Infinova V2040, V2040X, V2040NX, V2040N Installation & Operation Instructions

V2040 Series

Video Matrix Switching System Installation/Operation Instructions

This manual applies to below series products:

V2040/V2040X/V2040N/V2040NX

V2040 Video Matrix Switching System features comprehensive functions for any security/surveillance systems, pre-configuration to assure the highest level of reliability, and modular architecture for ease of installation, operation and expansion. V2040 Video Matrix Switching System represents the peak of video switching technology while remaining a highly cost effective solution. Utilizing the latest advancement of microprocessor and LSI technology, V2040 Video Matrix Switching System can provide automated electronic surveillance or it can allow even a single user to control an entire CCTV system of up to 1024 video inputs by 128 video outputs. In an automated environment the user can pre-define tours and salvos to be performed separately on individual monitors. For maximum security, an available video-looping module provides extension of the original video for output to a DVR or other recording device. Available windows based system setup software greatly simplifies the initial setup procedure as well as ongoing maintenance of system parameters. The matrix communicates with controllers or PCs via either RS-232 or TCP/IP protocols. Up to 64 V2040s can be interconnected in one network video system via TCP/IP. The V2040 external Central Processing Unit (CPU) is the controlling unit for each individual SITE in a Networking System. Each Site is a complete CCTV surveillance system, providing both LOCAL and REMOTE control of certain resources of other SITES within the network. Individual V2040 SITES are interconnected by video trunk cables.

Notice

This manual may not be reproduced in any form or by any means to create any derivative such as translation, transformation, or adaptation without the prior written permission of Infinova.

Infinova reserves the right to change this manual and the specifications without prior notice. The most recent product specifications and user documentation for all Infinova products are available on our website www.infinova.com.

Trademarks

Infinova

All other trademarks that may appear belong to their respective proprietors.

FCC Warning

V2040 Video Matrix Switching System complies with Part 15 of the FCC rules.

Operation is subject to the following two conditions.

• This device may not cause harmful interference.

• This device must accept any interference received, including interference that may cause undesired operation.

V2040 Video Matrix Switching System has been tested and found to comply with the limits for Class A digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a residential environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation.

is a trademark of Infinova.

Read this manual carefully before installation. This manual should be saved for future use.

Important Safety Instructions and Warnings

• Electronic devices must be kept away from water, fire or high magnetic radiation.

• Clean with a dry cloth.

• Provide adequate ventilation.

• Unplug the power supply when the device is not to be used for an extended period of time.

• Only use components and parts recommended by manufacturer.

• Position power source and related wires to assure they will be kept away from ground and access way.

• Refer all service matters to qualified personnel.

• Save product packaging to ensure availability of proper shipping containers for future transportation.

Indicates that the un-insulated components within the product may carry a voltage harmful to humans.

Indicates operations that should be conducted in strict compliance with instructions and guidelines contained in this manual.

Warning: To avoid risk of fire and electric shock, keep the product away from rain and moisture!

Table of Contents

Chapter I General Description ..................................................... 1

1.1 Description ............................................................................ 1

1.2 Models .................................................................................. 2

1.3 Features ................................................................................. 2

1.4 Important Terminology ......................................................... 2

1.5 System Accessories ............................................................... 4

Chapter II System Installation and Hardware Connection ....... 5

2.1 System Module Description .................................................. 5

2.1.1 Matrix Switching Bay ................................................... 5

2.1.2 Central Processing Unit (External CPU) ....................... 5

2.1.3 Power Supply Module ................................................... 5

2.1.4 Data Buffer Module ....................................................... 6

2.1.5 Data Buffer Module with Video Loss Detection ........... 6

2.1.6 Video Input Module (VIM) ........................................... 7

2.1.7 Video Output Module (VOM) ....................................... 8

2.2 Module Setup ........................................................................ 8

2.2.1 Data Buffer Module Switches ....................................... 8

2.2.2 Switches of Data Buffer Module with Video Loss

Detection ................................................................................ 9

2.2.3 Video Input Module Switches ..................................... 10

2.2.4 Video Output Module Switches .................................. 11

2.3 Installation .......................................................................... 12

2.4 Hardware Connection ......................................................... 12

2.4.1 Video Input Connections ............................................. 12

2.4.2 Control Connections .................................................... 13

2.4.3 Video Output Connections .......................................... 13

2.4.4 Alarm Input Connections ............................................ 13

2.4.5 Communication Port Connections ............................... 14

2.4.6 Local Relay Output Connections ................................. 15

2.4.7 Ethernet Connections .................................................. 15

2.4.8 Power Supply Connections .......................................... 15

2.4.9 Networking Connections ............................................. 16

Chapter III System Operation .................................................... 19

3.1 Keyboards ........................................................................... 19

3.2 Keyboard Password Entry ................................................... 20

3.3 Video Selection ................................................................... 20

3.4 Camera Control ................................................................... 21

3.5 REMOTE Video Selection .................................................. 21

3.6 Controlling Remote Camera Site Functions ........................ 21

3.7 Running a Tour ................................................................... 22

3.8 Calling a Preset ................................................................... 22

3.9 Calling a System Salvo ....................................................... 23

3.10 Activating an Auxiliary ..................................................... 23

3.11 Acknowledge an Alarm ..................................................... 23

Chapter IV System Setup ........................................................... 23

4.1 System Reset ....................................................................... 23

4.2 Monitor Display Arrangement ............................................ 23

4.3 Monitor Tour Programming ................................................ 24

4.4 Setting Date Format/Setting Day of the Week .................... 24

4.5 Setting Preset ...................................................................... 25

4.6 Camera Lockout .................................................................. 25

4.7 Arming Monitors ................................................................ 25

4.7.1 Arm Display Modes .................................................... 25

4.7.2 Arm Clearance Methods .............................................. 26

4.7.3 Monitor Arming Types ................................................ 26

4.7.4 Arming/Disarming a Monitor ...................................... 27

Chapter V Menu Programming ................................................. 28

5.1 Main Selection Menu .......................................................... 28

5.2 Menu Navigation and Operation ......................................... 28

5.3 System Menu ...................................................................... 28

5.3.1 Setting Time and Date ................................................. 28

5.3.2 Setting System Tours .................................................. 30

5.3.3 Set System Salvos ....................................................... 32

5.3.4 Set Event Timer ........................................................... 33

5.3.5 Set Alarm Contact ....................................................... 35

5.3.6 Monitor Status ............................................................. 37

5.4 Monitor Menu ..................................................................... 38

5.5 Camera Menu...................................................................... 40

5.5.1 Assign Pseudo Cameras .............................................. 40

5.5.2 Camera Title ................................................................ 41

5.6 Port Menu ........................................................................... 41

5.7 Access Menu ....................................................................... 42

5.7.1 Keyboard Numbers ..................................................... 42

5.7.2 Keyboard/Monitor ....................................................... 43

5.7.3 Keyboard/Camera View .............................................. 43

5.7.4 Keyboard/Camera Control .......................................... 44

5.7.5 Monitor/Camera Access .............................................. 45

5.7.6 Monitor/Contact Access .............................................. 45

5.7.7 Keyboard/Remote Site ................................................ 46

5.8 Priority Menu ...................................................................... 46

5.8.1 User Identification ....................................................... 46

5.8.2 Set Keyboard ............................................................... 47

5.8.3 Set User ....................................................................... 47

5.8.4 Set Priority ................................................................... 48

5.9 Networking Configuration Menu ........................................ 49

5.9.1 Local Site Number ....................................................... 49

5.9.2 Video Trunk Assignments ........................................... 51

5.9.3 Remote Site IP Address ............................................... 52

Appendix I System Alarm Programming .................................. 53

Appendix II ASCII / HEX System Control Codes .................... 53

Appendix III Specifications ........................................................ 54

Appendix IV Typical System Application ................................. 55

Appendix V Multilevel Networking Diagram............................ 58

Appendix VI Cable Diameter Calculation and Lightning &

Surge Protection ....................................................... 59

Chapter I General Description

1.1 Description

V2040 Matrix Video Switching system, featuring scalable and high-density modular structure as well as Ethernet network control capability, provides flexible and cost-effective solutions to any security/surveillance application.

Network Video Capability

Multiple V2040s can be networked to provide both local and remote control of the site cameras via the TCP/IP protocol. Each V2040 unit in the network is referred to as a node, and each node in the network maintains its full functions. To identify V2040 in a network, each unit is allocated a unique site number, which is assigned through the programming menu.

Networking of V2040 systems is required when

1. Two or more individual V2040 systems need to share video and

control features

2. More than 1,024 cameras are required

3. More than 128 monitors are needed for the system (without full

cross-point)

4. Cameras connected to remote V2040s need to be accessed.

The V2040 network communicates over an Ethernet network, therefore, an Ethernet network will need to be installed.

To connect the V2040 to a network, just plug one end of the Ethernet cable into a Hub or Switch, while the other end of the cable plugs into to the Port marked ETHERNET on the rear panel of the V2040 CPU.

Note:

1. All V2040 CPUs come with a pre-configured network ID of

192.168.0.0, the system administrator must make sure that all V2040s work at this network ID setting when integrating the V2040s into an existing Ethernet network.

2. For a specific network setting, please contact the manufacturer

for pre-setting the network ID to ensure they work with existing devices such as PC’s attached to the same network.

3. Infinova strongly recommends the installer establish a separate

Ethernet network for the V2040 network to ensure uninterrupted operation and system security.

The V2040 video matrix switching system used in a network configuration is a CCTV surveillance system for multiple control SITES, with multiple video inputs, multiple video outputs, and multiple control stations at each SITE. The V2040 Central Processing Unit (CPU) is the controlling unit for each individual SITE in the networking system. Each SITE is a complete CCTV surveillance system, providing both LOCAL (independent) control of all resources connected to the V2040 CPU at that SITE, and REMOTE control of certain resources of other SITES within the network. Individual V2040 SITES are interconnected via Ethernet and video trunk lines.

Flexible Design V2040 adopts a high-density modular design that allows easy system expansion. It typically consists of a Matrix Switching Bay and hot-swappable modules including Power Supply Module, Central Processing Unit (CPU) Module, Data Buffer Module (with optional Video Loss Detection), Video Input Module (VIM) and Video Output Module (VOM). Flexible system configurations, therefore, can be easily customized to meet various requirements.

To facilitate system expansion, V2040 also provides outstanding Ethernet network control and looping through capability.

Easy Operation & Powerful Programming

Utilizing microprocessor and LSI technology, V2040 can provide automated electronic surveillance, allowing even a single user to control an entire CCTV system. A maximum of 1024 video inputs and 128 video outputs can be controlled from any one of up to 40 keyboards, PCs and other devices.

V2040 provides powerful menu-driven programming, featuring 64 user-defined system tours, 64 salvos, 35 event timers, 15 alarm display / clearance methods. Optional character information (e.g., date, time, video input number, video output title and monitor status) can also be programmed to aid site surveillance and system operation.

Available Windows-based system setup software greatly simplifies the initial setup procedure as well as ongoing maintenance of system parameters. The matrix communicates with controllers or PCs via either RS-232 data or TCP/IP protocols. Optional GUI software V2000/2210 further simplifies system operation and programming by integrating all functions in an easy-to-use Windows application. Third-party applications written in ASCII codes can also be adopted for the system.

System Security

System security involves two approaches: System Partitioning and User Priority. System Partitioning is used to control keyboard access to monitors, cameras, camera control and alarms. Five programmable access controls are provided for Partitioning management in V2040 system.

With User Priority, system administrators can define a maximum of 64 system users, and assign each user a password and a priority level. Each of the eight priority levels can also be configured as desired, permitting different access controls for different users/keyboards.

Continuous Performance

V2040 is designed for continuous duty operation. Therefore, there will be no need for any inner maintenance once the installation is finished. System programming, either via keyboard or GUI software, is noninvasive and does not require rebooting or power cycling for storage and/or execution of programmed settings.

All the communication ports adopt standard low-voltage interfaces such as RS-232, High Speed Data Line and N.C/N.O switching signal, and all connections/disconnections do not require rebooting or power cycling. It is also the same with video connections.

Easy Installation & Maintenance

Each hot-swappable module locates status indicator(s) on its front panel to provide easy installation, maintenance and trouble-shooting.

V2040 is designed for EIA 19" (48.26cm) rack-mounting (recommended) and desktop-mounting.

1.2 Models

Pre-configured System

V2040-XXXX×ZZZ Pre-configured matrix system

including switching bays, external CPU, input modules and output modules. XXXX×ZZZ specifies numbers of video inputs (in multiples of 16) and video outputs (in multiples of 4). For example, V2040-640×32 is a pre-configured matrix with 640 video inputs and 32 video outputs.

Optional Products

V2903DBVL Data buffer module with video loss

detection (256 inputs per unit). Add -K for field conversion units.

V2903LP Video looping panel with two 30"

coaxial ribbon cables, 16 inputs each. Add -K for field conversion units.

V2924HS Hot switch for dual CPU operation

(requires purchase of additional CPU).

Spare Products

V2901 High-density bay, includes power

supply module

V2902 High-density bay, bi-level, includes

power supply module V2923CPU External CPU V2903PS Power supply module V2903DB Built-in data buffer module V2903VI Video input module with back card,

add -1 for single bay, -2 for level 1, -3

for level 2, or -4 for higher level V2903VO Video output module with back card,

add -1 for single slot or -2 for double

slots. V2903VIC Video input card. V2903VOC Video output card without back card. V2903VIB Back card for video input, add -1 for

single bay, -2 for level 1, -3 for level 2,

or -4 for higher level V2903VOB Back card for video output, add -1 for

single slot or -2 for double slots.

1.3 Features

z Up to 1,024 video inputs by 128 video outputs. z Scalable high-density architecture for easy expansion. z Ethernet network controllable, external CPU for added

networking features

z Windows-based multimedia management software. z Built-in system diagnostics and dedicated system status report. z Control of fixed or variable speed pan/tilt and dome cameras on

Manchester, RS-422, or RS-485 PTZ protocols.

z Available internal video loss detection. z 10 flexible RS-232 ports (expandable to 40 with V2405-4). z Independent monitor tour. z 64 tours, 35 event timers and 64 salvos. z Automatic alarm call-up, up to 1024 alarm inputs. z 15 alarm display/clearance methods. z Internal partition management including: input-to-output display,

keyboard-to-input display, and keyboard-to-input control.

z User priority and password management z Up to 64 V2040 nodes can be inter-connected in one network

video system.

z All V2040s maintain local operations (local camera switching,

control, etc.) when the existing LAN goes off-line.

z An V2040 can be remotely located as far as the transmission type

and path allows. Infinova offers Fiber Optic systems for virtually unlimited video transmission and communication distance.

1.4 Important Terminology

1. System Keyboard

System Keyboards are the Infinova keyboards for system control and programming, including V2117, V2116 and V2115 full system keyboard, and V2110 operator control keyboard. V2040 can be controlled by up to 40 Infinova series keyboards including V2116 and V2110 via RS-232 ports and by network keyboards. Various keyboards can be combined for operation. Please refer to relevant keyboard manuals for further instructions.

2. Preset, Salvo, System Tour and Event Timer

z Preset enables the system to pre-define and save camera

scenes, which can be called up for display either automatically by the system upon alarms or by operators via keyboards. The Infinova series receivers and Super Dome cameras are capable of defining up to 128 such camera scenes. Descriptions for the relevant scenes can also be displayed on monitors at the same time.

z Salvo permits users to switch a group of cameras to a group

of monitors, hereby providing convenient surveillance over different scenes simultaneously.

z System Tour enables operators to display different camera

scenes, presets and salvos continuously on the same monitor. One camera scene or one preset can be included in the same Tour multiple times.

z Event Timer permits the system to automatically call up

system tours at a pre-programmed time.

3. Monitor Tour

A monitor Tour is a temporary sequence of cameras for a called monitor. The sequence can only be displayed on the called monitor.

4. Control Interface

V2040 system provides its controllers and auxiliaries with following interfaces:

Multiple V2040 sites establish inter-communication via TCP/IP in a network video system;

Controller stations (such as keyboards, PCs) establish communication with V2040 via RS-232 interfaces;

The V2431 Alarm Interface Units communicate with V2040 via RS-232 interfaces (in Central Processing Module) to control alarms;

The Monitor specifically for menu programming (PROG MON) Communicates with V2040 via PROG MON port (in Central Processing Module);

The V2411 Code Generator/Distributors, looping through DATA LINE with V2040, are used to provide Manchester or control code for site cameras.

Infinova series Followers (including V2421, V2422, V2423) switch external circuits when designated cameras are called up to designated monitors (V2421), when designated monitors are in alarm conditions (V2422), or when designated auxiliaries are called up (V2423). They all communicate with V2040 via high-speed DATA LINE.

5. System Partitioning

System partitioning provides users with the following access controls:

z Keyboard-to-Monitor: prevents selected keyboards from

accessing selected monitors;

z Keyboard-to-Camera View: prevents selected keyboards

from calling up selected cameras to a monitor for viewing and/or displaying;

z Keyboard-to-Camera Control: prevents selected keyboards

from controlling remote functions on selected cameras;

z Monitor-to-Camera: prevents selected monitors from

displaying video from selected cameras in the system;

z Keyboard-to-Remote site: prevents selected keyboards from

controlling remote site.

6. Alarm Handling

V2040 system, when communicating with the V2431 Alarm Interface Units, provides up to 1024 alarm inputs, and features powerful alarm handlings such as:

z Calling up any system video input upon alarm; z Calling up pre-defined scenes upon alarm; z Triggering auxiliary relay switches for site cameras upon

alarm.

7. Auxiliary Outputs

Local auxiliary outputs are provided via the V2431 Alarm Interface Units (AIUs) to activate VCRs or other alarm devices.

8. Pseudo Numbers and Real Numbers

V2040 system assigns Pseudo Numbers for up to 1024 local cameras or cameras of the remote site for ease of system management. A Pseudo Number is the logical number the system assigns to a specific camera. The camera's Real Number, the actual physical camera number, can also be used in the system.

9. Network Node

Each V2040 in the network is referred to as a node. Each node in the network maintains all of its full features. To identify V2040s in a network, each unit is allocated a unique site number through the programming menu.

10. Power Supply and its installation

System Power Supply herein refers to the standard power supply for V2040. V2040 can be powered with 120VAC/60Hz or 230VAC/50Hz standard power supply.

NOTE: When powering V2040, check that the power supply specifications correspond to those required. The use of improper appliances may seriously compromise the safety of the personnel and the installation.

1.5 System Accessories

Ta bl e1 - 1

z Full system programming and control z Communicates with matrix switching systems via RS-232 or with Ethernet network via

V2116 series System Keyboards

V2117 series System Keyboard

V2110 Operator Keyboard

V2405-4 Port Expander z Expands each RS-232 port on the system's CPU into four RS-232 ports

V2000/V2210 User Interface Software

V29X3SW System Setup Software

V1691 Series Receiver/Drivers

V2411 Series Code Converters

V2431 Alarm Interface Unit

V2421 Switch Follower

V2422 Alarm Follower

V2423 Auxiliary Follower

TCP/IP

z LCD displays of camera and monitor z Direct control via Manchester or RS-485 outputs z Fixed and variable speed joystick

z Full system programming and control

z Communicates with matrix switching systems via RS-232 or with Ethernet network

z LCD displays of camera and monitor

z Direct control via Manchester or RS-485 outputs

z Fixed and variable speed joystick

z Communicates with DVR via RS-485 port or Ethernet port

z 4 digital LED displays of camera and monitor z Fixed and variable speed joystick z Monitor tour programming and control z Alarm Acknowledge clear z Communicates with all Infinova matrix switching systems via RS-232

z Windows based z Graphical User Interface z Complete system control using on-screen keyboard z Live video windows (optional video card) z E-maps, control menus and icons, password encryption and login z Convenient arming/disarming z Windows based z Uploads and downloads the system setup data z Manchester or RS-485 (INFINOVA, SAMSUNG, PELCO-P/D) control code input z 24VAC or 14VDC output optional z Multiple presets and autopan functions z Local diagnostic mode z Pan/tilt and camera control

z Data line signal input to 64 Manchester code outputs z Data line signal input to 16 RS-485 code outputs z Data line signal input to 8 RS422 code outputs z 64 alarm inputs (normally open or normally closed contacts) z Multiple units can be cascaded on 1 RS-232 data stream z Automatic alarm call-up and video switching z Compatible with products from leading manufacturers z Provides 2 groups of 16 (32) Double Pole Form-A relays z Relays follow switching of camera to monitor z Manually or automatically activates accessories such as Intercoms and lights z Multiple units can be cascaded for system expansion

z Provides 2 groups of 16 (32) Double Pole Form-A relays z Relays follow the alarmed monitors z Multiple units can cascaded for system expansion z Provides 2 groups of 16 (32) Double Pole Form-A relays z Relays respond to activation of linked camera auxiliary command z Manually or automatically activates auxiliary accessories z Multiple units can be cascaded for system expansion

Chapter II System Installation and

Hardware Connection

2.1 System Module Description

2.1.1 Matrix Switching Bay

The V2901/2902 (see V2040 Models) matrix switching bay includes a physical chassis, a back plane, and a power supply module. These two models both feature the capability of looping the DATA LINE input and an external vertical sync pulse to other bays. A single bay can accommodate a total of 16 video input modules (VIMs) and video output modules (VOMs) combinations.

Specifications:

Power: 60 watts (full system) Size: 10.5" (height) x 19" (full-width) Weight: 60 lbs. (28 kg) (full system)

2.1.2 Central Processing Unit (External CPU)

The software-embedded Central Processing Unit (CPU) Module is the "heart" of the switching system. It controls the switching bays of V2040 system, provides PTZ controls for site cameras, and offers the programming menus for system setup.

The front panel of the External CPU features a POWER LED indicator, a RESET button, and LCD panel for displaying the system date and time.

The rear panel includes ten RS-232 ports, an Ethernet port, two DATA LINE outputs and a system programming monitor output (PGM).

RESET

03 --20 --2003 12:00:00

Infinova

1 2 3

Figure 2-1. V2040 External CPU Front Panel

Front Panel

1. RESET BUTTON – This button is used to reset the external

CPU.

2. Date – Time Display – This LCD panel indicates the current

system date and time.

3. Power – This LED indicates the system power status.

DATA LINE RS232 PORTS

1 2 1 2 34 56 7 8 9 1011

2 3

1 4 5 6

Figure 2-2. V2040 External CPU Rear Panel

Rear Panel

1. Data Line 1 – Routes V2040 CPU control signal to pan/tilt, lens,

and auxiliary functions at suitably equipped sites, up to 1024.

POWER

SYSTEM CPU

ETHERNET PROG MON

Data Line 1 also routes the matrix switching information for video outputs 1- 64.

2. Data Line 2 – Routes V2040 matrix switching information for

video outputs 65-128.

3. RS-232 PORTS - These ten RS-232 ports provide interfaces for

communication with keyboards, PCs, and other devices such as the V2431 Alarm Interface Unit. Each port is programmable for baud rate, data bits, stop bits, parity and type of use.

4. Ethernet Port - This Ethernet port is used to connect V2040 to a

Hub or switch via TCP/IP to form a network video system (For more information, refer to V2040N networking configuration).

5. PGM OUT - The output for the system programming monitor

(PGM) that displays programming menus.

