Installation manual Apollo · - Crosshead Philips Screwdriver - Screwdriver . 3 Installation...

Apollo

Installation manual

o Apollo smart cabinet security o Installing the Apollo o Connections o Diagnostics o Technical data

Publication

June 2019,

Keyprocessor BV

Paasheuvelweg 20

1105BJ Amsterdam, The Netherlands

www.keyprocessor.com

Tel.: +31-20-4620700

This manual represents the knowledge at the above mentioned time. Keyprocessor works non-

stop to improve her products. For the most recent technical information please contact your

consultant or dealer.

Content overview

Publication .................................................................................................................... 2 Content overview .......................................................................................................... 2 1 This document ................................................................................................ 4 1.1 Apollo Smart cabinet security controller ......................................................... 4 2 General .......................................................................................................... 5 2.1 Wiring ........................................................................................................ 5 2.2 Tools and equipment ................................................................................... 5 3 Installation start-up ......................................................................................... 6 4 Installing the Apollo into a rack ......................................................................... 7 4.1 Installing the mounting Brackets into the Apollo .............................................. 7 4.2 Attaching the Apollo to the rack .................................................................... 7 4.3 Powering the Apollo ..................................................................................... 8 5 Smart cabinet security: System setup ................................................................ 9 5.1 Sockets and port overview........................................................................... 10 6 Apollo Smart cabinet security .......................................................................... 11 6.1 Power connector......................................................................................... 11 6.2 Led status ................................................................................................. 12 6.3 Controller: gray section ............................................................................... 12 6.3.1 Cable length .............................................................................................. 12 6.4 ensors: yellow section ................................................................................. 13 6.4.1 Cable length .............................................................................................. 13 6.5 Reader and door I/O: green section .............................................................. 14 6.5.1 Cable length .............................................................................................. 15 6.5.2 Led status ................................................................................................. 15 6.6 Supervised inputs: red section ..................................................................... 16 6.6.1 Cable length .............................................................................................. 17 6.6.2 Led status ................................................................................................. 17 6.7 Supervised outputs: violet section ................................................................ 18 6.7.1 Cable length .............................................................................................. 18 6.7.2 Led status ................................................................................................. 18 6.8 Digital I/O: blue section .............................................................................. 19 6.8.1 Cable lenght .............................................................................................. 19 6.8.2 Led status ................................................................................................. 20 7 Apollo diagnostic menu ................................................................................... 21 7.1 Connecting to the Apollo console port ........................................................... 21 7.2 Start diagnostic .......................................................................................... 21 7.3 Environment settings .................................................................................. 22

http://www.keyprocessor.com/

7.4 Digital IO test ............................................................................................ 23 7.5 Version ..................................................................................................... 24 7.6 Polyx menu ............................................................................................... 24 8 Technical specifications ................................................................................... 25 8.1 Output load de-rating curve ......................................................................... 27 9 Technical drawings ......................................................................................... 28

1 This document

This document contains all the information which is needed when installing the Apollo. The

details and recommendations will be described in the chapters below.

1.1 Apollo Smart cabinet security controller

Apollo in combination with iProtect (Security Management System) offers you a complete

solution for monitoring the equipment of your critical locations/infrastructure. Think of Energy,

Water, Data-centers, Telecom and other technical unmanned locations.

Because the locations are unmanned, access control, alarm monitoring and environment

conditions becomes very important.

The Apollo can inter alia monitor the temperature, humidity and air flow but is also capable of

smoke-, intrusion- and water detection in the cabinet. This monitoring is essential to increase

the lifetime and reliability of the system and helps preventing malfunctioning, damage and

reduces operational costs.

The operator can fully control the cabinet remotely using iProtect™.

iProtect is extremely suitable for monitoring a large amount of buildings, areas and cabinets.

However, in case iProtect will not be leading for monitoring the cabinet, the Apollo supports

SNMP (Simple Network Management Protocol).

iProtect™ and Apollo system overview

2 General

The Apollo designed for a quick and easy installation. Nevertheless, we strongly recommend

that the technicians who installing the Apollo are trained and familiar with the product.

