Selco M4200 User Manual

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Alarm Monitor - M4200

User manual

Revision: 07.03.2017

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Table of contents

TABLE OF CONTENTS ...................................................................................................................................................... 1

INTRODUCTORY NOTES ................................................................................................................................................. 3

LAYOUT ................................................................................................................................................................................. 3

FACILITIES ON THE FRONT .................................................................................................................................................... 3

FACILITIES ON THE REAR ...................................................................................................................................................... 3

FUNCTION ............................................................................................................................................................................. 4

FUNCTION DIAGRAM ............................................................................................................................................................. 4

INSTALLATION INSTRUCTIONS .................................................................................................................................. 5

SINGLE UNIT .......................................................................................................................................................................... 5

MULTIPLE UNITS ................................................................................................................................................................... 6

Synchronisation ................................................................................................................................................................ 6

RELAY OUTPUTS.................................................................................................................................................................... 7

Normally de-energized ..................................................................................................................................................... 7

Normally energized .......................................................................................................................................................... 8

Load capacity ................................................................................................................................................................... 9

OPEN COLLECTOR OUTPUTS ............................................................................................................................................... 10

Normally de-energized ................................................................................................................................................... 10

Normally energized ........................................................................................................................................................ 10

Load capacity ................................................................................................................................................................. 10

NC INPUT CONTACTS .......................................................................................................................................................... 11

Example .......................................................................................................................................................................... 11

CABLE MONITORING ........................................................................................................................................................... 12

Example .......................................................................................................................................................................... 12

Input reference ............................................................................................................................................................... 12

Normally open inputs ..................................................................................................................................................... 12

Normally closed inputs .................................................................................................................................................. 12

Inputs in general............................................................................................................................................................. 12

INPUT REFERENCE ............................................................................................................................................................... 13

Example .......................................................................................................................................................................... 13

PROGRAMMING BY SWITCHES ................................................................................................................................. 14

ROTARY SWITCH - OPERATIONAL PRINCIPLE ..................................................................................................................... 14

DIP SWITCHES - OPERATIONAL PRINCIPLE .......................................................................................................................... 15

Factory default - dip switches........................................................................................................................................ 15

Factory default – all settings ......................................................................................................................................... 15

Set button ........................................................................................................................................................................ 16

Acknowledge LED.......................................................................................................................................................... 16

DIP SWITCH - PROGRAMMING ............................................................................................................................................. 17

Input settings .................................................................................................................................................................. 17

General settings.............................................................................................................................................................. 19

WINDOWS® SOFTWARE ................................................................................................................................................ 21

LOCATE HYPERTERMINAL ON THE PC .............................................................................................................................. 21

INSTALLING HYPERTERMINAL ........................................................................................................................................... 22

WIRING ................................................................................................................................................................................ 22

CREATE A NEW CONNECTION ............................................................................................................................................. 23

ASCI settings .................................................................................................................................................................. 24

SAVE CONNECTION ............................................................................................................................................................. 25

INTRODUCTION TO MICROSOFT

®

HYPERTERMINAL ......................................................................................................... 25

Icon explanation ............................................................................................................................................................. 25

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PROGRAMMING BY PC .................................................................................................................................................. 26

READ CONFIG ...................................................................................................................................................................... 26

SYSTEM PARAMETERS......................................................................................................................................................... 27

Channel functions .......................................................................................................................................................... 27

Input contact type ........................................................................................................................................................... 27

Input reference ............................................................................................................................................................... 27

Cable monitoring ........................................................................................................................................................... 28

Input delay ...................................................................................................................................................................... 28

LED colour ..................................................................................................................................................................... 28

Block function 1 .............................................................................................................................................................. 29

Block function 2 .............................................................................................................................................................. 29

Alarm 1 (output relay 1) ................................................................................................................................................ 29

Alarm 2 (output relay 2) ................................................................................................................................................ 30

Siren (relay) .................................................................................................................................................................... 30

Output 1 - 4 ..................................................................................................................................................................... 30

Output relay 1 (contact)* ............................................................................................................................................... 31

Output relay 2 (contact)* ............................................................................................................................................... 31

Siren relay (contact)* ..................................................................................................................................................... 31

Output 1 – 4 (contact)* .................................................................................................................................................. 31

Output relay 1 (signal)* ................................................................................................................................................. 31

Output relay 2 (signal)* ................................................................................................................................................. 31

Siren relay (signal)* ....................................................................................................................................................... 31

Unblock delays ............................................................................................................................................................... 32

Reset functions ................................................................................................................................................................ 32

Factory default ............................................................................................................................................................... 32

SAVE SETTINGS IN A TEXT FILE ........................................................................................................................................... 33

LOAD SETTINGS FROM A TEXT FILE .................................................................................................................................... 34

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Introductory notes

This manual describes installation and operating instructions together with dip switch configuration of the
Alarm Monitor M4200.

This manual also includes information about how to configure the product, using the included RS232 cable
and a Windows® PC running Microsoft® HyperTerminal.

Layout

Below is a description of the facilities on the front and the rear of the unit.

Facilities on the front

Facilities on the rear

Output terminals. 4 open collector outputs for
remote control of external lamps or relays.

Sync. Used for synchronization of flashing LEDs
on multiple M4200 units.

8 LEDs, one for each input
terminal. By programming it
is possible to change the
colour individually for each
LED, into red, green or
yellow.

When reset button is pushed,
all relay outputs go off and
LED status change from
flashing to steady mode

When test button is pushed, all LEDs
show steady light. Hold down the button
and test status will change from red into
green and into yellow.

Keep down the button and dimming of all
LEDs can be done in 8 consecutive levels.

Green LED. Active
when power is on.

+REF and GND. Reference to inputs. +REF is
the same as positive power reference. GND is
galvanically separated from the negative power
reference.

Reset, test and block functionality for remote
activation. GND is common reference.

RS232 interface. Used for connection with PC.

Power. Terminal 24 is positive reference.

Terminal 26 is negative reference. Terminal 25 is
not in use.

Output relays. Alarm 1 is default activated when
inputs are active. It is possible to set up activation
mode for both alarm 1 and 2.

Siren relay. Default activated when inputs are
active. It is possible to set up activation mode for
the siren relay.

Input terminals. Used for connection of potential
free contacts. Both NO and NC contacts are
supported.

10 channel rotary switch. Used for
switch configuration of the unit:

 0: Operational mode
 1 - 8: Set input 1 - 8
 9: Set general functions

Acknowledge LED.
Indicates that programming
by set button is accepted.

8 dip switches. Used for configuration of
the unit. Named in documentation as 1-1
to 1-8.

Set button. Used for
accept of rotary and dip
switch settings.

8 dip switches. Used for configuration of
the unit. Named in documentation as 2-1
to 2-8.

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Function

The Alarm Monitor M4200 provides the possibility of monitoring 8 individual processes. All inputs will accept
any combination of NO or NC contacts.

