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2.3. Wiring Diagrams
2.3.1. General Wiring
2
Z1 CO Z2 Z3 CO Z6 Z7 BELL- BELL+
AKU+
AKU-
Backup Battery
12V 1.3-7Ah
Metal cabinet
PE terminal
~16-24V
Fuse 500 mA
~230V 50/60Hz
Z1 Z2 Z5 Z6 Z7 Z8
BUZ
Z
EOL 5.6K
COM
NO
SIREN/BELL
1A max.
iButton® key reader
Relay module
Temperature sensor
2.3.2. Zone Connection Types
Type 1 Example of 4-wire smoke detector wiring
3
Z
EOL 5.6K
COM
NO
8-Zone mode: Normally open contact with 5,6KΩ end-ofline resistor.
Z
EOL 5.6K
COM
NC
5,6 kΩ
COM
NO
Z
EOL 5.6K
TAMPER
COM
3.3K
NC
EPGM1
7
*
1
4
8
0
2
5
9
#
3
6
EKB3
GND
+Vin
EKB2
Z
5.6K
3.3K
COM
NC
NC
Type 2
4
Z
EOL 5.6K
COM
NC
Example of magnetic door contact wiring
Z
EOL 5.6K
TAMPER
COM
3.3K
NC
Z
5.6K
3.3K
COM
NC
NC
8-Zone mode: Normally closed contact with 5,6KΩ end-ofline resistor
NC COM
Z
EOL 5.6K
TAMPER
5.6K
NC
COM
3.3K
NC
Z
EOL 5.6K
TAMPER
5.6K
NC
COM
3.3K
NC
18 EN
Magnet
NOTE: 2-wire smoke sensors support is NOT available for old firmware versions (i.e. for FW versions V01.05.11 and earlier).
Type 3
Based on the example given, in the event of an alarm, the smoke detector could be reset by turning OFF and ON the PGM output
ESIM384 Installation and Configuration Manual v1.5
Z
EOL 5.6K
COM
NO
Z
EOL 5.6K
COM
NO
Z
EOL 5.6K
COM
NO
Z
EOL 5.6K
COM
NC
Z
EOL 5.6K
COM
NC
Z
EOL 5.6K
TAMPER
COM
3.3K
NC
Z
EOL 5.6K
COM
NC
5
Z
EOL 5.6K
TAMPER
COM
3.3K
NC
8-Zone mode: Tamper and 5,6KΩ end-of-line resistor and 3,3KΩ end-of-line resistor with normally closed contact.
Z COM
5.6K
3.3K
NC
NC
5,6 kΩ 3,3 kΩ
NC
TAMP
Z
EOL 5.6K
TAMPER
5.6K
COM NC
COM
3.3K
NC
GND
+Vin
Z
EOL 5.6K
TAMPER
COM
3.3K
NC
Z
5.6K
3.3K
COM
NC
NC
Type 4
6
Z COM
5.6K
3.3K
NC
NC
ATZ mode: 5,6KΩ end-of-line resistor and normally closed contact with 3,3KΩ end-of-line resistor and normally closed contact
Example of magnetic door contact (Z1) and glass break sensor (Z9) wiring
Z
EOL 5.6K
TAMPER
5.6K
NC
COM
3.3K
NC
NC COM
COM GND
Magnet
NC
+Vin
Type 5
7
Z
EOL 5.6K
TAMPER
5.6K
NC
COM
3.3K
NC
ATZ mode: Tamper,
5,6KΩ end-of-line resistor, 5,6KΩ end-of-line resistor with normally closed contact and 3,3KΩ end-of-line resistor with normally closed contact.
Example of motion detector (Z1) and magnetic door contact (Z9) wiring
5,6 kΩ 5,6 kΩ 3,3 kΩ
COM
NC
TAMP
GND
+Vin
NC COM
Magnet
See also 14.3. 8-Zone Mode and 14.4. ATZ (Advanced Technology Zone) Mode.
ESIM384 Installation and Configuration Manual v1.5
EN
2.3.3. Siren
8
BELL- BELL+ Piezo siren
1 Connect positive siren wire (red) to BELL+ terminal.
2 Connect negative siren wire (black) to BELL- terminal.
SIREN/BELL
1A max.
BLACK -
RED +
9
GND
SIREN/BELL
1A max.
+12V
BELL
BELL- BELL+
Self-contained siren
1 Connect negative GND siren wire to COM terminal.
2 Controlling BELL siren wire must be connected to BELL- terminal.
3 Connect positive +12V siren wire to BELL+ terminal.
10
SIREN/BELL
1A max.