2.1 Wiring

This document assumes standard T-568 color coding of the cables

Pin number

RJ-45 Plug

TIA/EIA-568-B

Cable color

Signal

ID

T568B

Pair

1 White/orange DA+ 2 2 Orange DA- 2 3 White/green DB+ 3 4 Blue DC+ 1 5 White/blue DC- 1 6 Green DB+ 3 7 White/brown DD+ 4 8 Brown DD- 4

Picture T-568B

Note: The Apollo can be ordered with standard, ready to use cables!

2.2 Tools and equipment

When installing the Apollo, we recommend the installer the following tools and materials:

- T-568B cable

o Advised color: Blue, Yellow, Violet, Red and green

- RJ45 plugs

- Rod Rj45

- Wire side cutter

- Crosshead Philips Screwdriver

- Screwdriver

http://en.wikipedia.org/wiki/TIA/EIA-568-B

3 Installation start-up

To ensure proper functioning of the Apollo, the environment of the Apollo must be compliant

with certain conditions..

Caution – Install the Apollo in a protected area that is free of excessive dust and

has adequate air flow. Do not operate the Apollo where the temperature and

humidity is outside the specified limits

Caution – The Apollo operates between a temperature of -10°C and +60°C and a

humidity of 20 ~ 90% RH non-condensing

4 Installing the Apollo into a rack

The Apollo can be provided of two mounting brackets that can be used for a standard 19 inch

or metric rack installation.

Caution – Ensure that the temperature in the rack does not exceed the Apollo’s

maximum ambient rated temperatures. Consider the total airflow requirements

of all equipment installed in the rack, to ensure that the equipment is operated

within its specified temperature range.

4.1 Installing the mounting Brackets into the Apollo

Use this procedure to install the mounting brackets onto the sides Apollo.

1. Unpack the carton box

2. Mount the supplied brackets to the Apollo housing (see picture below).

4.2 Attaching the Apollo to the rack

1. Position the Apollo horizontal into the 19’ rack

2. Insert the correct mounting screws through the brackets and into the threaded holes

but do not tighten the screws completely.

3. When are the screws are inserted, tighten the screws on the brackets and keep the

Apollo horizontal

Number Comment

1 Mounting bracket left

2 Mounting bracket right

3 Spacer ring

4 M4x12

4.3 Powering the Apollo

Connected the 48VDC to the green 4-way screw connector at the back of the Apollo.

When the 48VDC power is present and connected to the Apollo, the 12V and 24V LEDs will

become active immediately.

Apollo front:

Pin nr. DC IN

1 V+

2 No function

3 Earth connection ⏚

4 V-

5 Smart cabinet security: System setup

1 Sensor

7 Ethernet

1 Server

1 Card reader

1 Intrusion detector

1 Water sensor

1 Swing handle lock

1 Client PC

1 Smoke detector

1 Flash light

1 Siren

1 Door sensor

1 Apollo

1 SNMP management

Legenda

Symbol Amount Description

Apollo configuration

iProtect™ server Apollo cabinet security

Ethernet TCP/IP

Apollo hardware

Plug and Play; Prefab cabling

SNMP Management server

Picture 1: system setup

5.1 Sockets and port overview

The following network sockets are used when connecting an Apollo into the network,

communicating with iProtect™ and a SNMP Management server:

Port TCP UDP Description Communication Ethernet

speed

80 Hypertext Transfer Protocol (HTTP) 10/100Mb

Full duplex 161 UDP Simple Network Management

Protocol (SNMP)

162 TCP UDP Simple Network Management

Protocol Trap (SNMPTRAP)

19999 TCP Debug Applet → Controller

20100 TCP iProtect™ communication Controller → iProtect™

20201 TCP iProtect™ communication iProtect™ → Controller

20600 TCP Debug Applet → Controller

Remark! Testing the (Ethernet) connection by using Ping is necessary when

commissioning the hardware.

http://en.wikipedia.org/wiki/Hypertext_Transfer_Protocol

http://en.wikipedia.org/wiki/Simple_Network_Management_Protocol




6 Apollo Smart cabinet security

Plug and Play: Prefab cabling

Warning! Connecting peripherals to the Apollo should be performed carefully. Almost all ports of the Apollo feature 12V and 24V sockets. When not connecting peripherals on a appropriate way to the Apollo, it can cause irreparable damage to the peripherals. Read also the well-made labels on the wiring through and adjust the colors of the cables to the correct section. On the labels is shown precisely what port the cable must be plugged.

