Polon-alfa Eks-6000 series Manual

IK-E337-001 1

FIRE ALARM SYSTEM

POLON 6000

INPUT/OUTPUT ELEMENT

TYPE EKS-6000

Installation and Maintenance Manual

IK-E337-001

Edition ID

2 IK-E337-001

EKS-6000 I/O elements, the subject of this manual, meet the essential requirements of the

following regulations of the European Parliament and Council (EU) as well as European Union

directives:

CPR CPR/305/2011 Regulation (EU) no. 305/2011 of the European Parliament and of the

Council of 9 March 2011 laying down harmonised conditions for the marketing of

construction products and repealing Council Directive 89/106/EEC;

LVD Directive 2006/95/EC relating to electrical equipment designed for use within certain

voltage limits;

EMC Directive (UE) 2004/108/WE relating to electromagnetic compatibility.

Declaration of Performance no 1/E337/2014/PL has been issued for EKS-6000 I/O elements.

EKS-6000 I/O elements have received the Certificate of Constancy of Performance no.

1438-CPR-0375 issued by CNBOP-PIB, a Polish notified body no 1438 in EU, confirming the

conformity of devices with the standard requirements: PN-EN 54-18:2007, PN-EN 54-17:2007.

The Certificate and the Declaration of Performance can be downloaded from www.polon-

alfa.pl

The contents of this manual should be thoroughly read and understood before installation

and operation of the device.

Failure to follow the instructions included in this manual may be dangerous or result in the

violation of applicable regulations.

As the manufacturer, Polon-Alfa is not liable for any damages resulting from the improper

device operation that is not in accordance with this manual.

Used product at the end of its service life, unsuitable for further use,

should be handed over to one of the collection points for electrical

and electronic equipment waste.

Note – This manual as well as the device are subject to change without notice.

IK-E337-001 3

Polon-Alfa Spółka z ograniczoną odpowiedzialnością Sp.k.

85-861 Bydgoszcz, ul. Glinki 155

1438

1438-CPR-0375

I/O element, typeEKS-6000

versions: EKS-6044, EKS-6022, EKS-6040, EKS-6004, EKS-6202, EKS-6400

EN 54-18, EN 54-17

Declaration of Performance no. 1/E337/2014/PL

Product essential characteristic Performance

Harmonised

technical

specification

EN 54-18:2005

Chapter

Reaction delay

Properties and resistance to

power supply parameter change

Pass 5.2

Operation (efficiency) in fire conditions

Functional tests Pass 5.1.4

Durability, operation reliability and reaction delay: heat resistance

Dry heat resistance Pass 5.3

Low temperature resistance Pass 5.4

Durability and operation reliability: vibration resistance

Single impact resistance Pass 5.8

Impact resistance Pass 5.9

Vibration resistance Pass 5.10

Vibration strength Pass 5.11

Durability and operation reliability: moisture resistance

Damp heat, cyclic test resistance Pass 5.5

Damp heat, constant test resistance Pass 5.6

Durability and operation reliability: corrosion resistance

Resistance to corrosion induced with

sulphur dioxide (SO2)

Pass 5.7

4 IK-E337-001

Product essential characteristic

Performance

Harmonised

technical

specification

EN 54-18:2005

Chapter

Durability and operation reliability: electrical stability

Properties and resistance to

power supply parameter change Pass 5.2

Resistance to electromagnetic interference Pass 5.12

Product essential characteristic Performance

Harmonised technical

specification

EN 54-17:2005

Chapter

Efficiency in fire conditions

Reproducibility

Pass

5.2

Operation reliability

Requirements

Pass

Durability and operation reliability: heat resistance

Dry heat resistance

Pass

5.4

Low temperature resistance

Pass

5.5

Durability and operation reliability: vibration resistance

Single impact resistance

Pass

5.9

Impact resistance

Pass

5.10

Sinusoidal vibration resistance

Pass

5.11

Sinusoidal vibration strength

Pass

5.12

Durability and operation reliability: moisture resistance

Damp heat, cyclic test resistance

Pass

5.6

Damp heat, constant test resistance

Pass

5.7

Durability and operation reliability: corrosion resistance

Resistance to corrosion induced with (SO

)

Pass

5.8

Durability and operation reliability: electrical stability

Power supply voltage changes

Pass

5.3

Electromagnetic compatibility (EMC), immunity test

Pass

5.13

Intended use: Fire safety – I/O element for protection and fire alarm devices as well as their control

Technical data — see manual: IK-E337-001

IK-E337-001 5

Table of contents

1. Design .................................................................................................................................. 6

2. Technical data...................................................................................................................... 7

