Videotec SM164A Operating Instructions Manual

OPERATING INSTRUCTIONS

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MANUALE D’USO

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MANUEL D’INSTRUCTIONS

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BEDIENUNGSANWEISUNG

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РУКОВОДСТВО ПО ЭКСПЛУАТАЦИИ

US FCC Part 15 Class B Verification Statement

NOTE: This equipment has been tested and found to comply with the limits for a Class B digital

device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable

protection against harmful interference in a residential installation. This equipment generates, uses

and can radiate radio 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. If this equipment does cause

harmful interference to radio or television reception, which can be determined by turning the

equipment off and on, the user is encouraged to try to correct the interference by one or more of the

following measures:

-- Reorient or relocate the receiving antenna.

-- Increase the separation between the equipment and receiver.

-- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

-- Consult the dealer or an experienced radio/TV technician for help.

OPERATING

INSTRUCTIONS

Page 1 MNVCSM84A_1511_EN

INDEX

1 INTRODUCTION ....................................................................................................................................................... 3

1.1 Contents of the package ..................................................................................................................................... 3

1.2 Contents of this Instruction Manual ..................................................................................................................... 3

1.3 Typographical conventions ................................................................................................................................. 3

1.4 Safety rules ......................................................................................................................................................... 4

1.5 Identification data ................................................................................................................................................ 4

2 SM84A / SM164A MATRIX DESCRIPTION ............................................................................................................. 5

2.1 Specifications ...................................................................................................................................................... 5

2.2 Connectable devices ........................................................................................................................................... 5

3 INSTALLATION......................................................................................................................................................... 6

3.1 Preliminary operations ........................................................................................................................................ 6

3.1.1 Opening the package ..................................................................................................................................................... 6

3.1.2 Checking the markings .................................................................................................................................................. 6

3.2 Installation example ............................................................................................................................................ 6

3.2.1 Cables ............................................................................................................................................................................ 7

3.3 Switching on and off ............................................................................................................................................ 7

3.4 Configuration ....................................................................................................................................................... 8

3.4.1 Opening and closing ...................................................................................................................................................... 8

3.4.2 Dip switches and jumper ................................................................................................................................................ 8

3.4.3 Inserting the load on the AUX line.................................................................................................................................. 9

3.4.4 Setting 75 Ohm video input termination ......................................................................................................................... 9

3.5 Connectors and connections ............................................................................................................................. 10

3.5.1 Connectors on the back of the matrix .......................................................................................................................... 10

3.5.2 DB25 pin configuration ................................................................................................................................................. 10

3.5.3 Connections for alarm management ............................................................................................................................ 11

3.5.4 Connecting the matrix to the peripherals ..................................................................................................................... 11

4 MATRIX OPERATING FEATURES ........................................................................................................................ 15

4.1 Video input management .................................................................................................................................. 15

4.1.1 Automatic switching sequences ................................................................................................................................... 15

4.1.2 Day and night automatic switching sequences ............................................................................................................ 15

4.1.3 Manual selection .......................................................................................................................................................... 15

4.1.4 Using the Inc/Dec keys ................................................................................................................................................ 15

4.1.5 Output video dedicated to the VCR ............................................................................................................................. 15

4.2 Alarms ............................................................................................................................................................... 16

4.2.1 Alarm contact types ..................................................................................................................................................... 16

4.2.2 Alarm types .................................................................................................................................................................. 16

4.2.3 Alarm condition reset ................................................................................................................................................... 17

4.2.4 Alarm recognition enabling .......................................................................................................................................... 17

4.3 Actions on alarms .............................................................................................................................................. 18

4.3.1 Action to switch videos ................................................................................................................................................. 18

4.3.2 Action to reposition telemetry ....................................................................................................................................... 18

4.3.3 Changing the actions ................................................................................................................................................... 18

4.4 Excluding video inputs ...................................................................................................................................... 19

4.4.1 How to exclude the video inputs .................................................................................................................................. 19

4.5 Auxiliary line ...................................................................................................................................................... 21

