9000 Fixed IP Dome Cameras. Internal Dome Internal Vandal Resistant Dome External Vandal Resistant Dome. Hardware Guide

8000/9000 Fixed IP Dome Cameras Internal Dome Internal Vandal Resistant Dome External Vandal Resistant Dome Hardware Guide THIS MANUAL WAS CREATED ...
Author: Bethany Holland
15 downloads 2 Views 608KB Size
8000/9000 Fixed IP Dome Cameras Internal Dome Internal Vandal Resistant Dome External Vandal Resistant Dome

Hardware Guide

THIS MANUAL WAS CREATED ON JUNE 26, 2008.

LEGAL CONSIDERATIONS LAWS THAT CAN VARY FROM COUNTRY TO COUNTRY MAY PROHIBIT CAMERA SURVEILLANCE. PLEASE ENSURE THAT THE RELEVANT LAWS ARE FULLY UNDERSTOOD FOR THE PARTICULAR COUNTRY OR REGION IN WHICH YOU WILL BE OPERATING THIS EQUIPMENT. INDIGOVISION LTD. ACCEPTS NO LIABILITY FOR IMPROPER OR ILLEGAL USE OF THIS PRODUCT.

COPYRIGHT COPYRIGHT © 2008 INDIGOVISION LIMITED. ALL RIGHTS RESERVED. THIS MANUAL IS PROTECTED BY NATIONAL AND INTERNATIONAL COPYRIGHT AND OTHER LAWS. UNAUTHORIZED STORAGE, REPRODUCTION, TRANSMISSION AND/OR DISTRIBUTION OF THIS MANUAL, OR ANY PART OF IT, MAY RESULT IN CIVIL AND/OR CRIMINAL PROCEEDINGS. INDIGOVISION AND VIDEOBRIDGE ARE TRADEMARKS OF INDIGOVISION LIMITED AND ARE REGISTERED IN CERTAIN COUNTRIES. ALL OTHER PRODUCT NAMES REFERRED TO IN THIS MANUAL ARE TRADEMARKS OF THEIR RESPECTIVE OWNERS. SAVE AS OTHERWISE AGREED WITH INDIGOVISION LIMITED AND/OR INDIGOVISION, INC., THIS MANUAL IS PROVIDED WITHOUT EXPRESS REPRESENTATION AND/OR WARRANTY OF ANY KIND. TO THE FULLEST EXTENT PERMITTED BY APPLICABLE LAWS, INDIGOVISION LIMITED AND INDIGOVISION, INC. DISCLAIM ALL IMPLIED REPRESENTATIONS, WARRANTIES, CONDITIONS AND/OR OBLIGATIONS OF EVERY KIND IN RESPECT OF THIS MANUAL. ACCORDINGLY, SAVE AS OTHERWISE AGREED WITH INDIGOVISION LIMITED AND/OR INDIGOVISION, INC., THIS MANUAL IS PROVIDED ON AN “AS IS”, “WITH ALL FAULTS” AND “AS AVAILABLE” BASIS. PLEASE CONTACT INDIGOVISION LIMITED (EITHER BY POST OR BY E-MAIL AT [email protected]) WITH ANY SUGGESTED CORRECTIONS AND/OR IMPROVEMENTS TO THIS MANUAL. SAVE AS OTHERWISE AGREED WITH INDIGOVISION LIMITED AND/OR INDIGOVISION, INC., THE LIABILITY OF INDIGOVISION LIMITED AND INDIGOVISION, INC. FOR ANY LOSS (OTHER THAN DEATH OR PERSONAL INJURY) ARISING AS A RESULT OF ANY NEGLIGENT ACT OR OMISSION BY INDIGOVISION LIMITED AND/OR INDIGOVISION, INC. IN CONNECTION WITH THIS MANUAL AND/OR AS A RESULT OF ANY USE OF OR RELIANCE ON THIS MANUAL IS EXCLUDED TO THE FULLEST EXTENT PERMITTED BY APPLICABLE LAWS.

3

TABLE OF CONTENTS

ABOUT THIS GUIDE .......................................... 5 Safety Notices ...............................................................5

1 GETTING STARTED........................................ 7 Camera Variants .........................................................7 Cabling Requirements ...................................................9 Wiring Requirements .....................................................9 Powering Up the Fixed IP Dome Camera .....................10 Using a Power over Ethernet (PoE) switch .................10 Using a PoE Injector....................................................10 Using a PoE Midspan..................................................11 Using Auxiliary Power .................................................11 Power Up LEDs...........................................................12

2 INITIAL FIXED IP DOME CAMERA CONFIGURATION ..... 13 Initial IP Properties ........................................................13 Using the Web Configuration Pages .............................13 Step 1 — Preparing an Isolated Network ....................14 Step 2 — Preparing for Initial Device Configuration....15 Step 3 — Configuring your Fixed IP Dome Camera ...17 Using the Serial Port Connection ..................................21 Attaching the Fixed IP Dome Camera to the Network ..23

3 INTERNAL FIXED IP DOME CAMERA INSTALLATION .... 25 Fit the Mounting Plate ...................................................25 Run the Cabling to the Mounting Plate .........................27 Fit the Camera to the Mounting Plate ...........................27 Setting up the Sensor ....................................................28

4 INTERNAL VANDAL RESISTANT FIXED IP DOME CAMERA INSTALLATION .................................................... 31 Without Exit Collar .........................................................31

4

Wall/Ceiling Preparation ............................................. 31 Run the Cabling to the Access Point .......................... 33 Fit the Camera ............................................................ 33 Setting up the Sensor ................................................. 34 With Exit Collar ............................................................. 37 Fit the Exit Collar ........................................................ 37 Run the Cabling to the Exit Collar .............................. 38 Fit the Camera to the Exit Collar ................................ 38 Setting Up The Sensor ............................................... 38

5 EXTERNAL VANDAL RESISTANT FIXED IP DOME CAMERA INSTALLATION .................................... 39 Fit the Exit Collar ........................................................ 39 Run the Cabling to the Exit Collar .............................. 40 Connect the Heater Power Supply ............................. 41 Fit the Camera to the Exit Collar ................................ 41 Setting up the Sensor ................................................. 41 Low Temperature Start-Up ......................................... 44 Heater and Fan Operation .......................................... 45

APPENDIX A – HARDWARE SPECIFICATION....... 47 Codec Specification ...................................................... 47 Video .......................................................................... 47 Console Input/Output.................................................. 47 Analog Video Output .................................................. 48 Console Serial Port..................................................... 48 Power Over Ethernet .................................................. 48 Network Connections ................................................. 48 Metrics ........................................................................ 49 Environment ............................................................... 49 Regulatory .................................................................. 49 Binary IO Connections .................................................. 50 Binary Input ................................................................ 50 Binary Output.............................................................. 51 Sensor Specification ..................................................... 53

INDEX .......................................................... 55

5

ABOUT THIS GUIDE

This guide is written for users of IndigoVision’s Fixed IP Dome Camera, which is available in three variants: •

Internal Dome



Internal Vandal Resistant Dome



External Vandal Resistant Dome.

