and thus requires a substantial and stable mounting. The camera is supplied with a mount adaptor to allow fixing to industry standard brackets, towers or columns. The mount adaptor has two cable entry points: • A pass-through hole in the end plate to allow the com- posite cable to enter unseen from a column, tube or bracket type mounting, plus • A conduit thread (M25) in the side wall to permit com- posite cable entry via a flexible conduit attached to the adap- tor. To mount the camera 1 Thread the composite cable through the appropri- ate entry hole into the mount adaptor before it is fixed to the column or bracket. 2 To avoid placing strain upon the electrical connections, arrange the composite cable such that approximately 25~35mm of the weatherproof connector protrudes out from the smaller plate that will connect to the camera. 3 Secure the mount adaptor to the supporting structure us- ing M8 bolts, washers and Nyloc type nuts. ® IMPORTANT: Always use Nyloc nuts in order to signifi- cantly reduce the possibility of bolts working loose during operation due to...
  • Page 6 4 Offer the camera to the mount adaptor and clip the lanyard onto the lug of the mount adaptor. In addition to being an essential safety device during operation, the lanyard is useful as a temporary hanging point when the camera is being mounted in the inverted position. 5 Carefully note the orientation notch- es of cable connector and camera socket. Align the notches accordingly and insert the connector onto the socket of the camera base. Twist the connector’s retaining ring until it locks into place. 6 Remove the four hex head bolts from the camera base and push the connector back into the mount adaptor. 7 Align the four holes of the mount adaptors with those on the camera base and insert the four hex head bolts. 8 Tighten the bolts to approximately 1.6Kg/m. Do not over tighten bolts. IMPORTANT: Ensure that the lanyard is connected to the appropriate lug on the mount adaptor when the camera mounting is complete. Also, dou- ble check all bolts for correct positioning and appropriate tightness.
  • Page 7 To offset the camera head When mounting upright, the camera head can be offset to allow it a field of view clear of the pan motor section of the hous- ing. 1 Unscrew and withdraw the M5 socket head retaining bolt from the middle of the front of the yoke. 2 Carefully tip the yoke assembly forward. 3 Re-insert the bolt from the rear of the yoke and tighten to approximately 0.97Kg/m. Do not over tighten the bolt.

  • Page 8: Camera Telemetry Settings

    Camera telemetry settings Depending on the chosen protocol, telemetry control signals may be fed to the camera either via the primary co-axial video link cable or through the twisted pair cables that are included within the composite cable. Note: Due to limitations or software changes within some protocols, it is not always possible to implement all of the camera’s features. All settings related to telemetry control are configured using two banks of switches (S1 and S2) located behind a removable panel within the hub of the camera. To access the switches, remove the two retaining screws and remove the panel: Note: In all switch setting tables, a dash (-) means the corresponding switch is Off. Device ID address (block S1, switches 1 to 8) For protocols which use RS485 control signals via the twisted pair link within the camera’s composite cable, you can determine the device ID address for the camera.
  • Page 9 D evice ID S1-1 S1-2 S1-3 S1-4 S1-5 S1-6 S1-7 S1-8 15 On On On On 16 17 On 18 On 19 On On 20 On 21 On On 22 On On 23 On On On 24 On 25 On On 26 On On...
  • Page 10 Telemetry protocol (block S2, switches 1 to 5) Vendor Protocol Identity Link S2-1 S2-2 S2-3 S2-4 S2-5 360-Vision C-Dome 0C VIS360 RS485 On On BBV Serial485 12 BBV485 RS485 On CBC OCP OCP485 00 OCP485 RS485 DeView VTC485 09 VTC485 RS485 On On Forward Vision FV Mic1-300 0D FV300 RS485 On On...