4.5.1 Control keyboard configuration .................................................................................................................................... 21

4.5.2 Video multiplexer control .............................................................................................................................................. 21

4.5.3 Telemetry receiver control and domes ......................................................................................................................... 21

4.6 Telemetry protocol ............................................................................................................................................ 22

4.6.1 Configuring the dome ................................................................................................................................................... 22

4.6.2 Configuring the switcher/matrix .................................................................................................................................... 22

4.6.3 Configuring the keyboard ............................................................................................................................................. 22

4.7 Telemetry transmission over coaxial cable ....................................................................................................... 23

4.8 PC connection ................................................................................................................................................... 23

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5 ON SCREEN MENU (OSM) PROGRAMMING ....................................................................................................... 24

5.1 Programming entering ....................................................................................................................................... 24

5.2 Screens ............................................................................................................................................................. 24

6 TROUBLESHOOTING ............................................................................................................................................ 29

7 MAINTENANCE ...................................................................................................................................................... 30

8 TECHNICAL SPECIFICATIONS ............................................................................................................................. 31

9 APPENDIX ............................................................................................................................................................... 32

9.1 Macro Protocol: description ............................................................................................................................... 32

9.1.1 Checksum calculation procedures ............................................................................................................................... 32

9.1.2 Test program example ................................................................................................................................................. 32

9.1.3 Reply from the matrix ................................................................................................................................................... 33

9.1.4 Matrix control commands ............................................................................................................................................. 33

9.1.5 Event messages .......................................................................................................................................................... 33

The manufacturer assumes no responsibility for possible damages resulting from an improper use of the

devices mentioned in this manual; moreover he reserves the right to change the contents of the present manual

without notice. The documentation contained in this manual has been gathered and examined with great care;

nevertheless the manufacturer can not assume any responsibility resulting from the use of such documentation.

The same is valid for any other person or society involved in the creation and in the production of the present

manual.

Page 3 MNVCSM84A_1511_EN

1 Introduction

1.1 Contents of the package

 1 programmable video matrix SM84A / SM164A

 1 instruction manual

 1 wide range power supply 100 - 240V~ 47/63Hz in, 12V

= 1A out, including cables

 1 DB25 connector

 2 telephone boxes RJ-jack

 RJ11 telephone cables, 6 pins point-to-point

When the product is delivered make sure the package is intact and has no obvious signs of dropping, scrapes

and scratches. If the package is damaged contact the supplier immediately.

1.2 Contents of this Instruction Manual

This manual describes the video switcher SM84A / SM164A, with its specific procedures for installation,

configuration and use. Before installing and using the video switcher, read this manual carefully,

especially the section concerning the safety rules.

1.3 Typographical conventions

This manual makes use of different graphics symbols, the meaning of which is described as follows:

Hazard of electric shock; disconnect the power supply before proceeding, unless specified otherwise.

Please read the procedure or information shown and, if necessary, carry out the instructions.

Failure to carry out the procedure correctly could lead to faulty operation of the system or damage it.

Read carefully to understand system operation.

Page 4 MNVCSM84A_1511_EN

1.4 Safety rules

The video switcher SM84A / SM164A complies with the legislation and standards in force, at the time of

this manual’s publication, with regard to electrical safety, electromagnetic compatibility and general

requirements. Nevertheless, for the safety of the user (installer technician and operator) the following warnings

are specified to ensure completely safe operation:

 Connect the system devices to a power supply line corresponding to the one shown on the respective data

plates (see the following section 1.5 Identification data).

 The device (and the complete system to which it belongs) must only be installed by a skilled, authorised

technician.

 For after-sale service call only authorised staff.

 The device should never be opened, but if this becomes necessary the procedures described in this manual

should be followed scrupulously.

 Do not unplug the device by pulling the power supply cable.

 Before moving or carrying out any technical operations on the device, disconnect the power supply jack: the

device can only be considered off-line when the power supply jack is disconnected and the cables connected

to other devices have been removed.