The Internal variants use a Day-Only color sensor. The External Vandal Resistant Dome uses a Day-Night color/monochrome sensor. All three variants are available as 8000 (MPEG-4) or 9000 (H.264) units. Please ensure that you read the instructions within this document relating to the camera variant you have been shipped. The guide provides installation and configuration information about the products, and a description of the hardware and specifications. For information on how to use the Web Configuration pages to configure the unit, see the IndigoVision 8000/9000 Web Configuration Guide.

Safety Notices This guide uses the following formats for safety notices: Note: Additional information relating to the current section. Caution: Potential hazard that could seriously impair operation.

6

This page intentionally left blank

7

1

GETTING STARTED

Camera Variants The IndigoVision Fixed IP Dome Camera is available in three variants: •

Internal Dome - the Internal Dome is a plastic encased dome camera for internal wall or ceiling mount, and is fitted with a Day-Only color sensor.



Internal Vandal Resistant Dome - the Internal Vandal Resistant Dome is a metal encased vandal-resistant dome camera for internal wall or ceiling mount, and is fitted with a Day-Only color sensor.



External Vandal Resistant Dome - the External Vandal Resistant Dome is a day/night, metal encased vandal-resistant dome camera for external wall or ceiling mount, and is fitted with a Day-Night color/monochrome sensor.

All three variants are available as 8000 (MPEG-4) or 9000 (H.264) units. Please ensure that you read the instructions within this document relating to the camera variant you have been shipped. Before you begin, please check that you have been shipped the following items. For the Internal Fixed IP Dome Camera: •

1 x Internal Fixed IP Dome Camera fitted with plastic lens shroud and dome bubble



1 x wall / ceiling mounting plate



1 x Fixed IP Dome Camera Serial Cable



1 x tinted dome bubble



2 x fixing screws



1 x Allen key

8

Before proceeding, remove the packing material from inside the Internal Dome camera. First remove the dome bubble from the camera by rotating it anti-clockwise to its end stop position, then lift off. Remove the lens shroud. Caution: Ensure the cover fixing screw is not fitted before attempting to remove the dome bubble.

For the Internal Vandal Resistant Fixed IP Dome Camera: •

1 x Internal Vandal Resistant Fixed IP Dome Camera fitted with plastic lens shroud and dome bubble



1 x Exit collar with plug and gasket



1 x Fixed IP Dome Camera Serial Cable



3 x security screws



1 x Allen key



1 x Torque bit

Before proceeding, remove the packing material from inside the Internal Vandal Resistant Dome camera. First remove the camera bezel by unscrewing the three security screws situated around the dome bubble (use the Torque T10 bit supplied). Lift off the bezel, the dome bubble, and the lens shroud.

For the External Vandal Resistant Fixed IP Dome Camera: •

1 x External Vandal Resistant Fixed IP Dome Camera fitted with plastic lens shroud and dome bubble



1 x Exit collar with plug, gasket and heater assembly



1 x Fixed IP Dome Camera Serial Cable



3 x security screws



1 x Allen key



1 x Torque bit



1 x 12Vdc power supply (for heater)

9

Before proceeding, remove the packing material from inside the External Vandal Resistant Dome camera. First remove the camera bezel by unscrewing the three security screws situated around the dome bubble (use the Torque T10 bit supplied). Lift off the bezel, the dome bubble, and the lens shroud.

Cabling Requirements This section details the cabling and wiring requirements for the Fixed IP Dome Camera. Table 1 Video and Ethernet Cable Requirements Type Video BNC

75 ohm coax

Ethernet

CAT5 (or higher)

100m max

Wiring Requirements Table 2 IO connector wiring requirements Pin

Signal

Recommended Wire Gauge

Pin 1

AUX PWR

18 AWG

Pin 2

AUX PWR

18 AWG

Pin 3

NOT USED

N/A

Pin 4

OUT1A

22 AWG

Pin 5

IN1+

22 AWG

Pin 6

OUT1B

22 AWG

Pin 7

IN2+

22 AWG

Pin 8

IN1-

22 AWG

Pin 9

GND

22 AWG

Pin 10

IN2-

22 AWG

Pin 11

CONSOLE RX

22 AWG

Pin 12

CONSOLE TX

22 AWG

10

Powering Up the Fixed IP Dome Camera The camera is a Power Over Ethernet (PoE) powered device compliant with the IEEE802.3af standard. The 8000 camera variants dissipate 7W maximum power, with the 9000 variants dissipating 8W maximum. There are four methods of powering up the camera: •

Using a Power over Ethernet (PoE) switch



Using a PoE Injector



Using a PoE Midspan



Using Auxiliary Power (24v AC/DC)

These methods are detailed below.

Using a Power over Ethernet (PoE) switch To power up the camera using a PoE-compliant switch, attach a CAT5 cable between the camera and the PoE switch.

Using a PoE Injector If a PoE switch is not available, the camera can be powered using a PoE injector, such as Phihong PSA1GU-480.

Fixed IP Dome Camera Cat5 cable Network switch Mains Power

Cat5 cable PoE Injector

Mains Power

Figure 1 Using a PoE Injector

11

Using a PoE Midspan If a PoE switch is not available, the camera can be powered using a PoE Midspan.

Network switch Mains Power

Fixed IP Dome Camera Cat5 cable

In Out

PoE Midspan Figure 2 Using a PoE Midspan

Using Auxiliary Power If power from a PoE Ethernet switch, PoE Midspan or PoE Injector is not available, the camera can be powered using the auxiliary power input on pins 1 and 2 of the 12-way I/O connector on the rear of the camera. Auxiliary power requirements are 24V AC or 24V DC at 290mA max (7VA max power) for 8000 camera variants, and 334mA max (8VA max power) for 9000 camera variants. Figure 3 shows the pin numbering scheme of the I/O connector. Pin 12

Pin 2

Pin 11

Pin 1

Figure 3 I/O connector pin numbering scheme

Use 18AWG (or 1mm2) figure of eight (or twisted pair) cable to connect an auxiliary power supply to the camera. The auxiliary power input to the camera is not polarity sensitive, therefore a DC power supply can be connected in either polarity.

