Vanderbilt SPC53, SPC5000, SPC63, SPC43, SPC355.300 Installation & Configuration Manual

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A6V10276959

Vanderbilt

01.05.2016

SPC42xx/43xx/52xx/53xx/63xx

Installation & Configuration Manual

3.6

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Technical specifications and availability subject to change without notice. © Copyright Vanderbilt We reserve all rights in this document and in the subject thereof. By acceptance of

the document the recipient acknowledges these rights and undertakes not to publish the document nor the subject thereof in full or in part, nor to make them available to any third party without our prior express written authorization, nor to use it for any purpose other than for which it was delivered to him.

Edition: 01.05.2016 Document ID: A6V10276959

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Table of contents

1 Meaning of symbols ......................................................................................... 11

2 Security ............................................................................................................. 12

2.1 Target group ....................................................................................................... 12

2.2 General safety instructions ................................................................................. 12

2.2.1 General information ............................................................................ 12

2.2.2 Transport ............................................................................................. 12

2.2.3 Setup ................................................................................................... 13

2.2.4 Operation ............................................................................................ 13

2.2.5 Service and maintenance ................................................................... 13

2.3 Meaning of written warning notices .................................................................... 14

2.4 Meaning of hazard symbols ............................................................................... 14

3 Directives and standards ................................................................................. 15

3.1 EU directives ...................................................................................................... 15

3.1.1 Overview of Conformity to EN50131 Standard ................................... 15

3.1.2 Compliance with EN50131 Approvals ................................................ 19

3.1.3 Compliance with EN 50136-1:2012 and EN 50136-2:2014 ................ 21

3.1.4 Compliance with INCERT Approvals .................................................. 21

3.1.5 PD 6662:2010 Conformance Guidelines ............................................ 23

3.1.5.1 Product scope ..................................................................................... 23

3.1.5.2 Standards overview ............................................................................ 23

3.1.5.3 Methods for the completion of setting and unsetting .......................... 23

3.1.5.4 Configuration requirements for PD 6662:2010 conformance ............. 26

3.1.5.5 Additional commissioning requirements for PD 6662:2010

conformance ....................................................................................... 27

3.1.5.6 Additional information ......................................................................... 28

3.1.6 Compliance with VDS approvals ........................................................ 28

3.1.7 Compliance with NF and A2P approvals ............................................ 29

4 Technical Data .................................................................................................. 31

4.1 SPC4000 ............................................................................................................ 31

4.2 SPC5000 ............................................................................................................ 32

4.3 SPC6000 ............................................................................................................ 35

4.4 SPCP355.300 ..................................................................................................... 38

5 Introduction....................................................................................................... 39

6 Mounting system equipment........................................................................... 40

6.1 Mounting a G2 housing ...................................................................................... 40

6.2 Mounting a G3 housing ...................................................................................... 41

6.2.1 Mounting a Back Tamper Kit .............................................................. 43

6.2.2 Battery installation for EN50131 compliance ...................................... 47

6.3 Mounting a G5 housing ...................................................................................... 48

6.3.1 Tamper protection ............................................................................... 50

6.3.2 Mounting the housing with tamper protection ..................................... 50

6.3.2.1 Tamper operation ................................................................................ 51

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6.3.3 Installing the batteries ......................................................................... 53