6. Power Cord.

2.1.3 Power Supply Module

The power supply module converts AC power to DC voltages for modules in the matrix switching bay.

Front Panel

The front panel (Figure 2-3.1) highlights the following features:

1. SYNC TEST ON/OFF LED - This LED (red) is illuminated

when the SET UP/NORMAL switch (2) is in the SET UP position.

2. SET UP/NORMAL SWITCH - This switch enables sync test and

adjustment when set to the SET UP position.

3. SYNC LOSS LED - This LED (red) indicates whether sync is

locked (LED off) or not (LED on).

4. SYNC REFERENCE SELECTION SWITCH - The switch

selects one of the following video sync references: EXT V-DRIVE (Up position): Selects the external vertical drive input. EXT CAM (Central position): Selects composite video. AC LINE (Down position): Selects the AC line.

5. SYNC PHASE ADJUSTMENT - It adjusts the phase of the sync

pulse when Switch 4 is set.

6. +9 VDC and -9 VDC LEDs - If these two LEDs (green) are

illuminated, it indicates the presence of DC voltages.

Note: For 230 VAC systems, the output voltages are +/- 8 VDC.

7. POWER ON/OFF SWITCH - The power switch for the bay.

Rear Panel

The rear panel (Figure 2-3.2) highlights the following features:

1. SERIAL # TAG - The tag bears the product serial number.

2. DATA LINE IN - The input for DATA LINE.

3. DATA LINE OUT - The looping output for DATA LINE.

Please note that this line must be terminated with a 75-ohm terminator.

4. EXTERNAL SYNC IN - The input for external vertical

synchronous pulse, either camera sync or an externally created pulse.

5. EXTERNAL SYNC OUT - The looping output for external sync.

Please note that this line must be terminated with a 75-ohm terminator.

SET UP

NORMAL

SYNC

LOSS

EXT V-DRIVE

EXT CAM

AC LINE

PHASE

+9 VDC

-9 VDC

Model: V2040 []

S/N: xxxxx

DATA LINE

OUT

EXT

SYNC

OUT

Figure 2-3.1. Power Supply Figure 2-3.2. Power Supply Module on rear panel Module on front panel

Fusing

The power supply module has four replaceable fuses on its circuit board.

Maintenance personnel must ensure that replacement fuses meet national and local use code requirements.

Table 2 - 1

Fuse Ratings

For 120VAC Systems:

F1: 125V, 5 AMP, 5 x 20 mm F2: 125V, 5 AMP, 5 x 20 mm F3: 250V, SB, 0.5 AMP, 5 x 20 mm, UL listed F4: 250V, SB, 0.5 AMP, 5 x 20 mm, UL listed

For 230VAC CE Compliant Systems:

F1: 250V, T, 3.15 AMP, 5 x 20 mm F2: 250V, T, 3.15 AMP, 5 x 20 mm

For 230VAC Non-CE Compliant Systems:

F1: 125V, 5 AMP, 5 x 20 mm F2: 125V, 5 AMP, 5 x 20 mm F3: 250V, T, 0.25 AMP, 5x20 mm F4: 250V, T, 0.25 AMP, 5 x 20 mm

2.1.4 Data Buffer Module

The Data Buffer Module has two major functions:

1. Video Distribution: In a multiple-bay system, it distributes

switched video from a bay's Video Input Modules to other bays. The video signals from these outputs only contain standard video, without any character information.

2. Data Filtering: It filters incoming system information from the

DATA LINE.

The V2903DB rear panel has 16 video output BNCs for connecting Video Output Modules in other switching bays. The following figures illustrate various types of Data Buffer Module rear panels.

Output 1

O U T

T E S T / E X P A N S I O N

O N L Y

Output 8

O U T

Output 16

Output 1

Output 8

Output 16 Output 16

Output 1

Output 8

Output 16 Output 16

Output 1

Output 8

Output 1

Output 8

Figure 2-4.1 Figure2-4.2 Figure 2-4.3 Figure2-4.4 Figure 2-4.5 Figure 2-4.6

Figure 2-4. Rear Panels of Data Buffer Modules

Icon Definition: The icon combinations indicate switched video inputs from different camera groups.

- The switched video inputs from cameras 1 to 256.

- The switched video inputs from cameras 257 to 512.

- The switched video inputs from cameras 513 to 768.

- The switched video inputs from cameras 769 to 1024.

Figure Description:

z Figure 2-4.1 - Rear Panel z Figure 2-4.2 - Rear Panel with 16 BNCs (in a camera card bay,

no monitor modules)

z Figure 2-4.3 - Rear Panel with 16 BNCs (for cameras 1-256 in a

multiple-bay system)

z Figure 2-4.4 - Rear Panel with 16 BNCs (for cameras 257-512 in

a multiple-bay system)

z Figure 2-4.5 - Rear Panel with 16 BNCs (for cameras 513-768 in

a multiple-bay system)

z Figure 2-4.6 - Rear Panel with 16 BNCs (for cameras 769-1024

in a multiple-bay system)

2.1.5 Data Buffer Module with Video Loss Detection

The Data Buffer Module with Video Loss Detection also provides the two functions of a common Data Buffer Module, i.e., Video Distribution and Data Filtering. What makes it different, however, is its capability of detecting video signal loss for each camera input. A single module can detect video loss for up to 256 cameras.

The module must be placed in a matrix switching bay that contains Video Input Modules, and the bay must be connected to the highest-numbered monitor output.

Front Panel

The front panel of a Data Buffer Module with Video Loss Detection (Figure 2-5) highlights the following LEDs:

1. POWER LED - Indicates power-on status.

2. ALARM LED - Indicates Video/Sync Loss.

3. SYNC LED - Indicates presence of Sync.

VIDEO LEVEL LEDs:

4. H LED - Indicates High video content.

5. M LED - Indicates Medium video content.

6. L LED - Indicates Low video content.

ALARM

VIDEO LEVEL

SYNC

Figure 2-5. Front Panel

Rear Panel

The rear panel of a Data Buffer Module with Video Loss Detection has 15 video output BNCs for connection to Video Output Modules, and one 8-pin, RJ-45 RS-232 connector for Video Loss Detection data output and Alarm Contact output to an RS-232 port on the CPU module for processing.

The following figures illustrate various types of the rear panels of Data Buffer Module with Video Loss Detection.

O U T

T E S T / E X P A N S I O N

O N L Y

O U T

Figure2-6.1 Figure2-6.2 Figure2-6.3 Figure2-6.4 Figure 2-6.5 Figure 2-6.6

Figure 2-6. Rear Panels of Data Buffer Modules with Video Loss Detection

Icon Definition: The icon combinations indicate switched video inputs from different camera groups.

- The switched video inputs from cameras 1 to 256.

- The switched video inputs from cameras 257 to 512.

- The switched video inputs from cameras 513 to 768.

- The switched video inputs from cameras 769 to 1024.

Figure Description:

z Figure 2-6.1 - V2903DBVL-00 Rear Panel z Figure 2-6.2 - V2903DBVL-01 Rear Panel (in a camera card bay,

no monitor modules)

z Figure 2-6.3 - V2903DBVL-11-18 Rear Panel (for cameras 1-256

in a multi-bay system)

z Figure 2-6.4 - V2903DBVL-21-28 Rear Panel (for cameras

257-512 in a multi-bay system)

z Figure 2-6.5 - V2903DBVL-31-38 Rear Panel (for cameras

513-768 in a multi-bay system)

z Figure 2-6.6 - V2903DBVL-41-48 Rear Panel (for cameras

796-1024 in a multi-bay system)

2.1.6 Video Input Module (VIM)

The VIM is the module that performs the actual video switching. Video inputs (up to 16) are connected at the VIM rear panel. Infinova provides four different types of VIM rear panels, illustrated below:

Input 1

Input 8

Input 16

Figure 2-7.1 Figure 2-7.2 Figure 2-7.3 Figure 2-7.4

Figure 2-7. Rear Panels of Video Input Modules

Icon Definition: The

Figure Description:

z Figure 2-7.1 - The rear panel of V2903VI-1 has 16 BNCs for

video inputs. The module is used for a single-bay system.

111

81616

U T

O U T

icon indicates video inputs.

I N

O U T

z Figure 2-7.2 - The rear panel of V2903VI-2 has eight BNCs and

one 34-pin connector. The eight BNCs are used for the upper group of eight video inputs.

z Figure 2-7.3 - The rear panel of V2903VI-3 has eight BNCs and

two 34-pin connectors. The eight BNCs are used for the lower group of eight video inputs, hereby accomplishing a larger group of 16 video inputs.

z Figure 2-7.4 - The rear panel of V2903VI-4 has only two 34-pin

connectors. The module is used for expansion in a multiple-bay system.

2.1.7 Video Output Module (VOM)

The Video Output Module (VOM) attaches additional information (i.e., title, time and date) to a switched video output. Each VOM has four video outputs on its rear panel. Infinova provides two VOM models with different rear panels, illustrated below.

Icon Definition: The video inputs from different camera groups.

- The switched video inputs from cameras 1 - 256.

- The switched video inputs from cameras 257 - 512.

- The switched video inputs from cameras 513 - 768.

- The switched video inputs from cameras 769 - 1024.

Figure Description:

z Figure 2-8.1 - The rear panel of V2903VO-1 has 16 BNCs,

divided into four sections. The bottom four-BNC section (marked as "OUT") is for video outputs, while the other three are used in a multiple-bay system for video inputs from other matrix switching bays.

z Figure 2-8.2 - The rear panel of V2903VO-2 has 20 BNCs,

divided into five sections. The bottom-left four-BNC section (marked as "OUT") locates video outputs, while the other four are used in a multiple-bay system for video inputs from other matrix switching bays.

icon combinations indicate switched

2.2 Module Setup

Different system applications may require different settings for the internal jumper switches on system modules. This section provides instructions on switch setups for four V2040 modules: Data Buffer Module, Data Buffer Module with Video Loss Detection, Video Input Module and Video Output Module.

CAUTION: THE PRESENCE OF NON-INSULATED COMPONENTS WITH HAZARDOUS VOLTAGES REQUIRES QUALIFIED SERVICE PERSONNEL TO

PERFORM THE FOLLOWING PROCEDURES ONLY.

2.2.1 Data Buffer Module Switches

The Data Buffer Module Switches features two functions: Video Switching and Data Filtering (see System Module Description - Data Buffer Module). The latter requires setting of two 8-position DIP switches, SW1 and SW3.

z Switch SW1 sets the ON/OFF status of the module's Data

Filtering. If Switch S1 is set to the ON status, all information passes and Switch S3 is not used; if OFF, only specified information passes and S3 must be set accordingly.

z Switch SW3 sets the camera and monitor group numbers

associated with particular switching bays. Specified information is filtered only for these bays.

SW1

O U T

141

O U T

Figure 2-8.1 Figure 2-8.2 Figure 2-8. Rear Panels of VOMs

SW3

Figure 2-9. Data Buffer Module Switches

Table 2-2. Switch SW1 Settings

Switch Positions

Filtering Status

(1=ON, 0=Off, X=Don't care)

8 7 6 5 4 3 2 1

On (all information passed.) OFF (only specified information passed).

1 × × × × × ×

0 × × × × × ×

Note: For matrix switching bays containing V2903VO modules, S1 must be set to ON status, i.e., to pass all information to these bays.

Table 2-3. Switch SW3 Settings

Switch Positions

Camera Monitor

(1=ON, 0=Off, X=Don't care)

8 7 6 5 4 3 2 1

1-256 1-16 × × 0 0 × 0 0 ×

257-512 1-16 × × 1 0 × 0 0 ×

513-768 1-16 × × 0 1 × 0 0 ×

769-1024 1-16 × × 1 1 × 0 0 ×

1-256 17-32 × × 0 0 × 1 0 ×

257-512 17-32 × × 1 0 × 1 0 ×

513-768 17-32 × × 0 1 × 1 0 ×

769-1024 17-32 × × 1 1 × 1 0 ×

1-256 33-48 × × 0 0 × 0 1 ×

257-512 33-48 × × 1 0 × 0 1 ×

513-768 33-48 × × 0 1 × 0 1 ×

769-1024 33-48 × × 1 1 × 0 1 ×

1-256 49-64 × × 0 0 × 1 1 ×

257-512 49-64 × × 1 0 × 1 1 ×

513-768 49-64 × × 0 1 × 1 1 ×

769-1024 49-64 × × 1 1 × 1 1 ×

2.2.2 Switches of Data Buffer Module with Video Loss Detection

Apart from the two functions of common Data Buffer Module, the Data Buffer Module with Video Loss Detection highlights the capability of detecting video loss for each camera. The module has three 8-position DIP switches, respectively labeled as "SW1", "SW2" and "SW3", to set up parameters for these functions.

SW1

Figure 2-10. Switches of Data Buffer Module with Video Loss Detection

z Switch SW1 sets the switching bay type, the ON/OFF status of

filtering (the same as a common Data Buffer Module), the baud rate for the RJ-45 port, and the Alarm Contact mode (factory-reserved for indicating Video/Sync Loss Detection). Note: Position 7 of SW1 should be set to ON to enable the

SW3

SW2

module to perform video loss detection.

z Switch SW2 defines the communication type of the RJ-45 port,

and enables/disables the module's front panel LED.

z Switch SW3 sets the camera and monitor group numbers

associated with particular switching bays. The specified information is filtered only for these bays. Note: The setup of switch SW3 is different for different type of switching bay.

In addition, a 3-position jumper labeled as "S6" (see Figure 2-11) is also provided to enable/disable the on-board saving capability. If enabled, the parameters concerning the video loss detection, defined via menu programming, will be stored in the on-board memory of the DBVL.

Table 2-4. Switch SW1 Settings

Switch Positions

Function

(1=ON, 0=Off, X=Don't care)

8 7 6 5 4 3 2 1

Normal switching bay × × 0 × × × × × Dense switching bay × × 1 × × × × ×

Video loss detection enabled. Video loss detection disabled.

× 1 × × ××××

× 0 × × ××××

All information passed. 1 × × × ××××

Only specific information passed.

0 × × × ××××

1200 baud rate × × × × × × 0 0

2400 baud rate × × × × × × 0 1

4800 baud rate × × × × × × 1 0

9600 baud rate × × × × × × 1 1

Table 2-5. Switch SW2 Settings

Switch Positions (1=ON, 0=Off)

Function

8 7 6 5 4 3 2 1

RS-232 × 0 0 0 0 0 1 1 Front panel LED ON 1 × × × × × × ×

Front panel LED OFF 0 × × × × × × ×

Table 2-6. Switch SW3 Settings

For Dense Switching Bay:

Switch Positions

Camera Monitor

(1=ON, 0=OFF, X=Don't care)

1 2 3 4 5 6 7 8

1~256 1~32 × 0 × × 0 0 × ×

257~512 1~32 × 0 × × 0 1 × ×

513~768 1~32 × 0 × × 1 0 × ×

76~1024 1~32 × 0 × × 1 1 × ×

1~256 33~64 × 1 × × 0 0 × ×

257~512 33~64 × 1 × × 0 1 × ×

513~768 33~64 × 1 × × 1 0 × ×

769~1024 33~64 × 1 × × 1 1 × ×

Table 2-7. Switch SW3 Settings

For Normal Switching Bay:

Switch Positions

Camera Monitor

1~256 1~16 × 0 0 × 0 0 × ×

257~512 1~16 × 0 0 × 0 1 × ×

513~768 1~16 × 0 0 × 1 0 × ×

769~1024 1~16 × 0 0 × 1 1 × ×

1~256 17~32 × 0 1 × 0 0 × ×

257~512 17~32 × 0 1 × 0 1 × ×

513~768 17~32 × 0 1 × 1 0 × ×

769~1024 17~32 × 0 1 × 1 1 × ×

1~256 33~48 × 1 0 × 0 0 × ×

257~512 33~48 × 1 0 × 0 1 × ×

513~768 33~48 × 1 0 × 1 0 × ×

769~1024 33~48 × 1 0 × 1 1 × ×

1~256 49~64 × 1 1 × 0 0 × ×

257~512 49~64 × 1 1 × 0 1 × ×

513~768 49~64 × 1 1 × 1 0 × ×

769~1024 49~64 × 1 1 × 1 1 × ×

Enables the parameters to be saved on board.

Disables the on-board saving capability.

Figure 2-11. Jumper S6 Settings

2.2.3 Video Input Module Switches

The Video Input Module is the module that performs the actual video switching. Each module can switch up to 16 video inputs to a maximum of 64 desired outputs.

The module has two 8-position DIP switches, but only Switch SW1 is used here to define camera groups and monitor groups that the module is desired to respond to.

Figure 2-12. Video Input Module Switches

(1=ON, 0=OFF, X=Don't care)

1 2 3 4 5 6 7 8

Table 2-8. Switch SW1 Settings

Switch Positions

(1=ON, 0=Off, X=Don't care)

Monitor 1 2 3 4 5 6 7 8

1- 16 0 0 × × × × × × 17- 32 0 1 × × × × × ×

33- 48 1 0 × × × × × × 49 - 64 1 1 × × × × × × Camera

1-16 × × 0 0 0 0 0 0 17-32 × × 0 0 0 0 0 1 33-48 × × 0 0 0 0 1 0

49-64 × × 0 0 0 0 1 1 Switch Positions

(1=ON, 0=Off, X=Don't care)

Camera

65-80 × × 0 0 0 1 0 0 81-96 × × 0 0 0 1 0 1

97-112 × × 0 0 0 1 1 0 113-128 × × 0 0 0 1 1 1 129-144 × × 0 0 1 0 0 0

145-160 × × 0 0 1 0 0 1 161-176 × × 0 0 1 0 1 0 177-192 × × 0 0 1 0 1 1

193-208 × × 0 0 1 1 0 0 209-224 × × 0 0 1 1 0 1 225-240 × × 0 0 1 1 1 0

241-256 × × 0 0 1 1 1 1 257-272 × × 0 1 0 0 0 0 273-288 × × 0 1 0 0 0 1

289-304 × × 0 1 0 0 1 0 305-320 × × 0 1 0 0 1 1 321-336 × × 0 1 0 1 0 0

337-352 × × 0 1 0 1 0 1 353-368 × × 0 1 0 1 10 369-384 × × 0 1 0 1 1 1

385-400 × × 0 1 1 0 0 0 401-416 × × 0 1 1 0 0 1 417-432 × × 0 1 1 0 1 0

433-448 × × 0 1 1 0 1 1 445-464 × × 0 1 1 1 0 0 465-480 × × 0 1 1 1 0 1

481-496 × × 0 1 1 1 1 0 497-512 × × 0 1 1 1 1 1 513-528 × × 1 0 0 0 0 0

529-544 × × 1 0 0 0 0 1 545-560 × × 1 0 0 0 1 0 561-576 × × 1 0 0 0 1 1

577-592 × × 1 0 0 1 0 0 593-608 × × 1 0 0 1 0 1 609-624 × × 1 0 0 1 1 0

625-640 × × 1 0 0 1 1 1 641-656 × × 1 0 1 0 0 0

)

Switch Positions

(1=ON, 0=Off, X=Don't care)

Camera

657-672 × × 1 0 1 0 0 1 673-688 × × 1 0 1 0 1 0

689-704 × × 1 0 1 0 1 1 705-720 × × 1 0 1 1 0 0 721-736 × × 1 0 1 1 0 1

737-752 × × 1 0 1 1 1 0 753-768 × × 1 0 1 1 1 1 769-784 × × 1 1 0 0 0 0

785-800 × × 1 1 0 0 0 1 801-816 × × 1 1 0 0 1 0 817-832 × × 1 1 0 0 1 1

833-848 × × 1 1 0 1 0 0 849-864 × × 1 1 0 1 0 1 865-880 × × 1 1 0 1 10

Switch Positions

(1=ON, 0=Off, X=Don't care)

Camera

881-896 × × 1 1 0 1 1 1 897-912 × × 1 1 1 0 0 0 913-928 × × 1 1 1 0 0 1 929-944 × × 1 1 1 0 1 0 945-960 × × 1 1 1 0 1 1 961-976 × × 1 1 1 1 0 0 977-992 × × 1 1 1 1 0 1 993-1008 × × 1 1 1 1 1 0 1009-1024 × × 1 1 1 1 1 1

2.2.4 Video Output Module Switches

The Video Output Module (VOM) attaches additional information (i.e., title, time and date) to switched videos from VIMs. Each VOM has four groups of 2-pin jumpers for monitor identification settings, and two 8-position switches: S200 and S201.

Monitors 13-16

Monitors 9-12

from the desired monitor number to fit them into the four types. For example, when setting monitors 33-36, subtract 32 each to fit them into Monitors 1-4 (33-32=1, 34-32=2, 35-32=3, 36-32=4).

The Switch S200 is used to select video output system.

Table 2-9 Switch S200 Setting

Switch Positions (1=ON, 0=Off)

Video Output 1 2 3 4 5 6 7 8

PAL × × × × × × × 0

NTSC × × × × × × × 1

Positions 1~4 of Switch S201 are used to define the corresponding video inputs and and positions 5~8 are used to define the corresponding outputs for the module. S201 settings are dependent on which matrix bay (in a multi-bay system) and which slot (in the matrix bay) the module is located in.

Table 2-10. Switch S201 Settings (positions 1~4)

Switch Positions

(1=ON, 0=Off, X=Don't care)

Video Inputs 1 2 3 4 5678

1-256 (Internal) 0 × × × ××××

1-256 (External) 1 × × × ××××

257-512 (Internal) × 0

× ×

××××

257-512 (External) × 1 × × ××××

513-768 (Internal)

513-768 (External)

769-1024 (Internal)

769-1024 (External)

× ×

× × ×

× ×

× ××××

0 ××××

1 ××××

Note: Video inputs are considered External when the VOM is placed in a matrix bay without VIMs, and Internal when the matrix bay includes VIMs. Under both circumstances, Switch S201 on the Data Buffer Module must be set to the ON status, i.e., to pass all information.

Table 2-11. Switch S201 Settings (positions 5~8)

Monitors 5 - 8

Monitors 1 - 4

Figure 2-13. Video Output Module Switches

The Monitor Identification jumpers of each VOM define four monitor groups: Monitors 1 to 4, 5 to 8, 9 to 12 and 13 to 16.

Note that only these four group types are defined, without any other variation. Therefore, when setting monitor numbered over 16, a 16X-Subtraction method is adopted, i.e., subtract multiples of 16

S200

S201

Video Outputs

Switch Positions (1=ON, 0=Off

1 2 3 4 5 6 7 8

1-4 × × × × 0 0 0 0 5-8 × × × × 1 0 0 0 9-12 × × × × 0 1 0 0

13-16 × × × × 1 1 0 0 17-20 × × × × 0 0 1 0 21-24 × × × × 1 0 1 0 25-28 × × × × 0 1 1 0 29-32 × × × × 1 1 1 0 33-36 × × × × 0 0 0 1 37-40 × × × × 1 0 0 1 41-44 × × × × 0 1 0 1 45-48 × × × × 1 1 0 1 49-52 × × × × 0 0 1 1 53-56 × × × × 1 0 1 1 57-60 × × × × 0 1 1 1 61-64 × × × × 1 1 1 1

2.3 Installation

2.4 Hardware Connection

V2040 matrix switching bays are manufactured for standard 19-inch rack mounting and have a rack height of 10.5 inches. Bays must be installed with a minimum of 1.75-inch clearance between each bay (one rack unit). Installation personnel must ensure proper airflow around the bays to provide adequate ventilation. In multiple bay configurations, identify the various bays carefully before mounting. In all multiple bay systems, place the video inputs near the top of the racks.