 Do not use extension cables showing signs of wear or ageing, since they are extremely hazardous for the

user’s safety.

 Do not wet the device with any liquid or touch it with wet hands while it is in operation.

 Do not leave the device exposed to adverse weather conditions.

 Do not use the device in the presence of inflammable substances.

 Make sure the device is always resting on a sufficiently large, solid base.

 Tampering with the device will invalidate the guarantee.

 Keep this manual carefully for future reference.

1.5 Identification data

On the bottom of the video matrix SM84A / SM164A there are two identification plates complying with EC

specifications.

The first plate contains:

 Model identification code (Bar code EXT3/9)

 Main supply voltage (Volt)

 Frequency (Hertz)

 Maximum power consumption (Watt)

The second plate shows the model serial number (Bar code EXT3/9)

Warning! When carrying out installation make sure that the power supply to the matrix corresponds to

the required specifications. Use of inappropriate equipment may be very hazardous for the safety of personnel

and of the system itself.

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2 SM84A / SM164A matrix description

2.1 Specifications

The SM84A / SM164A matrix is a product for professional use in applications for security and

surveillance. In a security system it is used to control 8/16 video inputs on 4 outputs, using remote keyboards.

The following is a list of its main features:

 Video programming

 Menu in four languages (Italian, English, French and German)

 Different switching sequences (day and night) for each output video

 Date and time management settable from the user

 VCR trigger management

 Telemetry control on RS485 auxiliary line and on coaxial cable

 Matrix control using 4 serial RS485 lines for remote control devices

 Identification tests for each output

 Completely configurable alarm input for each input video

 Types of alarm reset: manual from keyboard, external, timed, automatic

 Relay can be activated by each alarm

 Alarm condition warning buzzer

 Video signal masking on fixed camera

 RS322 serial line for the PC control

 75 Ohm video input termination removable

 Video switching or reposition in case of alarm

 Video input exclusion from switching sequence on public monitors

2.2 Connectable devices

Keyboards:

Connect a max. of 4 keyboards using the KEYBOARDS lines:

 new series DCJ, DCK, DCTEL, DCBD, DCT, DCIR: used for complete matrix control

 Linxs series LXRPK12, LXRPK23, LXRPRC36: only control of video switching

 previous series DCMT8, SWC4, SWC8, SWC16, DCS2, DCS3, KEYPLUS: only control of video switching.

An interface is required since communication from the keyboard does not use RS485 (with the exception of

the DCS3 model).

Telemetry receivers:

Control of telemetry receivers using the AUX line:

 Videotec receivers DTMRX1, DTRX3, DTRX1, DTRXDC, MICRODEC485, DTMRX2

 Dome with protocol Pelco ‘D’

 Eneo receivers

Control of telemetry receivers using the video lines (COAX transmission):

 Videotec receivers DTRX3 fitted with a DTCOAX, DTMRX2 board

Multiplexer videos

 Videotec Multiplexer SP16C

 Javelin/Hitron Multiplexer

 Eneo multiplexer

Page 6 MNVCSM84A_1511_EN

3 Installation

The following procedures should be carried out before connecting to the power supply, unless indicated

otherwise.

Installation should only be carried out by skilled, authorised technicians. Incorrect connection of the

various peripherals may lead to isolation of the video switcher from the whole system.

3.1 Preliminary operations

3.1.1 Opening the package

If the package has no obvious defect due to dropping or abnormal scrapes and scratches, check the materials it

contains with the list supplied in Section 1.1 Contents of the package.

The installer technician will be responsible for disposing of the packaging material by recycling or, in any case,

according to the current legislation in the country of use.

3.1.2 Checking the markings

Before starting installation, check the identification plates to make sure the supplied material

corresponds with the required specifications, as described in Section 1.5 Identification data. Never, under any

circumstances, make any changes or connections that are not described in this manual: the use of inappropriate

devices may be very hazardous for the safety of people and the system itself.