6.1 Power connector

The Apollo is provided with a 3 and 4 pin removable screw connector.

The functionality of the 3-pin screw connector on the front of the Apollo has been canceled

with the use of 48VDC.

Use the 4-pin connector connection on the rear of the Apollo.

Apollo front:

Symbol Function

⏚ None

- None

+ None

Apollo rear 48VDC

connection:

Pin nr. DC IN

1 V+

2 No function

3 Earth connection ⏚

4 V-

6.2 Led status

The Apollo is provided of two general status LEDs.

6.3 Controller: gray section

The Apollo is provided with two controller ports. The left port (gray section) is a standard 10-

100Mb Ethernet port. The right port is a console (diagnostic) port.

Apollo front:

Port nr.

Pin-out

TIA/EIA-568-B Cable color

TCP/IP Ethernet 10-100Mb

1 White/orange TX+

2 Orange TX-

3 White/green RX+

4 Blue -

5 White/blue -

6 Green RX-

7 White/brown -

8 Brown -

Port nr.

Pin-out


Console

1 White/orange GND

2 Orange -

3 White/green -

4 Blue TXD

5 White/blue RXD

6 Green -

7 White/brown GND

8 Brown GND

6.3.1 Cable length

See table below for the maximum cable length, used for this section:

Symbol TIA/EIA-568-B Cable color

Type Maximum cable length

Network TCP/IP 100m

Console RS232 15m

Apollo front:

LED Active Function

S1 Permanent On Internal fuses and measurements are OK

S2 Permanent On Link with iProtect is OK




6.4 ensors: yellow section

The Apollo is provided with two sensor(bus) ports. On both ports you can connect multiple

kpSensors, up to a maximum of 20 id’s (calculated over both ports).

Each measurement will get an id.

Example: one kpSensor device measures ‘temperature AND Humidity’, two id’s will be used.

Several measurements can done, depending on sensor type (e.g. temperature, humidity, Air

flow, etc.). Visit our website and check for the supported kpSensor devices:

www.keyprocessor.com/apollo

It is also possible to connected two 0-10V devices instead of kpSensors. The devices will be

powered from the Apollo.

Apollo front:

Port nr.

Pin-out


Sensor Comment 12VDC Polyfuse

24VDC Polyfuse

1 1 White/orange GND 500mA

200mA

2 Orange Loop 8 ADC 0-10V

3 White/green 12VDC Max. 500mA

4 Blue kpSensor Max. 500mA

5 White/blue GND

6 Green 24VDC Max. 200mA

7 White/brown -

8 Brown Reset function**

Port nr.

Pin-out


Sensor Comment

2 1 White/orange GND

2 Orange Loop 9 ADC 0-10V

3 White/green 12VDC Max. 500mA

4 Blue kpSensor Max. 500mA

5 White/blue GND

6 Green 24VDC Max. 200mA

7 White/brown -

8 Brown Reset function**

** When using an 110-230VAC power supply, you can reset the Apollo from the front side.

When creating a loop between port 1 and port 2, the Apollo will restart.

6.4.1 Cable length


Note! Please use only one bus when using the kpSensor. A combination of kpSensors

combined over port 1 and 2 is not possible.

Port nr.



1 - 2 Sensor kpSensor 30m

http://www.keyprocessor.com/apollo




6.5 Reader and door I/O: green section

The Apollo is provided with two reader ports and two door I/O ports.

Apollo front:

Port

nr.

Pin-

out


Reader 1 Comment Option Option Option

3 1 White/orange RXB

2 Orange RXA

3 White/green TXB

4 Blue +12VDC Max. 250mA

5 White/blue Orbit sense

6 Green TXA

7 White/brown GND

8 Brown GND

Port

nr.