6.4 Mounting a keypad ............................................................................................. 54

6.5 Mounting an expander ........................................................................................ 54

7 Smart PSU ......................................................................................................... 55

7.1 SPCP355.300 Smart PSU .................................................................................. 55

7.1.1 Supervised Outputs............................................................................. 57

7.1.2 Batteries .............................................................................................. 58

7.1.2.1 Installing Batteries ............................................................................... 58

7.1.2.2 Testing Battery Voltage ....................................................................... 60

7.1.2.3 Deep Discharge Protection ................................................................. 60

7.1.2.4 Battery Stand-By Times ...................................................................... 60

7.1.3 Wiring the X-BUS Interface ................................................................. 60

7.1.3.1 Wiring the Inputs ................................................................................. 61

7.1.3.2 Wiring the Outputs .............................................................................. 62

7.1.4 Compliance with NF and A2P approvals ............................................ 63

7.1.5 PSU LED Status .................................................................................. 64

7.1.6 System Recovery ................................................................................ 65

8 Controller hardware ......................................................................................... 66

8.1 Controller Hardware 42xx\43xx\53xx\63xx ......................................................... 66

8.2 Controller Hardware SPC5350 and 6350 ........................................................... 69

9 Door Expander .................................................................................................. 71

10 Wiring the system ............................................................................................. 72

10.1 Wiring the X-BUS interface ................................................................................ 72

10.1.1 Loop configuration............................................................................... 73

10.1.2 Spur configuration ............................................................................... 74

10.1.3 Star and multi-drop configuration ........................................................ 75

10.1.3.1 Examples of correct wiring .................................................................. 78

10.1.3.2 Examples of incorrect wiring ............................................................... 79

10.1.4 Shielding ............................................................................................. 80

10.1.5 Cable Map ........................................................................................... 81

10.2 Wiring of branch expander ................................................................................. 81

10.3 Wiring the system ground ................................................................................... 82

10.4 Wiring the relay output........................................................................................ 82

10.5 Wiring the zone inputs ........................................................................................ 83

10.6 Wiring an external SAB bell ................................................................................ 86

10.7 Wiring an internal sounder ................................................................................. 87

10.8 Wiring Glassbreak .............................................................................................. 87

10.9 Installing plug-in modules ................................................................................... 87

11 Powering up the SPC controller ..................................................................... 89

11.1 Powering from battery only ................................................................................. 89

12 Keypad user interface ...................................................................................... 90

12.1 SPCK420/421 ..................................................................................................... 90

12.1.1 Introduction ......................................................................................... 90

12.1.2 Using the LCD keypad interface ......................................................... 92

12.1.3 Data entry on the LCD keypad ............................................................ 94

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12.2 SPCK620/623 ..................................................................................................... 95

12.2.1 Introduction ......................................................................................... 95

12.2.2 LED description ................................................................................... 98

12.2.3 Viewing mode description ................................................................... 99

12.2.4 Function keys in idle state................................................................... 99

13 Software support tools .................................................................................. 101

14 Starting the system ........................................................................................ 102

14.1 Engineer modes ............................................................................................... 102

14.1.1 Engineer PINs ................................................................................... 102

14.2 Programming tools ........................................................................................... 103

14.2.1 Fast Programmer .............................................................................. 103

14.3 Configuring start-up settings ............................................................................ 103

14.4 Creating system users ...................................................................................... 105

14.5 Programming the portable ACE ....................................................................... 105

14.6 Configuring wireless fob devices ...................................................................... 106

14.6.1 Clearing alerts using the fob ............................................................. 107

15 Soft Engineer programming via the keypad ................................................ 109

16 Engineer programming via the keypad ........................................................ 110

16.1 System Status .................................................................................................. 110

16.2 Options ............................................................................................................. 111

16.3 Timers ............................................................................................................... 114

16.4 Areas ................................................................................................................ 116

16.5 Area Groups ..................................................................................................... 117

16.6 X-BUS ............................................................................................................... 118

16.6.1 X-BUS Addressing ............................................................................ 118

16.6.2 XBUS Refresh ................................................................................... 118

16.6.3 Reconfigure ....................................................................................... 119

16.6.4 Keypads/Expanders/Door Controllers .............................................. 120

16.6.4.1 Locate ............................................................................................... 120

16.6.4.2 Monitor .............................................................................................. 120

16.6.4.3 Edit Keypads ..................................................................................... 121

16.6.4.4 Edit Expanders .................................................................................. 123

16.6.4.5 Edit Door Controllers ......................................................................... 127

16.6.5 Addressing Mode .............................................................................. 128

16.6.6 XBUS Type ....................................................................................... 129

16.6.7 Bus Retries ....................................................................................... 129

16.6.8 Comms Timer ................................................................................... 129

16.7 Wireless ............................................................................................................ 130

16.7.1 Add Sensors ..................................................................................... 130

16.7.2 Edit Sensors (Zone Assignment) ...................................................... 131

16.7.3 Add WPA........................................................................................... 131

16.7.4 Edit WPA ........................................................................................... 132

16.8 Zones ................................................................................................................ 132

16.9 Doors ................................................................................................................ 133