It is possible to programme each input, e.g. to activate the siren relay, the two alarm relays or the four open
collector outputs. The delays for the inputs can be selected between 25 milliseconds and 60 seconds.

With the default configuration on M4200, the alarm scenario will unfold as shown in Figure 1.

Figure 1. Function diagram, default scenario.

Function diagram

When alarm input is activated, the LED goes flashing, alarm relay 1 and the siren relay goes ON.
When reset button is activated, the LED goes steady and the siren goes OFF.
When alarm input is de-activated, LED goes OFF, together with alarm 1.

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Installation instructions

This section contains information about how to install the alarm monitor.

Single unit

Figure 2 shows the default connection of the input and output terminals on the alarm monitor. Input terminals
1 - 8 are connected to +REF OUT (positive supply) via potential free contacts.

Reset, test and block terminals are connected to GND via potential free contacts.
Lamps are connected to the outputs; the lamps are supplied from same source as the unit. Terminal 26 is

connected to ÷ (negative supply).

Figure 2. Wiring example, single unit (default connection).

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Multiple units

Figure 3 shows the default connection of the input and output terminals on two M4200 units. Input terminals
1 - 8 are connected to +REF OUT (positive supply) on one of the units via potential free contacts.

Test terminals are connected to GND on both units via potential free contacts (test and block terminals can
be connected by the same method).

Lamps are connected to the outputs; the lamps are supplied from same source as the units. Terminal 26 is
connected to ÷ (negative supply).

Figure 3. Wiring example, multiple units with external reset (default connection).

Synchronisation

If multiple units are positioned side by side it can be desirable that all LEDs, on all the units are flashing with
the same speed rate.

If all Sync terminals (23) on all the multiple units are connected with each other, all LEDs will operate with the
same speed rate.

No further configuration is needed. The Sync functionality has no other importance than providing visual
continuity.

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Relay outputs
The alarm monitor has 3 output relays; all of them can be activated by any of the 8 alarm inputs. The relays
can work as de-energized or energized, when the power is on the alarm monitor. The alarm monitor is
delivered with all output relays operating in normally de-energized mode.

This section contains information about the 2 principles and how and when to use them.
This section only contains information about the relay outputs (terminal 27 - 35). The examples in this

section are based on the siren relay, but all of the 3 output relays can be used individually with the same
functionality.

Normally de-energized

Figure 4 shows the default connection of the output terminals on the alarm monitor.
The alarm monitor is delivered with all output relays operating in normally de-energized mode. This means

that the relay stays in the same position, whether the power is on or off. When an incoming alarm activates
the relay, the position will change from terminal 33 to 35 (siren relay).

The output relay is supplied from same source as the unit. The siren is connected to the output relay.
Terminal 26 and the siren are connected to ÷ (negative supply).

NOTE:
Regarding load capacity for the output relays, please refer to the section Load capacity on page 9 in this
manual.

Figure 4. Wiring example, normally de- energized relay (default connection).

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Normally energized

Figure 5 shows the connection of the output terminals when the relay is programmed to be normally
energized.

It is possible to programme each of the output relays to operate individually as normally energized. This
means that the relay changes position from terminal 33 to terminal 35 (siren relay) when the power is
switched on.

When an incoming alarm activates the relay, the position will change from terminal 35 to 33 (siren relay).
The same scenario will appear if the supply voltage disappears from the alarm monitor. This is a big
advantage when alarm is needed, if breakdown of the alarm system occurs.

If supply voltage disappears from the alarm monitor and alarm is needed, it is very important to use another
supply unit for the output relays, than used for the supply voltage of the alarm monitor.

The output relay is supplied from another source than the alarm monitor. The siren is connected to the
output relay. The siren is connected to another ÷ (negative supply) than that of the alarm monitor.

NOTE:
Regarding load capacity for the output relays, please refer to the section Load capacity on page 9.

To use any of the three output relays as normally energized, programming is needed. For further information
about programming please refer to the section Programming by switches on page 14 or Programming by
PC on page 26.

Figure 5. Wiring example, normally energized relay.

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Load capacity

The output relays are able to manage any kind of resistive load. The load capacity depends on whether AC
or DC voltage is connected to the relay.

Below is listed the maximum load capacity for AC and DC voltage respectively:

Max. AC load:

250VAC / 4A

Max. DC load:

Readings of DC load
capacity curve above:

VDC

Ampere

10

4

12

4

24

4

48

2

110

0,5

300

0,1

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Open collector outputs

The alarm monitor has 4 open collector outputs; all of them can be activated by any of the 8 alarm inputs.
These outputs are able to work as energized or de- energized, similar to the output relays. This section
contains information about the 2 principles and how to use them.

Figure 6 shows the connection diagram of the output terminals (terminal 19 - 22) on the alarm monitor.

Figure 6. Wiring example, open collector outputs.

Normally de-energized

The alarm monitor is delivered with all open collector outputs operating as normally de-energized.
This means that the output has no reference whether power is on or off. When an incoming alarm activates

the output, status is changing to negative (÷) reference.

Normally energized

It is possible to programme each of the open collector outputs to operate individually as normally energized.
This means that the output changes to negative (÷) reference when the power is switched on. When an

incoming alarm activates the output, status is changing and the negative (÷) reference disappears.

Load capacity

Maximum load capacity for the open collector outputs is 60VDC / 700mA.

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NC input contacts

IMPORTANT: It is only recommended to use the example below if the alarm monitor is still in factory default
mode. If there is any possibility that the alarm monitor has been programmed previously, please refer to the
section Factory default - dip switches on page 15.

Example

Input 1 - 8 accept any combination of NO or NC contacts. Default configuration only supports NO contacts. If
NC contacts are used, please follow the example below regarding input 1, terminal 1:

1. Set rotary switch in position 1 (acknowledge LED change into red colour).

2. Set dip switch 1-1 to On (NC contact).

3. Press Set button until Acknowledge LED shortly turns into green light.

4. Release Set button.

Now it is possible to connect input 1 as shown in Figure 7:

Figure 7. Wiring example, NC input

If NC contacts are needed on any other input channels, please select the input number on the rotary switch
and follow step 3 and 4 above.

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Cable monitoring

Cable monitoring provides extra security to the alarm system. Cable faults are indicated with short flashing
pulses on the corresponding alarm channels. Cable fault indications will be overridden by activation of input
alarms and indicated with normal alarm flash or steady light indication.

IMPORTANT: It is only recommended to use the example below if the alarm monitor is still in factory default
mode. If there is any possibility that the alarm monitor has been programmed previously, please refer to the
section Factory default - dip switches on page 15.

Example

The example below refer to input 1, terminal 1:

1. Set rotary switch in position 1 (acknowledge LED change into red colour).

2. Set dip switch 1-3 to On (Cable monitoring).

3. Press Set button until Acknowledge LED shortly turns into green light.

4. Release Set button.

Now it is possible to connect input 1 as shown in Figure 8 and

Figure 8. Wiring example, cable monitoring on input 1

If cable monitoring is needed on any other input channel, please select the input number on the rotary switch
and follow step 3 and 4 above.