19"

VIDEO MATRIX SWITCHING SYSTEM

10.5"

Infinova

Figure 2-14. Bay Mounting Dimensions

Observe the following guidelines when mounting V2040 bay into a rack:

Installation preparation:

1. Plan the layout of the equipment in the racks before installing

equipment

2. Take an inventory of all rack equipment hardware, brackets,

blank panels, etc. Reorder any missing parts immediately. This avoids delays in the installation process.

3. Provide a minimum of 1.75 inches (4.4 cm) of empty space

between each piece of equipment for ventilation.

4. Use at least one blower or fan per rack and place it in the bottom

of the rack. Thus, air is drawn in at the bottom of the rack and vented at the top.

Installation procedure:

1. Power off to ensure that the device will not power on during the

installation.

2. Take off the eight 0.25’’ pan head screws used to secure the

V2040 matrix bay.

3. Take off the rubber washer on V2040 bottom.

4. Put the V2040 matrix bay on the bracket and make the ears cling

to the rack.

Fasten the bay ears onto the rack with the eight 0.25’’ pan head screws.

Carefully make a detailed plan before installation. The operation of each piece of equipment should be confirmed as early as possible during the installation procedure. It is easier to remove a few temporary connections after a confirmation check than it is to disconnect and re-wire a large number of “permanent” connections.

Each V2040 Matrix Switching Bay can accommodate one Power Supply Module, one Central Processing Unit (CPU) Module, and a maximum of 16 modules such as Video Input Modules and Video Output Modules. All system connections are made on the rear panels of V2040 modules. Refer to Typical V2040 Application Diagram in System Features for illustrations of typical system connections.

Note: All internal switch settings on the modules should be made before system connections are started (see Module Setup in this chapter). Ensure that all connections are properly completed before applying power.

To facilitate maintenance and assist in service, all connecting cables should be identified with source/destination numbers.

Note: All the connection diagrams in this section adopt a V2040 Matrix Switching Bay configured with one Power Supply Module, one Data Buffer module, 4 VOMs (four in the left) and 12 VIMs.

2.4.1 Video Input Connections

A single Video Input Module provides up to 16 video inputs. To connect an external video source (e.g., a camera) to its associated video input terminal:

1. Properly install the camera according to relevant manuals.

2. Identify the camera with a desired camera number, and then

identify the BNC terminal on a VIM module rear panel that designates the same camera number. (See Module Setup - Video Input Module Switches in this chapter.)

3. Connect the camera to the associated BNC terminal connector

with a video cable. Please refer to the following table to select appropriate video cables.

Table 2-12. Coaxial Cable & Maximum Operating Distance

Coaxial Cable Type Max. Operating Distance

RG59/U 750 ft (229 m) RG6/U 1000 ft (305m) RG11/U 1500 ft (457 m)

ETHERNET PROG MON

DATALINE

OUT

D A

EXT SYNC

OUT

B U F F E

ELECTRIC SHOCK

CAUTION

RISK OF

DO NOT OPEN

POWER

Cam 1Cam 177

Cam 2

Cam 178

DATA LINE RS232 PORTS

1 2 1 2 3 4 5 6 7 8 9 10 11

177 161 145 129 113 97 81 65 49 33 17 1

177

145 129 113 97 81 65 49 33 17 1

161

Figure 2-15. Video Input Connections

2.4.2 Control Connections

The system cannot perform PTZ (PAN/TILT/ZOOM) control without control signal transferring. V2040 provides PTZ controls via the V2411 series Control Code Generator/Distributors. A single V2411 can provide Manchester control code outputs for control of up to 64 site cameras. Multiple V2411 distributors can be cascaded to control a maximum of 1024 site cameras. Please refer to relevant manuals for further details on V2411.

To select appropriate control signal cables, please refer to the following table.

Table 2-13. Individually-Shielded, Twisted-Pair Cable &

Maximum Operating Distance

Cable Type Max. Operating Distance

Belden 9406 5000 ft (1500m) Belden 9402 5000 ft (1500m) Belden 8723 8000 ft (2400m)

Belden 8162 15,000 ft (4600m) Belden 9729 15,000 ft (4600m)

Coaxial

Control signal cable

Super dome

DATALINE

BWSBWSBWSBWS

OUT

BWSBWSBWSBWS

BWSBWSBWSBWS BWSBWSBWSBWS BWSBWSBWSBWS BWSBWSBWSBWS

V2411

Control signal

cable

+REF

PAN1POT

PAN2POT

TILTPOT

FOCUSPOT

ZOOMPOT

-REF

SHIELD

AUX1N/C

AUX1N/O

AUX1COM

AUX2N/C

AUX2N/O

AUX2COM

24VAC

W S B

24VAC

POWER

CODE

V1690

Figure 2-16. Control Connections with V2411, V1690M and Super Dome

Cable

DATALINE

12 123456789

RS232 PORTS

177 161 145 129 113 97 81 65 49 33 17 1

Dataline

ETHERNET PROG MON

10 11

D A T A B U F F E R

V2040

DATALINE

OUT

EXT

SYNC

OUT

CAUTION

RISK OF ELECTRIC SHOCK DO NOT OPEN

POWER

2.4.3 Video Output Connections

A single Video Output Module provides four monitor outputs (see System Module Description - Video Output Module in this chapter). To connect a monitor to its video output terminal:

1. Properly install the monitor according to relevant manuals.

2. Identify the monitor with a desired monitor number, and then

identify the BNC terminal on a VOM module rear panel that designates the same monitor number. (See Module Setup - Video Output Module Switches in this chapter.)

3. Connect the monitor to the associated BNC terminal connector

with a video cable.

4. Set the monitor's termination to 75 ohm.

To select appropriate coaxial cables, please refer to Table 2-12.

DATA LINE RS232 PORTS

12 1234567891011

177 161 145 129 113 97 81 65 49 33 17 1

Mon1 Mon3 Mon5 Mon7

Mon2 Mon4 Mon6 Mon8 Mon16

ETHERNETPROG MON

D A T A B U F

F E R

ELECTRIC SHOCK

POWER

DATA

LINE

OUT

EXT

SYNC

OUT

CAUTION

RISK OF

DO NOT OPEN

Figure 2-17. Video Output Connections

2.4.4 Alarm Input Connections

Alarm inputs are provided by the V2431 series Alarm Interface Units (AIUs) connected to V2040 external CPU. Each V2431 AIU can handle a maximum of 64 alarms, and up to 16 units can be cascaded together to provide a total of 1024 alarms. To perform alarm input connections with V2431:

1. Route wires from a RS-232 port on V2040's rear panel to the

OUTPUT port on V2431's rear panel.

2. Route wires from site sensors to their associated alarm input

connectors on V2431's rear panel. Each sensor requires two wires

- one connecting the alarm input terminal and the other connecting the ground terminal. Note: The V2431 is set to Normally Open (N.O.) as a factory default.

3. If the system requires more than 64 alarm inputs, cascade

multiple V2431 AIUs to expand the system's alarm input

capacity.

To select appropriate alarm input cables, please refer to Table 2-13.

Door

14 15 16 17 18

AAAAA

38 39 40 41 42

AAAAA

AAA

Contact

Alarm Input

Cable

20 21 22 23 24

AAAAA

43 44 45 46 47 48

AAAAA

N N C

V2431

Other Alarm Inputs

DATA LINE RS232 PORTS

1 2 12 34567891011

V2040

177 161 145 129 113 97 81 65 49 33 17

Alarm Input Cable

ETHERNET PROG MON

DATALINE

OUT

T A

EXT

SYNC

OUT

F F E

CAUTION

ELECTRIC SHOCK

DO NOT OPEN

Modular Cable

Sensor

SELECT

123456

789101112

RISK OF

POWER

AAAAA

ABCDEFGH

POWER

26 27 28 29

ALARM

AAAAA

ABCDEFGH

50 51 52 53 54

49 C

AAAAA

INPUT OUTPUT

AAAAA

32 33 34 35 36

AAAAA

56 57 58 59 60

AAAAA

61 62 63 64

Figure 2-18. Alarm Input Connections

2.4.5 Communication Port Connections

The External CPU of V2040 each provides ten RS-232 communication ports for connection with auxiliary equipment, e.g., keyboards, controllers, computers and alarm interface units.

The ten RJ-45 communication ports are respectively labeled as PORT 1 through 10, and are expandable up to 40 ports with V2405-4 series port expanders.

The Pins Definition:

5: Data Receiving 4: Data Transmitting 2/7: Grounding

8 7 6 5 4 3 2 1

Note: All the RS-232 ports are configured with the following default settings: baud rate - 1200, parity bit - none, date bits - 8, stop bits - 1.

Standard Terminal Boxes (Figure 2-19) are provided for communication port connections. Their pin definitions are detailed in the following table.

Table 2-14

SYSTEM KEYBOARD

System Keyboard

6VAC,

Figure 2-19. Terminal Box

V2040’s wiring instructions are detailed in the following diagrams:

Standard DTE (PC) V2040 RJ-45

DB9 Connector 8-pin connector

3 ----------------------------- 5 2 ----------------------------- 4 5 ----------------------------- 7

Figure 2-20. Connect V2040 to a computer RS-232 port

V2116 Keyboard RJ-45 V2040 RJ-45

8-pin Connector 8-pin connector

5 ----------------------------- 4 4 ----------------------------- 5 2 ----------------------------- 7

Figure 2-21. Connect V2040 to V2116

V2110 Keyboard RJ-45 Termi nal B ox V2040 RJ-45 8-pin Connector From Keyboard To V2040 8-pin connector

4 ---------------------5-----------------4--------------------- 5 5 ---------------------4-----------------5--------------------- 4 7 ---------------------2-----------------2--------------------- 7 1 ---------------------8-----6VAC 8 ---------------------1-----6VAC

Figure 2-22. Connect V2040 to V2110 through a terminal box

Note: Please use the supplied modular cables to make the system connections.

Pin No. Signal Definition

1 Unused 2 Ground 3 Unused

4 Data receiving 5 Data sending 6 Unused

7 Ground 8 Unused

Keyboard with no direct power input, such as V2110, requires a terminal box for connection, as shown below:

ETHERNETPROG MON

DATALINE

D A T A

SYNC

B U F F E R

OUT

EXT

OUT

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

DATA LINE RS232 PORTS

1 2 12 34 56 7 891011

V2040

177 161 145 129 113 97 81 65 49 33 17

C BAD

V2405-4

V2116

Infinova

123

456

789

V2110

V2431

6VAC

PC V2000

Figure 2-23. Communication Port Connections (Featuring Terminal Box Connections)

2.4.6 Local Relay Output Connections

Local relay outputs are provided via the V2431 Alarm Interface Units (AIUs) to activate VCRs or other alarm devices (e.g., alarm bells).

Since a variety of auxiliary devices may be used, please refer to the manuals provided with them to select appropriate cables.

Note: Please pay close attention to the output ratings and ensure that the ratings shall not be exceeded.

Output Relay Ratings:

Current Voltage

1.0A 24VDC

0.2A 110VDC

0.5A 125VAC

DATA LINE RS232 PORTS

1 2 12 3456 7891011

161

177

145129113978165 4933171

Figure 2-24. Local Relay Output Connections

ETHERNET PROG MON

DATALINE

OUT

T A

EXT

SYNC

OUT

F F E R

Alarm Bell

CAUTION

RICK OF ELECTRIC SHOCK DO NOT OPEN

POWER

Modular

Cable

VCR

SELECT

123456

789101112

14 15 16 17 18

AAAAA

26 27 28 29

AAAAA

50 51 52 53 54

AAAAA

123456

AAAAA

26 27 28 29

AAAAA

50 51 52 53 54

AAAAA

32 33 34 35 36

AAAAA

56 57 58 59 60

AAAAA

789101112

AAAAA

32 33 34 35 36

AAAAA

56 57 58 59 60

AAAAA

ABCDEFGH

POWER

ALARM

ABCDEFGH

INPUT OUTPUT

SELECT

ABCDEFGH

POWER

ALARM

ABCDEFGH

INPUT OUTPUT

AAAAA

38 39 40 41 42

AAAAA

62 63 64

AAA

14 15 16 17 18

AAAAA

38 39 40 41 42

AAAAA

62 63 64

AAA

19 20 21 22 23 24

AAAAA

44 45 46 47 48

AAAAA

N N C O C M

V2431

20 21 22 23 24

AAAAA

44 45 46 47 48

AAAAA

N N C O C M

V2431

2.4.7 Ethernet Connections

Utilizing the optional Ethernet interface module, you can easily integrate V2040 into your existing Ethernet network and control the whole CCTV security/surveillance system via TCP/IP. The module provides a 10/100M adaptable interface for Ethernet communication, and accepts control commands from such TCP/IP workstations as computers.

DATA LINE RS232 PORTS

12 123456789

177

145 1 29 113 97 81 65 49 33 17 1

161

Hub

ETHERNETPROG MON

101

DATALINE

A T A B U F F E R

V2040

OUT

EXT

SYNC

OUT

CAUTION

RISK OF ELECTRIC SHOCK DO NOT OPEN

POWER

TCP/IP

Ethernet Cable

TCP/IP

2.4.8 Power Supply Connections

V2040 is designed for 120VAC/60Hz power supply. All the Infinova series models suffixed with "X" are for 230VAC/50Hz operation.

CAUTION: DO NOT POWER THE SYSTEM WHILE PERFORMING SYSTEM CONNECTIONS.

The on-screen Time and Date, Camera Title, Monitor Status and live images from Camera 1 are initially displayed on all monitors upon first power up.

Upon completion all the above-mentioned connections, the system is ready for operation and programming.

Ethernet Cable

Figure 2-25

2.4.9 Networking Connections

The following is a list of equipment required to set up the V2040N network:

1. An existing or dedicated Ethernet LAN network.

2. More than one V2040 network site.

3. Video trunk cables.

4. Ethernet cables.

V2040 System Sites

Each V2040 matrix system in the network is referred to as a site. Each site in the network maintains all of its local control features. To identify V2040s in a network, each unit is allocated a unique site number. The site number is defined via the V2040 Programming Menu. (Refer to the Network Setup Section of this manual).

All V2040s maintain local control functions (for example, local camera control and monitor/camera switching) even if the Ethernet network goes down. However, remote V2040 Site control will not be accessible if the HUB or Switch goes down.

The network will block any attempt from V2040s to control equipment connected to another V2040 that is off-line. When the problem is fixed, the V2040s will automatically resume communications over the network.

Ethernet Cables

A Category 5 or above Ethernet cable connects an V2040 to a HUB or Switch of an existing or dedicated Ethernet network.

NOTE: Ethernet Cables must be attached to the Ethernet Port of the V2040’s external CPU.

Video Trunk Cables

A video trunk cable is a coaxial cable that transfers video signals between V2040 sites. A video trunk cable is connected from an output (monitor) connector on the source (sending) matrix bay to an input (camera) connector on the receiving matrix bay (Figure 2-26). The number of video trunk cables determines the number of camera signals from the Source V2040 Site that can be simultaneously viewed at the receiving V2040 Site.

Example:

Figure 2-26 illustrates two video trunk cables connected from the output (monitor) connectors on V2040 Site 2 to input (camera) connectors on V2040 Site 3. This means two cameras connected to Site 2 can be viewed simultaneously on two monitors connected to Site 3. If Site 3 attempts to view more than two cameras from Site 2, blocking will occur. Only one video trunk cable is connected from the output connectors on Site 3 to the input connectors on Site 2.

This means only one camera connected to Site 3 can be viewed at a time on monitors connected to Site 2.

The number of monitors or recording devices that a given Site is equipped with determines the maximum number of video pictures

that can be simultaneously displayed or recorded at that Site. Therefore, video trunk cables sending video signals from one matrix bay to another matrix bay should exceed the number of monitors or recording devices at the Receiving V2040 Site.

Example:

If Site 3 (Figure 2-26) only has a total of two monitors and/or recording devices connected to it, there would be no reason to connect more than two video trunk cables from the output of Site 2 to an input of Site 3 because three video signals cannot be displayed/recorded on only two monitors/recording devices.

Hub

Site 2Site 3

DATA LINE RS232 PORTS

1 2 12 34 56 78 91011

65 49 33 17

ETHERNETPROG MON

120V/60Hz

DATALINE

OUT

T E S

EXT

SYNC

OUT

X P A N D

CAUTION

RICK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

120V

60Hz

DATA LINE RS232 PORTS

1 2 12 34567891011

81 65 49 33 17

ETHERNETPROG MON

120V/60Hz

DATALINE

OUT

T E S

EXT

SYNC

OUT

X P A N D

CAUTION

RICK OF ELECTRIC SHOCK DO NOT OPEN

POWER

120V

60Hz

Video Trunk Cables

Figure 2-26. Video Trunk Cables

The connection of a simple V2040 network is illustrated in Figure 2-26 Up to two cameras from Site 2 can be simultaneously viewed on monitors at Site 3. Only one video signal from a camera connected to the V2040 matrix bay on Site 3 can be switched to a monitor connected to the V2040 matrix bay on Site 2, because only one input video trunk is connected.

Blocking

Blocking occurs when an V2040 Site requests a video signal from another V2040 Site and the requests outnumber the video trunk cables connected.

Example:

Figure 2-26 illustrates two video trunk cables connected from the output connectors on Site 2 to the input connectors on Site 3. If Site 3 requests three video signals from Site 2, the third request will cause blocking.

If blocking occurs, the operator must wait until a video trunk cable is free.

To prevent blocking, enough video trunk cables between the V2040 Sites must be connected.

Example:

If Site 3 requests 2 video signals from Site 2 (as in Figure 2-26),

blocking cannot occur. If, however, three video signals were requested, blocking could occur because three video signals can be requested, but only two video trunk cables exist.

Network Video Connections One-way Network Connection

A one-way network between two or more SITES requires a minimum of one video trunk cable between each SITE.

NOTE: SITE refers to a single V2040 CPU in an V2040N network and the resources that are directly connected and accessible to it. Sending SITE - a network SITE which sends video trunk outputs to other SITES.

Receiving SITE - a network SITE which receives video trunk inputs from other SITES.

The video trunks carry video signals from a Sending SITE V2040 Matrix Switching Bay to a Receiving SITE V2040

SITE-to-SITE Video Trunk Considerations

A typical SITE-to-SITE one-way video connection consists of one or more video trunks between each Sending SITE and each Receiver SITE. The number of trunks used will depend on the user's application and requirements.

z Determine the number of video trunks required between all

SITES in the network prior to installing the trunks.

z Determine the maximum number of different video inputs from

each Sending SITE to each Receiving SITE and reserve one video input terminal at each Receiving SITE for each video trunk input.

z Determine the maximum number of video trunk outputs from

each Sending SITE to each Receiving SITE and reserve one monitor output terminal at each Sending SITE for each video trunk output.

Hub

Receiving Site

DATA LINE RS232 PORTS

1 2 12 3456 7 8 91011

65 49 33 17

ETHERNETPROG MON

T E S T

/ E X P A N

D E R

120V/60Hz

DATALINE

OUT

EXT

SYNC

OUT

CAUTION

RISK OF ELECTRIC SHOCK DO NOT OPEN

POWER

120V

60Hz

DATA LINE RS232 PORTS

12 1234567891011

DATA LINE RS232 PORTS

1 2 12 34 56 7 8 91011

Sending Site

81 65 49 33 17

ETHERNET PR OG MON

DATALINE

T E S T

/ E X P A N

D E R

Sending Site

ETHERNETPROG MO N

DATALINE

OUT

E S

EXT

SYNC

OUT

X P A

N D E R

120V

60Hz

120V/60Hz

OUT

EXT SYNC

OUT

CAUTION

RISK OF ELECTRIC SHOCK DO NOT OPEN

POWER

120V

60Hz

120V/60Hz

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

Figure 2-27. One-Way Network Video Trunk Connections

Two Way Network Connection

A two-way network between two or more SITES requires a minimum of two video trunks (One Source trunk and One Receive trunk.) between each SITE.

NOTE: SITE refers to a single V2040 CPU in an V2040N network and the resources that are directly connected and accessible to it.

Receiver/Sending SITE - a network SITE which sends and receives video trunk signals.

Video trunks carry video signals between each Receiver/Source V2040 Site.

SITE-to-SITE Video Trunk Considerations

A typical SITE-to-SITE two-way video connection requires one or more Source trunks and Receive trunks between each Receiver/Sending SITE. The number of trunks used between sites will depend on the user's application and requirements.

z Determine the number of video trunks required between all

SITES in the network prior to installing the trunks.

z Determine the maximum number of different video inputs from

each Sending SITE to each Receiving SITE and reserve one video input terminal at each Receiving SITE for each video trunk input.

z Determine the maximum number of video trunk outputs from

each Sending SITE to each Receiving SITE and reserve one

monitor output terminal at each Sending SITE for each video trunk output.

DATA LINE RS232 PORTS

1 2 12 3456 7 8 91011

Hub

Sending/Receiving Site Sending/Receiving Site

65 49 33 17

ETHERNET PROG MON

120V/60Hz

DATALINE

OUT

E S

EXT

SYNC

OUT

P A N

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

120V

60Hz

DATA LINE RS232 PORTS

1 2 12 3456 7 8 91011

81 65 49 33 17

ETHERNET PROG MON

120V/60Hz

DATALINE

OUT

E S

EXT

SYNC

OUT

P A N

CAUTION

RISK OF ELECTRIC SHOCK DO NOT OPEN

POWER

120V

60Hz

SITE-to-SITE Video Trunk Considerations

A typical SITE-to-SITE mixed direction video connection will consist of Source only Sites; Receive only Sites and Receiver/Sending SITEs. The number of trunks used between sites will depend on the user's application and requirements.

z Determine the number of video trunks required between all

SITES in the network prior to installing the trunks.

z Determine the maximum number of different video inputs from

each Sending SITE to each Receiving SITE and reserve one video input terminal at each Receiving SITE for each video trunk input.

z Determine the maximum number of video trunk outputs from

each Sending SITE to each Receiving SITE and reserve one-monitor output terminal at each Sending SITE for each video trunk output.

DATA LINE RS232 PORTS

12 1234567891011

Sending/Receiving Site

81 65 49 33 17

ETHERNETPROG MON

120V/60Hz

DATALINE

OUT

EXT

SYNC

OUT

X P A

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

E R

POWER

120V

60Hz

Figure 2-28. Two-way Network Video Trunk Connections

Mixed Network Connection

A mixed direction network consists of both one-way V2040 SITES and two way V2040 SITES.

A mixed direction network between three or more SITES requires one or more video trunks for each Sending SITE or Receive Site and one or more receive trunks and source trunks between each Receiver/Sending SITE.

NOTE: SITE refers to a single V2040 CPU in an V2040N network and the resources that are directly connected and accessible to it.

Sending SITE - a network SITE that only sends video trunk signals to other SITES.

Receiving SITE - a network SITE that only receives video trunk signals from other SITES.

Receiver/Sending SITE - a network SITE that sends and receives video trunk signals.

Video trunks carry video signals between V2040 Sites.