Pin-

out


Door I/O 1 Comment Option Option Option

4 1 White/orange Input 1 Digital input to GND

2 Orange Input 2 Digital input to GND

3 White/green Input 3 Digital input to GND

4 Blue Lock control Max. 1A (polyfuse) 12/24VDC 48VDC NO/NC

5 White/blue

6 Green Input 4 Digital input to GND

7 White/brown GND

8 Brown GND

Port

nr.

Pin-

out


Reader 2 Comment Option Option Option

5 1 White/orange RXB

2 Orange RXA

3 White/green TXB


5 White/blue Orbit sense

6 Green TXA

7 White/brown GND

8 Brown GND

Port

nr.

Pin-

out


Door I/O 2 Comment Option Option Option

6 1 White/orange Input 1 Digital input to GND

2 Orange Input 2 Digital input to GND

3 White/green Input 3 Digital input to GND

4 Blue Lock control Max. 1A (polyfuse) 12/24VDC 48VDC NO/NC

5 White/blue

6 Green Input 4 Digital input to GND

7 White/brown GND

8 Brown GND





6.5.1 Cable length See table below for the maximum cable length, used for this section: Port nr.



3 Reader 1 RS485 50m

4 Door I/O 1 I/O 50m

5 Reader 2 RS485 50m

6 Door I/O 2 I/O 50m

6.5.2 Led status

The reader communication and the lock output are indicated by two LEDs.

LED Function

R1 When card reader 1 communicates, LED R1 is active

L1 When door lock 1 is active, LED L1 is active

R2 When card reader 2 communicates, LED R2 is active

L2 When door lock 2 is active, LED L2 is active


6.6 Supervised inputs: red section

The Apollo is provided with 6 supervised inputs. These inputs can be used to connect intrusion-

, or smoke detectors. The detectors will be powered by the Apollo.

There is also an option to start a Walk test or to send a reset to the detectors of this section.

Apollo front:

Port nr.

Pin-out


Supervised I/O

Comment Comment Option 12VDC Polyfuse

24VDC Polyfuse


200mA 2 Orange Loop 0 0-60K ohm

3 White/green Reset Output to GND


5 White/blue +12VDC Max. 500mA

6 Green Walk test Max. 500mA Output to 12VDC/GND

7 White/brown GND

8 Brown GND

Port nr.

Pin-out


Supervised I/O

Option Comment Option


2 Orange Loop 1 0-60K ohm





7 White/brown GND

8 Brown GND

Port nr.

Pin-out


Supervised I/O

Comment Comment Option







7 White/brown GND

8 Brown GND

Port nr.

Pin-out


Supervised I/O








7 White/brown GND

8 Brown GND





Port nr.

Pin-out


Supervised I/O

Comment Comment Option 12VDC Polyfuse

24VDC Polyfuse


200mA 2 Orange Loop 4 0-60K ohm





7 White/brown GND

8 Brown GND

Port nr.

Pin-out


Supervised I/O








7 White/brown GND

8 Brown GND

Remark! When the Apollo detects a short circuit- or an overload on this section, a messages will be send to iProtect™

6.6.1 Cable length


Port nr.



7 - 12 Environment input

I/O 50m

6.6.2 Led status

The voltage on the supervised inputs are indicated by two LEDs.

LED Function

12V When 12VDC is present, LED 12V will be active. When there is an overload or short circuit, the LED will be deactivated





6.7 Supervised outputs: violet section

The Apollo is provided with 2 supervised outputs. These outputs can be used to connect a siren

or a flash light. The detectors will be powered by the Apollo.

Apollo front:

Port nr.

Pin-out TIA/EIA-568-B Cable color

Supervised I/O Comment Option



3 White/green -

4 Blue High Power output Max. 1A (polyfuse) 12/24VDC

5 White/blue

6 Green -

7 White/brown GND

8 Brown GND

Port nr.