Notice that two measuring resistors (1 in series and 1 in parallel) are needed for each of the inputs operating
with cable monitoring. It is very important that both resistors are mounted close to the input contact.

Input reference

In the example above + REF OUT (9) is used as input reference. It is possible to use both + Ref (9) and
GND Ref (10) with cable monitoring without further configuration.

Normally open inputs

 The resistor in parallel is monitoring cable break.
 The resistor in serial is monitoring short circuit.

Normally closed inputs

 The resistor in parallel is monitoring short circuit.
 The resistor in serial is monitoring cable break.

Inputs in general

However the input is operating as, normally open or normally closed, same size of resistors is used.

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Input reference

IMPORTANT: It is only recommended to use the programming example below if the alarm monitor is still in
factory default mode. If there is any possibility that the alarm monitor has been programmed before, please
refer to the section Factory default - dip switches on page 15.

Example

It is possible to set up input 1-8 individually to positive or negative reference. Default configuration is positive
reference via the terminal +REF OUT.

If negative reference is needed, please follow the example below regarding input 1, terminal 1:

1. Set rotary switch in position 1 (acknowledge LED change into red colour).

2. Set dip switch 1-2 to Off (GND reference).

3. Press Set button until Acknowledge LED shortly turns into green light.

4. Release Set button.

Now it is possible to connect input 1 as shown in Figure 9:

Figure 9. Wiring example, GND

If GND reference is needed on any other input channel, please select the input number on the rotary switch
and follow step 3 and 4 above.

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Programming by switches

There are two ways of programming the alarm monitor; by dip switches on the rear of the unit or by any
standard ANSI compatible terminal application e.g. Microsoft® HyperTerminal (which is supplied with the
Windows® operating system) or any other ANSI terminal.

When using a standard ANSI compatible terminal application, the configuration is done through a PC, via the
special RS232 cable, which is delivered with the M4200 unit.

This section only contains information about programming by dip switches.

Switches

All switches needed for programming are located on the rear of the alarm monitor. There is 1 rotary switch
with 10 channels for mode selection and 2 rows of dip switches with each 8 dip switches for choosing
different programming facilities.

Below is a description of the functions, both on the rotary switch and the dip switches.

Rotary switch - operational principle

Below is an explanation of the different modes on the rotary switch. Figure 10 illustrates the different modes
schematically.

Position “0” is operational mode. This mode is default selected and means that the alarm monitor is running
in alarm mode.

Position 1 – 8 is programming mode for each of the input channels. Programming functions into channel 1,
set the rotary switch in position 1 etc.

Position 9 is programming mode for general functions, such as block, delay and reset functions.

Position

Mode

0

Operational (alarm)

1

Set input 1

2

Set input 2

3

Set input 3

4

Set input 4

5

Set input 5

6

Set input 6

7

Set input 7

8

Set input 8

9

Set general functions

Figure 10. Modes on rotary switch.

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Dip switches - operational principle

There are 16 dip switches spread on 2 rows with 8 in each row. Each dip switch has 2 positions; ON and
OFF (2 functions per dip switch).

The functions of each dip switch depend on the position of the rotary. This means that 2 × 16 (on/off)
different settings are available on each of the 9 positions on the rotary switch (no programming facilities are
available when the rotary switch is in position 0, operational mode).

When the rotary switch is in position 1 – 8, each dip switch has the same functions because the same
functions are needed on each input channel.

Factory default - dip switches

Figure 11 shows how all the dip switches are set, when the alarm monitor leaves the SELCO factory. Before
starting any programming session on the alarm monitor, it is recommended to set all dip switches as shown
in Figure 11.

The reason is that when saving is done by the set button, all settings will be saved even though only a few
dip switch positions have been changed.

Top row of dip switches (1)

ON X X

OFF X X X X X X 1.1

1.2

1.3

1.4

1.5

1.6

1.7

1.8

Bottom row of dip switches (2)

ON X X

OFF X X X X X X 2.1

2.2

2.3

2.4

2.5

2.6

2.7

2.8

Figure 11. Dip switch settings (factory default).

Factory default – all settings

It is possible to return all settings on the alarm monitor into factory default by 1 operating cycle:

1. Set the rotary switch in position 0.

2. Press the button “Set” (the colour of the “Ack” LED changes into red light).

3. Hold “Set” button down in 5 seconds.

4. The colour of the “Ack” LED changes into green light.

5. Release the “Set” button.
Now all settings are returned to factory default. It is still necessary to set up all dip switch contacts manually

(please refer to the previous section in this manual).

8 dip switches (1. row). Named in
documentation as 1.1 to 1.8.

8 dip switches (2. row). Named in
documentation as 2.1 to 2.8.

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Set button

The set button is positioned on the rear of the alarm monitor, below the dip switches.
This push button is used for accept of rotary and dip switch settings. Set button is related to the rotary switch,

which means that all dip switch settings made, in the selected position of the rotary switch, will be saved
when the set button is pushed.

IMPORTANT

It is very important to check the position of all 16 dip switches before set button is pushed.

Acknowledge LED

Acknowledge LED is positioned on the rear of the alarm monitor, beside the save button.
When the rotary switch is in programming mode (Position 1 - 9) the LED gives a constant red light.
When set button is pushed and held down, the LED will flash 2 times and change into green light until set

button is released. Green light indicates that saving the settings done by set button is accepted.

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Dip switch - programming

This section lists all possible settings that can be done by the switches on the rear of the alarm monitor.
Before starting the programming session please read the previous section Dip switches - operational

principle on page 15.

Input settings

Before programming the input settings please select the position number on the rotary switch (position 1 - 8).
In the table below the default settings are marked with bold type.

Switch row 1

Function

Switch setting

Switch setting

Switch setting

Description

Input type

SW1.1

OFF

Normally Open

ON

Normally Closed

Input reference

SW1.2

OFF

GND

ON

+VREF OUT

Cable monitoring

SW1.3

OFF

Inactive

ON

Active

Input Delay

SW1.4

SW1.5

SW1.6

OFF

OFF

OFF

25 ms

OFF

OFF

ON

500 ms

OFF

ON

OFF

1 s OFF

ON

ON

2 s ON

OFF

OFF

5 s ON

OFF

ON

10 s

ON

ON

OFF

30 s

ON

ON

ON

60 s

LED Colour

SW1.7

SW1.8

OFF

OFF

No light

OFF

ON Red

ON

OFF

Green

ON

ON Yellow

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Switch row 2

Function

Switch setting

Description

Block1

SW2.1

OFF

No effect

ON

Block

Block2

SW2.2

OFF

No effect

ON

Block

Alarm1

SW2.3

OFF

No effect

ON

Activate

Alarm2

SW2.4

OFF

No effect

ON

Activate

Siren

SW2.5

OFF

No effect

ON

Activate

Out1

SW2.6

OFF

No effect

ON

Activate

Out2

SW2.7

OFF

No effect

ON

Activate

Out3

SW2.8

OFF

No effect

ON

Activate

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General settings

Before programming the general settings please select the position number on the rotary switch (position 9).
In the table below the default settings are marked with bold type.