HUB

Sending/Receiving SITE Sending/Receiving SITE

DATA LINE RS232 PORTS

1 2 12 34 56 7891011

65 49 33 17

PROG MON

ETHERNET

230V/50Hz

DATALINE

OUT

EXT

SYNC

OUT

P A

RISK

OFELECTRIC

SHOCK

DO NOT OPEN

E R

POWER

230V

50Hz

DATA LINE RS232 PORTS

12 1234567891011

81 65 49 33 17

DATA LINE RS232 PORTS

1 2 12 34 56 789 1011

81 65 49 33 17

Figure 2-29. Mixed Network Video Trunk Connections

PROG MON

ETHERNET

DATALINE

T E

OUT

EXT

SYNC

OUT

P A

E R

230V

50Hz

Sending SITE

PROG MON

ETHERNET

DATALINE

OUT

E S

EXT SYNC

OUT

X P

RISK OFELECTRIC

SHOCK

DO NOT OPEN

E R

POWER

230V

50Hz

230V/50Hz

RISK

OFELECTRIC SHOCK

DO NOT

OPEN

POWER

230V/50Hz

Chapter III System Operation

This chapter introduces standard operation procedures of V2040 system. Users can perform the procedures via Infinova system keyboard V2117/V2116/V2115 or the graphical management software V2000/V2210. Some procedures can also be performed via operator keyboard V2110. Please refer to V2110 manual for its installation and operation.

3.1 Keyboards

Infinova series keyboards communicate with the matrix switcher via RS-232 or Ethernet.

V2117/V2116/V2115: A full system operation and program- ming keyboard, offering all the operation and programming functions for the matrix switchers.

V2110: An operator keyboard offering only the operation functions for the matrix switchers.

Graphical management software can also communicate with the matrix switchers and provide a user-friendly interface for system management. In addition, a third-party computer can establish communications with the matrix switchers via ASCII commands.

9 10

64 128 1024 64

FI F2

USER SITE

OPERATE

PROGRAM

7 8

OFF ARM

MONITOR

Figure 3-1. V2115 Keyboard Layout

(1) Key switch (2) USER key (3) Site control (4) F1 key (5) F2 key (6) Site display (7) Monitor key (8) PROG key (9) ARM & OFF key (10) Monitor display (11) SALVO key (12) NEXT key (13) CAMERA key (14) RUN key (15) HOLD key (16) LAST key (17) LOCK key (18) ACK key (19) Camera display (20) Numeric key (21) ENTER display (22) WIDE/Up arrow key (23) TELE/Down arrow key (24) NEAR/Left arrow key (25) FAR/Right arrow key (26) CLOSE/Page up key (27) OPEN/Page down key (28) OFF/Page left key (29) ON/Page right key (30) SHOT/Enter key

(31) PATRN/Exit key (32) Joystick

PROG

17 18

LAST LOCK ACK

NEXT RUN HOLD

SALVO

CAMERA

1112 13 15

14 20

ENTERCAMERAMONITORSITE

1 2 3

4 5 6

7 8 9

CLEAR

26 27

AUXILIARY

P A

OFF ON

G E

IRIS

P A G

CLOSE OPEN

FOCUS

NEAR FAR

ZOOM

WIDE TELE

2224 25

E R

P A G E

CONTROL

SHOT PATRN

Infinova

E X

POWER MANCHESTER

RS485

ETHERNET

LAST LOCK ACK

NEXT RUN HOLD

OFF

ARM

SALVO

PATRN SHOT PROG

OPERATE

PROGRAM

1 2 3

4 5 6

7 8

CAM0MON

CLEAR F2

Infinova

SYSTEM KEYBOARD

AUXILIARY

P A

OFF ON

G E

IRIS

P A

G E

FOCUS

NEAR FAR

ZOOM

WIDE TELE

OPEN

USER SITE

P A G E

4 5 6789

181920 21

Figure 3-2. V2116 Keyboard Layout

(1) Key switch (2) USER key (3) Site control (4) F1 key (5) F2 key (6) Monitor key (7) PROG key (8) ARM & OFF key (9) SALVO key (10) NEXT key (11) Camera key (12) RUN key (13) HOLD key (14) LAST key (15) LOCK key (16) ACK key (17) Numeric key (18) WIDE/Up arrow key (19) TELE/Down arrow key (20) NEAR/Left arrow key (21) FAR/Right arrow key (22) CLOSE/Page up key (23) OPEN/Page down key (24) OFF/Page left key (25) ON/Page right key (26) SHOT/Enter key (27) PATRN/Exit key (28) LCD display panel

(29) Two LED indicators (30) Joystick

(31) CLEAR key

Power Manchester

Ethernet

RS485

LAST LOCK

OFF

POWER

PATRN

OPERATE

RUN

PLAY

ARM

SHOT

PRST

PROGRAM

ENTER

HOLD

SALVO

PROG

ACK

REC

PQRS TUV

CAM

SHIFT

1 2 3

ABC

4 5 6

GHI JKL

7 8 9

CLEAR

ESC

WXYZ

UNIT

AUXILIARY

P A

OFF

DEF

IRIS

P A

MNO

MON

OPEN

EDIT

PTZ

FOCUS

FAR

NEAR

ZOOM

WIDE

TELE

SYS

PTT

P A G E

192021

Infinova

SYSTEM KEYBOARD

CONTROL

E N T

USER

E R

Figure 3-3 V2117 Keyboard Layout

1. Key switch 2. USER key

3. Site control 4. F1 key

5. F2 key 6. Monitor/UNIT key

7. PROG key 8. ARM & OFF/POWER keys

9. SALVO/MENU key 10. NEXT key

11. Camera/SHIFT key 12. RUN/PLAY key

13. HOLD/REC key 14. LAST key

15. LOCK key 16. ACK/ENTER key

CONTROL

DOWN

E X

SITE

I T

17. Numeric keys 18. WIDE/SYS/Up arrow key

19. TELE/Down arrow key 20. NEAR/PTT/Left arrow key

21. FAR/Right arrow key 22. CLOSE/PTZ/Page up key

23. OPEN/EDIT/Page down key 24. OFF/Page left key

25. ON/Page right key 26. SHOT/PRST key

27. PATRN/Exit key 28. LCD display panel

29. Four LED indicators 30. Joystick

31. CLEAR/ESC key

The layout of V2117 keyboard is the same as that of V2116. Covering all the functions of V2116, V2117 keyboard features the communication with DVR via RS-485 and Ethernet port.

Shortcuts for Matrix Switcher and DVR control switching:

Matrix RS-232 Control Mode: “1 + USER” Matrix Ethernet Control Mode: “2 + USER” DVR RS-485 Control Mode: “3 + USER” DVR Ethernet Control Mode: “4 + USER”

When controlling matrix switcher, V2117 and V2116 keyboards are the same in function.

MON

PROG

SWITCHER ALARM

ENTER

CAM

NEXT RUN HOLD

MONITOR

CAMERA

FOCUS

OFF

AUX

IRIS

ZOOM

LENS

OFF

NEAR FAR

WIDE

ARM ACK

17181920

OPEN

TELE

Infinova

SHOT

Figure 3-4. V2110 Keyboard Layout

(1) Camera key (2) Monitor key (3) Numeric keypad (4) LED Camera Display (5) LED Monitor Display (6) Off key (7) On key (8) Close key (9) Open key (10) Near key (11) Far key (12) Wide key (13) Tele key (14) SHOT key (15) Joystick (16) ACK key (17) ARM key (18) OFF key (19) HOLD key (20) RUN key (21) NEXT key (22) PROG key

V2110 provides the basic operation functions only, with no programming capability.

3.2 Keyboard Password Entry

V2040 keyboard password entry serves as a security feature to allow only authorized users to perform system operation. When password entry is enabled (see Menu Programming -Priority Menu),

V2110 operator keyboard cannot access the system, while V2116 system keyboards and V2000/V2200 GUI software requires a user to enter a user number and a password for system access.

Note: The password 999999 is defaulted to user number 1. Therefore, it is recommended to change the default password for system security. Please refer to Menu Programming - Priority Menu for details on password programming.

When password entry is enabled, V2116 keyboard displays the message "UC" (User Code) in the CAMERA Display or the LCD Display Panel. This indicates that the user must log on to the system for access.

To log on to the system:

1. Enter the user number via keypad.

2. Press the ACK button to confirm. The system will prompt for the

password by displaying the message "PSC" in the keyboard display.

3. Enter the user's password via keypad. To clear an incorrect entry,

press the CLEAR button, and enter the correct code.

4. Press the ACK button to confirm.

If the password verifies, the "PSC" message is cleared, indicating that the keyboard is ready for system control; if the password does not verify, the "UC" message is displayed again (and a beep is sounded if keyboard sound is enabled), indicating that the user must re-enter the user number and password.

To log off from the system:

1. Enter "99" via keypad.

2. Press the F1 button or the USER button.

3.3 Video Selection

Keyboard control of switching system functions is, generally, "monitor oriented". To achieve video control function via keyboard, a monitor is first "called" to a keyboard (i.e., placed under the control of the keyboard), and then, the desired cameras are called to that monitor.

Selecting a Monitor

To call a monitor via keyboard:

1. Press the CLEAR button to clear earlier keyboard inputs;

2. Enter the number of the desired monitor on the keypad;

3. Press the MON button to call the monitor.

The number of the called monitor (i.e., the monitor under control) will be displayed on MONITOR LED (or LCD, depending on the keyboard used).

Selecting a Camera

To call a camera via keyboard:

1. Enter the number of the desired camera on the keypad;

2. Press the CAM button to call the camera.

The number of the called camera (i.e., the camera under control) will be displayed on CAMERA LED (or LCD, depending on the keyboard model).

When a camera is called to a monitor, the monitor will display the live video images captured by the camera, as well as relevant system information.

3.4 Camera Control

If a camera is equipped with motorized lens and pan/tilt, operators can perform camera site controls (i.e., pan, tilt, focus, zoom, iris) after calling the camera to a monitor.

When another keyboard is controlling pan/tilt, lens or auxiliaries, the message "IN USE" is displayed in the on-screen Status Line, and the control functions are temporarily unavailable. The system will inform users of the availability of the camera only after the former controlling keyboard has stopped operation on that camera.

Pan/Tilt Control

Users can perform pan/tilt control over a desired site camera. The camera should be called to a monitor before the operation.

To control pan/tilt:

1. Call the desired camera to a monitor;

2. Operate on the site camera with the joystick on the keyboard

(Holding the joystick in the desired direction will keep the camera moving until the joystick released or centered.);

3. Release or center the joystick when the camera is at the desired

scene or view, as shown on the monitor.

For control of variable-speed pan/tilts, pan/tilt movement is in direct proportion to the position of the joystick: the further from the center the joystick moves, the faster the camera moves.

Camera Control

To control camera lens (Iris, Focus and Zoom):

1. Call the desired camera to a monitor;

2. Press a button in the IRIS (CLOSE/OPEN), FOCUS

(NEAR/FAR) or ZOOM (WIDE/TELE) section for the designated performance;

3. Release the control button when the camera is at the desired

scene or view, as shown on the monitor.

3.5 REMOTE Video Selection

In V2040 Network Systems, REMOTE Video Selection is available at LOCAL sites, which have video trunk inputs connected to camera input connectors that have been defined in the Network Video Trunk Assignment menu. REMOTE V2040 video control functions are accessed from a LOCAL keyboard by placing one of the LOCAL system monitors under the control of the keyboard (“Calling” a monitor to a keyboard), then calling a REMOTE Site and REMOTE cameras to that monitor.

Note: REMOTE Site video selection and control functions can be accessed from an V2116 keyboard only.

To Call a LOCAL Monitor to a Keyboard:

1. Enter the number of the desired LOCAL monitor;

2. Press the keyboard MONITOR button. The number of the

LOCAL MONITOR under control of the keyboard is shown in the keyboard MONITOR display.

To Call a REMOTE Site and Camera to a LOCAL Monitor:

1. Enter the Site Number of the desired REMOTE Site;

2. Press the keyboard SITE button;

3. Enter the number of the desired REMOTE camera;

4. Press the keyboard CAMERA button.

The Site Number of the REMOTE SITE selected is shown in the keyboard SITE display, and the number of the REMOTE CAMERA called to the MONITOR under control is shown in the keyboard CAMERA display.

To Disconnect the Keyboard from the REMOTE Site:

1. Press the 0 button;

2. Press the SITE button. Pressing the SITE button with no Site

Number entered clears the keyboard SITE display;

3. Call a LOCAL camera to this monitor to transfer control of this

keyboard to control of the LOCAL Site.

Note: The F1 button releases control of the video trunk currently under control of a keyboard. If F1 is pressed only, the video trunk remains connected to that keyboard until another keyboard calls a REMOTE site, at which time the released trunk may be switched to the calling keyboard.

3.6 Controlling Remote Camera Site Functions

Camera site control functions (pan/tilt, lens, presets, and auxiliaries) are available after the operator has called the desired camera to a monitor. These functions are accessible at a REMOTE camera site.

z If the desired camera is being displayed as part of an operating

tour, press the HOLD button to stop the tour on the desired camera.

z Control of a camera (pan/tilt, lens, preset, and auxiliary) stays

with a keyboard for two seconds after a controlling action or movement stops. If another keyboard attempts control of the same camera during this two-second period, these functions are temporarily not available and the message “IN USE” is displayed in the on-screen Status Line.

z When a keyboard calls a camera which is locked out from the

Camera Lockout programming function, the camera video is displayed on the monitor and the message “LOCK” is displayed in the on-screen Status Line.

z A user or keyboard with a higher priority level (set via the

Priority menus, please refer to the Priority Menu section of the V2040 Installation/Operation Instructions) can capture control of cameras from users or keyboards with lower priority levels.

Camera View Control

Camera pan/tilt units are controlled using the keyboard joystick; camera motorized lens units are controlled by the keyboard lens group buttons. REMOTE camera view control is accessible from an V2116 keyboard only.

To control camera Pan and Tilt:

1. Call the pertinent REMOTE camera to a LOCAL monitor.

2. Hold the keyboard joystick in the desired direction to move the

camera. For control of variable-speed pan/tilt via V2116 keyboards, camera movement speed is in direct proportion to the position of the joystick; the further from center the joystick is moved, the faster the camera moves.

3. Center the joystick when the camera is at the desired scene or

view, as shown on the monitor.

To control camera Iris, Focus, and Zoom:

1. Call the pertinent REMOTE camera to a LOCAL monitor.

2. Push and hold the keyboard LENS control function button

designating the desired action (Iris OPEN or CLOSE, Focus NEAR or FAR, Zoom WIDE or TELE). Note: The type of lens control functions available depends on the type or options of the lens installed on the camera (e.g., an Auto-Iris lens cannot be controlled by the OPEN or CLOSE buttons).

3. Release the button when the camera lens is at the desired iris,

focus, or zoom position, as viewed on the monitor.

The V2040 CPU allows multiple keyboard control actions at the same time on one camera. Any two of the lens control buttons and the joystick can be operated simultaneously.

Certain Infinova Receivers are equipped for automatic pan/tilt operation (Auto pan) using preset scene end stops or an auxiliary control output.

Note: After a remote camera is called to the local monitor, all the control functions are available to the current operator.

The operator can operate the remote camera by referring to the Chapter of System Operation of the V2040 Installation/Operation Instructions.

3.7 Running a Tour

Tour function enables an operator to continuously display a sequence of different camera views/presets, or to perform salvo switching. The same camera view or preset can be included in the same tour multiple times.

Each dwell time can be defined separately. V2040 supports two tour kinds of tours: System Tour and Monitor Tour. System Tours are defined by Menu Programming (see Chapter V). Monitor Tours are defined by System Setup (see Chapter IV) for a single monitor.

To start a tour:

1. Call the desired monitor to run the tour;

2. Enter the tour number (1-64) on the keypad;

3. Press the RUN button;

4. Press the ACK button.

Note: If the ACK button is not pressed within the 3-second period, please repeat the procedure from step 2.

Please also note that only one tour can be started on and associated with a monitor at one time. If a Monitor Tour is programmed to a monitor and then a System Tour is called to that monitor, the Monitor Tour is erased.

Press the NEXT or LAST button to change the running direction of the tour. When a tour is running, the on-screen Status Line shows the dwell time for each camera in the tour. When running a tour in the forward direction, an "F" is displayed beside the dwell time; when running a tour in the reverse direction, an "R" is displayed.

To stop a tour:

Press the HOLD button to stop a tour on the currently displayed monitor.

When the tour is stopped, the monitor displays the camera that the tour is stopped on, and the message "HOLD" is displayed in the on-screen Status Line. While a tour is on HOLD, any camera control function (e.g., pan, tilt, focus, zoom, iris) can be performed on that camera.

To change the running direction of the tour on hold:

1. Press the NEXT button to advance the tour one step and set the

direction of the tour to "forward".

2. Press the LAST button to rewind the tour one step and set the

direction of the tour to "reverse".

3. Press the "0" and PROG buttons to remove the camera on hold.

4. Press the RUN button to continue running the tour.

3.8 Calling a Preset

For cameras equipped with motorized pan/tilt and/or lens with servo control capability, presets (pre-positioned scenes) may be defined and stored at the Receiver for automatic call up. Up to 72 presets may be programmed for each NewTeck camera receiver.

To call a preset:

1. Call the pertinent camera to the monitor;

2. Enter the number of the preset scene (1-255) on the keypad;

3. Press the SHOT button.

Note: Please refer to System Setup - Setting Preset for details on how to program a preset.

3.9 Calling a System Salvo

Chapter IV System Setup

The system salvo function permits the simultaneous display of multiple camera scenes on a group monitors, hereby enabling operators to survey multiple sites at the same time.

To call a system salvo:

1. Call the first monitor for the desired system salvo;

2. Enter the system salvo number (1-64) on the keypad;

3. Press the SALVO button. System salvos can also be called automatically from system tours, alarm contacts and other system salvos.

3.10 Activating an Auxiliary

An auxiliary is a relay that switches such devices as lights and door locks. Each NewTeck receiver or Super Dome provides two auxiliary outputs, respectively labeled as AUX1 and AUX2.

To activate an auxiliary:

1. Call the pertinent camera to the monitor;

2. Enter the number of the desired auxiliary on the keypad;

3. Press the AUX ON button to activate the auxiliary;

4. Release the AUX ON button.

If the auxiliary is defined as a latching type, the auxiliary remains activated; If the auxiliary is defined as a momentary type, the auxiliary stops.

5. Press the AUX OFF button to deactivate a latching type auxiliary.

Note: Users should pay close attention to the current type of latching type of functions, such as lights or door locks, because it is not discernible from the keyboard.

3.11 Acknowledge an Alarm

If a monitor is armed for alarm contacts, it will display alarm video associated with any activated alarm input. If the monitor is armed for manual clearance, the keyboard can be used to clear the alarm.

To acknowledge an alarm:

1. Call the monitor displaying the alarmed video input. (Depending

on the alarm programming setup, each monitor may display one or more alarmed video inputs.)

2. Press the ACK button on the keyboard while the desired alarm

video is being displayed on the monitor.

Note: The ACK button is also used to acknowledge user keyboard entries in Menu Programming.

V2040 features powerful system management, achieved by system setup via keyboard. With the system setup, users can easily configure various parameters and functions required by the system.

The following system setup procedures can be performed via system keyboard V2116. All of the following procedures are performed with keyboard in PROGRAM mode, with the key switch placed in the PROGRAM position.

4.1 System Reset

System reset refers to the procedure of resetting the system to factory defaults. Follow the procedure when necessary to clear all user-programmed information from V2040 system.

To reset the system to factory defaults:

1. Place the key switch in PROGRAM position.

2. Enter the following F2 code combinations one by one:

3. Place the key switch in OPERATE position.

V2040 system will clear all user-programmed data and reset the system to factory defaults.

Note: As a system security feature, there is a 3-second period after the "55, F2" command has been entered in which the "99, F2" command must be entered. Otherwise, the system does not reset.

CAUTION: THIS SYSTEM SETUP ERASES ALL USER-ENTERED DATA.

"55, F2" (Enter number 55, then press the F2 button.) "99, F2" (Enter number 99, then press the F2 button.)

4.2 Monitor Display Arrangement

Enter F2 key combinations on the keyboard to rearrange on-screen displays, e.g., camera titles, camera status, camera numbers, date/time.

To arrange the on-screen displays of a monitor:

1. Call the desired monitor.

2. Place the key switch in PROGRAM position.

3. Enter the following F2 code combinations:

"1, F2" - Displays date and time on the monitor. "2, F2" - Removes date and time displays from the monitor. "3, F2" - Displays camera title, camera number and camera status on the monitor. "4, F2" - Removes camera title, camera number and camera status from the monitor. "5, F2" - Displays titles and date and time at the top of the monitor screen. "6, F2" - Displays titles and date and time at the bottom of the monitor screen. "7, F2" - Displays titles and date and time on the monitor. "8, F2" - Removes titles and date and time from the monitor.

4. Place the key switch in the OPERATE position.

4.3 Monitor Tour Programming

A monitor tour is a temporary sequence of cameras programmed exclusively for the called monitor. A monitor tour may contain up to 64 cameras, and each video input is displayed on the monitor for a pre-defined period of time (Dwell Time).

Press the HOLD button to hold a currently running monitor tour. While the monitor tour is in hold status, press the NEXT button to display the next video input in the pre-programmed sequence, and press the RUN button to start the monitor tour again. The on-screen Status Line displays the Dwell Time for each video input.

To program a monitor tour:

1. Call the desired monitor.

2. Place the key switch in PROGRAM position.

3. Enter "62", then press the PROG button. This puts the system in

Tour Programming mode.

4. Call the camera to be first displayed in the tour.

5. Enter "1" to "60" for the desired dwell time in seconds for the

on-screen camera. To stop and hold the tour on that camera, enter "61".

6. Press the PROG button to set the dwell time for the on-screen

camera to the value entered. The on-screen display changes to show the dwell time (or HOLD if "61" was entered in Step 5). If no more cameras are to be included in the tour, skip to step 9; otherwise, continue with Step 7.

7. Call the next camera to be included in the sequence. Cameras

need not to be inserted in the tour in numerical order. Note: Do not enter "62, PROG" during the following steps or while modifying a monitor tour. It removes all previously programmed cameras from the tour and necessitates tour reprogramming.

8. Repeat Step 4, 5, 6 and 7 until all the cameras to be included in

the tour have been programmed.

9. Press the HOLD or RUN button to exit the Monitor Tour

Programming mode. The HOLD button leaves on the monitor the input from the last camera programmed for the tour. The RUN button switches the picture to the next camera in the tour and initiate the tour sequence.

To re-program a single camera in a monitor tour:

1. Press the NEXT button until the desired camera is displayed on

the monitor, and then press the "HOLD" button.

2. Enter "0" and press the PROG button,

3. Enter the desired dwell time (1-60).

4. Press the PROG button.

5. Press the HOLD or RUN button to exit the Programming mode.

EXAMPLE: Programming a 3-camera monitor tour: Place the key switch in PROGRAM position, and then proceed the following steps:

CAUTION: A system tour has a priority over a monitor tour. Therefore, calling a system tour to a monitor clears the current tour programmed for that monitor.

1. Enter "62" and then press the PROG button to clear the

previously programmed monitor tour and access the Monitor Tour Programming mode.