Supervised I/O Comment Option



3 White/green -

4 Blue High Power output Max. 1A (polyfuse) 12/24VDC

5 White/blue

6 Green -

7 White/brown GND

8 Brown GND

6.7.1 Cable length


Port nr. TIA/EIA-568-B Cable color


15 - 16 Environment input I/O 50m

6.7.2 Led status

The supervised outputs are indicated by two LEDs.

.

LED Function

SO1 When supervised output 1 is active, LED SO1 is active

SO2 When supervised output 1 is active, LED SO2 is active




6.8 Digital I/O: blue section

The Apollo is provided of 8 digital I/Os. The detectors (e.g. water detector) will be powered by

the Apollo.

Remark! When the Apollo detects a short circuit- or an overload on this section, a messages will be send to iProtect™

6.8.1 Cable lenght


Apollo front:

Port nr.


Digital I/O

Comment Comment 12VDC Polyfuse

24VDC Polyfuse


200mA

2 Orange Loop 1 Max. 1A +28VDC Digital input to GND

3 White/green GND

4 Blue +24VDC Max 200mA

5 White/blue +12VDC Max. 500 mA

6 Green Loop 2 Max. 1A +28VDC Digital input to GND

7 White/brown GND

8 Brown GND

Port nr.


Digital I/O

Comment Comment

16 1 hite/orange GND


3 White/green GND




7 White/brown GND

8 Brown GND

Port nr.


Digital I/O

Comment Comment



3 White/green GND




7 White/brown GND

8 Brown GND

Port nr.


Digital I/O

Comment Comment


2 Orange Loop 7 Max. 1A +28VDC Output only!

3 White/green GND




7 White/brown GND

8 Brown GND

Port nr. TIA/EIA-568-B Cable color


15 -18 Environment input I/O 50m






6.8.2 Led status

The voltage on the digital inputs are indicated by two LEDs.

LED Function



7 Apollo diagnostic menu

7.1 Connecting to the Apollo console port

An installation diagnosis is possible with a pc/laptop.

For a diagnosis with a pc or laptop there is an installation diagnosis menu, ‘Polyx Diags'. It is

not necessary to download all settings via a user interface. After connecting the hardware,

without an exchange being present, it can be checked, locally via a simple terminal program,

whether all hardware is operational.

There are many different programs, like Teraterm, which can emulate a VT100 terminal on a

PC. Using a simple laptop, diagnostics can be logged in via the serial port in the Apollo.

Connect your PC for example to port “Console” from the Apollo. Use the adapter

shown below (available at Keyprocessor BV).

Open a terminal program and make a connection. (e.g. Tera term)

Select the COM-port of the PC connected to the Apollo.

Choose a baud rate of “115200”, Data ‘8 bit”, Stop ‘1 bit’, Parity ‘None’ and flow control

“none”.

7.2 Start diagnostic

When after starting-up the Apollo, the line ‘Hit any key within 5s to run diagnostics...’ appears

and a key is pressed within five seconds, then the diagnostics program is started.

The main menu has the following appearance:

Polyx Diags version V3.0.3

1) Environment settings

2) Test onboard I/O

3) Test RS422 devices (loopback)

4) Test profi-device Communications

5) Test Profi-device functionality

6) Clean nodemgr

7) Test Watchdog

8) Clean system

9) Clean /etc/rc.d/* to /etc/save.d/*

v) Version

p) Polyx menu

q) Start application

r) Restart system

Enter menu option:

Note: Only options 1, 2, v, p, q and r are applicable for the installer.

• q: Close diagnostic program and start application

• r: Restart Apollo

7.3 Environment settings

If option 1 is selected from the main menu of the Diagnostics program, it’s possible to see and

set the environment options. The following options are relevant:

--- Environment settings ---

serial=12456749

mac address=00:1e:d1:10:1a:5d

ip=192.168.1.195

gateway=0.0.0.0

netmask=255.255.255.0

server=192.168.1.1

backup=0.0.0.0

port=0

dhcp=0

Hit any key to continue...

• ip: the IP-address of the Apollo

• gateway: the gateway address if the communication passes via a router

• netmask: for a distinction between the local Ethernet traffic and Ethernet traffic via a

router.