Switch row 1

Function

Switch setting

Description

Alarm Relay 1

SW 1.1

OFF

Normally De-energized

ON

Nomally Energized

Alarm Relay 2

SW 1.2

OFF

Normally De-energized

ON

Nomally Energized

Siren Relay

SW 1.3

OFF

Normally De-energized

ON

Nomally Energized

Open Collector 1

SW 1.4

OFF

Normally De-energized

ON

Normally low

Open Collector 2

SW 1.5

OFF

Normally De-energized

ON

Normally low

Open Collector 3

SW 1.6

OFF

Normally De-energized

ON

Normally low

Open Collector 4

SW 1.7

OFF

Normally De-energized

ON

Normally low

Spare

SW 1.8

OFF

No effect

ON

No effect

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Switch row 2

Function

Switch setting

Switch setting

Description

UnBlock Delay Gr1

SW 2.1

SW 2.2

OFF

OFF

1 Sec

OFF

ON

5 Sec

ON

OFF

10 Sec

ON

ON

15 Sec

UnBlock Delay Gr2

SW 2.3

SW 2.4

OFF

OFF

1 Sec

OFF

ON

5 Sec

ON

OFF

10 Sec

ON

ON

15 Sec

Reset button

SW 2.5

OFF

One push: Reset all.

ON Two push: First siren, second LEDs

Alarm relay 1*

SW 2.6

OFF

Steady (no pulse)

ON New alarm: 2 second pulse

Alarm relay 2*

SW 2.7

OFF

Steady (no pulse)

ON New alarm: 2 second pulse

Siren relay*

SW 2.8

OFF

Steady (no pulse)

ON New alarm: 2 second pulse

(Relays) *

These functions are available from firmware version; January 2008.

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Windows® software

There are two ways of programming the alarm monitor; by dip switches on the rear of the unit or by any
standard ANSI compatible terminal application e.g. Microsoft® HyperTerminal (which is supplied with the
Windows® operating system) or any other ANSI terminal.

Windows® NT, 2000, XP and Vista will normally install HyperTerminal by default. Windows® 95, 98 and ME
will in contrast not install HyperTerminal by default.

This section describes how to locate and eventually install Microsoft® HyperTerminal on a PC. All information
regarding wiring and communication between a PC and the alarm monitor is also available in this section.

Locate HyperTerminal on the PC

It is important to make sure that an ANSI terminal application is installed on the PC. To find out if Microsoft®
HyperTerminal is already installed:

1. Click on the Start button (in the lower left corner of the Windows® screen).

2. Click on the menu item All programs*).

3. Click on the menu item Accessories.

4. Click on the menu item Communication.

5. Check if there is a menu item named: HyperTerminal.

If you have already installed Microsoft® HyperTerminal, please continue in the section Wiring on page 22.

*) On Windows® XP the button is named All programs. If the operating system is older than Windows® XP, the button is only named
Programs.

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Installing HyperTerminal

This section describes the procedure for installing HyperTerminal, which is supplied on the Windows® 9x
CD-ROM.

Please note that the installing procedure for HyperTerminal might be a little different depending on which
version of Windows® you have installed. It should, however, be possible to configure the system using this
procedure:

1. Click on the Start button (in the lower left corner of the Windows® screen).

2. Click on the menu item Control panel.

When the Control Panel appears on the screen:

3. Double-click on the Add/Remove Programs icon.

When the Add/Remove Programs Properties dialogue appears on the screen:

4. Click on the tab Windows Setup.

5. Click on Communications components.

6. Click on the button Details.

7. Enable the check box just left of the HyperTerminal application.

8. Click on the button OK.

Windows will now ask for the installation CD-ROM. After inserting the CD-ROM, Windows will install the files
needed for the HyperTerminal application.

Wiring

HyperTerminal is now fully installed and it is time for connecting the alarm monitor with the PC:

1. Plug one end of the supplied RS232 cable into the grey RJ plug (located in the lower left corner on the
rear of the alarm monitor).

2. The other end of the cable (with the DB9 plug) connects to a PC COM port (COM1 is used in this
manual).

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Create a new connection

HyperTerminal is now fully installed and it is time for creating a new connection:

1. Click on the Start button (in the lower left corner of the Windows® screen).

2. Click on the menu item All programs*).

3. Click on the menu item Accessories.

4. Click on the menu item Communication.

5. Click on the menu item HyperTerminal.

When the New connection dialogue appears on the screen:

6. Type in Direct COM1 (assuming that COM1 is used for the connection) in the input field Name.

7. Click on the button OK.

When the Connect to dialogue appears on the screen:

8. Click on the drop down menu, opposite the input field Connect to, and choose which COM port you

want to connect to, e.g. .

9. Click on the button OK.

When the Port Settings dialogue appears on the screen:

Please make sure that the dialog is filled out exactly like the picture above!

10. Click on the button OK.

*) On Windows® XP the button is named All programs. If the operating system is older than Windows® XP, the button is only named
Programs.

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ASCI settings

The HyperTerminal dialogue appears on the screen.
To make sure that communication between Microsoft® HyperTerminal and the alarm monitor will work

properly, some settings regarding transmission of data are needed:

1. Click on the menu Files.

2. Click on the menu item Properties.

When the properties dialog appears on the screen:

3. Click on the tab Settings.

4. Click on the button ASCII-settings.

When the ASCII Setup dialogue appears on the screen:

Please make sure that the dialog is filled out exactly like the picture above!

5. Click on the button OK.

The alarm monitor is now connected to the PC through RS232. The screen dump below shows the welcome
message, transmitted by the M4200 alarm monitor, which indicates that it is ready for configuration.

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Save connection

In order to avoid the starting and configuration procedure every time you start up the Microsoft®
HyperTerminal in the future, it is practical to save the setup. To save setup:

1. Click on the menu File (in the upper left corner of the HyperTerminal dialogue).

2. Click on the menu item Save as...

The Save as… dialogue will appear on the screen:

3. Note that the name Direct COM1 is already typed into the input field Filename.

4. Click on the button Save.

The configuration has been saved as a HyperTerminal shortcut icon. This icon (named Direct COM1) can be
accessed directly through the start menu (same location as HyperTerminal).

Introduction to Microsoft® HyperTerminal

Below you will find an explanation for the frequently used icons in Microsoft® HyperTerminal.