3.2 Installation example

MATERIAL USED:

Video management: Telemetry management:

2 monitors 1 Receiver DTRX3 with DTCOAX board

2 cameras 1 DTMRX1 receiver

1 video matrix SM164A 1 Pan&Tilt motor PTH910P

1 Pan&Tilt motor PTH910

Control keyboards:

1 DCTEL control keyboard

PC

Alarm sensor

Page 7 MNVCSM84A_1511_EN

3.2.1 Cables

Cable for transmission/reception of commands: unshielded twisted pair with minimum section

0.22 mm² (AWG 24):

 a pair for RS485 transmission both for KEYBOARD lines and AUX lines (max. length of connection 1200m.)

 a pair for powering the keyboards, which can be remote powered (max. length of connection 700m.)

Cable for DB25 connector: multi-polar cable with minimum section 0.22 mm² (AWG 24)

Video cable: RG59 coaxial cable or equivalent

as well as being used for video transmission it can also be used for transmitting telemetry data (in this case the

max. length of the connection is 350m)

Multi-polar cable:

every pan & tilt control function is enabled/disabled by a relay inside the receiver.

 To determine the final number of wires, follow the instructions below:

 7 wires for the pan & tilt movements (230 V~ o 24 V~): right, left, up, down autopan, common, ground (only

for 230 V~)

 6 wires for reverse polarity lens control (zoom, focus, iris)

 4 wires for common wire lens control (zoom, focus, iris)

 7 wires for preset management: 5 connected to reference potentiometers, +5 V

= and ground

 4 wires for the Wiper

 3 wires for the Washer

 2 wires for each auxiliary used

 3 wires for power supply cable

Note: we recommend using different multi-polar cables for low and high voltage functions.

Recommended minimum section: 0.56 mm² (AWG 20) for high voltage wires (pan & tilt, wiper, washer)

0.34 mm² (AWG 22) for low voltage wires (lenses, auxiliaries, preset)

0.75 mm² (AWG 18) for power supply wires to the DTRX1 receiver

PC cable: 9 poles- standard serial extension cable (max 15m)

3.3 Switching on and off

Before connecting to the power supply:

 Make sure the supplied material corresponds to the required specifications by examining the identification

plates as described in section 1.5 Identification Data

 Make sure the matrix and other components of the system are closed properly so that there is no possibility

of direct contact with live parts

 The matrix and other devices in the system should rest on a large, solid base.

 The power supply cables should not get in the way of the installer technician when he is carrying out normal

operations

 Make sure the power outlet and extension cables, if used, are sufficient for the system power consumption.

SWITCHING ON: insert the power supply plug in the power outlet and connect the corresponding jack

to the matrix connector labelled 12VDC. The front side led must be lighted.

SWITCHING OFF: remove the external power supply plug from the power outlet and disconnect the

jack from the matrix.

Page 8 MNVCSM84A_1511_EN

3.4 Configuration

3.4.1 Opening and closing

Warning! Only skilled, authorised technicians should be allowed to open the matrix.

 Disconnect the matrix from the main power supply by disconnecting the jack

 Remove the three screws on the back of the matrix, behind the top cover

 Remove the cover, taking great care not to leave the removed screws or other metal parts inside the matrix

and being very careful with the LED wiring.

To close up, carry out the above operations in reverse order, always working with the power supply

disconnected.

3.4.2 Dip switches and jumper

3.4.2.1 Functions of the dip switches

Inside the SM84A / SM164A matrix there is an 8-way configuration dip switch (SW1):

DIP FUNCTION

DIP 1,2,3,4 Selection of protocol for communication with the keyboards; see section 3.4.2.2

DIP 5 Not used: leave OFF

Dip 6 Not used: leave OFF

Dip 7,8 If on ON position, they allow the matrix firmware update; see section 4.8

If on OFF position, they allow the PC control: normally set on OFF

3.4.2.2 Selecting the protocol for communication with the keyboards

Switch off the matrix by disconnecting the power supply jack

 Remove the screws fastening down the cover and open the matrix, following the instructions in section 3.4.1

 Find and set the dip-switches according to the table below

 Close the cover and fasten it with the screws

 Connect the power supply jack to switch the matrix back on.