2. Enter the following key combinations to program the monitor

tour: "1, CAM" (Includes Camera 1 to be the first camera in the tour.) "1, PROG" (Sets the Dwell Time for Camera 1 to be 1 second.) "2, CAM" (Includes Camera 2 to be the second camera in the tour.) "2, PROG" (Sets the Dwell Time for Camera 2 to be 2 seconds.) "3, CAM" (Includes Camera 3 to be the third camera in the tour.) "3, PROG" (Sets the Dwell Time for Camera 3 to be 3 seconds.)

3. Press the RUN button to exit the Monitor Tour Programming

mode and run the monitor tour.

While a tour is running, press the NEXT or RUN button will change the running direction of the tour. The on-screen Status Line will display the dwell time of the current camera. If a tour runs in the forward direction, an "F" will be displayed beside the dwell time; if a tour runs in the reverse direction, an "R" will be displayed instead. Press the HOLD button to stop a running tour when necessary.

4.4 Setting Date Format/Setting Day of the Week

V2040 provides three optional date formats:

MM/DD/YY (default) DD/MM/YY YY/MM/DD

To change the default date format:

1. Place the key switch in PROGRAM position.

2. Enter the following F2 code combinations:

"21, F2" /"41, F2"for MM/DD/YY "22, F2"/"41, F2" for DD/MM/YY "23, F2"/"41, F2" for YY/MM/DD "24, F2"/"44 , F2" to change format among the 3 types above

3. Place the key switch in OPERATE position.

To set the day of the week:

1. Place the key switch in PROGRAM position.

2. Enter the following F2 code combinations on the keyboard:

"60, F2" –to display the day of the week "61, F2" - Sunday (SUN) "62, F2" - Monday (MON) "63, F2" - Tuesday (TUE) "64, F2" - Wednesday (WED) "65, F2" - Thursday (THR) "66, F2" - Friday (FRI) "67, F2" - Saturday (SAT) "70, F2" – to display the software version information

3. Place the key switch in OPERATE position.

4.5 Setting Preset

Infinova series receivers and Super Domes feature preset function, programmable via the SHOT button on the keyboard. Presets (pre-defined positions for pan/tilt and lens) can be stored in site receivers and called up by keyboards, the system or other equipment like computers.

To program a preset:

1. Place the key switch in PROGRAM position.

2. Deflect the joystick to change the pan/tilt and lens positions.

3. Enter the preset number (1-255) on the keypad.

4. Press the SHOT button.

5. Place the key switch in OPERATE position.

To call a preset:

1. Place the key switch in the OPERATE position.

2. Call the desired camera to the monitor.

3. Enter the desired preset number on the keypad.

4. Press the SHOT button.

4.6 Camera Lockout

Multiple operators may control a camera simultaneously. In this case, Camera Lockout function may be used to deny other keyboards from controlling that site camera. Locked out keyboards may view, but not control, the designated cameras. When a keyboard calls a camera that is locked out, the camera video is displayed on the called monitor and the message "LOCKED" is displayed in the on-screen Status Line.

To lock out a camera:

1. Call the desired camera.

2. Place the key switch in PROGRAM position.

3. Enter F1 code combination "2, F1".

4. Place the key switch in OPERATE position.

To unlock a camera:

1. Call the desired camera.

2. Place the key switch in PROGRAM position.

3. Enter F1 code combination "1, F1".

4. Place the key switch in OPERATE position.

4.7 Arming Monitors

Before reading through to the procedure of arming a monitor, please familiarize yourself with the Alarm Display Modes and Alarm Clearance Methods.

4.7.1 Arm Display Modes

V2040 provides five alarm display modes for customizing the alarm handling options, namely, Single/Sequence, Single/Hold, Block/Sequence, Block/Hold, and Dual/Hold & Sequence.

1. Single/Sequence

A single alarm monitor will display up to 64 alarmed videos that are queued and sequenced to it, each with a programmable Dwell Time (pre-set to a default of 2 seconds). See the following example of four alarmed videos received.

1st 2nd 3rd 4th

Monitor

1st 2nd 3rd 4th

Monitor

2nd 3rd 4th

Sequence of 4 received alarmed videos

Display cycle of the 4 alarmed videos

Display cycle of the remaining 3 alarmed videos after the 1st alarm has been cleared

Figure 4-1

2. Hold/Sequence

A single alarm monitor will display multiple alarmed videos. The first alarmed video in the queued sequence will be displayed and held on the monitor until cleared. See the following example of four alarmed videos received.

1st 2nd 3rd 4th

Monitor

1st 2nd 3rd 4th

Monitor

2nd 3rd 4th

Assuming there is a sequence of 4 received alarmed videos

The 1st alarmed video in the sequence is displayed and held on the monitor.

The 2nd alarmed video in the sequence is displayed and held on the monitor after the 1st alarm has been cleared.

Alarmed video that is displayed and held on the monitor

Alarmed video that is queued to be displayed

Figure 4-2

3. Block/Sequence

Alarmed videos will be displayed across a block of alarm monitors in a sequential order. Each alarm monitor can display up to 64 alarmed videos that are sequenced to it with a Dwell Time of 2 seconds until cleared. See the following example of seven alarmed videos sequenced to three alarm monitors.

1st 2nd 3rd 4th

1st

Monitor

1st 4th 7th 2nd 5th 3rd 6th

1st

Monitor

2nd 5th 3rd 6th 4th 7th

5th 6th 7th

2nd

Monitor

2nd

Monitor

3rd

Monitor

3rd

Monitor

Assuming there is a sequence of 7 received alarmed videos

3 alarm monitors of the same "Block" will display cycles of alarmed videos.

Display cycles on the 3 alarm monitors after the 1st alarm has been cleared.

Figure 4-3

4. Block/Hold

Alarmed videos will be displayed and held on a block of alarm monitors in a sequential order. When all the monitors are occupied with alarmed videos, the subsequent alarmed videos will be held in queue until a displayed video is cleared on a monitor. See the following example of six alarmed videos queued to three alarm monitors.

1st 2nd 3rd 4th

1st

Monitor

1st 2nd 3rd

1st

Monitor

1st 2nd 4th

5th

2nd

Monitor

2nd

Monitor

6th

3rd

Monitor

3rd

Monitor

Assuming there is a sequence of 6 received alarmed videos

4th 5th

The first 3 alarmed videos are displayed across the 3 alarm monitors in a sequential order, while the subsequent are queued to be displayed.

5th

6th

Alarmed video that is displayed and held on the monitor

Alarmed video that is queued to be displayed

6th

When the 3rd alarm is cleared from the 3rd monitor, the 4th alarm, which is the next alarm in the que, is then displayed on the 3rd monitor and the 5th alarm becomes the next alarm in the que.

Figure 4-4

Note: Alarming could be cleared for each monitor only when all the monitors in the block are armed under the “BH” mode.

5. Dual/Hold and Sequence

Two alarm monitors are used here: the 1st alarmed video is displayed on the Hold monitor, and all subsequent alarmed videos are queued and sequenced to the Cycle monitor with a Dwell Time of 2 seconds. Once the Hold monitor has been cleared of the displayed alarm, the next alarmed video in queue will be sequenced to it, and meanwhile, removed from the Cycle monitor. See the following example of 4 alarmed videos received.

1st 2nd 3rd 4th

Hold

Monitor

1st 2nd 3rd 4th

Hold

Monitor

2nd 3rd 4th

Dual-Monitor Modes

Three Dual-Monitor modes can be used, these include: DHI, DHA and DHM. Any of these modes features two monitors operating in pair: if Monitor 1 is armed, Monitor 2 will be automatically armed to cooperate with Monitor 1. Please refer to Monitor Arming Types (Section 4.8.3) for details.

Display Indicator

When the system receives an alarm input, the on-screen Status Line displays an "ALARM" message until the alarm is removed or the alarm contact is switched open.

Sequence of 4 received alarmed videos

Cycle

Monitor

Cycle

Monitor

Figure 4-5

Alarmed video that is displayed and held on the monitor

Display cycle on the Cycle monitor when the 1st alarmed video is displayed and held on the Hold monitor

Display cycle on the Cycle monitor when the 1st alarmed video has been cleared and the 2nd video is displayed and held on the Hold monitor

4.7.2 Arm Clearance Methods

V2040 provides three optional Alarm Clearance methods, i.e., Instant Clear, Auto Clear and Manual Clear. All the three methods can remove alarm contacts from the system, and restore the monitors back to normal operation.

1. Instant Clear (contact-following alarm clearance)

An alarm is cleared when the alarm contact is switched open. In this method, open the alarm contact first, and then close it to re-arm the contact.

2. Auto Clear (automatically acknowledged by the system 20

seconds after the contact being switched open) In this method, the system will automatically clear the alarm 20 seconds after the alarm contact is switched open.

3. Manual Clear (manual keyboard acknowledging)

In this method, operator clears an alarm only by manual keyboard operation.

Note: In Dual/Sequence mode, a monitor must be pre-selected for alarm clearance.

4.7.3 Monitor Arming Types

Altogether, 18 Monitor Arming Types (detailed in the following table) are provided for system arming. The last three are auxiliary arming types.

Table 4-1. Monitor Arming Types

Code Description Arming Type Display

1 Single/Sequence/Instant Clear SSI 2 Single/Sequence/Auto Clear (after 20 seconds) SSA 3 Single/Sequence/Manual Clear (ACK key) SSM

4 Single/Hold/Instant Clear SHI 5 Single/Hold/Auto Clear SHA 6 Single/Hold/Manual Clear SHM

7 Block/Sequence/Instant Clear BSI 8 Block/Sequence/Auto Clear BSA 9 Block/Sequence/Manual Clear BSM

10 Block/Hold/Instant Clear BHI 11 Block/Hold/Auto Clear BHA 12 Block/Hold/Manual Clear BHM

First Monitor Arming Type Display Second Monitor Arming Type Display 13 Dual/Hold and Sequence/Instant Clear DHI DSI 14 Dual/Hold and Sequence/Auto Clear DHA DSA

15 Dual/Hold and Sequence/Manual Clear HDM DSM 16 Disarm monitor 17 Acknowledge Enabled: gives Manual Clear a priority over Instant Clear and Auto Clear. It should be programmed only after

arming the monitors.

18 Acknowledge Disabled: prohibits Manual Clear in any Instant/Auto Clear mode. It should be programmed only after arming the

monitors.

4.7.4 Arming/Disarming a Monitor

Use the OFF and ARM buttons of the Infinova series keyboards to arm/disarm monitors:

OFF - disarms armed monitors. ARM - arms monitors.

To arm a monitor:

1. Place the key switch in PROGRAM position;

2. Enter the desired Arming Type Code;

3. Press the ARM button;

4. Place the key switch in OPERATE position.

To disarm a monitor:

1. Place the key switch in PROGRAM position;

2. Call the armed monitor to be disarmed;

3. Press the OFF button;

4. Place the key switch in OPERATE position.

To confirm that a monitor is disarmed, press the ARM button. If the "DIS" message is displayed, the system has been successfully disarmed.

Chapter V Menu Programming

All of the programming functions of V2040 can be accessed through the Main Selection menu.

5.1 Main Selection Menu

To access the Main Selection Menu:

1. Make sure that the programming monitor has been connected to

the BNC connector labeled as "PROG MON" on the back panel of V2040.

2. Place the key-switch in the MENU position.

5.2 Menu Navigation and Operation

Please refer to the following guidelines for menu navigation and operation:

Function Instruction Position the cursor The blinking line on the menu screen indicates the current cursor location.

There are usually two ways to move the cursor:

z Press one of the following keys for the designated direction:

NEAR (left), FAR (right), WIDE (up) and TELE (down); or

z Push the joystick in the direction in which you want to move the cursor.

Scroll multiple pages Some menus may include multiple pages.

To turn to another page, use the following keys:

CLOSE (page up) and OPEN (page down) in the IRIS section; OFF (page backward) and ON (page forward) in the AUXILIARY section.

Access a sub-menu There are two ways to access a sub-menu:

z Move the cursor to the desired sub-menu, and press the ACK key; or z Enter the number for the desired sub-menu, and press the ACK key.

Return to the previous menu Move the cursor to the bottom line, i.e., RETURN MAIN or PREVIOUS MENU, and

press the ACK key.

Function Instruction Select an entry value 1) Press the ACK key to toggle through the available values. If the cursor moves to

the next entry, it indicates the value has been selected. Otherwise, continue with Step 2.

2) Press the NEXT key to accept the selected value and move to the next field.

Enter an entry value 1) Enter the desired number (or code number) on the numeric keypad.

2) Press the ACK key to confirm.

Exit menu programming Place the key-switch in the OPERATE or PROGRAM position.

5.3 System Menu

Access the SYSTEM menu from the MAIN SELECTION menu. System Time and Date, Tours, Salvos, Alarm Contacts, Event timers and Monitor Status are programmed in this menu.

MAIN SELECTION

1 SYSTEM

2 MONITOR

3 CAMERA

4 PORTS

5 ACCESS

6 PRIORITY

7 SATELLITE

SYSTEM

1 SET TIME AND DATE

2 SET SYSTEM TOURS

3 SET SYSTEM SALVOS

4 SET EVENT TIMERS

5 SET ALARM CONTACTS

6 MONITOR STATUS

RETURN MAIN

The programming monitor will display the Main Selection Menu shown below.

MAIN SELECTION

1 SYSTEM

2 MONITOR

3 CAMERA

4 PORTS

5 ACCESS

6 PRIORITY

7 SATELLITE

V2040 Main Selection Menu The Main Selection menu is displayed as above, indicating the menu programming functions are available.

5.3.1 Setting Time and Date

SYSTEM

1 SET TIME AND DATE

2 SET SYSTEM TOURS

3 SET SYSTEM SALVOS

4 SET EVENT TIMERS

5 SET ALARM CONTACTS

6 MONITOR STATUS

RETURN MAIN

SET TIME AND DATE

DATE FORMAT - MM-DD-YY

DATE - 08-25-02

TIME - 15:20:30

DAY OF WEEK - FRI

PREVIOUS MENU

Use the SET TIME AND DATE menu to set the date format, date, time and day of the week for on-screen displays.

Item Function Options

DATE FORMAT

Defines date format. z MM-DD-YY (default)

z DD-MM-YY z YY-MM-DD

Example To set the date format to "YY-MM-DD",

1) Use the ACK key to toggle through the three formats;

2) Press the NEXT key to accept the selected format when "YY-MM-DD" is displayed.

DATE FORMAT - YY-MM-DD

Item Function Options

DATE

Sets system date. N/A

Note The presentation of the date information in this line should correspond to the selected date format. Set date format before setting the system date. Example

To set the system date to 02-08-25 in the format of YY-MM-DD,

1) Enter "02" on the keypad and press the ACK key;

2) Enter "08" on the keypad and press the ACK key;

3) Enter "25" on the keypad and press the ACK key. The defined date will be displayed as below.

DATE - 02-08 -25

Item Function Options

TIME

Sets system time. N/A Note V2040 displays time in a 24-hour format, HH:MM:SS (hour: minute: second).

Example To set the time to 15:20:30,

1) Enter "15" on the keypad and press the ACK key;

2) Enter "20" on the keypad and press the ACK key;

3) Enter "30" on the keypad and press the ACK key. The programmed time will be displayed as below.

TIME - 15:20:30

Item Function Options

Sets the day of the week. SUN (Sunday) MON (Monday)

DAY OF WEEK

Example

To set the day of the week to Friday,

1) Use the ACK key to toggle through the options;

2) Press the NEXT key to accept the setting when "FRI" is displayed.

DAY OF W EEK - FRI

TUE (Tuesday) WED (Wednesday) THR (Thursday) FRI (Friday) SAT (Saturday)

5.3.2 Setting System Tours

SYSTEM

1 SET TIME AND DATE

2 SET SYSTEM TOURS

3 SET SYSTEM SALVOS

4 SET EVENT TIMERS

5 SET ALARM CONTACTS

6 MONITOR STATUS

RETURN MAIN

Item Function

TOUR

Item Function

ENT

Item Function

CAM

Item Function

DWL

Item Function

PRE

Use the SET SYSTEM TOURS menu to define system tours. V2040 provides 64 system tours, each including 64 cameras with

ENT

01 02 03 04 05 06 07 08

SET SYSTEM TOURS

TOUR - 01

PRE

DWL

CAM

001

0001

002

0002

003

0003

004

0004

005

0005

006

0006

007

0007

008

0008

PREVIOUS MENU

SET SYSTEM TOURS

TOUR - 01

SITE

- - - -

PREVIOUS MENU

AUX 1 ON 2 ON 3 ON 4 ON 1 OFF 2 OFF 3 OFF 0-

N N N N N N N N

Page Right

programmable Dwell Times (DWL), Presets (PRE) and Auxiliary Relays (AUX). A single screen page permits setup operations (DWL, PRE, AUX) for 8 cameras in the tour sequence. The CLOSE/OPEN keys can be used for page-down/page-up and ON/OFF keys used for page forward and back ward.

The entry items are described below:

ENT01SITE

- - - -

SET SYSTEM TOURS

TOUR - 01

SET SYSTEM TOURS

0001

TOUR - 01

DWL02PRE

001

AUX 1 ONCNN

ENT01CAM

B C D E F G

Page Right

Selects the tour to edit. Example To select Tour 2 to edit,

1) Enter the desired tour number "2" on the keypad;

2) Press the ACK key to confirm. The selected tour number will be displayed as below.

TOUR - 02

Indicates the sequential order in the system tour.

Includes a camera in the tour.

To select a camera,

1) Enter the camera number (1-1024 Real number or 1-9999 for Pseudo number);

2) Press the ACK key to select the camera. Note

z The same camera can be included in the same system tour multiple times. z The entry can also indicate a System Tour or Salvo. Please see the CN options discussed in

Item

Defines the Dwell Time for the CAM entry. To set the Dwell Time for the camera,

1) Enter the Dwell Time (1-60) in seconds, or enter "61" to hold the tour on the camera;

2) Press the ACK key to confirm.

Sets the camera's preset position (Preset).

To sets a preset position for the camera,

1) Enter the preset number (1-255), or "0" to disable the Preset function;

2) Press the ACK key to confirm.

Item Function

AUX

Sets the on/off status for the camera's auxiliary relay to switch on/off automatically during the tour. Options and code numbers 1 = AUX 1 ON 5 = AUX 1 OFF 2 = AUX 2 ON 6 = AUX 2 OFF 3 = AUX 3 ON 7 = AUX 3 OFF 4 = AUX 4 ON 8 = No auxiliary called

Item Function

Connect Next (see the following examples for details).

Options

z Y = yes (to call up the next camera in the table to the next contiguous monitor).

ENT CAM DWL PRE AUX CN 01 0001 02 001 0- Y 02 0002 00 002 0- N

The sample entries shown above indicate that during the tour, when Camera 1 is called to the monitor, Camera 2 (entry 02) will be simultaneously called to the next contiguous monitor. Note: The dwell time of Camera 2 is set to "0" because its dwell time is controlled by the previous entry.

z N = no (not to use the Connect Next function). z S = salvo (to call a system salvo for the specified dwell time). At this point, the CAM entry

refers to the salvo number.

ENT CAM DWL PRE AUX CN

03 0003 05 000 0- S

The sample entries shown above indicate that each time the tour cycle processes to ENT 03, Salvo 3 will be called up for 5 seconds. The monitor that runs the tour will become the first monitor for the called salvo.

z T = tour (to call another system tour). At this point, the CAM entry refers to the tour

number. Note that a tour cannot call itself.

ENT CAM DWL PRE AUX CN 05 0002 00 000 0- T

The sample entries (TOUR 01) shown above indicate that each time the tour cycle processes to ENT 05, System Tour 2 will be called up to the same monitor. Note: The dwell time is set to "0" here because it is controlled by the dwell time specified in System Tour 2.

To select an appropriate CN value,

1) Use the ACK key to toggle through the options;

2) Press the NEXT key to select the desired option.

Item Function

SITE

Sets a remote site number to Include a remote site camera in the tour. To enter a site number,

1) Enter the site number (1-64), or "0" to clear site number;

2) Press the ACK key to confirm.

Note

When the site number is set, the CAM entry refers to the camera number in the remote site.

For details on how to run a system tour, please refer to Section 3.5.

5.3.3 Set System Salvos

SYSTEM

1 SET TIME AND DATE

2 SET SYSTEM TOURS

3 SET SYSTEM SALVOS

4 SET EVENT TIMERS

5 SET ALARM CONTACTS

6 MONITOR STATUS

RETURN MAIN

Item Function

SALVO

Item Function

POS (Position)

Item Function

CAM

Item Function

PRE

Item Function

AUX

SET SYSTEM SALVOS

POS

CAM

0001

0002

0003

0004

0005

0006

0007

0008

PREVIOUS MENU

SET SYSTEM SALVOS

SITE

POS

- - - -

PREVIOUS MENU

SALVO - 01

PRE 001 002 003 004 005 000 000 000

SALVO - 01

AUX 02 ON 3 ON 4 ON 3 ON 000-

Y Y Y Y Y

Page Right

V2040 permits up to 64 system salvos for programming. A System Salvo is a group of cameras, with associated presets and auxiliary actions, which can be called simultaneously to a contiguous group of monitors.

The entry items are described below:

SET SYSTEM SALVOS

SALVO - 01

POS01CAM

B C D E F

0001

PRE

001

AUX 1 ONCNY

Page Right

SET SYSTEM SALVOS

POS01SITE

- - - -

SALVO - 01

Selects the salvo to edit. Example To select Salvo 2 to edit,

1) Enter the desired tour number "2" on the keypad;

2) Press the ACK key to confirm. The selected salvo number will be displayed as below.

SALVO - 02

Refers to the contiguous monitors for displaying the system salvo.

Refers to the camera number associated with each position (monitor). To select a camera,

1) Enter the camera number (1-1024 for Real number or 1-9999 for Pseudo number);

2) Press the ACK key to select the camera.

Note

The entry can also indicate a System Salvo. Please see the CN options discussed in Item F.

Sets the camera's preset position (Preset).

To sets a preset position for the camera,

1) Enter the preset number (1-255), or "0" to disable the Preset function;

2) Press the ACK key to confirm.

Sets the on/off status for the camera's auxiliary relay to switch on/off automatically when the salvo is called. Options and code numbers

1 = AUX 1 ON 5 = AUX 1 OFF 2 = AUX 2 ON 6 = AUX 2 OFF 3 = AUX 3 ON 7 = AUX 3 OFF 4 = AUX 4 ON 8 = No auxiliary called

Item Function

Connect Next (see the following examples for details). Options

z Y = yes (to continue the salvo with the camera specified in the next CAM entry).

POS CAM PRE AUX CN 01 0001 001 0- Y 02 0002 002 0- Y

The sample entries shown above indicate that during the salvo, Camera 1 (CAM 0001) will be displayed on the first monitor (POS 01), and Camera 2 (CAM 0002) on the second monitor (POS 02). The salvo will continue with the camera specified in the next CAM entry.

z S = salvo (to call another system salvo). At this point, the CAM entry refers to the called

salvo number. The monitor associated with this entry will become the first monitor in the new salvo group.

POS CAM PRE AUX CN 04 0004 000 0- S

The sample entries shown above indicate that another system salvo, Salvo 4, will be called when this salvo starts to run. The fourth monitor in this salvo (POS 04) will become the first monitor for Salvo 4.

z N = no (to stop the salvo at this camera).

Item Function

SITE

Sets a remote site number to associate a remote site camera with the position (monitor).