Icon explanation

Icon

Description

Use this icon if you need to create a new connection
e.g. if you need to communicate through another
COM port than your default connection does

Use this icon if you need to open a new connection
e.g. the connection you have saved as Direct COM1

Use this icon if you need to connect to the unit
related to the pc e.g. M4200

Use this icon if you need to disconnect to the unit
related to the pc e.g. M4200

Use this icon if you need to correct some of the
properties for the active connection e.g. Direct
COM1

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Programming by PC

There are two ways of programming the alarm monitor; by dip switches on the rear of the unit or by any
standard ANSI compatible terminal application e.g. Microsoft® HyperTerminal (which is supplied with the
Windows® operating system) or any other ANSI terminal.

When using a standard ANSI compatible terminal application, the configuration is done through a PC, via the
special RS232 cable which is delivered with the alarm monitor.

The 16 dip switches have a limited number of combinations and provide only restricted combinations for e.g.
channels and delays. Otherwise the RS232 based configuration is unrestricted.

In this section, all necessary information regarding programming of the alarm monitor from a PC is available.

Read config

It is possible to read out the present configuration of the alarm monitor, by writing a single command into the
terminal window.

Make sure that the RS232 port on the alarm monitor is connected to the PC serial port (COM1), and the
power is turned on.

To start up the programming window (Microsoft® HyperTerminal):

1. Click on the Start button (in the lower left corner of the Windows® screen).

2. Click on the menu item All programs*).

3. Click on the menu item Accessories.

4. Click on the menu item Communication.

5. Click on the menu folder HyperTerminal.

6. Click on the menu item Direct COM1.

The HyperTerminal dialogue will appear on the screen:

7. Type the text read config in the terminal window.

8. Press the Enter key on the keyboard.

All parameters are now listed in the terminal window. All parameters can be changed or activated according
to the descriptions on every single parameter, which you are able to read about on the following pages.

Please type the complete command and press ENTER. The parameter is automatically saved into the unit.

*) On Windows® XP the button is named All programs. If the operating system is older than Windows® XP, the button is only named
Programs.

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System parameters

In the table below every possible parameter is listed followed by a detailed explanation of the use of the
parameter:

Parameter

Command

Description

Channel functions

WRITE IN1 FUNC ALR

Channel 1 will function as normal alarm channel

WRITE IN2 FUNC ALR

Channel 2 will function as normal alarm channel

WRITE IN3 FUNC ALR

Channel 3 will function as normal alarm channel

WRITE IN4 FUNC ALR

Channel 4 will function as normal alarm channel

WRITE IN5 FUNC ALR

Channel 5 will function as normal alarm channel

WRITE IN6 FUNC ALR

Channel 6 will function as normal alarm channel

WRITE IN7 FUNC ALR

Channel 7 will function as normal alarm channel

WRITE IN8 FUNC ALR

Channel 8 will function as normal alarm channel

WRITE IN1 FUNC IND

Channel 1 will function only as indicator channel

WRITE IN2 FUNC IND

Channel 2 will function only as indicator channel

WRITE IN3 FUNC IND

Channel 3 will function only as indicator channel

WRITE IN4 FUNC IND

Channel 4 will function only as indicator channel

WRITE IN5 FUNC IND

Channel 5 will function only as indicator channel

WRITE IN6 FUNC IND

Channel 6 will function only as indicator channel

WRITE IN7 FUNC IND

Channel 7 will function only as indicator channel

WRITE IN8 FUNC IND

Channel 8 will function only as indicator channel

Input contact type

WRITE IN1 TYPE NO

Channel 1 supports a normally open input contact

WRITE IN2 TYPE NO

Channel 2 supports a normally open input contact

WRITE IN3 TYPE NO

Channel 3 supports a normally open input contact

WRITE IN4 TYPE NO

Channel 4 supports a normally open input contact

WRITE IN5 TYPE NO

Channel 5 supports a normally open input contact

WRITE IN6 TYPE NO

Channel 6 supports a normally open input contact

WRITE IN7 TYPE NO

Channel 7 supports a normally open input contact

WRITE IN8 TYPE NO

Channel 8 supports a normally open input contact

WRITE IN1 TYPE NC

Channel 1 supports a normally closed input contact

WRITE IN2 TYPE NC

Channel 2 supports a normally closed input contact

WRITE IN3 TYPE NC

Channel 3 supports a normally closed input contact

WRITE IN4 TYPE NC

Channel 4 supports a normally closed input contact

WRITE IN5 TYPE NC

Channel 5 supports a normally closed input contact

WRITE IN6 TYPE NC

Channel 6 supports a normally closed input contact

WRITE IN7 TYPE NC

Channel 7 supports a normally closed input contact

WRITE IN8 TYPE NC

Channel 8 supports a normally closed input contact

Input reference

WRITE IN1 REF VREF

Channel 1 is configured for positive reference (terminal 9)

WRITE IN2 REF VREF

Channel 2 is configured for positive reference (terminal 9)

WRITE IN3 REF VREF

Channel 3 is configured for positive reference (terminal 9)

WRITE IN4 REF VREF

Channel 4 is configured for positive reference (terminal 9)

WRITE IN5 REF VREF

Channel 5 is configured for positive reference (terminal 9)

WRITE IN6 REF VREF

Channel 6 is configured for positive reference (terminal 9)

WRITE IN7 REF VREF

Channel 7 is configured for positive reference (terminal 9)

WRITE IN8 REF VREF

Channel 8 is configured for positive reference (terminal 9)

WRITE IN1 REF GND

Channel 1 is configured for negative reference (terminal 10)

WRITE IN2 REF GND

Channel 2 is configured for negative reference (terminal 10)

WRITE IN3 REF GND

Channel 3 is configured for negative reference (terminal 10)

WRITE IN4 REF GND

Channel 4 is configured for negative reference (terminal 10)

WRITE IN5 REF GND

Channel 5 is configured for negative reference (terminal 10)

WRITE IN6 REF GND

Channel 6 is configured for negative reference (terminal 10)

WRITE IN7 REF GND

Channel 7 is configured for negative reference (terminal 10)

WRITE IN8 REF GND

Channel 8 is configured for negative reference (terminal 10)

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Parameter

Command

Description

Cable monitoring

WRITE IN1 CABLE OFF

There is no monitoring of cable faults on Channel 1

WRITE IN2 CABLE OFF

There is no monitoring of cable faults on Channel 2

WRITE IN3 CABLE OFF

There is no monitoring of cable faults on Channel 3

WRITE IN4 CABLE OFF

There is no monitoring of cable faults on Channel 4

WRITE IN5 CABLE OFF

There is no monitoring of cable faults on Channel 5

WRITE IN6 CABLE OFF

There is no monitoring of cable faults on Channel 6

WRITE IN7 CABLE OFF

There is no monitoring of cable faults on Channel 7

WRITE IN8 CABLE OFF

There is no monitoring of cable faults on Channel 8

WRITE IN1 CABLE ON

Channel 1 gives alarm at cable fracture or short-circuit on input cable

WRITE IN2 CABLE ON

Channel 2 gives alarm at cable fracture or short-circuit on input cable

WRITE IN3 CABLE ON

Channel 3 gives alarm at cable fracture or short-circuit on input cable

WRITE IN4 CABLE ON

Channel 4 gives alarm at cable fracture or short-circuit on input cable

WRITE IN5 CABLE ON

Channel 5 gives alarm at cable fracture or short-circuit on input cable

WRITE IN6 CABLE ON

Channel 6 gives alarm at cable fracture or short-circuit on input cable

WRITE IN7 CABLE ON

Channel 7 gives alarm at cable fracture or short-circuit on input cable

WRITE IN8 CABLE ON

Channel 8 gives alarm at cable fracture or short-circuit on input cable

Input delay

WRITE IN1 DELAY 25MS

Channel 1 has a delay of 25ms. from input to respond

25ms - 999ms.