  • Page 11: Power And Signal Connections

    Power and signal connections Camera power requirements The camera can accept a range of input voltages, as follows: Input voltages 20-36VDC or 14-26VAC Power 5W (standby), 15W (peak) These figures do not include the requirements of any optional heating or cooling devices added within the camera, nor optional infra-red lighting systems. Power supply units are available for both mains feeds and low voltage DC autom- tive power sources: Mains power supply (C-ADN3 models) The RC-PSB1 and RC-PSB2 power supplies are housed within a plastic casing rated to IP65. The power supply is capable of providing sufficient current to run the cam- era as well as a 24VAC washer pump (e.g. Dennard WW25). This power supply also has built-in transient suppression and individually fused out- puts for the camera and washer units, as well as spark-gap protection for video and data connections. Each output fuse has positive indication of failure, so a blown fuse can be instantly identified. The circuit board layout is shown below: Main Power (PTZ) Upper connector Input from power output block - use for primary switch fuse (F) connections to the...

  • Page 12: Fuses

    Fuses RC-PSB1 RC-PSB2 Mains input 230VAC 3.15A 3.15A Power input (F0) 24VAC 3.15A Power PTZ output (F1) 24VAC Washer pump (F2) 24VAC Connecting the composite cable 1 Open one of the knock-out panels of the wiring centre box and fit a suitable cable water-sealing cable grommet. 2 Feed the bare ends of the composite cable in through the grommet and connect each cable within the wiring centre as follows: • Primary video Fit a BNC connector to coaxial cable marked as ‘Video 1’ and connect it to the BNC socket labelled ‘VIDEO IN 1’. • Secondary video (if present) Fit a BNC connector to coaxial cable marked as ‘Video 2’ and connect it to the BNC socket labelled ‘VIDEO IN 2’. • Power Connect the Red cable to the terminal marked ‘PTZ 1P’. Connect the Black cable to the terminal marked ‘PTZ 1N’. • Washer Connect the Orange cable to the upper terminal marked ‘AUX1‘. Connect the White cable to the upper terminal marked ‘AUX2’. • RS485 telemetry Connect the Yellow cable to the upper terminal marked ‘DATA 5’. Connect the Blue cable to the upper terminal marked ‘DATA 6’.

  • Page 13: Connecting External Links

    Connecting external links 1 Open one or more of the knock-out panels of the wiring centre box and fit suit- able cable water-sealing cable grommets, as required. 2 Feed the cables from the external device(s) through the grommet(s) and connect each cable within the wiring centre as follows: • Primary video - The primary video output from the camera is available at the BNC socket labelled ‘VIDEO OUT 1’. Note: If the camera and control system are configured to use coax based telem- etry, it will pass through this connector. • Secondary video - When used, the output from the thermal imaging camera is available at the BNC socket labelled ‘VIDEO OUT 2’. • RS485 telemetry - Connect RS485A (RS485+) to the lower terminal marked DATA 5. Connect RS485B (RS485-) to the lower terminal marked DATA 6. • Mains input - Connect the mains Earth (Yellow/Green) conductor to the middle contact of the connector block. Connect the mains Live (Brown) conductor to the contact of the connector block closest to the input fuse. Connect the mains Neutral (Blue) conductor to the contact of the connector block furthest from the...

  • Page 14: Vehicle Power Supply (C-Adn3V Models)

    Vehicle power supply (C-ADN3V models) The power supply provided for automotive applications is housed within a plastic casing rated to IP65. The power supply consists of a sophisticated inverter which runs from a 12VDC supply and converts this to 24VAC, providing sufficient current to run the camera as well as a 24VAC washer pump (e.g. Dennard WW25). This power supply has fuse protection for the input and output power lines. The circuit board layout is shown below: WASH - WASH + VIDEO 2 GND VIDEO 2 SIG VIDEO 1 GND VIDEO 2 SIG DATA - DATA + OUT24VDC+ OUT 24VDC - IN 12VDC + IN 12VDC -...