12

A 24V DC, 500mA PSU with mains power lead can be ordered from IndigoVision, the base order code is 110004. Add -1 to the base order code for a UK IEC mains lead, -2 for a US IEC mains lead and -3 for an EU IEC mains lead.

Power Up LEDs When the camera is powered up, the LEDs indicate the following: LED

Color

State

Meaning

Power up

Green

Flashing

Camera is powered up

Network/link

Yellow

Unlit

Link is down

Solid

Link is up, but there is no network traffic

Flashing

Link is up and there is network traffic

13

2

INITIAL FIXED IP DOME CAMERA CONFIGURATION

Caution: You must configure your camera’s IP settings before you mount it in its final position. You can configure your Fixed IP Dome Camera using the Web Configuration pages or a serial connection. The Web Configuration method is detailed below. If you are using a serial connection, see “Using the Serial Port Connection” on page 21.

Initial IP Properties By default, these cameras are programmed with the IP properties shown in Table 3. Table 3 Default IP Properties Initial Configuration IP Address

10.5.1.10

Subnet Mask

255.0.0.0

Default Gateway

10.0.0.1

Using the Web Configuration Pages To configure your camera using the Web Configuration pages you must: 1

Prepare an isolated network.

2

Prepare your PC for initial device configuration.

3

Configure your camera. This includes specifying its IP address and subnet mask.

14

You must also have one of the following: •

A CAT5 crossover cable suitable for connection between the PC and the RJ45 connector on the camera, plus a 24V AC or DC PSU, OR



A PoE switch with two standard CAT5 cables, OR



A PoE injector with one standard CAT5 cable and one CAT5 crossover cable.

Step 1 — Preparing an Isolated Network You should connect your camera and the PC you are using to configure it on their own isolated network. To do this, connect the unit to the PC using an Ethernet cross-over cable (see Figure 4.)

Fixed IP Dome Camera PC Cat5 crossover cable Power Supply 24V AC or DC

Figure 4 Connecting the unit and PC using a cross-over cable

Alternatively, you can connect the unit and PC to the same PoE switch (Figure 5):

Fixed IP Dome Camera

PC

PoE switch

Cat5 cable

Figure 5 Connecting the unit using a PoE switch

15

A further alternative is to connect the unit to the PC via a PoE Injector (Figure 6):

Fixed IP Dome Camera PoE injector

PC IN

Cat5 crossover cable

OUT Cat5 cable Mains Power Supply

Figure 6 Connecting the unit using a PoE injector

Step 2 — Preparing for Initial Device Configuration All cameras are supplied with their IP address and subnet mask set to 10.5.1.10 and 255.0.0.0 respectively. You cannot connect the cameras to your network until you have changed these settings to suit your network. To change the factory defaults of your camera, you must first (temporarily) modify your PC’s network settings. Caution: Please note the original value of all settings that are to be changed so that you can re-enter them when you have completed the initial camera configuration. To change your PC’s settings: 1

Use the Windows XP Network Settings configuration application to set the PC’s IP address and subnet mask, as follows: a. In Windows Explorer, right-click Network Neighborhood and select Properties. b. Right-click Local Area Network and select Properties.

16

Figure 7 LAN Properties

c. Right-click Internet Protocol (TCP/IP) and select Properties.

Figure 8 IP Properties

17

d. Set the IP address to an address close to the factory IP address, for example, 10.5.1.2 and change the PC’s subnet mask to 255.0.0.0 (the same as the factory default). e. Click OK, then OK again.

Step 3 — Configuring your Fixed IP Dome Camera Once you have changed your PC’s network settings, you must change the IP values of the camera from its factory defaults. All cameras are supplied with their IP address and subnet mask set to 10.5.1.10 and 255.0.0.0 respectively. You cannot connect the cameras to your network until you have changed these settings to suit your network. To change these values: 1

Open Windows XP’s Internet Explorer application. From the File menu, select Open, and enter 10.5.1.10 (the factory default IP address), then click OK.

18

2

The Web Configuration home page appears (Figure 9):

Figure 9 Web Configuration home web page

3

Click the Network link on the left of the web page:

Figure 10 Network web page

19

4

The fields are as follows:



Use DHCP — Tick this box if you wish to assign the following Network parameters via a DHCP Server: •

IP Address



Subnet Mask



Default Gateway



Hostname



Network Time Server Address

Note: IndigoVision recommends that if you are using DHCP, you should configure the DHCP server to assign a given IP address based on the unit’s MAC address. Also, if the unit does not receive any response from the DHCP server it will default to using the network parameters supplied by the last completed DHCP request. If not using DHCP, you must enter the information manually. •

Host Name — Enter a name for the camera to identify the camera.



Location — Enter a location to identify the camera.



IP Address — Enter the IP address of the camera.



Subnet Mask — Enter the IP network subnet mask.

Caution: Ensure that you enter the correct values. Once you change from the defaults, the camera is no longer configurable by the PC with its current network settings. •

Gateway — This is the appropriate default gateway for remote network access and is only required if the cameras are to be accessed from a different subnet.



NTP Server Address — Address of NTP time server (if available).



Ethernet Interface — Enter a link type. The values are as follows: •

10Mbps Half Duplex



100Mbps Half Duplex



10Mbps Full Duplex

20



100Mbps Full Duplex



Auto-negotiate (default)

You may need to change the Ethernet link type default value from Auto-negotiate for some network devices. If you have problems maintaining a network link, contact your system administrator to determine the appropriate setting. When you have entered the configuration data for the camera on the web page, click Submit to apply the changes to the camera. 5

To configure another camera, disconnect the network cable from the camera. Leave this cable connected to the PC. Note: IndigoVision recommends that you make a note of the camera’s new IP address and subnet mask, or label the camera with its new details.

6

Connect the network cable to the next camera you want to configure.

7

Type the following command from a Command Window: C:> arp -d 10.5.1.10

Note: You must do this before you can access the next unit for configuration. 8

Repeat these steps for each camera, using different IP addresses for each camera.

Caution: Ensure that no two cameras share the same IP address (or that of the PC). 9

When you have configured all your cameras, return the PC to its original settings, or change them as appropriate for your network.

10 You are now ready to take your camera(s) off the isolated network and connect them to the main network. See “Attaching the Fixed IP Dome Camera to the Network” on page 23.

21

Using the Serial Port Connection To configure your camera using the serial port, you require a standard RS232 null modem serial cable and the serial cable shipped with the camera. 1

Connect the supplied serial cable to the camera.