BLACK 3,3kΩ 3,3kΩ
RED +
Siren status monitoring
NOTE: Siren status monitoring feature supervises the resistance across BELL+ and BELL- terminals.
The resistance must be ranging from 1kΩ through
3,3kΩ, otherwise the system will indicate system fault. In order to view the siren resistance value, please refer to Diagnostic Management feature available on Eldes Utility.
11
BELL- BELL+ No siren status monitoring
If the siren status monitoring feature is not required, do not connect any resistor in parallel and disable siren fault indication on the keypad (see 29.
INDICATION OF SYSTEM FAULTS).
SIREN/BELL
1A max.
BLACK -
RED +
See also 20. SIREN/BELL.
NOTE: BELL- is the commuted terminal intended for siren control.
NOTE: Siren status monitoring feature supervises the resistance across BELL+ and BELL- terminals. The resistance must be ranging from
1kΩ through 3,3kΩ, otherwise the system will indicate system fault. In order to view the siren resistance value, please refer to Diagnostic
Management feature available on Eldes Utility .
20 EN ESIM384 Installation and Configuration Manual v1.5
2.3.4. iButton Key Reader and Buzzer
12
BUZ- BUZ+
+ BUZZER iButton key reader
DS1990A
NOTE: The installation of buzzer is not necessary if EKB2/EKB3 keypad is used.
Supported iButton key model: Maxim/Dallas
DS1990A
The iButton key reader can be installed with buzzer or separately. The buzzer is intended for audio indication of exit/entry delay countdown providing short beeps.
1 Connect iButton key reader brown and white wires to 1-Wire interface: COM and DATA terminals respectively.
2 Connect buzzer‘s negative terminal wire to BUZ- and positive terminal wire to BUZ+.
ATENTION: The cable length for connection to 1-Wire interface can be up to 30m (98.43ft) max.
2.3.5. Temperature Sensor and iButton Key Reader
Supported iButton key model: Maxim/Dallas DS1990A
Supported temperature sensor model: Maxim/Dallas DS18S20, DS18B20
13
DATA +5V DATA +5V DATA +5V
DATA
GND +5V
Temperature sensor
DS18S20
GND DATA +5V
DS1990A
Temperature sensor
DS18S20
GND
DATA
+5V iButton key reader
Digital thermometer
with 3m (9.84ft) wire
Vinson DS18B20
1 Depending on the model, connect temperature sensor GND/black wire, DATA/yellow wire, +5V/red wire terminals to 1-Wire interface: COM, DATA and +5V terminals respectively.
2 When connecting iButton key reader in parallel to temperature sensor, connect iButton key rea der terminal wires to COM and DATA terminals respectively.
ATENTION: The cable length for connection to 1-Wire interface can be up to 30m
(98.43ft) max.
2.3.6. Relay Finder (for example, model 40.61.9.12) with Terminal Socket (for example, model 95.85.3) to PGM Output
Example of relay wiring for negative PGM output control
14
1 Wire up relay A1 terminal to PGM output Cx and
A2 terminal to AUX+.
2 In addition, connect the switching diode to relay‘s A2 and A1 terminals.
A1
COIL
A2
RELAY
NOTE: We highly recommend using switching diode model 1N4148 or similar.
ESIM384 Installation and Configuration Manual v1.5
EN
Example of relay wiring for positive PGM output control
15
1 Wire up relay A1 terminal to PGM output‘s Cx terminal and A2 terminal to AUX+ and one of the relay‘s switch contacts: NC or NO.
2 In addition, connect the switching diode to relay‘s A2 and A1 terminals.
COIL
A1 A2
RELAY
NOTE: We highly recommend using switching diode model 1N4148 or similar.
2.3.7. RS485
Serial Wiring Method
ESIM384 a
EKB2/EKB3 b
EKB2/EKB3
Max. cable length: a+b+c+d+e+f+g= up to 100m (328.08ft) c
EKB2/EKB3 d
EKB2/EKB3 e
EPGM1 f
EPGM1 g
ELAN3-ALARM
ATTENTION: The cable length must not exceed 100m (328.08ft) in total.
ATTENTION: When wiring more than 1 keypad and/or EPGM1 module, please ensure that the set address of each keypad and/or EPGM1 module is different.
NOTE: If necessary, the RS485 devices can be powered from an external 12-14V DC power supply instead of AUX+ and AUX- terminals
NOTE: You may connect only 1 EKB2/EKB3 keypad or a mixed combination of EKB2 and EKB3 keypads. The combination can consist of up to 4 keypads in total.