3. Description of the design .................................................................................................... 8

4. Description of the operation ............................................................................................. 10

5. Operating modes of the I/O element................................................................................ 12

6. Operating conditions......................................................................................................... 14

7. Installation of I/O elements............................................................................................... 14

8. Safety conditions ............................................................................................................... 18

8.1. Repair and maintenance ....................................................................................................... 18

8.2. Work at height....................................................................................................................... 18

8.3. Eye protection against dust................................................................................................... 18

8.4. Protection against electric shock .......................................................................................... 18

9. Storage and transport ....................................................................................................... 18

9.1. Storage .................................................................................................................................. 18

9.2. Transport ............................................................................................................................... 18

List of drawings

Figure 1 Dimensions of EKS-6040.............................................................................................................. 8

Figure 2 Dimensions of EKS-6004, EKS-6202, EKS-6400............................................................................ 9

Figure 3 Dimensions of EKS-6022.............................................................................................................. 9

Figure 4 Dimensions of EKS-6044............................................................................................................ 10

Figure 5 Wiring diagram of EKS-6044...................................................................................................... 15

Figure 6 Wiring diagram of EKS-6202...................................................................................................... 16

Figure 7 Enclosure cover with EKS-6000 terminal functions................................................................... 17

6 IK-E337-001

1. Design

EKS-6000 universal I/O element is an addressable element intended for the following:

-control of automatic safety and fire protection devices

-operation supervision of the devices mentioned above

-monitoring and supervision of equipment condition.

EKS-6000 I/O element is intended for use in addressable detection lines of POLON 6000 fire detection

and alarm control panel.

The element is designed to be operated indoors and outdoors.

Depending on version, EKS-6000 is equipped with low-voltage inputs, high-voltage inputs and outputs.

EKS-6000 low-voltage inputs (IN) are designed for independent, potential-free contacts that are

normally closed or normally open.

EKS-6000 high-voltage inputs (IN HV) are designed for independent contacts at 6–220 VDC or 230 VAC.

EKS-6000 outputs allow the connection of devices if current consumption does not exceed 2 A.

Note: (IN HV) denotes connector terminals where voltage exceeding permissible low voltage that is

dangerous for humans, can be present.

EKS-6000 I/O elements are available in six configuration versions designated as:

EKS-6040 – equipped with 4 low-voltage inputs,

EKS-6004 – equipped with 4 outputs,

EKS-6022 – equipped with 2 low-voltage inputs and 2 outputs,

EKS-6044 – equipped with 4 low-voltage inputs and 4 outputs,

EKS-6202 – equipped with 2 high-voltage inputs and 2 outputs,

EKS-6400 – equipped with 4 high-voltage inputs.

IK-E337-001 7

2. Technical data

I/O element type

EKS-6040

EKS-6004

EKS-6022

EKS-6044

EKS-6202

EKS-6400

Detection line supply voltage

16.5 – 24.6 V

Current consumption from detection line

< 210 µA

< 240 µA

< 220 µA

< 240 µA

< 250 µA

< 230 µA

Detection line short-citcuit insulator

yes

Configuration of I/O element

from control panel

Number of outputs

Supply voltage of the controlled device

6 – 220 VDC

230 VAC

Relay control output

potential-free, supervised, change-over contact, max. current 2 A,

max. voltage 230 VAC / 220 VDC, max. power 62.5 VA / 60 W

Continuity monitoring of the cable connected to the control

output

yes (jumper on printed circuit board)

closed, opened

Control output safe state

no change, not triggered, triggered

Current consumption in the continuity monitoring circuit of the

cable connected to the control output

< 200 µA (6 – 220 VDC)

< 370 µA

Number of inputs

4 IN

2 IN

4 IN

2 IN HV

4 IN HV

Input function

(IN) control or alarm

(IN HV) control

Input initialization

(IN) potential-free, NO or NC contact

(IN HV) live contact

Control of the cable connected to the input

(IN) close, open

(IN HV) none

Input line capacity

< 12 nF (about 100 m of YnTKSY cable, 1×2×0.8 mm)

Cable entry:

-Detection line cable gland

-Low-voltage input cable gland

-High-voltage output/input cable gland

2 × M12

4 × M12

–

2 × M12

4 × M12

–

4 × M16

2 × M16

4 × M16

Conductor permissible cross-section

up to 2.5 mm2

Dimensions

Figure 1

Figure 2

Figure 3

Figure 4

Figure 2

Weight

< 0.5 kg

Operating temperature

–40 to +85°C

Climatic category

40/085/04

Permissible relative humidity

to 95% at 40°C

Electrical strength of insulation

1500 V

Protection class

IP 66

Enclosure material and colour

polycarbonate (PC), grey

8 IK-E337-001

3. Description of the design

EKS-6000 I/O element is designed in the form of a printed circuit board with electronic components

and a connector set, that has been put inside an enclosure.