2

Connect the 9 way DSUB end of the serial cable to a PC serial port using a standard null modem serial cable, as shown in Figure 11. Fixed IP Dome Camera

Attach the 12-pin connector end of the serial cable to the 12-pin plug on the camera

Serial cable

PC with serial configuration software

Standard serial cable 9 pin DSUB female mates to PC

Serial cable shipped with camera 12-pin connector mates to board

Figure 11 Serial port connection

3

4

On the PC, use a Terminal Emulation program such as Windows HyperTerminal and set the serial port parameters as follows: •

115200 baud



8 bits



No parity



1 stop bit



Flow Control: None

If using an auxiliary PSU, connect a 24V AC or 24V DC power supply between pins 1 and 2 of the 12 way IO connector (see Figure 3 on page 11 for pinout details).

22

5

Switch on the Auxiliary Power Supply to apply power to the camera, or, if using Power Over Ethernet, plug in the network cable. Note: Please allow 45 seconds for the camera to boot up.

6

Connect to the unit and press Enter. You should see the following prompt: VB8000/VP804 Version vx-xx-x Device Type

: Transmitter

Network Settings : [ 10.5.1.10 / 255.0.0.0 / 10.0.0.1 ] VB8000 login:

7

Log in to the unit using the username "config" and password "config". The unit prompts you to enter the new configuration values. At each prompt, press to accept the current value. •

Use DHCP (y/n) — Enter y to use DHCP for IP configuration, or n for manual IP configuration.



IP Address — Enter the IP address of the unit.



Subnet Mask — Enter the IP network subnet mask.



Default Gateway — Enter the appropriate default gateway for remote network access: this is only required if the cameras are to be accessed from a different subnet.



Host name — Enter a name to describe the unit.



Location — Enter a name to describe the location of the unit.



Link type — Enter a link type. The values are as follows: • 0 - 10Mbps Half-Duplex • 1 - 10Mbps Full-Duplex • 2 - 100Mbps Half-Duplex • 3 - 100Mbps Full-Duplex • 4 - Auto-negotiate You may need to change the Ethernet link type default value from Auto-negotiate for some network devices. If you have problems maintaining a network link, contact your system administrator to determine the appropriate setting.

23



Reset Network Security to factory defaults (y/n) ? — Enter "y" to reset the unit's password and network security settings. This will enable unrestricted access to the configuration web pages, and is the only way to reset the password on the unit. Enter “n” if you do not want to make changes to the unit's network security.

If you have more than one camera, repeat these steps for each camera. You are now ready to attach the camera(s) to the network.

Attaching the Fixed IP Dome Camera to the Network After configuring the camera’s IP settings, you must attach it directly to your network using an available network port, as follows: 1

Reconnect your PC to the network.

2

Use a standard RJ45 connector and CAT5 cable to connect to the network socket in the camera, as shown in Figure 12.

Fixed IP Dome Camera

PC Network

Power Supply (not required for PoE)

Figure 12 Connecting the Fixed IP Dome Camera to the network

24

This page intentionally left blank

25

3

INTERNAL FIXED IP DOME CAMERA INSTALLATION

Once you have configured your camera’s IP settings, you are ready to install it in its final position. There are four stages to installing the Internal Fixed IP Dome Camera: 1

Fit the wall/ceiling mounting plate

2

Run the cabling to the ceiling/wall mounting plate

3

Fit the camera to the wall/ceiling mounting plate

4

Set up the sensor

Fit the Mounting Plate To fit the wall/ceiling mounting plate, you must drill the fixing holes on the wall or ceiling for the mounting plate and cut out the cable access hole. To do this use the supplied wall / ceiling mount as a template. Exact dimensions are shown in Figure 13.

26

93.5 mm

81 mm

58 8 mm

R14 58mm

Figure 13 Fixed camera dimensions

1

Place the flat side of the plate to the surface the camera is to be mounted on.

2

Mark the fixing holes and cable cutout area on the surface using a pen or pencil. Figure 14 shows the wall / ceiling mounting plate.

Figure 14 Wall/ceiling mounting plate

3

Drill holes and make the cutout on the mounting surface.

4

Fit appropriate mounting plugs into the 3 fixing holes.

27

5

Secure the mounting plate to the wall or ceiling using appropriate screws such as No.6 x 1inch (3.5mm thread by 25mm) Pan Head screws.

Run the Cabling to the Mounting Plate When the mounting plate has been fitted, run the required cables up to the access hole point and make the required connections to the camera.

Fit the Camera to the Mounting Plate Figure 15 shows a picture of the base of the camera.

Bayonet Fixing Points

Figure 15 Camera Base

1

Attach the base of the camera to the wall/ceiling mounting plate so that the three bayonet fixing points and interface connector area align correctly with the plate.

2

Rotate the camera clockwise until it stops.

3

Secure the camera to the mounting plate using the supplied screw. Figure 16 shows the position of the hole for the securing screw:

28

Hole for securing screw

Figure 16 Camera Top View

Setting up the Sensor When setting up the sensor, you may find it helpful to connect the analog video output BNC of the camera to a video monitor. Figure 17 shows how the sensor is assembled. Please ensure it is rotated as shown, to ensure correct picture orientation. The iris adjust potentiometer is accessed through the small hole on the sensor mounting bracket.

Top

Iris Adjust Potentiometer

Figure 17 Sensor Assembly

29

To set up the sensor, you must remove the dome bubble and lens shroud from the camera as follows: 1

Remove the cover fixing screw (if fitted).

2

Rotate the dome bubble anti-clockwise to release from the bayonet fixing on the camera body.

3

Remove the dome bubble and the lens shroud.

The sensor position can be rotated on three axes to achieve the required position. Caution: Take care not to over-rotate the sensor assembly as this may result in the internal cables becoming disconnected. The camera is supplied with a Varifocal DC Auto Iris lens. •

To increase or reduce the angle of view, loosen the TELE / WIDE adjustment thumbscrew using a small flat blade screwdriver, then rotate the TELE / WIDE adjustment accordingly.



To achieve correct focus loosen the FAR / NEAR adjustment thumbscrew using a small flat blade screwdriver, then rotate the FAR / NEAR adjustment accordingly.

When the correct angle of view and focus have been achieved tighten both thumb screws using a small flat blade screwdriver. If you have difficulty getting the camera to focus, you may need to adjust the back focus of the lens. •

Loosen the lens assembly by unscrewing the lens grub screw using the 0.9mm Allen key provided.



Position the lens assembly so that is approximately 1.75mm from being flush to the sensor assembly (see Figure 18).



Tighten the lens grub screw to fix the lens assembly in position.