16.9.1 Doors ................................................................................................. 133

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16.10 Outputs ............................................................................................................. 136

16.10.1 Outputs types and output ports ......................................................... 137

16.11 Communication ................................................................................................. 140

16.11.1 Serial Ports ........................................................................................ 140

16.11.2 Ethernet Ports ................................................................................... 140

16.11.3 Modems ............................................................................................ 141

16.11.3.1 Monitoring the transmission network interface ................................. 141

16.11.3.2 Configuring Modems ......................................................................... 142

16.11.4 Central Station .................................................................................. 143

16.11.4.1 Add .................................................................................................... 143

16.11.4.2 Edit .................................................................................................... 143

16.11.4.3 Delete ................................................................................................ 144

16.11.4.4 Make Test Call .................................................................................. 144

16.11.5 Remote Maintenance ........................................................................ 144

16.12 Test ................................................................................................................... 145

16.12.1 Bell Test ............................................................................................ 145

16.12.2 Walk Test .......................................................................................... 145

16.12.3 Zone Monitor ..................................................................................... 145

16.12.4 Output Test ....................................................................................... 146

16.12.5 Soak Test .......................................................................................... 147

16.12.6 Audible Options ................................................................................. 147

16.12.7 Visual Indicators ................................................................................ 147

16.12.8 WPA Test .......................................................................................... 148

16.12.9 Seismic Test ...................................................................................... 148

16.13 Utilities .............................................................................................................. 148

16.14 Isolate ............................................................................................................... 149

16.15 Event Log ......................................................................................................... 149

16.16 Access Log ....................................................................................................... 150

16.17 Alarm Log ......................................................................................................... 150

16.18 Change Engineer Pin ....................................................................................... 150

16.19 Users ................................................................................................................ 150

16.19.1 Add .................................................................................................... 151

16.19.2 Edit .................................................................................................... 151

16.19.2.1 Access Control .................................................................................. 151

16.19.3 Delete ................................................................................................ 153

16.20 User Profiles ..................................................................................................... 154

16.20.1 Add .................................................................................................... 154

16.20.2 Edit .................................................................................................... 154

16.20.3 Delete ................................................................................................ 154

16.21 SMS .................................................................................................................. 155

16.21.1 Add .................................................................................................... 155

16.21.2 Edit .................................................................................................... 156

16.21.3 Delete ................................................................................................ 156

16.22 X-10 .................................................................................................................. 156

16.23 Set Date/Time ................................................................................................... 157

16.24 Installer Text ..................................................................................................... 157

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16.25 Door Control ..................................................................................................... 157

16.26 SPC Connect .................................................................................................... 158

17 Engineer programming via the browser ...................................................... 159

17.1 System Information .......................................................................................... 159

17.2 Ethernet interface ............................................................................................. 159

17.3 Connecting to the panel via USB ..................................................................... 161

17.4 Logging into the browser .................................................................................. 163

17.5 SPC Home........................................................................................................ 164

17.5.1 System Summary .............................................................................. 164

17.5.2 Alarms Overview ............................................................................... 165

17.5.3 Viewing Video ................................................................................... 165

17.6 Panel status ...................................................................................................... 167

17.6.1 Status ................................................................................................ 167

17.6.2 X-Bus Status ..................................................................................... 167

17.6.2.1 Expander Status ............................................................................... 168

17.6.2.2 PSU status ........................................................................................ 170

17.6.2.3 Keypad Status ................................................................................... 172

17.6.2.4 Door Controller Status ...................................................................... 173

17.6.3 Wireless ............................................................................................ 175

17.6.3.1 Log - Wireless sensor X .................................................................... 176

17.6.4 Zones ................................................................................................ 176

17.6.5 Doors ................................................................................................. 178

17.6.6 FlexC Status ..................................................................................... 179

17.6.7 System alerts .................................................................................... 180

17.7 Logs .................................................................................................................. 181

17.7.1 System Log ....................................................................................... 181

17.7.2 Access Log ....................................................................................... 181

17.7.3 WPA Log ........................................................................................... 182

17.7.4 ALARM LOG ..................................................................................... 182

17.8 Users ................................................................................................................ 183