The enclosure has wall mounting holes in the corners.

Depending on the type of I/O element, cable glands are located in the enclosure body, along longer

sides.

There are six types of I/O elements:

-EKS-6040 Figure 1

-EKS-6004, EKS-6202, EKS-6400 Figure 2

-EKS-6022 Figure 3

-EKS-6044 Figure 4

M12×1.5 cable bushing is used for detection line cable or low-voltage input cable, a M16×1.5 cable

gland is used for output or high-voltage input cable.

The enclosure cover is mounted to the enclosure body with four screws.

Figure 1 Dimensions of EKS-6040

IK-E337-001 9

Figure 2 Dimensions of EKS-6004, EKS-6202, EKS-6400

Figure 3 Dimensions of EKS-6022

10 IK-E337-001

Figure 4 Dimensions of EKS-6044

4. Description of the operation

The communication between POLON 6000 control panel and EKS-6000 I/O element is carried out via

an addressable two-wire detection line. Unique, fully digital communication protocol enables

transferring any information from the control panel to the element and from the element to the

control panel. The activation of fire protection equipment (e.g. a smoke vent) or a fire alarm devices

(e.g. a buzzer, a visual alarm) takes place after switching relay contacts in the I/O element after issuing

a command in the control panel. Relay contacts return to their initial position also after receiving a

command from the control panel.

The I/O element transfers the following states to the control panel:

-Writing the address

-Reading the address

-Writing the operating mode

-Reading the operating mode

-Task for outputs with mask

-Start of group outputs

-Stop of group outputs

-Damage of the cable connected to the control output: if it becomes open

-Setting the control output safe state: if there is no power supply

-Reporting relay fault

-Setting active X at IN input, switching control or alarm input, NO or NC

-Setting active X or active Y at IN input, three-state control input, NO

-Setting active X at IN HV input, switching control input

-Damage of the cable connected to IN input: in case of short circuit or open circuit

-Short circuit separation

IK-E337-001 11

-Location: reporting using a button

-Non-volatile memory corruption: erroneous data stored in non-volatile memory

The way the I/O element is supposed to operate is determined by the operation mode of this element.

The mode of operation of a I/O element is defined by several data bytes, which indicate the mode of

operation and behavior of this element. Automatic configuration of POLON 6000 control panel utilizes

the operating mode set by the manufacturer. That means the following:

-IN input switched on – yes

-IN input function – monitoring

-IN input operation mode – NO

-IN HV input switched off – yes

-IN HV input function – monitoring

-IN HV input operation mode – voltage (detection), no voltage (active)

-Control input switched off – yes

-Control input operation mode – continuous

-Continuity monitoring of the cable connected to the control output – On

-Control output safe state – no change

-Group number – 1

-Triggering delay time – 0 s

-Triggering/Reset delay time – 0 s

-Reset time – 0 s

-Number of cycles – 0

Note:

Jumpers marked as ONx, OFFx are used to switch on or off the continuity monitoring of the cable

connected to the control output.

If you want to monitor the continuity of the cable connected to control output 1, the control should

be switched on at the control panel and additionally set the jumper to ON1 position in the terminal

block at the board edge near the relay. Current strength will be additionally increased by <200 µA or

<370 µA (based on voltage type) from the power supply of the controlled device through the control

system.

The IN input of the I/O element reacts to a short circuit or open circuit of potential-free contacts. The

control panel indicates this change as an active state from the control or alarm input, depending on

the operating mode. Short-circuit or open circuit of the input cable is detected with the I/O element

and indicated with the control panel as input cable damage.

IN HV input of the I/O element reacts to voltage or lack of voltage using the contact. The control panel

indicates this change as an active state from the control input.

Example connections of I/O elements are shown in the drawings: Figure 5 and Figure 6.

The I/O element is equipped with an internal short-circuit isolator that separates the operational part

of the detection line from the adjacent compact part, which enables its undisturbed operation. The

active state coming from the element alarm input is indicated with a flashing red LED located between

the detection line terminal block and the IN input terminal block. The indicator is designed to quickly

locate the alarming element and help with periodical functional check of the element.

Fault and short-circuit states of the short-circuit insulator are indicated with flashing yellow LED.

Jumpers marked as HIx, LOx determine the low power supply level of IN HV outputs and inputs.

Full configuration of the I/O element requires the location of these jumpers to be determined.