Ensure that the image can be focused at both TELE and WIDE extremes using the FAR/NEAR adjustment.

Repeat the viewing angle and focus adjustments as required.

30

Grub screw

1.75mm

Figure 18 Camera lens assembly

For lowest bit rate performance the camera is shipped with Automatic Gain Control (AGC) disabled and a gain of 0 is programmed. The shutter speed is fixed to 1/50 for PAL and 1/60 for NTSC. •

If the output image is too dark, rotate the iris adjust pot clockwise (towards the 8-way connector on the sensor assembly).



If the image is too bright, rotate the iris adjust pot anti-clockwise.



If you have low light conditions and need to set the AGC function, use the Web Configuration pages (Video tab) to do this.



If the iris adjust pot is at its minimum setting and the image is still too bright, you may need to increase shutter speed using the Web Configuration pages (Video tab).

When you have finished setting up the sensor, re-fit the dome bubble and lens shroud. Take care to align the dome bubble so that when rotated, the securing screw hole aligns with the hole on the main camera housing. Re-fit the dome bubble fixing screw to lock the dome bubble to the camera body.

31

4

INTERNAL VANDAL RESISTANT FIXED IP DOME CAMERA INSTALLATION There are two installation options for the Indoor Vandal Resistant Fixed IP Dome Camera: •

Without exit collar



With exit collar

These are covered in the following sections.

Without Exit Collar Once you have configured your camera's IP settings, you are ready to install it in its final position. There are four stages to installing the Indoor Vandal Resistant Dome Camera without the exit collar: 1

Wall/ceiling preparation

2

Run the cabling to the camera location

3

Fit the camera to wall/ceiling

4

Set up the sensor

Wall/Ceiling Preparation Before fitting the camera, you must drill fixing holes on the wall or ceiling for the camera, and cut out the cable access hole. Figure 19 shows the underside of the Indoor Vandal Resistant Camera without the exit collar attached. Exact dimensions for the suggested cable access hole are shown in Figure 20.

32

Figure 19 Underside of Internal Vandal Resistant Camera without exit collar

33

Figure 20 Wall/ceiling fixing points and access hole

1

Mark the fixing holes and cable cutout area on the surface using a pen or pencil.

2

Drill holes and make the cutout on the mounting surface.

3

Fit appropriate mounting plugs into the three fixing holes.

Run the Cabling to the Access Point When the wall or ceiling has been prepared, run the required cables up to the cable access hole and make the required connections to the camera.

Fit the Camera Secure the camera to the wall/ceiling using appropriate screws such as No.6 x 1inch (3.5mm thread by 25mm) stainless steel tamper-proof head screws.

34

Setting up the Sensor When setting up the sensor, you may find it helpful to connect the analog video output BNC of the camera to a video monitor. Figure 21 shows how the sensor is assembled. Please ensure it is rotated as shown, to ensure correct picture orientation. The iris adjust potentiometer is accessed through the small hole on the sensor mounting bracket.

Top

Iris Adjust Potentiometer

Figure 21 Sensor Assembly

To set up the sensor, you must remove the dome bubble and lens shroud from the camera as follows: 1

Remove the three security screws fixing the bezel to the camera.

2

Remove the bezel, the dome bubble and the lens shroud.

The sensor position can be rotated on three axes to achieve the required position. Caution: Take care not to over-rotate the sensor assembly as this may result in the internal cables becoming disconnected.

Focus Procedure The camera is supplied with a Varifocal DC Auto Iris lens.

35



To increase or reduce the angle of view, loosen the TELE / WIDE adjustment thumbscrew using a small flat blade screwdriver, then rotate the TELE / WIDE adjustment accordingly.



To achieve correct focus loosen the FAR / NEAR adjustment thumbscrew using a small flat blade screwdriver, then rotate the FAR / NEAR adjustment accordingly.

When the correct angle of view and focus have been achieved tighten both thumb screws using a small flat blade screwdriver. If you have difficulty getting the camera to focus, you may need to adjust the back focus of the lens. •

Loosen the lens assembly by unscrewing the lens grub screw using the 0.9mm Allen key provided.



Position the lens assembly so that is approximately 1.75mm from being flush to the sensor assembly (see Figure 22).



Tighten the lens grub screw to fix the lens assembly in position.



Ensure that the image can be focused at both TELE and WIDE extremes using the FAR/NEAR adjustment.

Repeat the viewing angle and focus adjustments as required.

Grub screw

1.75mm

Figure 22 Camera lens assembly

36

Using a 9-22mm Lens Due to the thickness of the vandal-resistant dome bubble, there may be some loss of focus when the dome bubble is fitted over a sensor assembly that has already been focused. If this occurs, the focus needs to be adjusted to compensate for the dome bubble. To correct the focus, first focus the sensor on the desired scene, then move the focus fractionally towards the “near” position. Place the dome bubble over the sensor and check the focus. Continue making minor adjustments until focus is achieved with the dome bubble fitted.

Brightness Settings For lowest bit rate performance the camera is shipped with Automatic Gain Control (AGC) disabled and a gain of 0 is programmed. The shutter speed is fixed to 1/50 for PAL and 1/60 for NTSC. •

If the output image is too dark, rotate the iris adjust pot clockwise (towards the 8-way connector on the sensor assembly).



If the image is too bright, rotate the iris adjust pot anti-clockwise.



If you have low light conditions and need to set the AGC function, use the Web Configuration pages (Video tab) to do this.



If the iris adjust pot is at its minimum setting and the image is still too bright, you may need to increase shutter speed using the Web Configuration pages (Video tab).

When you have finished setting up the sensor, re-fit the dome bubble and lens shroud. Ensure that the bezel is re-fitted to secure the dome bubble to the camera body.

37

With Exit Collar Once you have configured your camera's IP settings, you are ready to install it in its final position. There are four stages to installing the Indoor Vandal Resistant Dome Camera with the exit collar: 1

Fit the exit collar to the wall/ceiling

2

Run the cabling to the exit collar

3

Fit the camera to the exit collar

4

Set up the sensor

Fit the Exit Collar To fit the exit collar you must drill the fixing holes in the wall or ceiling for the exit collar and for the cable access hole. To do this use the supplied exit collar as a template. Exact dimensions are shown in Figure 23:

Figure 23 Exit Collar wall/ceiling fixing points and access hole

1

Place the solid side of the exit collar to the surface the camera is to be mounted on.

2

Mark the fixing holes and cable access point on the surface using a pen or pencil.

38

3

Drill holes and make the cutout on the mounting surface.

4

Fit appropriate mounting plugs into the four fixing holes.