Note: all changes to the dip-switches are recognised when the matrix is restarted

Jumper JP11

Dip Switch SW1

Jumper 75 ohm

Video input

Page 9 MNVCSM84A_1511_EN

Dip switch

1 2 3 4 Protocol and baud rate Connected keyboards

OFF

ON

OFF

ON

OFF

ON

Macro, 38400 baud (*)

Macro, 19200 baud

Macro, 9600 baud

Macro, 1200 baud

New series keyboards:

DCJ, DCK, DCTEL, DCBD, DCT, DCIR

OFF

ON

OFF

ON

Linxs, 9600 baud

Linxs, 1200 baud

Linxs series keyboards:

LXRPK12, LXRPK23, LXRPRC36

OFF

ON

OFF

ON

Videotec switchers, 9600 baud

Videotec switchers, 1200 baud

Previous series keyboards:

SWC4, SWC8, DCMT8 with interface

ON

OFF

ON

Videotec OSM, 9600 baud

Videotec OSM, 1200 baud

Previous series keyboards:

DCS2, KEYPLUS, SWC16 with interface

ON OFF ON OFF Videotec SW328, 9600 baud Previous series keyboard: DCS3

ON

OFF

ON

OFF

ON

OFF

ON

OFF

ON

Invalid configurations

-

(*)Default configuration

3.4.3 Inserting the load on the AUX line

To insert/disconnect the 120 Ohm load on the RS485 AUX line, position jumper JP11 as shown in the diagram:

Jumper JP11 with load connected (position A)

Jumper JP11 with load disconnected (position B)

3.4.4 Setting 75 Ohm video input termination

It’s possible to remove the 75 Ohm video input termination putting the corresponding jumper into position B.

Example: input 1-2-3 without load

Page 10 MNVCSM84A_1511_EN

3.5 Connectors and connections

3.5.1 Connectors on the back of the matrix

The back of the SM84A / SM164A matrix has:

 1 x 25 pin connector for connecting alarm contacts, relay contacts, VCR trigger and external alarm reset

 4 x RJ-11 connectors for connecting the keyboards

 1 x RJ-11 connector for connecting the telemetry receivers or multiplexers

 1 jack connector for the power supply

 1 x 9 pin connector for PC connection

 4 BNC output video connectors,

 8/16 BNC input video connectors

SM164A matrix rear view:

3.5.2 DB25 pin configuration

Pin Connection Use

1 Alarm input 1 Alarms

2 Alarm input 2 Alarms

3 Alarm input 3 Alarms

4 Alarm input 4 Alarms

5 Alarm input 5 Alarms

6 Alarm input 6 Alarms

7 Alarm input 7 Alarms

8 Alarm input 8 Alarms

9 Alarm input 9 Alarms

10 Alarm input 10 Alarms

11 Alarm input 11 Alarms

12 Alarm input 12 Alarms

13 Alarm input 13 Alarms

14 Alarm input 14 Alarms

15 Alarm input 15 Alarms

16 Alarm input 16 Alarms

17 Alarm reset Alarm reset

18 GND Alarm reset

19 Trigger VCR VCR

20 GND VCR

21 Normally Opened Relays Peripherals

22 Common Relays Peripherals

23 Common alarms Alarms

24 Common alarms Alarms

25 Common alarms Alarms

Alarms from 9 to 16 are only available on the SM164A model matrix.

PC

Power supply

Al

a

rm

s

Aux

Line

Keyboards

Video out

p

uts Video In

p

uts

Page 11 MNVCSM84A_1511_EN

3.5.3 Connections for alarm management

See pin configuration table for the DB25 connector.

3.5.3.1 Alarm contacts

WARNING! Do not energise the alarm contacts! The sensors (or the alarm system in use) should supply

a dry contact. To manage the alarms correctly, be very careful when configuring the alarm parameters at the

matrix programming stage.