WRITE IN2 DELAY 25MS

Channel 2 has a delay of 25ms. from input to respond

are accepted

WRITE IN3 DELAY 25MS

Channel 3 has a delay of 25ms. from input to respond

values

WRITE IN4 DELAY 25MS

Channel 4 has a delay of 25ms. from input to respond

WRITE IN5 DELAY 25MS

Channel 5 has a delay of 25ms. from input to respond

WRITE IN6 DELAY 25MS

Channel 6 has a delay of 25ms. from input to respond

WRITE IN7 DELAY 25MS

Channel 7 has a delay of 25ms. from input to respond

WRITE IN8 DELAY 25MS

Channel 8 has a delay of 25ms. from input to respond

WRITE IN1 DELAY 1S

Channel 1 has a delay of 1sec. from input to respond

WRITE IN2 DELAY 1S

Channel 2 has a delay of 1sec. from input to respond

1s - 999s are

WRITE IN3 DELAY 1S

Channel 3 has a delay of 1sec. from input to respond

accepted values

WRITE IN4 DELAY 1S

Channel 4 has a delay of 1sec. from input to respond

WRITE IN5 DELAY 1S

Channel 5 has a delay of 1sec. from input to respond

WRITE IN6 DELAY 1S

Channel 6 has a delay of 1sec. from input to respond

WRITE IN7 DELAY 1S

Channel 7 has a delay of 1sec. from input to respond

WRITE IN8 DELAY 1S

Channel 8 has a delay of 1sec. from input to respond

LED colour

WRITE LED1 COLOR RED

The colour of the LED of channel 1 gives a red light

Red, green and

WRITE LED2 COLOR RED

The colour of the LED of channel 2 gives a red light

Yellow is possible

WRITE LED3 COLOR RED

The colour of the LED of channel 3 gives a red light

colours

WRITE LED4 COLOR RED

The colour of the LED of channel 4 gives a red light

WRITE LED5 COLOR RED

The colour of the LED of channel 5 gives a red light

RED, GREEN and

WRITE LED6 COLOR RED

The colour of the LED of channel 6 gives a red light

YELL are accepted

WRITE LED7 COLOR RED

The colour of the LED of channel 7 gives a red light

values

WRITE LED8 COLOR RED

The colour of the LED of channel 8 gives a red light

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Parameter

Command

Description

Block function 1

WRITE ALM1 BLOCK1 OFF

Blocking alarm input 1 is not possible (by block function 1)

WRITE ALM2 BLOCK1 OFF

Blocking alarm input 2 is not possible (by block function 1)

WRITE ALM3 BLOCK1 OFF

Blocking alarm input 3 is not possible (by block function 1)

WRITE ALM4 BLOCK1 OFF

Blocking alarm input 4 is not possible (by block function 1)

WRITE ALM5 BLOCK1 OFF

Blocking alarm input 5 is not possible (by block function 1)

WRITE ALM6 BLOCK1 OFF

Blocking alarm input 6 is not possible (by block function 1)

WRITE ALM7 BLOCK1 OFF

Blocking alarm input 7 is not possible (by block function 1)

WRITE ALM8 BLOCK1 OFF

Blocking alarm input 8 is not possible (by block function 1)

WRITE ALM1 BLOCK1 ON

Blocking alarm input 1 is possible via external button (terminal 13)

WRITE ALM2 BLOCK1 ON

Blocking alarm input 2 is possible via external button (terminal 13)

WRITE ALM3 BLOCK1 ON

Blocking alarm input 3 is possible via external button (terminal 13)

WRITE ALM4 BLOCK1 ON

Blocking alarm input 4 is possible via external button (terminal 13)

WRITE ALM5 BLOCK1 ON

Blocking alarm input 5 is possible via external button (terminal 13)

WRITE ALM6 BLOCK1 ON

Blocking alarm input 6 is possible via external button (terminal 13)

WRITE ALM7 BLOCK1 ON

Blocking alarm input 7 is possible via external button (terminal 13)

WRITE ALM8 BLOCK1 ON

Blocking alarm input 8 is possible via external button (terminal 13)

Block function 2

WRITE ALM1 BLOCK2 OFF

Blocking alarm input 1 is not possible (by block function 2)

WRITE ALM2 BLOCK2 OFF

Blocking alarm input 2 is not possible (by block function 2)

WRITE ALM3 BLOCK2 OFF

Blocking alarm input 3 is not possible (by block function 2)

WRITE ALM4 BLOCK2 OFF

Blocking alarm input 4 is not possible (by block function 2)

WRITE ALM5 BLOCK2 OFF

Blocking alarm input 5 is not possible (by block function 2)

WRITE ALM6 BLOCK2 OFF

Blocking alarm input 6 is not possible (by block function 2)

WRITE ALM7 BLOCK2 OFF

Blocking alarm input 7 is not possible (by block function 2)

WRITE ALM8 BLOCK2 OFF

Blocking alarm input 8 is not possible (by block function 2)

WRITE ALM1 BLOCK2 ON

Blocking alarm input 1 is possible via external button (terminal 14)

WRITE ALM2 BLOCK2 ON

Blocking alarm input 2 is possible via external button (terminal 14)

WRITE ALM3 BLOCK2 ON

Blocking alarm input 3 is possible via external button (terminal 14)

WRITE ALM4 BLOCK2 ON

Blocking alarm input 4 is possible via external button (terminal 14)

WRITE ALM5 BLOCK2 ON

Blocking alarm input 5 is possible via external button (terminal 14)

WRITE ALM6 BLOCK2 ON

Blocking alarm input 6 is possible via external button (terminal 14)

WRITE ALM7 BLOCK2 ON

Blocking alarm input 7 is possible via external button (terminal 14)

WRITE ALM8 BLOCK2 ON

Blocking alarm input 8 is possible via external button (terminal 14)

Alarm 1 (output relay 1)