5

Secure the exit collar to the wall or ceiling using appropriate screws such as No.10 x 1inch (4.8mm thread by 25mm) CSK stainless steel screws.

Run the Cabling to the Exit Collar When the exit collar has been fitted, run the required cables up to and through the access hole and make the required connections to the camera. The exit collar has two 3/4” NPS threaded cable exits. Commonly used thread forms can be mated with these exits and sealed using PTFE tape. These include: M25 x 1.5, 3/4” NPT, 3/4” BSPT, and 3/4” BSPP thread forms.

Fit the Camera to the Exit Collar 1

Ensure that the adhesive backed gasket is attached to the exit collar.

2

Connect the earth strap between the exit collar and the camera.

3

Place the camera against the exit collar so that the groove on the camera base aligns with the ridge on the exit collar, and the three fixing points are aligned.

4

Secure the camera to the exit collar using the three security screws provided (using the Torque T10 bit provided).

Setting Up The Sensor See page 34 for information on setting up the sensor.

39

5

EXTERNAL VANDAL RESISTANT FIXED IP DOME CAMERA INSTALLATION If installing the camera in temperatures below -10OC, please read the section “Low Temperature Start-Up” before continuing. Once you have configured your camera's IP settings, you are ready to install it in its final position. The exit collar MUST be used when installing the External Vandal Resistant Dome Camera. There are five stages to installing the External Vandal Resistant Fixed IP Dome Camera: 1

Fit the exit collar to the wall/ceiling

2

Run the cabling to the exit collar

3

Connect the heater power supply

4

Fit the camera to the exit collar

5

Set up the sensor

Fit the Exit Collar The exit collar has two threaded cable exit holes. Before fitting the exit collar, ensure the exit hole which is not being used is sealed using the blanking plug and o-ring provided. Secure the blanking plug using the fixing screw provided. To fit the exit collar you must drill the fixing holes in the wall or ceiling for the exit collar and for the cable access hole. To do this use the supplied exit collar as a template. Exact dimensions are shown in Figure 24. 1

Place the solid side of the exit collar to the surface the camera is to be mounted on.

2

Mark the fixing holes and cable access point on the surface using a pen or pencil.

3

Drill holes and make the cutout on the mounting surface.

4

Fit appropriate mounting plugs into the four fixing holes.

40

Caution: Before fitting the exit collar, ensure that the heater fixing screws on the underside of the exit collar have been sealed. If required, seal the fixing screws using a weatherproof silicone sealant. Secure the exit collar to the wall or ceiling using appropriate screws such as No.10 x 1inch (4.8mm thread by 25mm) CSK stainless steel screws. Caution: Seal the fixing holes inside the exit collar using a weatherproof silicone sealant.

Figure 24 Exit Collar wall/ceiling fixing points and access hole

Run the Cabling to the Exit Collar When the exit collar has been fitted, run the required cables up to and through the access hole and make the required connections to the camera.

41

Caution: The exit collar has two 3/4” NPS threaded cable exits. Commonly used thread forms can be mated with these exits and sealed using PTFE tape. These include: M25 x 1.5, 3/4” NPT, 3/4” BSPT, and 3/4” BSPP thread forms.

Connect the Heater Power Supply Connect a 12Vdc power supply to the heater via the terminal block inside the exit collar. Connect the “+’ve” power supply wire to the heater assemblies Red/Blue wires, and the “-’ve” power supply wire to the Black/Brown wires.

Fit the Camera to the Exit Collar 1

Ensure that the adhesive backed gasket is attached to the exit collar.

2

Connect the earth strap between the exit collar and the camera.

3

Place the camera against the exit collar so that the groove on the camera base aligns with the ridge on the exit collar, and the three fixing points are aligned.

4

Secure the camera to the exit collar using the three security screws provided (using the Torque T10 bit provided).

Setting up the Sensor When setting up the sensor, you may find it helpful to connect the analog video output BNC of the camera to a video monitor. Figure 25 shows how the sensor is assembled. Please ensure it is rotated as shown, to ensure correct picture orientation. The iris adjust potentiometer is accessed through the small hole on the sensor mounting bracket.

42

Top

Iris Adjust Potentiometer

Figure 25 Sensor Assembly

To set up the sensor, you must remove the dome bubble and lens shroud from the camera as follows: 1

Remove the three security screws fixing the bezel to the camera.

2

Remove the bezel, the dome bubble and the lens shroud.

The sensor position can be rotated on three axes to achieve the required position. Caution: Take care not to over-rotate the sensor assembly as this may result in the internal cables becoming disconnected.

Brightness Settings For correct DayNight operation the camera is shipped with Automatic Gain Control (AGC) enabled. AGC must be enabled for the camera to switch to monochrome in low light levels. The shutter speed is fixed to 1/50 for PAL and 1/60 for NTSC. •

If the output image is too dark, or unexpectedly high bit rates are experienced, disable AGC via the Web Configuration pages (Video tab), rotate the iris adjust pot clockwise (towards the 8-way connector on the sensor assembly) until correct brightness level is achieved, and then re-enable AGC.

43



If the image is too bright, disable AGC via the Web Configuration pages (Video tab), rotate the iris adjust pot anti-clockwise, and then re-enable AGC.

If the iris adjust pot is at its minimum setting and the image is still too bright, you may need to increase shutter speed using the Web Configuration pages (Video tab).

Focus Procedure The camera is supplied with a Varifocal DC Auto Iris lens. •

To increase or reduce the angle of view, loosen the TELE / WIDE adjustment thumbscrew using a small flat blade screwdriver, then rotate the TELE / WIDE adjustment accordingly.



To achieve correct focus loosen the FAR / NEAR adjustment thumbscrew using a small flat blade screwdriver, then rotate the FAR / NEAR adjustment accordingly.

The CA120 camera can be used with IR illumination to produce images in dark conditions. To correctly focus the camera for both day and night operation, ND filters must be used during the focus procedure. Use of a 0.9 ND filter is recommended, however ND filters of lower optical densities should be use if the image obtained with a 0.9 ND filter is too dark to accurately focus the camera. •

Hold the ND filter over the front of the lens. This should result in a darker image and the lens iris should be fully open. Adjust the camera focus while keeping the ND filter in front of the lens.



Remove the ND filter. The camera image should now remain in focus during both day and night conditions.

When the correct angle of view and focus have been achieved tighten both thumb screws using a small flat blade screwdriver. If you have difficulty getting the camera to focus, you may need to adjust the back focus of the lens. •

Loosen the lens assembly by unscrewing the lens grub screw using the 0.9mm Allen key provided.