• server: the IP-address of the iProtect™ main server

• backup: the IP-address of the iProtect™ backup server

• port: port which is used for provisioning. (0=Off and 6060=default port)

• dhcp: enable or disable use of dhcp. 0=disabled 1=enabled

Screen: changing environment ip setting --- Environment settings ---

Enter new environment setting :

> ip=192.168.1.195

Screen: changing environment ip setting --- Environment settings ---

Enter new environment setting :

> ip=192.168.1.195

OK : <IP=192.168.1.195>


Note: to activate these settings reboot the system. Use option (r) and do not

restart the Apollo by discharging the voltage.

7.4 Digital IO test

If option 2 is selected from the main menu of the Diagnostics program, the user can test

whether the connected equipment itself is functioning properly.

--- Digital IO Test ---

STATUS [z-x]: 0 0

YELLOW : 0.000 V 0.000 V

GREEN-1 [a] : 0 0 0 0 0

GREEN-2 [b] : 0 0 0 0 0

RED [c-d]: 1 1 3935 3935 3935 3935 3935 3935

PURPLE [e-f]: 0 3935 0 3935

BLUE [1-8]: 0 0 0 0 0 0 1 0

VOLTAGE : 12v 12.213 V 24v 27.523 V EXT 26.542 V

TEMP : 23.352 C

FUSE : 12V-RED=PASS 12V-BLUE=PASS 24V-RED=PASS 24V-BLUE=PASS

r) reload data

q) Goto the main menu

Enter menu option :

• Status: Status LED S0 and S1 can be (de)activated

• Yellow: Port 1-2: The values of the sensors will be displayed

• Green1: Port 4: the status of the 4 inputs are displayed. The output can be switched

using A

• Green2: Port 6: the status of the 4 inputs are displayed. The output can be switched

using B.

• Red: Port 7-12: status of the 6 monitored inputs are displayed. The outputs (walk-

test and reset) can be switched using C and D

• Purple: Port 13-14: status of the 2 monitored inputs are displayed. The outputs can be

switched using E and F

• Blue: Port 15-18: the status of the 7 inputs are displayed. The outputs can be

switched using 1-8

• Voltage: The internal and external voltages are displayed

• Temp: The board temperature of the Apollo is displayed

• Fuse: The statuses of the fuses are displayed. Pass=ok Fail=Overload or short circuit

7.5 Version

If option v is selected from the main menu of the Diagnostics program, it’s possible to see the

software versions installed onto the Apollo:

Hardware information:

Board type: Polyx Version 2.a

--> Apollo V2 module installed

Versions installed on this board:

bootloader version: 5.k.2.b

Board power device: 2; External Powered

Polyx Diags version 3.0.3

uClinux version 3.3.0-uc0)(gcc version 4.4.1 (Sourcery G++ Lite 4.4-216) )

Built version:

Keyprocessor/apollo Version 4.0 -- Tue Jun 3 12:09:59 CEST 2014 Sourcery G++ Lite 4.4-216)

md5 fs : 7f4916973d05a4856b4faf9905151c00

md5 kernel: 181c322dc6a15ffb3c79ebdcfbc262ca

Polyx version: 04.00.11


7.6 Polyx menu

If option p is selected from the main menu of the Diagnostics program, it’s possible to test the

connection between the Apollo and de card reader(s)see and set the environment options. The

following options are relevant:

--- Polyx Test ---

Version : 04.00.11

Reader1 : I80: V1.2.18.1.0; 0013361009

Reader2 : I80P: V1.2.18.1.0; 0013362077

Reader3 : 26a59d40010000c6 : DS2438 (temperature,hygro)

Autodetect [a]: disabled

r) reload data

q) Goto the main menu

Enter menu option :

• Version: Software version number

• Reader1: Type-, firmware version- and serial number of device will be displayed*

• Reader2: Type-, firmware version- and serial number of device will be displayed*

• Reader3: Type- and serial number of device will be displayed*

• Autodetect: When pressing a, the Apollo automatically detects the connected type of

hardware.