For example, if you decide to monitor the continuity of the cable connected to output 1, the jumper

should be set in ON1 position, and the controlled device is powered with e.g. 230 VAC, the jumper

should be set to HI1, which corresponds to a low state of about 75 V. When the controlled device is

powered with e.g. 48 VDC, the jumper should be set to LO1, which corresponds to a low state of about

3 V.

12 IK-E337-001

The same rules apply to IN HV inputs.

If the IN HV outputs or inputs are not used, the position of corresponding jumpers is not relevant.

5. Operating modes of the I/O element

Based on the type of control output operation, the appropriate number of operating mode

parameters must be defined.

The I/O element makes it possible to define the following parameters:

a) Profile

-Operating mode of the control output (off, continuous, pulse, cyclic, limited cyclic)

-Continuity monitoring of the cable connected to the control output (off, on)

-Control output fail-safe state (no change, not triggered, triggered)

-IN input function (control, alarm)

-Operation mode of the IN input (NO, NC) or IN HV input (voltage-detection, no

voltage-active or no voltage-detection, voltage-active)

b) Group number (0 – 65,535)

c) Triggering delay time (0 – 120 s with 2 s steps or 120 – 1,250 s with 10 s steps)

d) Triggering/Reset delay time [only continuous operating mode] (0 – 120 s with 2 s steps or 120

– 1,250 s with 10 s steps)

e) Reset time (0 – 120 s with 2 s steps or 120 – 1,250 s with 10 s steps)

f) Number of cycles (0 – 255)

IK-E337-001 13

The following table shows the configuration of the I/O element based on the operation mode of the

control output:

Control input operation mode

Parameters to be defined

Off

Profile

Continuous

Profile

Group number

Triggering delay time

Reset delay time – T ok

Pulse

Profile

Group number

Triggering delay time

Triggering time – T w

Cyclic

Profile

Group number

Triggering delay time

Triggering time – T w

Reset time – T k

Definite cyclic

Profile

Group number

Triggering delay time

Triggering time – T w

Reset time – T k

Number of cycles – L c

T ow

T w

T k

Lc = 3

Tow

Tok

14 IK-E337-001

6. Operating conditions

Reliable operation of EKS-6000 I/O element depends on proper operating conditions, correct

installation and regular maintenance. The inspection is carried out in order to determine the proper

operation of the element as well as its proper cooperation with the control panel. The inspection

should be carried out at least every 6 months by a qualified person who is familiar with the element

operation to such extent that its operation irregularities can be detected. The inspection involves the

functional test of the element during fire alarm system operation.

Note:

Inspections should be carried out with special care. All persons concerned shall be informed if the

inspection involves the test of actuation devices.

When carrying out any repair work, I/O elements should be protected with a painting tape.

Elements damaged during painting and repair works by workers carrying out these works (e.g.

painted, sealed with paint enclosure, etc.) are not subject to warranty.

I/O element is equipped with "TEST" button to enable testing the element communication with the

control panel and check its location within the premises of the facility. After pressing and holding

the "TEST" button for approx. 2 seconds, the element yellow LED starts flashing, which denotes

correct communication with the control panel.

7. Installation of I/O elements

It is recommended to install EKS-6000 I/O elements in a detection line near controlled devices.

The elements can operate in loops, loops with side lines or in open detection lines of POLON 6000

control panels. (See Operation and Maintenance Manual of POLON-6000 control panel.)

Connection method of EKS-6044 (4 low-voltage inputs, 4 outputs) is shown in the drawing: Figure 5.

Connection method of EKS-6202 (2 high-voltage inputs, 2 outputs) is shown in the drawing: Figure 6.

I/O element enclosures should be fixed to the walls or ceilings through the corner mounting holes with

four screws. Screws with Φ6 wall plugs are recommended. Installation cables should be inserted

through cable glands.

Detection line or IN input should be inserted via the M12 cable gland with a diameter (Φ) 3 – 6.5 mm.

IN HV output or input should be inserted via the M16 cable gland with a diameter (Φ) 5 – 10 mm.

When inserting cables into the enclosure, make sure that they are properly sealed in the cable glands

and unused ducts are blanked off.

When connecting installation cables, use a screwdriver, the working part of which should be inserted

into the smaller opening of the connector, then insert the cable into the larger opening and pull out

the screwdriver. It is recommended to use a short bent screwdriver, 3,5×0.5 mm, cat. no. WAGO 210-

258 (available for purchase at Polon-Alfa). Connect the cables as described at the connectors. There is

a sticker on the enclosure cover that shows the functions of EKS-6000 terminals, depending on the

element type, as shown in the drawing: Figure 7. Connect the shields of detection line cables to the

terminals marked as SHLD.