3.5.3.2 Auxiliary contact (alarm relay)

The SM84A / SM164A matrix can be used to control an auxiliary contact (relay) that is activated when there is

an alarm, if properly configured at the matrix programming stage. The auxiliary relay contacts are at pins 21 and

22 of the DB25 connector.

3.5.3.3 External reset

The reset impulse is recognised on the falling or rising edge (which can be set at the matrix programming

stage).

Pin 17 of the DB25 connector is associated with External Reset of the alarm condition and the ground reference

is pin 18.

3.5.4 Connecting the matrix to the peripherals

3.5.4.1 Control keyboards (Keyboard lines)

All the keyboards specified in section 2.2 Connectable devices and the SM84A / SM164A video matrix can be

connected by telephone cable using the 4 RJ-11 sockets called KEYBOARDS.

They can be connected directly using the 1.5m cable (supplied with the control keyboards) for short distances,

or, for longer distances, using the RJ-jack wall-mounted boxes (supplied with the control keyboards).

This is not applicable to the previous series keyboards, which require a communication interface because they

do not have RS485 (except for the DCS3 model).

Moreover, the DCTEL and DCBD and Linxs series keyboards can be powered directly by the matrix.

All the keyboards should have transmission rate settings that are compatible with the settings made for the

matrix at the programming stage. See the respective manuals for the keyboard setup.

Summary:

TYPE OF KEYBOARD CONNECTION MAXIMUM DISTANCE

DCJ, DCK, DCTEL, DCBD, DCT,

DCIR

Direct:

RS485

RS485 1200m

Power supply 700m

(1)

LXRPK12, LXRPK23, LXRPRC36 Direct:

RS485 and Power supply

RS485 1200m

Power supply 700m

DCMT8, SWC4, SWC8, SWC16,

DCS2, KEYPLUS

Connection interface:

RS485 – CURRENT LOOP

CURRENT LOOP 1500m

DCS3 Direct:

RS485

RS485 1200m

(1)

Only keyboards DCTEL, DCBD

Page 12 MNVCSM84A_1511_EN

Connect the telephone cables as in the following diagram:

Connecting RS 485 KEYBOARD lines

MATRIX RJ-jack 1 RJ-jack 2 KEYBOARDS

RS485-A Blue ----------------- White RS485-A

RS485-B Black ----------------- Yellow RS485-B

12 VDC

(1)

Red ----------------- Green 12 VDC

GND

(1)

Green ----------------- Red GND

(1)

powering the keyboards from the matrix is only possible with the DCTEL and DCBD keyboards and with the

LXRPK12 and LXRPK23 Linxs series keyboards and in any case, up to a maximum distance of 700m.

3.5.4.2 Telemetry receivers (AUX line)

All the receivers specified in section 2.2 Connectable devices and the SM84A / SM164A video matrix can be

connected by telephone cable using the RJ-11 socket called AUX.

They can be connected directly using the 1.5m cable (supplied by the manufacturer) for a test or, for longer

distances, using the RJ-jack wall-mounted boxes (supplied by the manufacturer) and referring to the following

table:

RS 485 matrix (AUX line) – Receiver connection

MATRIX RJ-jack 1 RJ-jack 2 RECEIVER

RS485-A White ----------------- Blue RS485-A

RS485-B Yellow ----------------- Black RS485-B

All the receivers should be set up for RS485 communication mode and with a transmission rate that is

compatible with the setting made for the matrix at the programming stage.

See the respective manuals for configuring the receivers.

There are two possible ways of connecting the receivers to the AUX line:

 Receivers in cascade (Point-to-point connection)

 Receivers on the same line (Multi-point connection)

Page 13 MNVCSM84A_1511_EN

Point to point connection

This type of connection allows the AUX line to be used to control one or more receivers arranged in cascade

(point-to-point type connection). The AUX line of the matrix should have the termination resistance inserted (see

section 3.4.3). Each receiver in turn should have a RS485 line termination resistance inserted. Each receiver

should have a different address. Configure the receivers with RS485 type communication with the same baud

rate and protocol (Videotec or MACRO) as the Matrix AUX line.