To enter a site number,

1) Enter the site number (1-64), or "0" to clear site number;

2) Press the ACK key to confirm.

Note

When the site number is set, the CAM entry refers to the camera number in the remote site.

5.3.4 Set Event Timer

An event timer is an automatic call-up of System Tours to any monitor on a user-programmed time and day. Up to 35 event timers are available for programming in V2040 system. Access the EVENT TIMER menu (shown right) from the SYSTEM menu to display the first event timer in the system. The menu items are described below:

Item Function

Time

z Displays the automatic call-up time for the current event timer; z Defines the new time value when creating a new event timer.

Note Upon initial setup, the default time will be displayed as

24:00 ILLEGAL TIME

Therefore, a new time value must be entered prior to Event Timer Programming.

To create a new event timer,

1) Enter the new time values on the keypad. Note that time is always entered in 24-hour

military time format (00:00 ~ 23:59);

2) Press the ACK key to confirm. At this point, the cursor will move to the EDIT TIMER line;

3) Access the EDIT TIMER sub-menu to program the created event timer. See guidelines in

Item

for details.

SYSTEM

1 SET TIME AND DATE

2 SET SYSTEM TOURS

3 SET SYSTEM SALVOS

4 SET EVENT TIMERS

5 SET ALARM CONTACTS

6 MONITOR STATUS

RETURN MAIN

EVENT TIMER

08:20 DISABLED

EDIT TIMER

NEXT TIMER

CLEAR TIMER

ENABLE TIMER

CHANGE TIMER TO HH:MM

PREVIOUS MENU

Item Function

Status

Indicates the enabled/disabled status of the current event timer.

Item Function

EDIT TIMER

Accesses the SET EVENT TIMER sub-menu for programming the current event timer.

EVENT TIMER

08:20 DISABLED

EDIT TIMER

NEXT TIMER

CLEAR TIMER

ENABLE TIMER

CHANGE TIMER TO HH:MM

PREVIOUS MENU

MON

001 002 003 004

ALM

SET EVENT TIMER

DAY OF WEEK

PREVIOUS MENU

TIME - 08:20

T 03 00 00 00

To program an event timer,

1) Move the cursor to the entry indicating the desired day of week and monitor;

2) Enter the desired system tour number, or "00" when no tour is desired, or "65" to stop the

running tour, and press the ACK key to confirm;

3) If the automatic Alarm Monitor/Contact (ALM) call-up function is desired here, move the

cursor to the associated ALM entry;

4) Enter the Monitor/Contact Table number (0-2) and press the ACK key to confirm:

0 = to use the default Monitor/Contact Table; 1 = to use Monitor/Contact Table 1; 2 = to use Monitor/Contact Table 2; Note: For details on Monitor/Contact Table, Please refer to Section 5.7.6.

5) Repeat Steps 1 through 4 until all the desired entries are defined.

Item Function

NEXT TIMER

Moves to the next event timer that has been created.

To move to the next event timer,

Move the cursor to this item and press the ACK key. At this point, the time of the selected event timer will be displayed in

Item Function

CLEAR TIMER

Removes the currently displayed event timer from the system.

To clear the event timer,

Move the cursor to this item and press the ACK key. Note

The procedure deletes ONLY the selected event timer.

Item Function

ENABLE TIMER

Activates the currently displayed event timer.

To enable the event timer,

Move the cursor to this item and press the ACK key. Note

When the event timer is enabled, this item will be changed to:

ENABLE

At this point, the item can be used to deactivate the event timer.

Item Function

CHANGE TIMER TO HH:MM

Changes the automatic call-up time for the current event timer.

To change the time,

1) Move the cursor to the "HH" entry of this item;

2) Enter the correct hour value on the keypad;

3) Press the ACK key to confirm. The cursor will move to the next entry, "MM";

4) Enter the correct minute value on the keypad;

5) Press the ACK key to confirm. At this point, the new time value will be displayed in Item

5.3.5 Set Alarm Contact

SYSTEM

1 SET TIME AND DATE

2 SET SYSTEM TOURS

3 SET SYSTEM SALVOS

4 SET EVENT TIMERS

5 SET ALARM CONTACTS

6 MONITOR STATUS

RETURN MAIN

Item Function

ACN

Item Function

CAM

The ALARM CONTACT SETUP menu is used to assign site cameras to follow alarm contacts at the surveillance sites. Once

ALARM CONTACT SETUP

DWL

AUX

PRE

CAM

ACN 0001 0002 0003 0004 0005 0006 0007 0008

ACN 0001 002 01Y:024 0001 0002 0003 0004 0005 0006 0007 0008

000

0001

000

0002

000

0003

000

0004

000

0005

000

0006

1-ON

005

0007

000

0008

PREVIOUS MENU

ALARM CONTACT SETUP

SITE

---

--N:---

---

--N:---

---

--N:---

---

--N:---

---

--N:---

---

--N:---

---

PREVIOUS MENU

RACNTE

N N N N N N Y N

Page

Right

----

alarmed, an alarm contact will automatically activate the associated camera to capture live images at a pre-defined position (PRE) for a certain period of time (DWL). Auxiliary (AUX) and salvo call (CN) functions are also available upon alarm. A single screen page permits setup operations for 8 alarm contacts (ACNs). The CLOSE/OPEN keys can be used for page-down/page-up.

The entry items are described below:

ALARM CONTACT SETUP

ACN

CAM

DWL02PRE

0001

A B C D E F

001

AUX 1 ONCNN

Page

Right

ALARM CONTACT SETUP

ACN SITE TE RACN

0001 002 01Y:024 0001

G H I J

Alarm Contact Number, each indicating an alarm contact in the system.

Note

Since each ACN entry is a unique one, a camera can be called as many times as required, with different dwell times, presets, etc.

Assign a camera to follow the associated alarm contact.

To select a camera,

1) Enter the camera number (1-1024 Real number or 1-9999 for Pseudo number);

2) Press the ACK key to select the camera. Note

The entry can also indicate a System Salvo. Please see the CN options discussed in Item F.

Item Function

DWL

Defines the Dwell Time for the CAM entry.

To set the Dwell Time for the camera,

1) Enter the Dwell Time (1-60) in seconds, or enter "61" to hold the camera;

2) Press the ACK key to confirm.

Item Function

PRE

Sets the camera's preset position (Preset). To sets a preset position for the camera,

1) Enter the preset number (1-255), or "0" to disable the Preset function;

2) Press the ACK key to confirm.

Item Function

AUX

Sets the on/off status for the camera's auxiliary relay to switch on/off automatically when the camera is called upon alarm.

Options and code numbers 1 = AUX 1 ON 5 = AUX 1 OFF 2 = AUX 2 ON 6 = AUX 2 OFF 3 = AUX 3 ON 7 = AUX 3 OFF 4 = AUX 4 ON 8 = No auxiliary called

Item Function

Connect Next (see the following examples for details). Options

z N = no (no Connect Next function is desired). z Y = yes (to call the camera in the next CAM entry simultaneously to the next contiguous

monitor).

The sample entries shown above indicate that when Alarm Contact 1 (ACN 0001) is alarmed, Camera 1 (CAM 0001) will be automatically displayed on the monitor associated with Alarm Contact 1 (see Section 5.7.6), and Camera 2 (CAM 0002) will be simultaneously displayed on the next contiguous monitor. Note: The dwell time of CAM 0002 is defined as "00" since it is controlled by the previous entry, CAM 0001. The monitor arming types can be BSI, BSA, BSM, BHI, BHA, BHM when CN is set to ‘Y’

z S = salvo (to call up a system salvo).

Note: At this point, the associated CAM entry indicates the salvo number.

The sample entries shown above indicate that when Alarm Contact 3 (ACN 0003) is alarmed, System Salvo 1 (CAM 0001) will be automatically called up. The monitor associated with Alarm Contact 1 (see Section 5.7.6) will become the first monitor for the called salvo. Note: The monitor arming types can be BSI, BSA, BSM, BHI, BHA, BHM when CN is set to ‘S’

z W = wired group (to activate all the ACN entries in a contiguous "wired group").

Note: To define a "wired group", the last CN entry of the group must be set to "N" or "S" while all the previous CN entries are set as "W".

The sample entries shown above have defined a "wired group" of three ACNs. If any alarm contact in the group is alarmed, all the three associated cameras will be simultaneously called to a contiguous group of monitors.

z W< = wired group for group clear. Its only difference from W is the clearance method:

clearing the alarm on any of the alarmed monitors will clear all alarmed videos in the group, while a W option requires manual clearance on each individual monitor. Note: The other three options, N<, Y<and S<, are factory reserved. The alarms on the monitor must be cleared manually one by one when CN is set to ‘W<’and the arming type is SSM, SHM, BSM, BHM or DHM.

Item Function

ACN

Alarm Contact Number, each indicating an alarm contact in the local system.

Note

Since each ACN entry is a unique one, a camera can be called as many times as required, with different dwell times, presets, etc.

Item Function

SITE

Selects a remote site to associate a camera in the site.

To select a desired remote site,

1) Enter the site number on the keypad.

2) Press the ACK key to select.

Note When a valid site number is entered in the SITE entry, the camera number in the CAM entry (B) will indicate the corresponding camera in the selected remote site.

ACN CAM DWL PRE AUX CN 0001 0001 05 001 1-ON Y 0002 0002 00 001 0- N

ACN CAM DWL PRE AUX CN

0003 0001 10 000 0- S

ACN CAM DWL PRE AUX CN 0005 0005 02 001 1-ON W 0006 0006 02 001 0- W 0007 0007 02 001 0- N

Item Function

Transmission Enabled. Associate the local alarm with any one of remote alarms (1-64).

Options

z The number before ‘N’ indicates the number of remote matrix switcher to which the local

alarm transmits. It ranges from 1 to 64, and could be continuously set.

z ‘N’ indicates transmission enabled. (N-disable Y-enable) z ‘N’ indicates which alarm the matrix switcher takes this alarm as to deal with after the local

alarm transmits to the remote matrix switcher.

Item Function

RACN

Used to indicate which alarm the matrix switcher takes this alarm as to deal with after the local alarm transmits to the remote matrix switcher.

Note: For details on installation and operation instructions for your DVR systems, please refer to relevant manuals provided with them.

5.3.6 Monitor Status

SYSTEM

1 SET TIME AND DATE

2 SET SYSTEM TOURS

3 SET SYSTEM SALVOS

4 SET EVENT TIMERS

5 SET ALARM CONTACTS

6 MONITOR STATUS

RETURN MAIN

MON

001 002 003

004

005 006

007

008

MONITOR STATUS

SITE

CAM 0015

---

0021

---

0032

---

0005

---

0009

---

0002

---

0014

---

0001

ACK TO EXIT

VIDEO

R H A R H R R H

TOUR

01 02 03 04 05

-Y

Select the MONITOR STATUS from the SYSTEM menu to access the Monitor Status menu. A single menu screen displays status information for 8 cameras. The CLOSE/OPEN keys can be used for page-down/page-up. The menu screen displays the following information of monitors:

MONITOR STATUS

MON01SITE CAM

0015STR

A B C D E F

TOUR

VIDEO V S

Y Y

Item Function

Refers to the monitor in the system.

MON

Indicates the remote site number currently being controlled.

SITE

Indicates the local or remote camera that is currently displayed on the monitor.

CAM

Displays the monitor status, i.e.,

z H (Hold); z R (Run); z A (Alarmed); z S (Salvo).

Indicates the tour that is currently running on the monitor.

TOUR

VIDEO

Indicates the Loss Detection Diagnostics for video (V) and sync (S) (This function will be available when DBVL modules are present in the system.): Y = yes (video/sync signal is present); N = no (video/sync signal loss occurred).

Sample Menu

MON

001 002

MONITOR STATUS

CAM

SITE

0015

--0021

---

VIDEO

TOUR

V S

Y Y

The sample menu indicates that:

z Monitor 1 is displaying Camera 15, and is in a Run status in Tour 01. z Monitor 2 is displaying Camera 21, and is in a Hold status in Tour 02. z No video or sync signal is lost.

5.4 Monitor Menu

Select the MONITOR menu from the MAIN SELECTION menu.

MAIN SELECTION

1 SYSTEM

2 MONITOR

3 CAMERA

4 PORTS

5 ACCESS

6 PRIORITY

7 SATELLITE

MONITOR - 001

ARM TYPE - DIS --- ACK - N

TOUR - --

DATE TIME - ON

TITLE DISPLAY -ON

CAM TITLE LCK - UNLOCKED

MON TITLE LCK- UNLOCKED

DISPLAY STATUS - HOLD

RETURN MAIN

Item Function

MONITOR

Selects the monitor to setup.

To select the monitor,

1) Move the cursor to the entry;

2) Enter the desired monitor number;

3) Press the ACK key to select.

Item Function

ARM TYPE

Defines the Arming Type for the monitor.

To program the arming type,

1) Move the cursor to the entry;

2) Press the ACK key to toggle through the available arming types,

Enter the desired arming codes on the keypad;

3) Press the NEXT key to confirm. Note

z Please refer to the Monitor Arming Codes Table in this section for selecting appropriate

arming types. For further details, please see Section 4.7.

z The default message "DIS" (disarmed) will be displayed upon initial setup.

Item Function

ACK

Either enables or disables Manual Alarm Acknowledge.

Options

z Y = yes (to enable Manual Alarm Acknowledge); z N = no (to disable Manual Alarm Acknowledge).

Use the ACK key to select.

Item Function

TOUR

Item Function

TIME DATE

Item Function

TITLE DISPLAY

Selects the system tour to display on the monitor.

To sel e c t a t o u r,

1) Enter the system tour number on the keypad;

2) Press the ACK key to confirm.

Determines whether the Date/Time information will be displayed on the monitor.

Options

z ON = to display the Date/Time on the monitor; z OFF = to remove the Date/Time displays from the monitor.

Use the ACK key to select.

Selects the on/off status of the on-screen Camera Title information.

Options

z ON = to display the Camera Title on the monitor; z OFF = to remove the Camera Title display from the monitor.

Use the ACK key to select.

A single menu screen displays the setup options for one monitor.

MONITOR - 001

ARM TYPE - DIS --- ACK - N

TOUR - 01

DATE TIME - ON

TITLE DISPLAY -ON

CAM TITLE LCK - UNLOCKED

MON TITLE LCK- UNLOCKED

DISPLAY STATUS - HOLD

Item Function

CAM TITLE LCK

Either locks or unlocks the on-screen Camera Title.

Options

z LOCKED = to "freeze" the on-screen Camera Title on the monitor; z UNLOCKED = to allow the on-screen Camera Title to be updated with each camera switch.

Use the ACK key to select.

Item Function

MON TITLE LCK

Either locks or unlocks the on-screen Camera Number and Monitor Status.

Options

z LOCKED = to set the on-screen Camera Number and Monitor Status into a locked state; z UNLOCKED = to allow the on-screen Camera Number and Monitor Status to be updated

with each event.

Use the ACK key to select.

Item Function

DISPLAY STATUS

Sets the display status for the monitor when a tour is selected for the monitor. (See Item

Options

z RUN = to run the selected tour; z HOLD = to hold the switched camera on the monitor.

Use the ACK key to select.

Table 5-1. Monitor Arming Codes Table

Code Description Arming Type Display

1 Single/Sequence/Instant Clear SSI 2 Single/Sequence/Auto Clear (after 20 seconds) SSA 3 Single/Sequence/Manual Clear (ACK key) SSM

4 Single/Hold/Instant Clear SHI 5 Single/Hold/Auto Clear SHA 6 Single/Hold/Manual Clear SHM

7 Block/Sequence/Instant Clear BSI 8 Block/Sequence/Auto Clear BSA 9 Block/Sequence/Manual Clear BSM

10 Block/Hold/Instant Clear BHI 11 Block/Hold/Auto Clear BHA 12 Block/Hold/Manual Clear BHM

First Monitor

Arming Type Display

Second Monitor

Arming Type Display 13 Dual/Hold and Sequence/Instant Clear DHI DSI 14 Dual/Hold and Sequence/Auto Clear DHA DSA

15 Dual/Hold and Sequence/Manual Clear DHM DSM 16 Disarm monitor 17 Acknowledge Enabled: gives Manual Clear a priority over Instant Clear and Auto Clear. It should be

programmed only after arming the monitors.

18 Acknowledge Disabled: prohibits Manual Clear in any Instant/Auto Clear mode. It should be programmed

only after arming the monitors.

5.5 Camera Menu

MAIN SELECTION

1 SYSTEM

2 MONITOR

3 CAMERA

4 PORTS

5 ACCESS

6 PRIORITY

7 SATELLITE

The Camera menu (shown above) is used to assign a Pseudo (logical) number to each camera, and to create or change the camera's title information.

Item Function

REAL

Indicates the Real number of a camera.

CAMERA

1 PSEUDO

2 TITLE

RETURN MAIN

Item Function

PSEUDO

Assigns a Pseudo number to the camera.

To change a camera's Pseudo number,

1) Move the cursor to the entry;

2) Enter the desired Pseudo number (1-9999) on the numeric keypad;

3) Press the ACK key to confirm. Note: If Camera A's Real number is chosen as the Pseudo number for Camera B, Camera B's real number will then be automatically assigned as the Pseudo number for Camera A.

To locate a Pseudo camera number in the menu,

1) Enter the desired Pseudo number on the numeric keypad;

2) Press either the CLOSE (page up) or the OPEN (page down) key in the IRIS section of the

keyboard to display the camera entry.

R SITE

Item Function

R CAM

Example

If local site 1 requests image from remote site 2, setting the network pseudo and calling up it can be a solution. MENU setup: REAL PSEUDO R SITE R CAM

5000 02 0002

Afterward, input “1 MON 5000 CAM” on the local keyboard to request the image of CAM 2 from remote site 2.

Function Assigns a number to the remote site.

1) Move the cursor to the entry;

2) Enter the desired remote site number (1-64) on the numeric keypad;

3) Press the ACK key to confirm. Note: The desired remote site number (1-64) can’t duplicate from the local site number.

Assigns a number to the remote camera.

1) Move the cursor to the entry;

2) Enter the desired remote camera number (1-9999) on the numeric keypad;

3) Press the ACK key to confirm.

5.5.1 Assign Pseudo Cameras

CAMERA

1 PSEUDO

2 TITLE

RETURN MAIN

ASSIGN PSEUDO CAMERA S

CAMERA

REAL

PSEUDO

0001

1025

0002

1026

0003

1027

0004

1028

0005

1029

0006

1030

0007

1031

0008

1032

PREVIOUS MENU

R SITE

R CAM

----

V2040 can assign a Pseudo number (1-9999) to each of up to 1024 cameras to facilitate system management. A Pseudo number is the logical number that the system assigns to a specific camera. By default, each camera's Pseudo number is the same as its Real number.

5.5.2 Camera Title

CAMERA

1 PSEUDO

2 TITLE

RETURN MAIN

Item Function

CAMERA

Item Function

TITLE

Characters To create or edit the title for the selected camera,

1) Use the NEXT key to locate the cursor in B;

2) Use the joystick to locate the desired letters, numbers or symbols in

3) Repeat Step 2 until the entire camera title is defined. Note: Enter a white space to create a space between characters.

5.6 Port Menu

MAIN SELECTION

1 SYSTEM

2 MONITOR

3 CAMERA

4 PORTS

5 ACCESS

6 PRIORITY

7 SATELLITE

Item Function

PORT

Item Function

BAUD

The Camera menu (shown left) is used to define the title information for each camera. A camera title can include a maximum of 16 characters.

TITLE-

CAMERA - 0001

ABCDEFGHIJKLM NOPQRSTUVWXYZ a b c d e f g h i j k l m n o p q r s t u v w x y z

0 1 2 3 4 5 6 7 8 9

: - . / ;

PREVIOUS MENU

< >

Selects a camera for title programming.

To select a desired camera,

1) Move the cursor to the entry;

2) Enter the camera number on the keypad;

3) Press the ACK key to select the camera.

Note

Two cursors exist in this menu screen: one indicating the current active field, and the other indicating the alphanumeric characters to be selected. The NEXT key is used to move the field-positioning cursor, and the joystick is used to move the cursor within the selectable letters, numbers and symbols.

Indicates the entered characters of the camera title.

Selects the characters when defining the camera title.

, and press the ACK key to confirm;

The PORT menu (shown left) is used to configure Baud Rates, Data

PORT - 01

BAUD - 1200 DATA BITS - 8 PARITY - NONE STOP BITS - 1 PORT USE - KEYBOARD

RETURN MAIN

Bits, Parity, Stop Bits, and Port Use for each RS-232 port.

Selects an RS-232 port for programming.

To select a desired port,

1) Locate the cursor in the entry;

2) Enter the desired port number (1-10) on the keypad;

3) Press the ACK key to select.

Defines the Baud rate of the port.

Options and code numbers,

1 = 1200 bps 3 = 4800 bps 2 = 2400 bps 4 = 9600 bps When PORTUSE=TERMINAL other BAUD types are 5 = 19200 bps 6 = 38400 bps 7 = 57600 bps 8 = 115200 bps

Item Function

DATA BITS

Selects the number of data bits of the data word for the port.

Options

7 or 8

Item Function

PA RI TY

Defines the parity for the port.

Options and code numbers,

1 = NONE 2 = ODD 3 = EVEN

Item Function

STOP BITS

Selects the number of stop bits of the data word for the port.

Options

1 or 2

Item Function

PORT USE

Determines the use or the device connected to the port.

Options and code numbers, 1 = ALARM: Used for connecting Alarm Interface Units to obtain multiple alarm outputs. 2 = KEYBOARD: Used for connecting keyboards. 3 = TERMINAL: Used for communication with PCs. Choose this when using any PC based

management software (such as the V2210) or parameter download software V2923SW. A baud-rate of 4800 is recommended.

4 = PRINTER: Used to output messages to a serial printer. 5 = AUX: Used to connect auxiliary devices. 6 = VIDEO LOSS: Used to connect the DBVL (Data Buffer with Video Loss Detection)

outputs. Video Loss Detection information can be transferred via Ethernet to the IP address of No. 64 Site. 7= ALARM TRAN: Used to forward the alarm information to other video matrix switching system or any PC based management software (such as the V2210).

5.7 Access Menu

MAIN SELECTION

1 SYSTEM

2 MONITOR

3 CAMERA

4 PORTS

5 ACCESS

6 PRIORITY

7 SATELLITE

The ACCESS menu is used for programming system access controls including:

z Keyboard/Monitor z Keyboard/Camera View z Keyboard/Camera Control z Monitor/Camera Access z Monitor/Contact Access z Keyboard/Remote Site

ACCESS

1 KEYBOARD/MONITOR

2 KEYBOARD/CAMERA VIEW

3 KEYBOARD/CAMERA CTRL

4 MONITOR/CAMERA ACCESS

5 MONITOR/CONTACT ACCESS

6 KEYBOARD/REMOTE SITE

RETURN MAIN

5.7.1 Keyboard Numbers

V2040's ten RS-232 ports can be expanded to accept a maximum of 40 keyboards through the use of the V2405-4 port expanders. Please refer to the following table for the keyboard numbers.