44



Position the lens assembly so that is approximately 1.75mm from being flush to the sensor assembly (see Figure 26).



Tighten the lens grub screw to fix the lens assembly in position.



Ensure that the image can be focused at both TELE and WIDE extremes using the FAR/NEAR adjustment.

Repeat the viewing angle and focus adjustments as required.

Grub screw

1.75mm

Figure 26 Camera lens assembly

Using a 9-22mm Lens Due to the thickness of the vandal-resistant dome bubble, there may be some loss of focus when the dome bubble is fitted over a sensor assembly that has already been focused. If this occurs, the focus needs to be adjusted to compensate for the dome bubble. To correct the focus, first focus the sensor on the desired scene, then move the focus fractionally towards the “near” position.

45

An ND filter must still be used to acheive optimum focus for both day and night conditions. Place the dome bubble over the sensor, then hold the ND filter in front of the bubble and lens. Check the focus. If the focus is not correct, remove the ND filter and dome bubble, and make a minor adjustment to the focus. Repeat the process as necessary until focus is achieved with the dome bubble and ND filter. When you have finished setting up the sensor, re-fit the dome bubble and lens shroud. Ensure that the bezel is re-fitted to secure the dome bubble to the camera body.

Low Temperature Start-Up The External Vandal Resistant Dome camera is designed to operate at temperatures down to -30OC. However, if the ambient temperature inside the camera is less than -10OC when the camera electronics are initially powered up, unexpected performance and reduced video quality may be experienced until the heater increases the ambient temperature inside the camera. The table below details the “warm-up” time required to guarantee optimum performance and video quality at different ambient temperatures: Table 4 Ambient Temp. (OC)

Warm-UpTime (minutes)

above -10

0

-20

15

-30

30

These warm-up times will be applicable every time the External Vandal Resistant Dome camera is powered-up in ambient temperatures lower than -10OC

Heater and Fan Operation The heater/fan assembly MUST be powered at all times. The heater is thermostatically controlled and will switch on and off as required. The fan runs continuously to circulate air throughout the camera.

46

This page intentionally left blank

47

A

HARDWARE SPECIFICATION

This chapter details the hardware specifications for the camera. It provides the codec and sensor specification and the dimensions for each camera type.

Codec Specification Video •

1Vp-p, 75ohm (PAL or NTSC depending on model)

Video Codec •

8000 series: ISO/IEC Standard MPEG-4 Simple Profile



9000 series: ITU-T Standard H.264 Baseline Profile



User-configurable bit rate



User-configurable frame rate



“4:2:0” YUV color space

Resolution •

SIF



2SIF



4SIF

Console Input/Output Console •

EIA-574 RS232 only



Maximum Baud Rate 115.2 Kbps



Console Settings 115200, 8bits,1 Stop Bit, No Parity

48

Analog Video Output A standard 75 ohms BNC connector is provided on the rear of the unit for access to analog composite video output. This output can be used if the camera is to be used in an analog application or for installation purposes to aid setting the sensor position and focus. Video output signal specification is: •

Video Standard: NTSC or PAL



Signal Amplitude: 1Vp-p



Signal Impedance: 75 ohms

Console Serial Port The Fixed IP Dome camera has a console serial port, which can be used for diagnostics and set up of initial IP settings. A short cable is supplied to provide a standard 9 pin male DSUB interface to this port. The 9 pin male DSUB connector can be connected to a PC serial port using a standard null modem cable (not supplied). The serial cable wiring details are shown in Table 5: Table 5 Signal Name

IO Connector Pin Number

9 Way DSUB Pin Number

Rx data

11

2

Tx data

12

3

Gnd

9

5

Power Over Ethernet •

IEEE 802.3af compliant

Network Connections •

RJ45 connector on the rear of the camera for connecting to the network. The network connection must be made using CAT5 (or higher spec) twisted pair cable.



Maximum cable length is 100 metres. The network cable must use straight through wiring.

49

Metrics Dimensions •

Internal Dome: 155mm (d) x 110mm (h)



Internal Vandal Resistant Dome without Exit Collar: 160mm (d) x 103mm (h)



Internal Vandal Resistant Dome with Exit Collar: 160mm (d) x 126mm (h)



External Vandal Resistant Dome: 160mm (d) x 126mm (h)

Weight •

Internal Dome: 0.7kg (including packaging)



Internal Vandal Resistant Dome: 1.1kg (including packaging)



External Vandal Resistant Dome: 1.3kg (including packaging)

Power •

8000 camera variant power consumption: maximum 7W



9000 camera variant power consumption: maximum 8W



12Vdc heater assembly power consumption (External Vandal Resistant Dome only): Typical 20W, maximum 36W

Environment Internal Dome and Internal Vandal Resistant Dome: •

Operating temperature: 0°C (32°F) to + 45°C (113°F)



Storage temperature -20°C (-4°F) to + 70°C (158°F)

External Vandal Resistant Dome: •

Operating temperature: -30°C (-22°F) to + 50°C (122°F)



Storage temperature -20°C (-4°F) to + 70°C (158°F)

Regulatory •

EN 55022(1998) ITE emission standard – Class A



EN55024(1998) +A1:2000 +A2:2003 ITE immunity standard



CFR47(1995) Part 15 subpart B – Class A (US federal code of regulations)

50



EN60529 (1992) IP66 Dust and Water Ingress (External Vandal Resistant Dome only)



This product meets the requirements of the EC restriction of hazardous substances (RoHS) directive 2002/95/EC

In accordance with the EC Waste Electrical and Electronic Equipment (WEEE) directive 2002/96/EC this product must be sent to a recycling plant for proper disposal at the end of its use.

Binary IO Connections The camera has 2 opto-isolated binary inputs and 1 opto-isolated binary output. Table 6 provides details of the binary IO connections on the 12-way IO connector. Table 6 12-way IO connector Binary IO connections Signal

Pin Number

IN1+

5

IN1-

8

IN2+

7

IN2-

10

OUT1A

4

OUT1B

6

See Figure 3 on page 11 for the connector's pin numbering scheme

Binary Input •

Two opto-isolated binary inputs



Maximum Input voltage 24V DC



To set a Binary Input High, VIN should be 4V DC minimum, 24V DC maximum



To set a Binary Input Low, VIN should be 1V DC maximum

51

The binary inputs require an external voltage source to drive them. The voltage source is normally connected via a controlled switch to a binary input. The positive connection from the voltage source should be wired to the IN + pin (via switch), the negative connection to the IN - pin. When the camera is enabled via Control Center to generate Binary IO events, then connecting the voltage source to an input triggers a rising edge Binary IO event from the camera. Disconnecting the voltage source from an input triggers a falling edge Binary IO event from the camera. The voltage source used should be between 4V and 24V DC. See Figure 27 for a simple example of a Binary Input connection.