  • Page 15: Thermal Image Focusing (Ti Models Only)

    Thermal image focusing (Ti models only) The thermal imaging cameras feature a manual focus ring which is accessible when the front lens cover is removed. To focus the thermal camera 1 Using a 2.5mm hex key, remove the two retaining screws either side of the thermal camera lens cover. 2 Carefully lift off the thermal imaging lens cover and keep it free from dirt or the possibility of scratching. Keep the two screws and the internal o-ring seal safe for reassembly. 3 Using the keyboard controls, direct the camera towards a typical scene that will be monitored. 4 While viewing the output from the thermal imaging camera (either directly, if possible, or under instruc- tion from a colleague), twist the outer lens until the thermal screen image is brought into focus. 5 When complete, ensure that the o-ring seal is correctly in place on the rear side of the lens cover and place it onto the camera front. 6 Replace the two retaining screws and tighten. ...

  • Page 16: Further Information

    Further information WEEE statement This equipment contains electrical or electronic components that must be recycled properly to comply with Directive 2002/96/EC of the European Union regarding the disposal of waster electrical and elec- tronic equipment (WEEE). Contact your local supplier for procedures for recycling this equipment. Changes to control protocols Keyboard manufacturers may update software or protocols in their keyboards without prior warning. This may change the way in which the camera behaves in relation to keyboard operation. We can accept no responsibility for such changes in keyboard manufacturer software and/or protocols. Safety Installation of this product should only be carried our by a competent and suitably qualified engineer. If you are in doubt, you should refer the installation to a suitably qualified person. Disclaimer The manufacturer reserves the right to change specifications and procedures in- tegral to the operation, control and programming of this product at any time and without prior notice. This manual relates to firmware versions 1.4.2 (standard) and 1.4.3 (thermal). V3 platforms.

  • Page 17: Dimensions

    Dimensions Camera Unit...

  • Page 18: Specifications: Mechanical And General Items

    Specifications: Mechanical and general items Construction Die-Cast hard anodised, powder coated aluminium, with A4 stainless fittings. IP Rating IP67 Normal Offset Turning Diameter 220mm / 8.66” 370mm / 14.57” Height 370mm / 14.57” 340mm / 13.86” Height with adaptor 500mm / 19.68” 470mm / 18.50” Weight (with adaptor) 7Kg (8Kg) 15.43lb (17.63lb) Pan Tilt Rotation 360º Continuous 290º >180º/sec [excl. ramp] >180º/sec [excl. ramp] Presets 32 + WASH preset (accuracy 0.05º) Tours 8 Fast Preset, 8 Slow Preset, 4 x 60 second Mimic Tilt Flip Configurable – Off, Bottom-Flip Privacy Zones 24 spherically calculated (Max 8 onscreen simultaneously) Telemetry Coaxial or RS485 half duplex – multiple protocols Alarms 64 with optional external alarm card Connection 10m composite cable with 19 way IP67 Neptune connector Power...

  • Page 19: Specifications: Camera Modules

    Specifications: Camera modules Optical modules C-ADN3X18YPT-B/W/G C-ADN3X26YPT-B/W/G C-ADN3X30YPT-B/W/G C-ADN3X36YPT-B/W/G C-AllView C-ADN3VX18YPT-B/W/G C-ADN3VX36YPT-B/W/G C-AllView (vehicle) C-ATDNX36H-(see below) C-AllView Ti Image sensor Sony 1/4” Exview CCD Optical zoom 18x 26x 30x Digital zoom 12x (216x combined) 12x (312x combined) 12x (360x combined) 12x (432x combined) Resolution 520 TVL 520 TVL 520 TVL 520 TVL Lens (Wide to Tele.) f=1.4mm to 73.8mm f=3.5mm to 91mm f=1.4mm to 105mm f=3.4mm to 122.4mm F1.4 to F3.0 F1.6 to F3.8 F1.4 to F3.0 F1.6 to F4.5 Angle of view (W) to 2.8 (T) 54.2...
  • Page 20 CBC (Europe) Ltd., 6-8 Garrick Industrial Centre, Irving Way, London NW9 6AQ, England T: +44 (0)20 8732 3300 F: +44 (0)20 8202 3387 Document: DN082901 - 1.1 E: info@cbcuk.com www.cbceurope.com Release: 1.1c - July 2008...

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