Table 5-2. Keyboard Numbers

Port With Expander Without Expander

Port 1 1 ~ 4 1

Port 2 5 ~ 8 5 Port 3 9 ~ 12 9 Port 4 13 ~ 16 13

Port 5 17 ~ 20 17 Port 6 21 ~ 24 21 Port 7 25 ~ 28 25

Port 8 29 ~ 32 29 Port 9 33 ~ 36 33 Port 10 37 ~ 40 37

5.7.2 Keyboard/Monitor

ACCESS

1 KEYBOARD/MONITOR

2 KEYBOARD/CAMERA VIEW

3 KEYBOARD/CAMERA CTRL

4 MONITOR/CAMERA ACCESS

5 MONITOR/CONTACT ACCESS

6 KEYBOARD/REMOTE SITE

RETURN MAIN

Keyboard/Monitor options

Y = yes (to allow the keyboard to control the monitor); N = no (to restrict the keyboard from controlling the monitor).

Note

Please refer to Section 5.7.1 for details on keyboard numbers.

Example

To allow Keyboard 1 to control Monitor 1 and prevent Keyboard 5 from controlling Monitor 9,

1) Locate the cursor in the entry that indicates Keyboard 1 and Monitor 1;

2) Use the ACK key to select "Y";

3) Press the ON key in the AUXILIARY section to display entries for Keyboard 5;

4) Press the OPEN key in the IRIS section to display entries for Monitor 9;

5) Locate the cursor in the entry that indicates Keyboard 5 and Monitor 9;

6) Use the ACK key to select "N".

Ethernet options

Y = yes (to allow the monitor to be controlled by other sites over the Ethernet); N = no (to restrict the monitor from being controlled by other sites over the Ethernet).

Example

To restrict Monitor 9 from being controlled by other sites over the Ethernet,

1) Press the OPEN key in the IRIS section to display entries for Monitor 9;

2) Locate the cursor in the entry that indicates Monitor 9;

3) Use the ACK key to select "N".

KEYBOARD/MONITOR

KEYBOARDS

MON

PREVIOUS MENU

KEYBOARDS

ETHERNET

Y Y Y Y Y Y Y Y

PREVIOUS MENU

03 Y Y Y Y Y Y Y Y

001 002 003 004 005 006 007 008

KEYBOARD/MONITOR

MON

001 002 003 004 005 006 007 008

MON

00101Y02Y03Y04Y

MON

00905N06Y07Y08Y

MON

ETHERNET

009

Y Y N N Y Y Y Y

Page Right

to The

Last Page

The KEYBOARD/MONITOR menu is used to assign monitor control ability to specific keyboards.

The menu has multiple screen pages, each permitting setup operations for 8 monitors and 4 keyboards. Scroll the menu page-down to setup more monitors and page-forward for more keyboards (see Section 5.2).

5.7.3 Keyboard/Camera View

ACCESS

1 KEYBOARD/MONITOR

2 KEYBOARD/CAMERA VIEW

3 KEYBOARD/CAMERA CTRL

4 MONITOR/CAMERA ACCESS

5 MONITOR/CONTACT ACCESS

6 KEYBOARD/REMOTE SITE

RETURN MAIN

KEYBOARD/CAMERA VIEW

CAM

0001

0002

0003

0004

0005

0006

0007

0008

PREVIOUS MENU

KEYBOARD/CAMERA VIEW

CAM

ETHERNET 0001 0002 0003 0004 0005 0006 0007 0008

PREVIOUS MENU

KEYBOARDS

02 Y N Y Y Y Y Y Y

KEYBOARDS

Y Y Y Y Y Y Y Y

The KEYBOARD/CAMERA VIEW menu is used to assign camera

Page Right to the

Last

Page

call up ability to specific keyboards.

The menu has multiple screen pages, each permitting setup operations for 8 cameras and 4 keyboards. Scroll the menu page-down to setup more cameras and page-forward for more keyboards (see Section 5.2).

Keyboard/Camera View options

Y = yes (to allow the keyboard to call up the camera for video viewing); N = no (to restrict the keyboard from calling up the camera).

Note

Please refer to Section 5.7.1 for details on keyboard numbers.

Example

To allow Keyboard 1 to call up Camera 1 and prevent Keyboard 5 from calling up Camera 9,

1) Locate the cursor in the entry that indicates Keyboard 1 and Camera 1;

2) Use the ACK key to select "Y";

CAM 000101Y02Y03Y04Y

3) Press the ON key in the AUXILIARY section to display entries for Keyboard 5;

4) Press the OPEN key in the IRIS section to display entries for Camera 9;

5) Locate the cursor in the entry that indicates Keyboard 5 and Camera 9;

6) Use the ACK key to select "N".

CAM 000905N06Y07Y08Y

Ethernet options

Y = yes (to allow the camera to be viewed by other sites over the Ethernet); N = no (to restrict the camera from being viewed by other sites over the Ethernet).

Example

To restrict Camera 9 from being viewed by other sites over the Ethernet,

1) Press the OPEN key in the IRIS section to display entries for Camera 9;

2) Locate the cursor in the entry that indicates Monitor 9;

3) Use the ACK key to select "N".

CAM

ETHERNET

0009

5.7.4 Keyboard/Camera Control

ACCESS

1 KEYBOARD/MONITO R

2 KEYBOARD/CAMERA VIE W

3 KEYBOARD/CAMERA CT RL

4 MONITOR/CAMERA ACCESS

5 MONITOR/CONTACT ACCESS

6 KEYBOARD/REMOTE SITE

RETURN MAIN

CAM 0001 0002 0003 0004 0005 0006 0007 0008

Keyboard/Camera Control options

Y = yes (to allow the keyboard to control the camera); N = no (to restrict the keyboard from controlling the camera).

Note

Please refer to Section 5.7.1 for details on keyboard numbers.

Example

To allow Keyboard 1 to control Camera 1 and prevent Keyboard 5 from controlling Camera 9,

1) Locate the cursor in the entry that indicates Keyboard 1 and Camera 1;

2) Use the ACK key to select "Y";

3) Press the ON key in the AUXILIARY section to display entries for Keyboard 5;

4) Press the OPEN key in the IRIS section to display entries for Camera 9;

5) Locate the cursor in the entry that indicates Keyboard 5 and Camera 9;

6) Use the ACK key to select "N".

CAM 000101Y02Y03Y04Y

CAM 000905N06Y07Y08Y

KEYBOARD/CAMERA CTR L

KEYBOARDS

PREVIOUS MENU

KEYBOARD/CAMERA CTRL

KEYBOARDS

ETHERNET

Y Y Y Y Y Y Y Y

PREVIOUS MENU

Page Right

to The

Last Page

The KEYBOARD/CAMERA CTRL menu is used to assign camera control ability (including pan/tilt and iris/focus/zoom lens control) to specific keyboards.

Ethernet options

Y = yes (to allow the camera to be controlled by other sites over the Ethernet); N = no (to restrict the camera from being controlled by other sites over the Ethernet).

Example

To restrict Camera 9 from being controlled by other sites over the Ethernet,

1) Press the OPEN key in the IRIS section to display entries for Camera 9;

2) Locate the cursor in the entry that indicates Monitor 9;

3) Use the ACK key to select "N".

CAM

ETHERNET

0009

5.7.5 Monitor/Camera Access

ACCESS

1 KEYBOARD/MONITOR

2 KEYBOARD/CAMERA VIEW

3 KEYBOARD/CAMERA CTRL

4 MONITOR/CAMERA ACCESS

5 MONITOR/CONTACT ACCESS

6 KEYBOARD/REMOTE SITE

RETURN MAIN

Monitor/Camera options

Y = yes (to allow the monitor to display video images from the camera); N = no (to restrict the monitor from displaying video images from the camera).

Example

To allow Monitor 1 to display Camera 1 and prevent Monitor 5 from displaying Camera 9,

1) Locate the cursor in the entry that indicates Monitor 1 and Camera 1;

2) Use the ACK key to select "Y";

CAM 000101Y02Y03Y04Y

3) Press the ON key in the AUXILIARY section to display entries for Monitor 5;

4) Press the OPEN key in the IRIS section to display entries for Camera 9;

5) Locate the cursor in the entry that indicates Monitor 5 and Camera 9;

6) Use the ACK key to select "N".

CAM 000905N

5.7.6 Monitor/Contact Access

ACCESS

1 KEYBOARD/MONITOR

2 KEYBOARD/CAMERA VIEW

3 KEYBOARD/CAMERA CTRL

4 MONITOR/CAMERA ACCESS

5 MONITOR/CONTACT ACCESS

6 KEYBOARD /REMOTE SITE

RETURN MAIN

Item Function

MON CONTACT TABL E

The MONITOR/CAMERA ACCESS menu is used to restrict selected monitors from displaying video images from specific

MONITOR/CAMERA ACCESS

MONITORS

002

001

CAM 0001 0002 0003 0004 0005 0006 0007 0008

PREVIOUS MENU

004

003

cameras.

The menu has multiple screen pages, each permitting setup operations for 8 cameras and 4 monitors. Scroll the menu page-down to setup more cameras and page-forward for more monitors (see Section 5.2).

06Y07Y08

The MONITOR/RELAY CONTACTS menu is used to associate

MON/CONTACT TABLE - -

MONITORS

001

ACN

0001

0002

0003

0004

0005

0006

0007

0008

PREVIOUS MENU

002

N N N N N N Y N

004

003

monitors with specific alarm contacts so that alarmed videos

triggered by these alarm contacts can be automatically switched to corresponding monitors.

The menu has multiple screen pages, each permitting setup operations for 8 alarm contacts and 4 monitors. Scroll the menu page-down to setup more alarm contacts and page-forward for more monitors (see Section 5.2).

Selects one of the3 Monitor/Contact Tables to program.

Note

z The menu provides 3 Monitor/Contact Tables (0-2), each defining a set of different

Monitor/Contact associations.

z Table 0, displayed as

MON/CONTACT TABLE - -

, is the default table that indicates the

Monitor/Contact arming status currently active in the system.

z ONLY Event Timers (see Section 5.3.4) can activate Tables 1-2.

To select a table to program,

1) Move the cursor to the entry;

2) Enter the desired table number (0-2), and press the ACK key to select.

Monitor/Relay Contact options

Y = yes (to allow alarmed videos triggered by the alarm contact to be automatically switched to the monitor); N = no (to disable the monitor from automatically responding to the alarm contact).

Example

To allow alarmed videos triggered by Alarm Contact 9 to be automatically switched to Monitor 5,

1) Press the ON key in the AUXILIARY section to display entries for Monitor 5;

2) Press the OPEN key in the IRIS section to display entries for Alarm Contact 9;

3) Move the cursor to the entry that indicates Monitor 5 and Alarm Contact 9;

4) Use the ACK key to select "Y".

ACN 000905Y06N07N08N

5.7.7 Keyboard/Remote Site

ACCESS

1 KEYBOARD/MONITOR

2 KEYBOARD/CAMERA VIEW

3 KEYBOARD/CAMERA CTRL

4 MONITOR/CAMERA ACCESS

5 MONITOR/CONTACT ACCESS

6 KEYBOARD /REMOTE SITE

RETURN MAIN

Keyboard/Remote Site options

Y = yes (to allow the keyboard to control the remote site); N = no (to disable the keyboard from controlling the remote site). By defaulted, all keyboards are enabled to access all remote sites.

Example

To disable keyboard 2 and 3 from access remote site 9,

1) Move the cursor to the entry that indicates Site 9 and Keyboard 2;

2) Press the ACK key to toggle "Y" to “N”;

3) Move the cursor to the entry that indicates Site 9 and Keyboard 3;

4) Press the ACK key to toggle “Y” to “N”.

SITE 000901Y02N03N04Y

Note

Keyboard/ Remote Site submenu provides an access restriction of a maximum of 40 keyboards that attaches to the RS-232 ports and an Ethernet Keyboard that attaches to the Ethernet port on V2040 External CPU.

5.8 Priority Menu

KEYBOARD/ REMOTE SITE

KEYBOARDS

SITE 001 002 003 004 005 006 007 008

PREVIOUS MENU

The Keyboard/Remote Site menu is used to restrict the system keyboards from access the remote site.

The menu has multiple screen pages, each permitting setup operations for 8 remote sites and 4 keyboards. Scroll the menu page-down to setup more sites (up to 64) and page-forward for more keyboards (up to 41) (see Section 5.2).

5.8.1 User Identification

MAIN SELECTION

1 SYSTEM

2 MONITOR

3 CAMERA

4 PORTS

5 ACCESS

6 PRIORITY

7 SATELLITE

1 USER IDENTIFICATION

2 SET KEYBOARD

3 SET PRIORITY

The PRIORITY menu, as a system security feature, provides the following functions:

z Programming up to 64 users, each with its own password; z Defining eight priority levels for system management; z Assigning each user or keyboard with an independent priority

level.

PRIORITY

RETURN MAIN

PRIORITY

1 USER IDENTIFICATION

2 SET KEYBOARD

3 SET PRIORITY

RETURN MAIN

USER IDENTIFICATION

USER IDS ENABLED Y

PREVIOUS MENU

The USER IDENTIFICATION menu (shown above) is used to enable/disable the User Identification function.

Item Function

USER IDS ENABLED

5.8.2 Set Keyboard

PRIORITY

1 USER IDENTIFICATION

2 SET KEYBOARD

3 SET PRIORITY

RETURN MAIN

Item Function

KEYBOARD

Item Function

PRIORITY LEVEL

5.8.3 Set User

PRIORITY

1 USER IDENTIFICATION

2 SET USER

3 SET PRIORITY

RETURN MAIN

Either enables or disables the USER IDS function. Options

z Y = yes (to enable the USER IDS function).

At this point the PRIORITY menu will display "SET USER" as its second item:

PRIORITY

1 USER IDENTIFICATION

2 SET USER

3 SET PRIORITY

Note: It is required to exit the menu programming after the function is used, and re-log on with the default password ‘999999’(Please refer to section 3.2 for details.)

z N = no (to disable the USER IDS function).

At this point, the PRIORITY menu will display "SET KEYBOARD" as its second item.

PRIORITY

1 USER IDENTIFICATION

2 SET KEYBOARD

3 SET PRIORITY

SET KEYBOARD

KEYBOARD - 01

PRIORITY LEVEL : 8

PREVIOUS MENU

If the USER IDS function has been disabled, the SET KEYBOARD menu can be used to assign a priority level to each keyboard. The SET PRIORITY menu can be used to configure the eight priority levels (see Section 5.8.4).

Selects the keyboard to configure.

To select a keyboard,

1) Move the cursor to the entry;

2) Enter the desired keyboard number (1-40) on the numeric keypad;

3) Press the ACK key to select.

Assign an appropriate priority level to the selected keyboard.

To define the priority level,

1) Move the cursor to the entry;

2) Enter the priority level number (1-8) on the numeric keypad;

3) Press the ACK key to confirm. Note

z Level 8 (default) is the highest level, and Level 1 is the lowest. z A higher level can inherit the functions permitted for its lower levels.

SET USER

USER NUMBER - 01

PRIORITY LEVEL : 8

PASSWORD:

XXXXXX

PREVIOUS MENU

If USER IDS has been enabled, the SET USER menu can be used to assign a password-protected user number and a priority level for each of up to 64 users. The SET PRIORITY menu can be used to configure the eight priority levels (see Section 5.8.4).

Item Function

USER NUM

Item Function

PRIORITY LEVEL

Item Function

PA SS WO RD

5.8.4 Set Priority

PRIORITY

1 USER IDENTIFICATION

2 SET USER

3 SET PRIORITY

RETURN MAIN

Item Function

LEVEL

Item Function

ADD USER

Selects the user to configure.

To sel e c t a u s e r,

1) Move the cursor to the entry;

2) Enter the desired user number (1-64) on the numeric keypad;

3) Press the ACK key to select.

Assign an appropriate priority level to the selected user.

To define the priority level,

1) Move the cursor to the entry;

2) Enter the priority level number (1-8) on the numeric keypad;

3) Press the ACK key to confirm. Note

z Level 8 (default) is the highest level, and Level 1 is the lowest. z A higher level can inherit the functions permitted for its lower levels.

Assigns a password to the user.

To define a password,

1) Move the cursor to the entry;

2) Enter the password (a maximum of six digits) on the numeric keypad;

3) Press the ACK key to confirm. You will be prompted to verify the password by a

"VERIFY PASSWORD" message;

4) Re-enter the same password as in Step 3;

5) Press the ACK key to confirm. If the code is not verified, the message

"**ERROR - REENTER PASSWORD" will be displayed, and Steps 1 through 4 must be repeated until successful verification.

SET PRIORITY

LEVEL 1

ADD USER Y

SYSTEM RESET Y

LOCK CAM ABILITY Y

UTILIZE V/C ACCESS

MENU ACCESS Y

CHANGE PARAMETERS Y

PREVIOUS MENU

The SET PRIORITY menu (shown left) is used to configure each of the eight priority levels. Upon initial setup, all the eight levels are defaulted with the same configurations.

Selects the level to configure.

To select a level,

1) Move the cursor to the entry;

2) Enter the desired level number (1-8) on the numeric keypad;

3) Press the ACK key to select.

Determines whether the user can add a new user into the system.

Options

z Y = yes (to enable the user to add a new user into the system); z N = no (to restrict the user from adding a new user).

Use the ACK key to select. Note

To use this function, the USER IDS must be enabled first (see Section 5.8.1).

Item Function

SYSTEM RESET

Enables or disables the System Reset (see Section 4.1) ability for the user/keyboard.

Options

z Y = yes (to enable the user/keyboard to reset the system); z N = no (to prevent the user/keyboard from resetting the system).

Use the ACK key to select.

Item Function

LOCK CAM ABILITY

Decides whether the Camera Lockout ability (see Section 4.6) is allowed for the user/keyboard.

Options

z Y = yes (to give the user/keyboard the Camera Lockout ability); z N = no (to disable the Camera Lockout ability for the user/keyboard).

Use the ACK key to select.

Item Function

View/Control

Defines the Keyboard-to-Camera View/Control ability for the user/keyboard.

Options

z UTILIZE V/C ACCESS = KEYBOARD/CAMERA VIEW (see Section 5.7.3) and

KEYBOARD/CAMERA CTRL setup are valid (see Section 5.7.4).

z OVERRIDE V/C CONTROL = to restrict the user/keyboard to view and control all the

system cameras.

Use the ACK key to select.

Item Function

MENU ACCESS

Enables or Disables the Menu Access ability for the user/keyboard.

Options

z Y = yes (to give the user/keyboard the Menu Access ability); z N = no (to disable the Menu Access ability for the user/keyboard).

Use the ACK key to select.

Item Function

CHANGE PARAMETERS

Determines whether the user/keyboard is allowed to change system parameters.

Note To use this function, Item F must be enabled first.

Options

z Y = yes (to give the user/keyboard the ability to change system parameters); z N = no (to prevent the user/keyboard from changing system parameters).

Use the ACK key to select.

5.9 Networking Configuration Menu

The V2040N stands out for networking capability that permits a maximum of 64 separate V2040 systems (sites) to communicate with each other in a network.

MAIN SELECTION

1 SYSTEM

2 MONITOR

3 CAMERA

4 PORTS

5 ACCESS

6 PRIORITY

7 SATELLITE

SATELLITE CONFIGURATION

1 LOCAL SITE NUMBER

2 VIDEO TRUNK ASSIGNMENT

3 REMOTE SITE IP ADDRESS

RETURN MAIN

5.9.1 Local Site Number

Each site in a network must be assigned a separate Site Number. This Site Number is required for addressing purpose when commands and data are transmitted via the TCP/IP interfaces between sites. The Site Number menu allows assigning a Site Number and Priority Level to the Local Site. Each Site must be setup locally for its Site Number.

SATELLITE CONFIGURATION

1 LOCAL SITE NUMBER

2 VIDEO TRUNK ASSIGNMENT

3 REMOTE SITE IP ADDRESS

RETURN MAIN

LOCAL SITE NUMBER

LOCAL SITE NUMBER : 001

IP ADDR : 192.168.000.000

MASK : 255.255.255.000

GATE : 192.168.000.000

PRIORITY LEVEL : 8

PREVIOUS MENU

Item Function

LOCAL SITE NUMBER

Assigns a site number to the local site.

To assign a desired site number,

1) Move the cursor to the entry;

2) Enter the site number (1-64) on the numeric keypad;

3) Press the ACK key to confirm.

Item Function

IP ADDR

Sets the IP address of the local site.

Note

The IP address is defaulted as "192.168.000.000". Please well plan your network structure before setting a new IP address. To set a desired IP address for the local site,

1) Move the cursor to the first entry of the item;

2) Enter the first three digits of the 12-digit IP address, and press the ACK key;

3) Enter the second three digits of the 12-digit IP address, and press the ACK key;

4) Enter the third three digits of the 12-digit IP address, and press the ACK key;

5) Enter the last three digits of the 12-digit IP address, and press the ACK key.

Item Function

MASK

Sets the subnet mask for the local site.

Note

The subnet mask is defaulted as "255.255.255.000". Please well plan your network structure before setting a new subnet mask.

To set a new subnet mask for the local site,

Move the cursor to the first entry of the item; Enter the first three digits of the 12-digit subnet mask, and press the ACK key; Enter the second three digits of the 12-digit subnet mask, and press the ACK key; Enter the third three digits of the 12-digit subnet mask, and press the ACK key; Enter the last three digits of the 12-digit subnet mask, and press the ACK key.

Item Function

GATE

Sets the gateway IP address for the local site.

Note

The gateway address is defaulted as "192.168.000.000". Please well plan your network structure before setting a new gateway IP address. To set a desired IP address for gateway,

1) Move the cursor to the first entry of the item;

2) Enter the first three digits of the 12-digit IP address, and press the ACK key;

3) Enter the second three digits of the 12-digit IP address, and press the ACK key;

4) Enter the third three digits of the 12-digit IP address, and press the ACK key;

5) Enter the last three digits of the 12-digit IP address, and press the ACK key.

Item Function

PRIORITY LEVEL

Assign an appropriate priority of the remote site to control the local site To define the priority level

1) Move the cursor to the entry;

2) Enter the priority level number (1-8) on the numeric keypad;

3) Press the ACK key to confirm.

Note

z Level 8 (default) is the highest level, and Level 1 is the lowest. z A higher level can inherit the functions permitted for its lower levels.

5.9.2 Video Trunk Assignments

SATELLITE CONFIGURATION

1 LOCAL SITE NUMBER

2 VIDEO TRUNK ASSIGNMENT

3 REMOTE SITE IP ADDRESS

RETURN MAIN

VIDEO TRUNK LEVEL 3

LOCAL

CAM 0001 0002 0003 0004 0005 0006 0007 0008

REM CAM

----

PREVIOUS MENU

REM SITE

REM

MON

---

Page

---

Right

Item Function

LOCAL CAM

Identifies camera inputs at Local Site which are used for video trunk inputs from Remote Site.

To define the video trunk inputs to the Local Site,

1) Move the cursor to the desired LOCAL CAM line to select a Local camera input for each

2) Move the cursor to the REM SITE column for the camera input.

Item Function

REM SITE

Identifies the remote site that provides the video trunk inputs to the LOCAL CAM input. Note: If no REMOTE Site video trunk is connected to the LOCAL CAM input, leave this entry blank.

To define the REMOTE site which provides the video trunk inputs to the LOCAL CAM input,

1) Move the cursor to the REM SITE column for the LOCAL CAM;

2) Enter a Site Number (1-64) to be identified for this Local input;

3) Press the ACK key to save the REM SITE number.