Internally, the receivers can regenerate the received signal and send it on along a new communication line to

the next receiver. Each of the three line sections (L1, L2, L3) is considered independent, and connects only two

devices point-to-point, both with the load inserted, for a maximum distance of 1200 metres. The Matrix - R3

receiver distance can therefore be up to 3600 m (1200 m between the Matrix Aux line and receiver R1, 1200 m

between receiver R1 and receiver R2, and a further 1200 m between receiver R2 and receiver R3, for a total of

3600 m).

N.B. For the connection in question (point-to-point), faulty operation of one of the devices will cause faults in the

receivers that follow.

Multipoint connection

This type of connection allows the AUX line to be used to control one or more receivers connected on the same

line (multi-point connection).

Connect the receiver on the RS485 communication line with the same AUX matrix line baudrate and protocol

(Videotec or MACRO).

For each line the following should be taken into consideration:

 the Aux Matrix line should have the load inserted (see section 3.4.3 Inserting the load on the AUX line)

 only one of the receivers (the one at the end of the line) has the load inserted.

 the total length of the line should not exceed 1200 m.

 each receiver should have a different address

Receivers R1, R2 should not have the termination resistance inserted. The maximum length of the line, from

end to end (from the matrix AUX line to receiver R3), is 1200 metres.

N.B. For the connection in question (multipoint), a fault in one of the devices does not affect the other receivers.

Page 14 MNVCSM84A_1511_EN

3.5.4.3 Multiplexer (AUX line)

For the type of Multiplexer to be used, see the following connection tables

Matrix (AUX line) –Javelin/Hitron Multiplexer RS 485 connection

MATRIX RJ-jack 1 RJ-jack 2 Mux

RS485-A White ----------------- Black RS485-A

RS485-B Yellow ----------------- Green RS485-B

Matrix (AUX line) –SP16C Videotec Multiplexer RS 485 connection

MATRIX RJ-jack 1 RJ-jack 2 Mux

RS485-A White ----------------- Black RS485-A

RS485-B Yellow ----------------- Yellow RS485-B

3.5.4.4 VCR

The Trigger impulse is recognised on the rising or falling edge which can be set at the matrix programming

stage. Connect the VCR input video with output video n°4 of the matrix (VCR dedicated output). For the VCR

trigger on the other hand, refer to the following connection table:

Matrix – VCR connection

Matrix DB25 VCR

Pin 19 – Trigger ------------------------- Trigger pin

Pin 20 – Ground GND ------------------------- Ground pin

3.5.4.5 PC

It is possible to connect a PC for remote control of the matrix or for the firmware update using a standard 9-pin

serial extension cable (DB9M - DB9F) and connecting it to the matrix DB9 (“PC”) socket.

If the Macro communication protocol, given in the appendix, is used it is possible to completely control the

matrix and record noteworthy events when necessary.

Page 15 MNVCSM84A_1511_EN

4 Matrix operating features

4.1 Video input management

4.1.1 Automatic switching sequences

The automatic switching sequences are groups of input videos that are displayed consecutively in the

order and for the length of time defined by the operator. Each switching sequence consists of a minimum of 1

and a maximum of 16 program steps (identified by the letters from A to P).

Each step describes:

 the input to be viewed

 the viewing time, from 1 to 300 seconds.

There are no restrictions to programming the switching sequence: an input can even be repeated more than

once, as shown in the example below:

Step Input Length

Comment

A

1 2 Input 1 is on view for 2 seconds

B

2 4 Input 2 for 4 seconds

C

5 7 Input 5 for 7 seconds

D

- - - Step D is ignored and will be jumped

E

2 5 Input 2 is on view again for 5 seconds

F-P

- - -

If there are no further program steps, the automatic switching sequence

will resume from step A.