WRITE ALM1 RELAY1 ON

Alarm 1 (output relay 1) is active when alarm on input 1 is ON

WRITE ALM2 RELAY1 ON

Alarm 1 (output relay 1) is active when alarm on input 2 is ON

WRITE ALM3 RELAY1 ON

Alarm 1 (output relay 1) is active when alarm on input 3 is ON

WRITE ALM4 RELAY1 ON

Alarm 1 (output relay 1) is active when alarm on input 4 is ON

WRITE ALM5 RELAY1 ON

Alarm 1 (output relay 1) is active when alarm on input 5 is ON

WRITE ALM6 RELAY1 ON

Alarm 1 (output relay 1) is active when alarm on input 6 is ON

WRITE ALM7 RELAY1 ON

Alarm 1 (output relay 1) is active when alarm on input 7 is ON

WRITE ALM8 RELAY1 ON

Alarm 1 (output relay 1) is active when alarm on input 8 is ON

WRITE ALM1 RELAY1 OFF

Alarm 1 (output relay 1) is NOT active when alarm on input 1 is ON

WRITE ALM2 RELAY1 OFF

Alarm 1 (output relay 1) is NOT active when alarm on input 2 is ON

WRITE ALM3 RELAY1 OFF

Alarm 1 (output relay 1) is NOT active when alarm on input 3 is ON

WRITE ALM4 RELAY1 OFF

Alarm 1 (output relay 1) is NOT active when alarm on input 4 is ON

WRITE ALM5 RELAY1 OFF

Alarm 1 (output relay 1) is NOT active when alarm on input 5 is ON

WRITE ALM6 RELAY1 OFF

Alarm 1 (output relay 1) is NOT active when alarm on input 6 is ON

WRITE ALM7 RELAY1 OFF

Alarm 1 (output relay 1) is NOT active when alarm on input 7 is ON

WRITE ALM8 RELAY1 OFF

Alarm 1 (output relay 1) is NOT active when alarm on input 8 is ON

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Parameter

Command

Description

Alarm 2 (output relay 2)

WRITE ALM1 RELAY2 OFF

Alarm 2 (output relay 2) is NOT active when alarm on input 1 is ON

WRITE ALM2 RELAY2 OFF

Alarm 2 (output relay 2) is NOT active when alarm on input 2 is ON

WRITE ALM3 RELAY2 OFF

Alarm 2 (output relay 2) is NOT active when alarm on input 3 is ON

WRITE ALM4 RELAY2 OFF

Alarm 2 (output relay 2) is NOT active when alarm on input 4 is ON

WRITE ALM5 RELAY2 OFF

Alarm 2 (output relay 2) is NOT active when alarm on input 5 is ON

WRITE ALM6 RELAY2 OFF

Alarm 2 (output relay 2) is NOT active when alarm on input 6 is ON

WRITE ALM7 RELAY2 OFF

Alarm 2 (output relay 2) is NOT active when alarm on input 7 is ON

WRITE ALM8 RELAY2 OFF

Alarm 2 (output relay 2) is NOT active when alarm on input 8 is ON

WRITE ALM1 RELAY2 ON

Alarm 2 (output relay 2) is active when alarm on input 1 is ON

WRITE ALM2 RELAY2 ON

Alarm 2 (output relay 2) is active when alarm on input 2 is ON

WRITE ALM3 RELAY2 ON

Alarm 2 (output relay 2) is active when alarm on input 3 is ON

WRITE ALM4 RELAY2 ON

Alarm 2 (output relay 2) is active when alarm on input 4 is ON

WRITE ALM5 RELAY2 ON

Alarm 2 (output relay 2) is active when alarm on input 5 is ON

WRITE ALM6 RELAY2 ON

Alarm 2 (output relay 2) is active when alarm on input 6 is ON

WRITE ALM7 RELAY2 ON

Alarm 2 (output relay 2) is active when alarm on input 7 is ON

WRITE ALM8 RELAY2 ON

Alarm 2 (output relay 2) is active when alarm on input 8 is ON

Siren (relay)

WRITE ALM1 SIREN ON

Siren is active when alarm on input 1 is ON

WRITE ALM2 SIREN ON

Siren is active when alarm on input 2 is ON

WRITE ALM3 SIREN ON

Siren is active when alarm on input 3 is ON

WRITE ALM4 SIREN ON

Siren is active when alarm on input 4 is ON

WRITE ALM5 SIREN ON

Siren is active when alarm on input 5 is ON

WRITE ALM6 SIREN ON

Siren is active when alarm on input 6 is ON

WRITE ALM7 SIREN ON

Siren is active when alarm on input 7 is ON

WRITE ALM8 SIREN ON

Siren is active when alarm on input 8 is ON

WRITE ALM1 SIREN OFF

Siren is NOT active when alarm on input 1 is ON

WRITE ALM2 SIREN OFF

Siren is NOT active when alarm on input 2 is ON

WRITE ALM3 SIREN OFF

Siren is NOT active when alarm on input 3 is ON

WRITE ALM4 SIREN OFF

Siren is NOT active when alarm on input 4 is ON

WRITE ALM5 SIREN OFF

Siren is NOT active when alarm on input 5 is ON

WRITE ALM6 SIREN OFF

Siren is NOT active when alarm on input 6 is ON

WRITE ALM7 SIREN OFF

Siren is NOT active when alarm on input 7 is ON

WRITE ALM8 SIREN OFF

Siren is NOT active when alarm on input 8 is ON

Output 1 - 4

WRITE ALM1 OUTPUT1 OFF

Open collector output 1 is NOT active when alarm on input 1 is ON

It is possible to replace

WRITE ALM2 OUTPUT1 OFF

Open collector output 1 is NOT active when alarm on input 2 is ON

“OUTPUT1” with

WRITE ALM3 OUTPUT1 OFF

Open collector output 1 is NOT active when alarm on input 3 is ON

“OUTPUT2”,

WRITE ALM4 OUTPUT1 OFF

Open collector output 1 is NOT active when alarm on input 4 is ON

“OUTPUT3” or

WRITE ALM5 OUTPUT1 OFF

Open collector output 1 is NOT active when alarm on input 5 is ON

“OUTPUT4”