* When entering this menu, a reader configuration is necessary to show the connected devices

automatically. When nothing is displayed automatically, please use option a.

8 Technical specifications

Housing

Description: 19 inch, 1HE metal housing

Measurements: 482,6mm x 43.66 x 225.0 (W x H x D)

Weight 3,5Kg

Controller

Processor Coldfire 5208, 32 bits, 166 MHZ, 159 MFLOPS

Memory 32 MByte DDR ram

Flash 16 MByte flash

Operating system: uCLinux

Ethernet: 10/100 Mbit

Management information SNMP and iProtect™

Consumption

Power consumption (no

load)

<7.0W

Power consumption

(maximum)

Single non-redundant power supply; max.

power supply rating 50.4W at >83% efficiency

(refer to output load de-rating curve)

Power supply 48VDC

Input:

Voltage 36-72VDC

Current 1.5A/48V

Output: Voltage 24.0VDC

Current 2.1A

3-way connector: Fuse 2A (Polyfuse protection)

Protection: Overload 105 ~ 135% rated output power

Protection type : Hiccup mode, recovers

automatically after fault condition is removed

Over Voltage 31.5 ~ 37.5V/10% load

Protection type : Hiccup mode, recovers

automatically after fault condition is removed

Environment

Operating temperature: -10°C to +60°C at sea level (refer to output load de-rating

curve)

Non operating altitude: 10.000m (35.000 ft.)

Operating altitude: Operating altitude: Up to 3.000m (9.000 ft.),

max. ambient temperature is derated by

1° C per 300m above 900m

Working humidity: 20 ~ 90% RH non-condensing

Storage temp., humidity: -20 ~ +85°C, 10 ~ 95% RH

Polyfuse

Type PTC Fuse Case style

Thermal derating At -10° C the hold current will increase to 130%

At +25° C no derating

At +60° C the hold current will reduced to 60%

Certifications

CE compliant

EMC (electromagnetic

compatibility):

EN 55022 (2010) + AC (2011),

class B

EN 61000-3-2 (2006) + A1

(2009) + A2 (2009)

EN 61000-3-3:2008

Immunity: EN 55024:2010

Low Voltage (Product safety): EN 60950-1 (2006) + A11

(2009) + A1 (2010) + A12

(2011)

Hardware

Digital output max. Voltage 28V; Open collector output; sinked current. Max.

current 1A

Digital input Pull-up resistance 4k7

Environment input value 0-60K ohm

Environment output 12- or 24VDC max. 1A (polyfuse); switched by relay; NO/NC)

Lock output 12- or 24VDC max. 1A (polyfuse); (switched by relay; NO/NC).

Output voltage 12VDC max. 500mA (polyfuse)

24VDC max. 200mA (polyfuse)

Connections Sensor

(Yellow section)

kpSensor max. 20 id’s

0-10V max. 2

Card reader

(Green section)

RS485 max. 2

Door I/O

(Green section)

output max. 2

input max. 8

Environment inputs

(red section)

input max. 6

Walk test switching to GND/12VDC

Reset switching to GND

Environment outputs

(Purple section)

output max. 2

input max. 2

Digital I/O

(Blue section)

output 1

input max. 7

Cooling FAN AXIAL FAN, 40MM, 21dBA

Indicators

LED 12x green LED

PIEZO Buzzer 115db (option)

8.1 Output load de-rating curve

9 Technical drawings

Drawing number Description

72000400 571-1013 Temperature and Humidity sensor

72000401 571-5001 Water sensor

72000402 571-2001 Sirius Card reader I30

72000403 571-3040 Bosch ISC-BDL2-W12G dualtech motion detector

72000404 571-3016 Smoke detector

72000405 571-4010 Controlled relay, with 230Vac presence check

72000406 571-3020 Viper GLX supervised shock sensor

72000407 571-4002 Siren with beacon AS-271

72000408 571-2001 Sirius Card reader I80

72000409 571-2001 Sirius Card reader I80P

72000413 571-3040 Pyronix KX15DT dual technology motion detector

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