Route the alarm system cables in accordance with the regulations applicable to low-voltage electrical

installations.

Elements should not be installed in rooms with corrosive atmosphere, containing corrosive gases,

corrosive fumes or dust.

IK-E337-001 15

It is recommended that EKS-6000 I/O elements to be installed outdoors should be equipped with a

"Pressure compensation element". To do this, drill a 12 mm dia. hole at any point on the side wall of

the enclosure body (e.g. near the nameplate) and fix the "Pressure compensation element" with a lock

nut.

Figure 5 Wiring diagram of EKS-6044

Monitored device

Detection

line/loop

IN1+

1A (NO1)

1C (NC1)

Power

supply

24 VDC

1B (COM1)

Controlled

device

IN1–

–

L2+

L2–

SHLD

TUN-4046

–

4.3

EKS-6044

IN2+

IN2–

4.3

750

L1+

L1–

SHLD

ROP-4001

–

IN3+

IN3–

IN4+

IN4–

2A (NO2)

2C (NC2)

2B (COM2)

3A (NO3)

3C (NC3)

3B (COM3)

4A (NO4)

4C (NC4)

4B (COM4)

Detection

line

Power

supply

230 VAC

Controlled

device

–

HI1

LO1

HI4

LO4

HI2

LO2

HI3

LO3

Power

supply

24 VDC

Controlled

device

–

Power

supply

230 VAC

Controlled

device

–

ON1

OFF1

ON2

OFF2

ON3

OFF3

ON4

OFF4

TEST

16 IK-E337-001

Detection

line/loop

1A (NO1)

1C (NC1)

Power

supply

12 VDC

1B (COM1)

Controlled

device

–

L2+

L2–

SHLD

TUN-4046

–

EKS-6202

L1+

L1–

SHLD

ROP-4001

–

2A (NO2)

2C (NC2)

2B (COM2)

Detection

line

Power

supply

230 VAC

Controlled

device

–

3A (IN HV1+)

3B (IN HV1–)

4A (IN HV2+)

4B (IN HV2–)

Power

supply

48 VDC

–

Power

supply

220 VDC

–

HI1

LO1

HI2

LO2

HI3

LO3

HI4

LO4

ON1

OFF1

ON2

OFF2

TEST

Figure 6 Wiring diagram of EKS-6202

IK-E337-001 17

Figure 7 Enclosure cover with EKS-6000 terminal functions

18 IK-E337-001

8. Safety conditions

8.1. Repair and maintenance

Maintenance and periodic inspections must be carried out by personnel that is authorised or trained

by Polon-Alfa.

All repairs must be carried out by the manufacturer.

Polon-Alfa is not responsible for the operation of the equipment maintained and repaired by

unauthorized personnel.

8.2. Work at height

Work at height related to the installation of I/O elements must be carried out with special care using

equipment and tools in sound condition. Please pay particular attention to the stability of ladders,

elevators, hoists, jacks etc.

Power tools should be used in accordance with safe working conditions specified in relevant

manufacturer's manuals.

8.3. Eye protection against dust

Protective goggles and dust masks should be worn during work that produces large amount of dust,

especially when drilling holes in ceilings in order to fix enclosure bodies of I/O elements.

8.4. Protection against electric shock

When installing I/O elements, observe relevant national regulations for low-voltage electrical

installations. Any work may only be carried out by personnel authorized to do so.

If used voltage is higher than the permissible low voltage, the voltage must be switched off before

opening the enclosure cover.

Fix the detection line shields to the connectors in a snug manner, without excessive slack.

The remaining cables should be insulated at the appropriate length so that only the insulated part is

accessible after insertion into the connectors. This will reduce accidental short circuits between

cables.

Avoid crossing detection line and input (IN) cables with high voltage output and input cables.

9. Storage and transport

9.1. Storage

EKS-6000 I/O elements should be stored in closed rooms, with no corrosive fumes or gases, at the

temperature range from 0°C to +40°C, with relative humidity not exceeding 80% at the temperature of

+35°C.

Elements should not be exposed to direct sunlight or heat from heating equipment during storage.

Storage time of elements in the transport packaging should not exceed

12 months.

9.2. Transport

EKS-6000 I/O elements should be transported in closed spaces of transport vehicles, in a packaging

corresponding to the requirements of the applicable transport regulations.

Transport temperature should not fall below –40°C or exceed +55°C and the relative humidity should

not exceed 95% at +45°C.

IK-E337-001/04.2017

IK-E337-001 19

20 IK-E337-001

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