+Vs IN+

Fixed IP Dome Camera IN-Vs Figure 27 Binary Input Connection

If voltage sources greater than 24V DC must be used then an external resistor is required. The value of this resistor can be calculated as follows: R = [ 100 * (VON - 1) - 1500 ] ohms rounded down to the nearest preferred resistor value, where VON is the desired voltage for a logic high. e.g. for VON = 48V DC R = [ 100 *( 48 - 1 ) - 1500 ] = 4700 - 1500 = 3200 ~ 3K

Binary Output The binary output consists of a pair of solid state relay contacts. The camera’s binary output contacts are normally open and can be set to open or closed using IndigoVision Control Center software.

52

When closed, the maximum resistance between the contacts is 2 ohms. The maximum current carrying capacity of the contacts is 500mA at 25°C. The maximum current has a linear de-rating factor of 5mA/°C. Therefore at 45°C the maximum current is 400mA. The maximum voltage to be switched is 50Vpk.

53

Sensor Specification NTSC

PAL

CCD Sensor Active pixels (HxV) Horizontal resolution Sensitivity (Color) Sensitivity (Monochrome, with 850nm IR illumination External Dome only)

Signal to noise ratio

1/4” IL CCD 768 x 494

752 x 582 460 TVL 0.5 Lux 0.05 Lux

>48dB (AGC off)

Gain control

Automatic (36dB max) or fixed options via web page

Scan mode

Interlaced

Mirror mode

Selectable via web page

Synchronization Back light compensation White balance mode Iris control Shutter speeds

Internal Selectable via web page AWB auto white mode, fixed modes selectable via web page DC Auto Iris Automatic from 1/60 to 1/100,000

Automatic from 1/50 to 1/100,000

Fixed speeds via web page

54

This page intentionally left blank

55

INDEX

A AGC 30, 36, 42 analog video output 48 attaching camera to network 23 Automatic Gain Control 30, 36, 42 auxiliary power powering up 11 requirements 11 supply 22

B binary input 50 IO connections 50 output 51 BNC connector 48

C cabling External Vandal Resistant Dome 40 Internal Dome 27 Internal Vandal Resistant Dome 33, 38 cabling requirements 9 changing default IP settings 17 PC settings 15 codec specification 47 configuration initial 13 using serial port 21 using Web Configuration pages 13 connections binary IO 50 connectors BNC 48 DSUB 48

RJ45 48 console input/output 47 serial port 48 specification 47

D default IP properties 13 default IP settings, changing 17 DHCP server 19 dimensions 49 DSUB connector 48

E environment 49 Ethernet interface 19 External Vandal Resistant Dome description 7 dimensions 49 fitting camera to exit collar 41 focusing problems 43 heater and fan operation 45 installation 39 lens type 43 low temperature start-up 45 packing material, removing 9 running cabling to exit collar 40 setting up sensor 41 shipping list 8 weight 49

F fitting camera External Vandal Resistant Dome 41 Internal Dome 27 Internal Vandal Resistant Dome 33

56

fitting camera to exit collar External Vandal Resistant Dome 41 Internal Vandal Resistant Dome 38 fitting Internal Dome camera to mounting plate 27 fitting Internal Dome mounting plate 25 fitting Internal Vandal Resistant Dome camera to wall/ceiling 33 fixed camera attaching to network 23 powering up overview 10 variants 7

G gateway 19

H hardware specification 47 heater and fan operation External Vandal Resistant Dome 45 host name 19

I initial configuration 13 installation External Vandal Resistant Dome 39 Internal Dome 25 Internal Vandal Resistant Dome 31 Internal Dome description 7 dimensions 49 fitting camera to mounting plate 27 fitting mounting plate 25 focusing problems 29 installation 25 lens type 29 packing material, removing 8 running cabling to mounting plate 27 setting up sensor 28 shipping list 7

weight 49 Internal Vandal Resistant Dome description 7 dimensions 49 fitting camera to exit collar 38 fitting camera to wall/ceiling 33 focusing problems 35 installation 31 lens type 34 packing material, removing 8 running cabling to access point 33 running cabling to exit collar 38 setting up sensor 34, 38 shipping list 8 wall & ceiling preparation 31 weight 49 with exit collar 37 IO connector, wiring requirements 9 IP address 19 IP properties, default 13 isolated network, preparing 14

L LEDs on powerup 12 lens type External Vandal Resistant Dome 43 Internal Dome 29 Internal Vandal Resistant Dome 34 location of device 19 low temperature start-up External Vandal Resistant Dome 45

M maximum cable length 48 input voltage 50 output voltage 52 mounting plate Internal Dome 25

N network attaching camera to 23 connections 48

57

PC settings, changing 15 PoE 10, 48 PoE injector, powering up 10 PoE midspan, powering up 11 power consumption 49 Power over Ethernet 22, 48 Power over Ethernet switch powering up 10 powering up LEDs 12 overview 10 using auxiliary power 11 using Power over Ethernet injector 10 using Power over Ethernet midspan 11 using Power over Ethernet switch 10 preparing isolated network 14

External Vandal Resistant Dome 41 Internal Dome 28 Internal Vandal Resistant Dome 34, 38 specification 53 serial cable wiring 48 serial port 48 configuration 21 setting up sensor External Vandal Resistant Dome 41 Internal Dome 28 Internal Vandal Resistant Dome 34, 38 shipping list External Vandal Resistant Dome 8 Internal Dome 7 Internal Vandal Resistant Dome 8 specifications codec 47 console 47 hardware 47 sensor 53 video codec 47 storage temperature 49 subnet mask 19

R

T

regulatory information 49 resolution 47 RJ45 connector 48 running cabling to access point Internal Vandal Resistant Dome 33 to exit collar External Vandal Resistant Dome 40 Internal Vandal Resistant Dome 38 to mounting plate Internal Dome 27

temperatures 49 troubleshooting focus, External Vandal Resistant Dome 43 focus, Internal Dome 29 focus, Internal Vandal Resistant Dome 35

S

W

sensor

wall & ceiling preparation

Network page configuration 19 NTP server address 19

O operating temperature 49 overview, powering up 10

P

V video codec resolution 47 specification 47 video output, analog 48

58

Internal Vandal Resistant Dome 31 Web Configuration pages 13 requirements 14 WEEE directive 49 weight 49 wiring requirements, IO connector 9 serial cable 48

59

60

Document ID:IU-FIXDOME-MAN001-3.2