For more details on RS485 interface, please refer to 32.1. RS485 Interface
22 EN ESIM384 Installation and Configuration Manual v1.5
Parallel Wiring Method
ESIM384
Max. cable length: up to 100m (328.08ft)
EPGM1 EPGM1 EKB2/EKB3 EKB2/EKB3 EKB2/EKB3 ELAN3-ALARM EKB2/EKB3
ATTENTION: The cable between ESIM384 and each RS485 device must be of the same length and can NOT exceed 100m (328.08ft).
ATTENTION: When wiring more than 1 keypad and/or EPGM1 module, please ensure that the set address of each keypad and/or EPGM1 module is different.
NOTE: If necessary, the RS485 devices can be powered from an external 12-14V DC power supply instead of AUX+ and AUX- terminals
NOTE: You may connect only 1 EKB2/EKB3 keypad or a mixed combination of EKB2 and EKB3 keypads. The combination can consist of up to 4 keypads in total.
For more details on RS485 interface, please refer to 32.1. RS485 Interface
2.3.8. RING/TIP
16 to PSTN
(landline)
RING
TIP
ESIM384
ATTENTION: The TIP/RING connectors and PSTN module are NOT included in a standard ESIM384 alarm system unit.
These components are op tional and can be implemented on request in advance.
ESIM384 Installation and Configuration Manual v1.5
EN
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Table of contents
- 8 1. GENERAL INFORMATION
- 8 1.1. Functionality
- 8 1.2. Compatible Device Overview
- 8 1.3. Default Parameters and Ways of Parameter Configuration
- 16 2. Technical Specifications
- 16 2.1. Electrical and Mechanical Characteristics
- 17 2.2. Main Unit, LED Indicator and Connector Functionality
- 18 2.3. Wiring Diagrams
- 24 3. INSTALLATION
- 28 4. GENERAL OPERATIONAL DESCRIPTION
- 29 5. CONFIGURATION METHODS
- 29 5.1. SMS Text Messages
- 29 5.2. EKB2 LCD Keypad
- 30 5.3. EKB3/EKB3W/EWKB4 LED Keypads
- 30 5.4. Eldes Utility
- 31 5.5. System configuration by USB cable
- 32 6. SMS PASSWORD AND INSTALLER CODE
- 33 7. SYSTEM LANGUAGE
- 34 8. USER PHONE NUMBERS
- 35 8.1. User Phone Number Names
- 35 8.2. Initiate system’s remote connection from any phone number
- 36 9. DATE AND TIME
- 36 9.1. Automatic Date and Time Synchronization
- 38 10. MASTER AND USER CODES
- 40 10.1. Master and User Code Names
- 41 11. IBUTTON KEYS
- 41 11.1. Adding and Removing iButton Keys
- 42 11.2. iButton Key Names
- 43 12. ARMING AND DISARMING
- 44 12.1. Free of Charge Phone Call
- 44 12.2. SMS Text Message
- 45 12.3. EKB2 Keypad and User/Master Code
- 47 12.4. EKB3 Keypad and User/Master Code
- 49 12.5. EKB3W/EWKB4 Keypads and User/Master Code
- 51 12.6. iButton Key
- 52 12.7. EWK2 Wireless Keyfob
- 53 12.8. Arm-Disarm by Zone
- 53 12.9. Automatic Arm/Disarm by Scheduler
- 53 12.10. Disabling and Enabling Arm/Disarm Notifications
- 55 13. EXIT AND ENTRY DELAY
- 57 14. ZONES
- 57 14.1. Zone Numbering
- 57 14.2. Zone Expansion
- 57 14.3. 8-Zone Mode
- 58 14.4. ATZ (Advanced Technology Zone) Mode
- 58 14.5. Zone Type Definitions
- 59 14.6. Zone Attributes
- 63 14.7. Bypassing and Activating Zones
- 63 14.8. Zone Names
- 64 14.9. Disabling and Enabling Zones
- 65 14.10. Viewing Zone State
- 66 15. STAY MODE
- 67 16. TAMPERS
- 68 16.1. Tamper Names
- 69 17. ALARM INDICATIONS AND NOTIFICATIONS FOR USER
- 70 17.1. Enabling and Disabling Alarm Notifications
- 72 17.2. Audio Files and Introduction Audio
- 73 18. PROGRAMMABLE (PGM) OUTPUTS
- 73 18.1. PGM Output Numbering
- 73 18.2. PGM Output Type
- 73 18.3. PGM Output control options