VIDEO TRUNK ASSIGNMENT

LOCAL

REM SITE

REM MON

---

CAM 0001 0002 0003 0004 0005 0006 0007 0008

PREVIOUS MENU

Page Right

VIDEO TRUNK LEVEL 1

LOCAL

CAM 0001 0002 0003 0004 0005 0006 0007 0008

REM

SITE

CAM

----

PREVIOUS MENU

REM MON

---

Page Right

VIDEO TRUNK LEVEL 2

LOCAL

CAM 0001 0002 0003 0004 0005 0006 0007 0008

REM

SITE

CAM

----

PREVIOUS MENU

REM MON

---

video trunk input to be configured;

The Video Trunk Assignments menu defines the camera inputs at the Local receiving site that are used as inputs for video trunk links from each Remote Sending SITE. This provides proper switching when Local users call Remote cameras.

Item Function

REM MON

Example

As the main control matrix, local SITE 001 calls up the remote SITE 2, SITE 3, SITE 4, and SITE 5, in which the SITE 5 is the object matrix. MENU setup:

VIDEO TRUNK ASSIGHNMENT LOCAL CAM REM SITE REM MON 0009 005 005 TRUNK LEVEL 1 LOCAL CAM REM CAM REM SITE REM MON 0009 0010 002 006 TRUNK LEVEL 2 LOCAL CAM REM CAM REM SITE REM MON 0009 0011 003 007 TRUNK LEVEL 3 LOCAL CAM REM CAM REM SITE REM MON 0009 0012 004 008

Note: The ON/OFF keys can be used for page-left/page-right. To setup 4 level networking: VIDEO TRUNK ASSIGHMENT-- VIDEO TRUNK LEVEL 1-- VIDEO TRUNK LEVEL 2-- VIDEO TRUNK LEVEL 3, setup the 4 level video trunk assignment step by step.

5.9.3 Remote Site IP Address

SATELLITE CONFIGURATION

1 LOCAL SITE NUMBER

2 VIDEO TRUNK ASSIGNMENT

3 REMOTE SITE IP ADDRESS

RETURN MAIN

Item Function

REMOTE SITE

Item Function

IP ADDRESS

Identifies the Monitor output from the REMOTE site (REM SITE) which is connected to this LOCAL CAM input. Note: If no REMOTE Site video trunk is connected to the LOCAL CAM input, leave this entry blank.

To define the REMOTE monitor output from the REMOTE site (REM SITE) which is connected to this LOCAL CAM input,

1) Move the cursor to the REM MON column for the selected LOCAL CAM input;

2) Enter the monitor output number that this video trunk line is connected to at the REMOTE

Site;

3) Press the ACK key to save the REM MON number.

The Remote Site IP Address menu is used to assign IP addresses to

REMOTE SITE IP ADDRESS

REMOTE

IP ADDRESS

SITE

192.168.000.001

0001

192.168.000.002

0002

192.168.000.003

0003

192.168.000.004

0004

192.168.000.005

0005

192.168.000.006

0006

192.168.000.007

0007

192.168.000.008

0008

PREVIOUS MENU

remote sites. To establish TCP/IP communication in the network, please make sure that all the IP addresses have been properly set.

Indicates the site number for a remote site.

Note

z Please plan your network structure carefully before attempting to set site number and IP

address for each site.

z Only one unique IP address can be assigned to each site. Be aware that a "local" site may

ecome "remote" when it is programmed via another V2040 site.

Sets the IP address of the remote site.

Note

Please well plan your network structure before setting a new IP address.

To set a desired IP address for the remote site,

1) Move the cursor to the first IP address entry for the associated remote site;

2) Enter the first three digits of the 12-digit IP address, and press the ACK key;

3) Enter the second three digits of the 12-digit IP address, and press the ACK key;

4) Enter the third three digits of the 12-digit IP address, and press the ACK key;

5) Enter the last three digits of the 12-digit IP address, and press the ACK key.

Appendix I System Alarm Programming

The System Alarm Programming of V2040 involves the following three procedures:

1. Alarm Contact/Camera Programming;

2. Alarm Contact/Monitor Programming;

3. Monitor Arming.

Alarm Contact/Camera Programming

SYSTEM

1 SET TIME AND DATE

2 SET SYSTEM TOURS

3 SET SYSTEM SALVOS

4 SET EVENT TIMERS

5 SET ALARM CONTACTS

6 MONITOR STATUS

RETURN MAIN

Select the ALARM CONTACT SETUP sub-menu from the SYSTEM menu, and define alarm contact to camera associations.

1. Locate the cursor in the CAM entry with the desired Alarm

Contact Number (ACN);

2. Enter the desired Camera Number (1~1024) or Pseudo Number

on the keypad;

3. Press the ACK key to confirm. The entered Camera Number will

be displayed in the entry.

Alarm Contact/Monitor Programming:

ACCESS

1 KEYBOARD/MONITOR

2 KEYBOARD/CAMERA VIEW

3 KEYBOARD/CAMERA CTR L

4 MONITOR/CAMERA ACCESS

5 MONITOR/CONTACT ACCESS

6 KEYBOARD/REMOTE SITE

RETURN MAIN

Select the MONITOR/CONTACT ACCESS sub-menu from the ACCESS menu, and associate alarm contacts with the desired monitors.

1. Locate the cursor in the desired Monitor entry;

2. Use the ACK key to toggle between "N" and "Y" (N = Disabled,

Y = Enabled);

3. Repeat Steps 1 and 2 until all the desired entries are defined;

4. Move the cursor to the PREVIOUS MENU line, and press the

ACK key to return to the ACCESS menu.

For more details, please refer to Section 5.7.6.

Arming the Monitors:

To arm a monitor:

1. Place the key switch in the PROGRAM position;

2. Enter the desired Arming type Code on the keypad;

3. Press the ARM key to arm the monitor;

4. Place the key switch in the OPERATE position.

ALARM CONTACT SETUP

DWL

AUX

PRE

CAM

ACN 0001 0002 0003 0004 0005 0006 0007 0008

ACN 0001 002 01Y:024 0001 0002 0003 0004 0005 0006 0007 0008

000

0001

000

0002

000

0003

000

0004

000

0005

000

0006

005

0007

000

0008

PREVIOUS MENU

ALARM CONTACT SETUP

SITE

---

--N:---

---

--N:---

---

--N:---

---

--N:---

---

--N:---

---

--N:---

---

PREVIOUS MENU

MON CONTACT TABLE - -

MONITOR

ACN

0001

0002

0003

0004

0005

0006

0007

0008

PREVIOUS MENU

0000001-ON 0-

RACNTE

N N N N N N Y N

Page

Right

----

N Y Y N N N N N

Appendix II ASCII / HEX System Control

Codes

Command ASCII HEX

RUN SEQ S 53 CAM HOLD H 48 NEXT CAM + 2B CAMERA # 23 MONITOR M 4D PAN LEFT L 4C PAN RIGHT R 52 TILT UP U 55 TILT DOWN D 44 CALL SHOT \ 5C FOCUS FAR F 46 FOCUS NEAR N 4E IRIS CLOSE C 43 IRIS OPEN O 4F LENS WIDE W 57 LENS TELE T 54 AUX OFF J 4A LOCKOUT K 4B MON ARM [ 5B MON DISARM ] 5D ALARM NEW E 45 ALARM CLEAR I 49 ALARM OLD G 47 ACK _ 5F PROGRAM P 50 SET SHOT ^ 5E ID BLINK * 2A ID INC , 2C ID DEC - 2D ID LEFT . 2E ID RIGHT / 2F ID BLINK ： 3A ID INC < 3C ID DEC = 3D ID LEFT > 3E ID RIGHT ? 3F ZERO 0 30 ONE 1 31 TWO 2 32 THREE 3 33 FOUR 4 34 FIVE 5 35 SIX 6 36 SEVEN 7 37 EIGHT 8 38 NINE 9 39

ASCII Codes for System Control Terminal Command ASCII HEX

KBD1 a 61 KBD2 b 62 KBD3 c 63 KBD4 d 64 Er (Enter) OD

Appendix III Specifications

Video

Video input: 75 ohm BNC, 0.5-2.0 Vp-p composite Maximum inputs: 1024 Video output: 75 ohm BNC, 1Vp-p composite Maximum Video outputs: 128 Frequency Response: ±0.5dB 5Hz~12MHz Gain: ±1dB (rated value) Differential gain: <1.0% Differential phase: < 1.5° Differential delay: + 1.0° Field tilt: <0.5% S/N Ratio: >55dB

Cross Talk

Adjacent channels: 55dB(3.58MHz) Input to output: 70dB(3.58MHz) Return loss (input/output): >40dB DC level: 0V or 0.5V

General Bandwidth: 17MHz Switching Speed: <16ms (typical) Non-Volatile Memory: for a minimum of 5 years On-screen display items: video input number, date/time, video input titles (maximum characters 16) and monitor status

Keyboard Connections

Communication protocol: RS-232 or Ethernet RS-232 Ports: 10 Connection type: RJ-45

IP Video

Video Standards: ISO/IEC 14496 (MPEG-4); M-JPEG Video Data Rate: 9.6kBit/s-4 Mbit/s Overall IP Delay: 100ms Network Protocol: RTPa, Telnet, UDP, TCP, IP, HTTP, IGMP, ICMP, ARP, SNMP

Video Resolution:

NTSC: 720 × 480 (D1) 704 × 480 (4 CIF) 528 × 320 (DCIF) 704 × 240 (2CIF) 352 × 240 (CIF) 176 × 120 (QCIF)

PAL: 720 × 576 (D1) 704 × 576 (4 CIF) 528 × 384 (DCIF) 704 × 288 (2CIF) 352 × 288 (CIF) 176 × 144 (QCIF)

Network Ethernet Connection

Data Interface: TCP/IP IEEE 802.3 Compliant Connection Type: RJ45

BNC Connection

High-speed data line: 2 BNC connectors External sync input/output: BNC connectors Programming monitor: BNC connector

Power Supply

Input Voltage: 120VAC/60Hz; 230VAC/50Hz Power Requirements: 60W

Mechanical

Dimensions: 10.5"(H) × 19.0" (W) × 18"(D) 266(H) × 483 (W) × 457 (D) mm CPU Dimensions: 1.77"(H) × 19.0" (W) × 10.8"(D) 45(H) × 483 (W) × 275 (D) mm CPU Weight: 6.6 lb (3 kg) Mounting: Rack mount Color: Black

Environmental

Temperature: 32°F ~140°F (0°C ~60°C) Humidity: 0~90%RH (non-condensing)

Appendix IV Typical System Application

1. 1-Bay Configuration (192 Inputs X 16 Outputs)

CAMERA CAMERA

ETHERNET

1173349658197113129145161177

PROG MON

DATA LINE

OUT

EXT

SYNC

OUT

ELECTRIC SHOCK

DO NOT OPEN

V2040

CAUTION

RISK OF

POWER

DATA LINE RS232 PORTS

1 2 1 2 34 56 78 9 1011

5913

10 14

11 15

12 16

Mon 1 Mon 16

V2405-4

Control Code from V2411M

SENSOR

SUPER

DOME

SELECT

POWER

ALARM

C O M

INPUT OUTPUT

ABCDEFGH

1 2 3 4 5 6

A AAAAA

A AA A A A

49 50 51 52 53 54

A AAAAA

2928 30272625

789101112

A AAA AA

31 32 33 34 35 36

A AA AA A

55 56 57 58 59 60

A AA AA A

1513 14 16 17 18

A AAA AA

37 38 39 40 41 42

A AA AA A

61 62 63 64

A AA A

19 20 21 22 23 24

A AAAAA

43 44 45 46 47 48

A AAA AA

N N C O C M

V2431

CODE 1

CODE 2

POWER

C O M

ABCDEF

B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S

ABCDEF

B W SB W SB W SB W S

B W S B W S B W S B W S

DATA LINE

OUT

V2411M

OUT

V2421

DATALINE

SELECT

1234 5678

GROUP

OFF

ABCDEF

PWR

DATA

GROUP

SYSTEM KEYBOARD

6VAC, 1A

BABABABA BABABABA BABABABA BABABABA

17 18 19 2 0 21 22 23 24 25 26 27 28 29 30 31 32

OFF

ABCDEF

OFF

ABCDEF

OFF

B W S

ABCDEF

BABABABABABABABA BABABABA BABABABA

9101112 13141516

G1 IN G1 OUT G2 IN G2 OUT

BABABABA

AUXILIARY

P A

1 2 3

LAST

ACK

OFF ON

G E P

4 5 6

HOLD

G E

7 8 9

FOCUS

NEAR

CAM0MON

PROG

F1 CLEAR F2

WIDE TELE

running

V2000 GUI

LOCK

RUN

OFF

ARM SALVO

PATRN

SHOT

OPERATE

PROGRAM

Infinova

P A G

IRIS

P A

OPEN

G E

FAR

ZOOM

V2116

V2423

DATALINE

OUT

SELECT

CONTROL

USER SITE

DOWN

123

456

789

Infinova

GROUP

PWR

DAT

GROUP

V2110

1234 5678

OFF

ABCDEF

BABABABA BABABABA BABABABA BABABABA

OFF

17 18 19 20 21 22 23 24 25 26 2 7 28 2 9 30 31 3 2

ABCDEF

OFF

ABCDEF

OFF

B W S

ABCDEF

BABABABABABABABA BABABABA BABABABA

9101112 13141516

G1 IN G1 OUT G2 IN G2 OUT

BABABABA

2. 2-Bay Configuration (192 Inputs X 32 Outputs)

DATA LINE RS232 PORTS

12 1234567891011

ETHERNET PROG MON

CAMERA

1173349658297113129145161177

D A

DATA LINE

OUT

A B

U F

SYNC

OUT

POWER

ALARM

C O M

INPUT OUTPUT

SELECT

ABCDEFGH

LAST

ACK

LOCK

HOLD

RUN

OFF

ARM SALVO

PATRN SHOT PROG

OPERATE

PROGRAM

1 2 3 4 5 6

A AAA AA

A AA A A A

49 50 51 52 53 54

A AAAAA

1 2 3

4 5 6

7 8 9

CAM 0 MON

F1 CLEAR

V2116

2928 30272625

AUXILIARY

OFF

IRIS

OPEN

FOCUS

FAR

NEAR

ZOOM

WIDE

TELE

789101112

A AAAAA

31 3233 34 35 36

A AA A A A

55 56 57 58 59 60

A AA A A A

Infinova

E N T

USER SITE

E R

CONTROL

E X I T

DOWN

1513 14 16 17 18

A AAAAA

37 38 39 40 41 42

A AA A A A

61 62 63 64

A AA A

19 20 21 22 23 24

A AAA AA

43 44 45 46 47 48

A AAAAA

N N C O C M

V2431

92541577389105121137153169185

DATA LINE

OUT

SYNC

OUT

CODE1

ABCDEF

B W SB W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W SB W S B W S B W S

CODE2

ABCDEF

B W SB W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W SB W S B W S B W S

POWER

ABCDEF

B W SB W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W SB W S B W S B W S

O M

ABCDEF

B W SB W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W S B W SB W S B W S B W S

SELECT

1234 5678

GROUP

OFF

ABCDEF

BABABABA BABABABA BABABABA BABABABA

PWR

17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

OFF

DATA

ABCDEF

GROUP

OFF

ABCDEF

OFF

B W S

ABCDEF

SELECT

GROUP

OFF

ABCDEF

PWR

OFF

DAT

ABCDEF

GROUP

OFF

ABCDEF

OFF

B W S

ABCDEF

BABABABABABABABA BABABABA BABABABA

1234 5678

BABABABA BABABABA BABABABA BABABABA

17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32

BABABABABABABABA BABABABA BABABABA

9101112 13141516

V2411M

G1 IN G1 OUT G2 IN G2 OUT

BABABABA

V2421

G1 IN G1 OUT G2 IN G2 OUT

BABABABA

OUT

DATA LINE

OUT

DATALINE

OUT

DATALINE

V2423

MONITOR MONITOR

Programming Monitor

3. Typical Application Diagram (64 Inputs X 128 Outputs, 4 Bay, Level 8)

OUT

ININININ ININININ

OUTOUTOUTOUT

Camera 1

DATA LINE

OUT

EXT SYNC

OUT

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

OUT33OUT49OUT

OUT

OUTOUTOUT

OUT

POWER

DATA LINE

OUT

EXT SYNC

OUT

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

Coax Ribbon

Cable

Monitor

Camera 64

Monitor

OUT

DATA LINE RS232 PORTS ETHERNET

1 2 12 34 56 7 8 9 1011

POWER

Manchester

EthernetRS485

LAST LOCK

1 2 3

ACK

HOLD

RUN

4 5 6

OFF

SALVO

7 8 9

ARM

SHOT PROG

PATRN

CAM0MON

OPERATE

CLEAR

PROGRAM

V2116

Infinova

AUXILIARY

CONTROL

OFF ON

SITE

USER

IRIS

CLOSEOPEN

FOCUS

FAR

NEAR

ZOOM

WIDE TELE

DOWN

V2000

Computer

Programming

Monitor

PROG MON

PGM

DATA LINE

OUT

EXT SYNC

OUT

ININININ

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

OUT

ININININ

OUT

POWER

DATA LINE

OUT

EXT SYNC

OUT

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

75 ohm Coax

Terminator

Monitor

112

Monitor

128

Monitor

113

101

109

102

106

110

103

107

111

108

112

100

104

OUTINOUTINOUTINOUT

OUTOUTOUT

5 12 6 12 7 12 8

Appendix V Multilevel Networking Diagram

DATA LINE RS232 PORTS

1 2 12 34567891011

187

145 129 113 97 81 65 49 33 17 1

ETHERNETPROG MON

DATALINE

OUT

EXT SYNC

OUT

CAUTION

RISK OF ELECTRIC SHOCK DO NOT OPEN

POWER

V2040

ETHERNETPROG MON

DATALINE

V2040

ETHERNETPROG MON

OUT

EXT

SYNC

OUT

CAUTION

RISK OF ELECTRIC SHOCK DO NOT OPEN

DATA LINE RS232 PORTS

1 2 12 34567891011

187

145 129 113 97 81 65 49 33 17 1

DATALINE

OUT

EXT

SYNC

OUT

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

ETHERNETPROG MON

DATALINE

OUT

EXT SYNC

OUT

V2040

DATA LINE RS232 PORTS

1 2 12 34567891011

187

145 129 113 97 81 65 49 33 17 1

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

ETHERNETPROG MON

DATALINE

OUT

EXT

SYNC

OUT

CAUTION

RISK OF

ELECTRIC SHOCK

DO NOT OPEN

POWER

V2040

Hub

POWER

DATA LINE RS232 PORTS

12 1234567891011

187

145 129 113 97 81 65 49 33 17 1

DATA LINE RS232 PORTS

1 2 12 3456 7 8 91011

145 129 113 97 81 65 49 33 17 1

187

Note: This figure illustrates the level 1 and level 2 physical connections of the matrixes, up to 4 level networking connection can be applied practically.

Appendix VI Cable Diameter Calculation and Lightning & Surge Protection

Relation between 24VAC Cable Diameter and Transmission Distance

In general, the maximum allowable voltage loss rate is 10% for AC-powered devices. The table below shows the relationship between

transmission power and maximum transmission distance under a certain specified cable diameter, on condition that the 24VAC voltage loss

rate is below 10%. According to the table, if a device rated at 50W is installed 17-meter away from the transformer, the minimum cable

diameter shall be 0.8000mm. A lower diameter value tends to cause voltage loss and even system instability.

Power (W)

Diameter (mm)

Distance (ft/m)

10 283 (86) 451 (137) 716 (218) 1811 (551)

20 141 (42) 225 (68) 358 (109) 905 (275)

30 94 (28) 150 (45) 238 (72) 603 (183)

40 70 (21) 112 (34) 179 (54) 452 (137)

50 56 (17) 90 (27) 143 (43) 362 (110)

0.8000 1.000 1.250 2.000

60 47 (14) 75 (22) 119 (36) 301 (91)

70 40 (12) 64 (19) 102 (31) 258 (78)

80 35 (10) 56 (17) 89 (27) 226 (68)

90 31 (9) 50 (15) 79 (24) 201 (61)

100 28 (8) 45 (13) 71 (21) 181 (55)

110 25 (7) 41 (12) 65 (19) 164 (49)

120 23 (7) 37 (11) 59 (17) 150 (45)

130 21 (6) 34 (10) 55 (16) 139 (42)

140 20 (6) 32 (9) 51 (15) 129 (39)

150 18 (5) 30 (9) 47 (14) 120 (36)

160 17 (5) 28 (8) 44 (13) 113 (34)

170 16 (4) 26 (7) 42 (12) 106 (32)

180 15 (4) 25 (7) 39 (11) 100 (30)

190 14 (4) 23 (7) 37 (11) 95 (28)

200 14 (4) 22 (6) 35 (10) 90 (27)

Lightning & Surge Protection

The product adopts multi-level anti-lightning and anti-surge technology integrated with gas discharge tube, power resistor and TVS tube. The

powerful lightning and surge protection barrier effectively avoids product damage caused by various pulse signals with power below 4kV,

including instantaneous lightning, surge and static. However, for complicated outdoor environment, refer to instruction below for lightning

and surge protection:

The product features with dedicated earth wire, which must be firmly grounded. As for surveillance sites beyond the effective protection

scope, it’s necessary to erect independent lightening rods to protect the security devices. It’s recommended to separate the lightning rod from

the mounting pole, placing the rod on an independent pole, as shown in the figure below. If the product has to be installed on the same pole or

pedestal for lightning rod, there should be strict insulation between the video cable BNC terminal, power cable, control cable and the standing

pole of the lightning rod.

For suburb and rural areas, it’s recommended to adopt direct burial for the transmission cables. Overhead wiring is prohibited, because it’s

more likely to encounter lightning strike. Use shielded cables or thread the cables through metal tubes for burial, thus to ensure the electric

connection to the metal tube. In case it’s difficult to thread the cable through the tube all the way, it’s acceptable to use tube-threaded cables

only at both ends of the transmission line, yet the length in burial should be no less than 15 meters. The cable sheath and the tube should be

connected to the lightning -proof grounding device.

Additional high-power lightning-proof equipment and lightning rods should be installed for strong thunderstorm or high induced voltage

areas (such as high-voltage substation).

The lightning protection and grounding for outdoor devices and wires should be designed in line with the actual protection requirement,

national standards and industrial standards.

The system should perform equipotential grounding by streaming, shielding, clamping and earthing. The grounding device must meet

anti-interference and electric safety requirements. There should be no short-circuiting or hybrid junction between the device and the strong

grid. Make sure there’s a reliable grounding system, with grounding resistance below 4Ω (below 10Ω for high soil resistivity regions). The

cross-sectional area of the earthing conductor should be no less than 25mm².

LPZO

30° 30°

LPZO

Separated layout for the lightning

Lightning rod

rod and the standing pole

Front device for surveillance system

Mounting pole

for front device

Infinova

51 Stouts Lane, Monmouth Junction, NJ 08852, U.S.A. Tel: 1-888-685-2002 (USA only)

1-732-355-9100

Fax: 1-732-355-9101 sales@infinova.com

V2.3 1107

Infinova V2040, V2040X, V2040NX, V2040N Installation & Operation Instructions

Specifications and Main Features

Frequently Asked Questions

User Manual