4.1.2 Day and night automatic switching sequences

Two different switching sequences can be defined for each outlet. This makes control of the infrastructures

easier during the day (when there is usually personnel on the premises) and at night (when control would be

better on the outer perimeter or at critical points around the installation).

During configuration, it is necessary to define the start and end times of the daytime switching sequence: the

night-time sequence will be enabled for the rest of the 24-hour period.

Warning! If the night-time sequence is not used (only one automatic viewing sequence is defined for the

whole 24-hour period), the start and end of the daytime switching sequence should be defined as 00:00 and

23:59 respectively. If the matrix seems to have an operating fault this may be due to an error in configuring the

daytime sequence start /end time.

4.1.3 Manual selection

From the keyboard, the operator can directly select a desired input, interrupting the automatic switching sequence.

A specific input video is always selected with reference to the active monitor: if the keyboard is authorised to

control more than one monitor only the “active monitor” (the last one to be selected) will be involved in the input

video selection.

The local keyboard and the remote DCTEL and DCBD keyboards can be used to control all outputs. Keyboards

DCJ and DCK can be configured to restrict access to a set of output videos dedicated to each operator, so as to

prevent unauthorised personnel from operating on all outputs.

4.1.4 Using the Inc/Dec keys

The Inc/Dec keys can be used to block an automatic switching sequence on one input and, where appropriate,

to select the next/previous input video (following the preset order for the switching sequence in progress)

without having to use the numeric keypad to select an input.

4.1.5 Output video dedicated to the VCR

Output video n°4 of matrices SM84A and SM164A is dedicated to the VCR if it is enabled. In this case control of

the VCR channel is only subject to the trigger impulse itself. Any command that may be sent from the keyboard

concerning this channel will therefore be ignored.

Page 16 MNVCSM84A_1511_EN

4.2 Alarms

The matrix provides a DB25 alarm connector, to which 8/16 (depending on the SM84A / SM164A model)

alarm contacts ("alarm input") can be attached, one for each of the input videos of the video device.

When an alarm is activated:

 the keyboards able to display the alarm condition can activate a warning buzzer and may also show the

alarm status with a display message or a flashing LED (this type of operation is determined by the

characteristics and configuration of the individual keyboard).

 each output that is enabled for recognition shows the video signal corresponding to the latest recognised

alarm in order of time; if an output is not enabled for recognition of the alarm condition, the alarm will not be

shown on the video

 the alarm relay will be closed (auxiliary contact) and in some cases a warning buzzer is activated inside the

matrix, if this is allowed for by the alarm contact configuration

 the text identifying the corresponding input is accompanied by the word “ALARM”.

Alarm status will be stored internally and will be kept, even if there is a temporary interruption to the matrix

power supply. Warning! The alarms must be configured with special care, because a mistake in their settings

could cause faults in operation that are difficult to identify.

4.2.1 Alarm contact types

Each individual alarm contact can be defined:

 normally open (N.O.): the alarm condition is recognised when the alarm contact is short circuited to the

common alarm pin

 normally closed (N.C.): the alarm condition is recognised when there is a break in the contact between the

alarm and common alarm pin

 not used: the alarm contact is ignored.

Warning! Pins that are not connected to any alarm contact should be configured as NOT USED.

See the following example to understand how the alarm contacts function:

Alarms normally open

: the contacts are

disconnected from the common alarm pin.

When the contact is closed, alarm number 3 is

recognised.

Alarms normally closed

: the contacts are

connected to the common alarm contact (pin

23-24-25). When the connection opened,

alarms 1 and 3 are recognised. This

configuration is also able to recognise as an

alarm a possible break in the cable

connecting the sensor and the matrix.

4.2.2 Alarm types

The alarm signal can be considered CONTINUOUS or IMPULSIVE.

The difference lies in how the matrix behaves when the alarm signal ceases:

 impulsive alarm: the matrix remains in alarm status, waiting for a reset (from the keyboard, external or timed)

 continuous alarm: the matrix resets automatically and returns to normal operation without waiting for a reset.

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Videotec SM164A Operating Instructions Manual

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