WRITE ALM6 OUTPUT1 OFF

Open collector output 1 is NOT active when alarm on input 6 is ON

WRITE ALM7 OUTPUT1 OFF

Open collector output 1 is NOT active when alarm on input 7 is ON

WRITE ALM8 OUTPUT1 OFF

Open collector output 1 is NOT active when alarm on input 8 is ON

WRITE ALM1 OUTPUT1 ON

Open collector output 1 is active when alarm on input 1 is ON

WRITE ALM2 OUTPUT1 ON

Open collector output 1 is active when alarm on input 2 is ON

WRITE ALM3 OUTPUT1 ON

Open collector output 1 is active when alarm on input 3 is ON

WRITE ALM4 OUTPUT1 ON

Open collector output 1 is active when alarm on input 4 is ON

WRITE ALM5 OUTPUT1 ON

Open collector output 1 is active when alarm on input 5 is ON

WRITE ALM6 OUTPUT1 ON

Open collector output 1 is active when alarm on input 6 is ON

WRITE ALM7 OUTPUT1 ON

Open collector output 1 is active when alarm on input 7 is ON

WRITE ALM8 OUTPUT1 ON

Open collector output 1 is active when alarm on input 8 is ON

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Parameter

Command

Description

Output relay 1
(contact)*

WRITE IORELAYS RELAY1 CONTACT ND

Alarm 1 (output relay 1) operates as normally de-
energized

WRITE IORELAYS RELAY1 CONTACT NE

Alarm 1 (output relay 1) operates as normally energized

Output relay 2
(contact)*

WRITE IORELAYS RELAY2 CONTACT ND

Alarm 2 (output relay 2) operates as normally de-
energized

WRITE IORELAYS RELAY2 CONTACT NE

Alarm 2 (output relay 2) operates as normally energized

Siren relay
(contact)*

WRITE IORELAYS SIREN CONTACT ND

Siren (siren relay) operates as normally de-energized

WRITE IORELAYS SIREN CONTACT NE

Siren (siren relay) operates as normally energized

Output 1 – 4
(contact)*

WRITE IORELAYS OUTPUT1 ND

Open collector output 1 operates as normally de-
energized

WRITE IORELAYS OUTPUT1 NE

Open collector output 1 operates as normally energized

WRITE IORELAYS OUTPUT2 ND

Open collector output 2 operates as normally de-
energized

WRITE IORELAYS OUTPUT2 NE

Open collector output 2 operates as normally energized

WRITE IORELAYS OUTPUT3 ND

Open collector output 3 operates as normally de-
energized

WRITE IORELAYS OUTPUT3 NE

Open collector output 3 operates as normally energized

WRITE IORELAYS OUTPUT4 ND

Open collector output 4 operates as normally de-
energized

WRITE IORELAYS OUTPUT4 NE

Open collector output 4 operates as normally energized

Output relay 1
(signal)*

WRITE IORELAYS RELAY1 SIGNAL STEADY

Alarm 1 (output relay 1) operates in steady mode (new
incoming alarms is not registered)

WRITE IORELAYS RELAY1 SIGNAL PULSE

Alarm 1 (output relay 1) operates in pulse mode
If another alarm input is activated (meanwhile an existing

alarm input is still active), output relay 1 will become silent
in about 2 seconds and start again.
This scenario will occur every time a new input is
activated.

Output relay 2
(signal)*

WRITE IORELAYS RELAY2 SIGNAL STEADY

Alarm 2 (output relay 2) operates in steady mode (new
incoming alarms is not registered)

WRITE IORELAYS RELAY2 SIGNAL PULSE

Alarm 2 (output relay 2) operates in pulse mode
If another alarm input is activated (meanwhile an existing

alarm input is still active), output relay 2 will become silent
in about 2 seconds and start again.
This scenario will occur every time a new input is
activated.

Siren relay
(signal)*

WRITE IORELAYS SIREN SIGNAL STEADY

Siren (siren relay) operates in steady mode (new
incoming alarms is not registered)

WRITE IORELAYS SIREN SIGNAL PULSE

Siren (siren relay) operates in pulse mode
If another alarm input is activated (meanwhile an existing

alarm input is still active), the siren relay will become silent
in about 2 seconds and start again.
This scenario will occur every time a new input is
activated as long as the unit has not been reset.

(contact)*

If the firmware is dated before January 2008, leave out CONTACT from the command line.

(signal)*

Available from firmware version; January 2008.

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Parameter

Command

Description

Unblock
delays

WRITE SYS BLOCK1 UBDELAY 1S

Block function 1 has a delay on 1sec . from unblock to
respond (unblocked)

1s – 999s

WRITE SYS BLOCK2 UBDELAY 1S

Block function 2 has a delay on 1sec . from unblock to
respond (unblocked)

are accepted
values

Reset
functions

WRITE SYS RESET PUSH 1

1 push on reset button: Resets all

WRITE SYS RESET PUSH 2

2 push on reset button: First reset siren Second reset

LEDs

Factory
default

WRITE SYS SETUPDEFAULT NO

This command is used to undo the command: WRITE
SYS SETUPDEFAULT YES (before the power supply
has been disconnected)

WRITE SYS SETUPDEFAULT YES

Cancels all settings. The complete configuration will
return to factory default (the factory default setting will take
effect, when power supply has been disconnected)

NOTE

The first set of commands in each parameter group in the table above is always the factory default settings
of the alarm monitor.

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Save settings in a text file

It is often practical to make a backup copy of the module configuration. The copy can be used for safe
keeping and documentation, or it can be sent to colleagues for evaluation and trouble shooting.
It can also be edited and changed in Notepad for later upload in the M4200.

The procedure below describes how to transfer the configuration from Microsoft® HyperTerminal:

1. Click on the menu Transfer.

2. Click on the menu item Capture Text.

3. Click on the button Browse.

Select a location and filename for the text file containing the configuration.

4. Click on the button Save.

When the Capture Text dialog appears on the screen:

5. Click on the button Start.

When the Capture Text dialog disappears from the screen:

6. Type the text read config in the terminal window

7. Press Enter on the keyboard and wait 5 seconds

The current configuration is listed in the terminal window. The configuration has simultaneously been
captured in the text file.

To stop the transmission to the text file:

8. Click on the menu Transfer.

9. Click on the menu item Capture Text.

10. Click on the menu item Stop.

The configuration is now accessible as a readable text file. The file contains all parameters necessary to re­establish the configuration of the module.

Find and open the text file to check the content. It is necessary to scroll through the contents of the notepad
window in order to view the full content of the file.

NOTE
In order to restore the configuration from the text file into the alarm monitor, please refer to the section Load
settings from a text file on page 34.

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Load settings from a text file

By using an ANSI compatible terminal application e.g. Microsoft® HyperTerminal (which is supplied with the
Windows® operating system) or any other ANSI terminal, it is possible to load single commands or the
complete configuration from a text file.

Important:
There are two commands that need special attention when loading configuration from a text file:

1. READ CONFIG

2. WRITE SYS SETUPDEFAULT YES

READ CONFIG is the first command in the text file. It is recommended to delete this command from the text
file before loading the configuration. If it is not deleted the loading procedure will start read out the
configuration instead of loading it into the alarm monitor!

WRITE SYS SETUPDEFAULT YES is the last command I the text file. It is recommended to delete this

command from the text file before loading the configuration. If it’s not deleted the complete configuration will

be loaded into the alarm monitor but at the end of the loading procedure the loaded configuration will be
deleted and replaced by the factory default configuration.

Load configuration:

The procedure below describes how to load the configuration into the alarm monitor via Microsoft

®

HyperTerminal:

1. Click on the menu Transfer.

2. Click on the menu item Send Text File…

3. Click on the button Browse.

Select the text file containing the configuration.

4. Click on the button Open.

The commands in the text file will now be retransmitted to the alarm monitor. This will take several seconds
or maybe even a few minutes depending on the amount of commands in the text file.