17.8.1 Adding / Editing a User ..................................................................... 183

17.8.1.1 Unknown Devices ............................................................................. 185

17.8.2 Adding / Editing User Profiles ........................................................... 186

17.8.3 Configuring SMS ............................................................................... 190

17.8.4 SMS Commands ............................................................................... 191

17.8.5 Deleting Web Passwords .................................................................. 193

17.8.6 Configuring Engineer Settings .......................................................... 193

17.8.6.1 Changing Engineer PIN and web password ..................................... 194

17.9 Configuration .................................................................................................... 196

17.9.1 Configuring controller inputs & outputs ............................................. 196

17.9.1.1 Editing an input ................................................................................. 196

17.9.1.2 Editing an output ............................................................................... 197

17.9.1.3 Configuring system latch and auto set outputs ................................. 202

17.9.1.4 X10 Config - Settings ........................................................................ 203

17.9.2 X-BUS ............................................................................................... 204

17.9.2.1 Expanders ......................................................................................... 204

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17.9.2.2 Keypads ............................................................................................ 209

17.9.2.3 Door Controllers ................................................................................ 214

17.9.2.4 Cable Map ......................................................................................... 215

17.9.2.5 Settings ............................................................................................. 216

17.9.3 Wireless ............................................................................................ 217

17.9.3.1 Log - Wireless sensor X .................................................................... 218

17.9.3.2 Configuring a WPA............................................................................ 218

17.9.3.3 Changing wireless settings ............................................................... 221

17.9.4 Changing system settings ................................................................. 222

17.9.4.1 Options .............................................................................................. 222

17.9.4.2 Timers ............................................................................................... 230

17.9.4.3 Identification ...................................................................................... 233

17.9.4.4 Standards .......................................................................................... 234

17.9.4.5 Clock ................................................................................................. 235

17.9.4.6 Language .......................................................................................... 236

17.9.5 Configuring zones, doors and areas ................................................. 237

17.9.5.1 Editing a zone ................................................................................... 237

17.9.5.2 Adding / Editing an area .................................................................... 238

17.9.5.3 Editing a door .................................................................................... 246

17.9.5.4 Adding an area group ....................................................................... 251

17.9.6 Calendars .......................................................................................... 251

17.9.6.1 Adding / Editing a calendar ............................................................... 252

17.9.6.2 Automatic setting/unsetting of areas ................................................. 254

17.9.6.3 Automatic setting/unsetting of other panel operations ...................... 254

17.9.7 Change own PIN ............................................................................... 255

17.9.8 Configuring advanced settings .......................................................... 255

17.9.8.1 Triggers ............................................................................................. 255

17.9.8.2 Mapping Gates .................................................................................. 256

17.9.8.3 Audio/Video Verification .................................................................... 257

17.9.8.4 Updating SPC Licenses .................................................................... 261

17.10 Configuring Communications ........................................................................... 261

17.10.1 Communications Settings ................................................................. 261

17.10.1.1 Configuring the networking services of the panel ............................. 261

17.10.1.2 Ethernet ............................................................................................. 262

17.10.1.3 Modems ............................................................................................ 263

17.10.1.4 Serial ports ........................................................................................ 272

17.10.2 FlexC® ............................................................................................... 273

17.10.2.1 Operation Mode ................................................................................ 274

17.10.2.2 Quick Start ATP Configuration for EN50136 ATS ............................ 274

17.10.2.3 Configuring an EN50136-1 ATS or Custom ATS .............................. 276

17.10.2.4 Configuring an SPC Connect ATS .................................................... 285

17.10.2.5 Exporting and Importing an ATS ....................................................... 285

17.10.2.6 Configuring Event Profiles ................................................................ 286

17.10.2.7 Configuring Command Profiles ......................................................... 290

17.10.3 Reporting ........................................................................................... 292

17.10.3.1 Alarm Reporting Centres (ARCs) ...................................................... 292

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17.10.3.2 EDP Setup ........................................................................................ 295

17.10.4 PC Tools ........................................................................................... 302

17.10.4.1 SPC Pro / SPC Safe ......................................................................... 302

17.10.4.2 SPC Manager ................................................................................... 303

17.10.4.3 Remote Maintenance ........................................................................ 304

17.11 File Operations ................................................................................................. 304

17.11.1 File Upgrade Operations ................................................................... 305

17.11.1.1 Upgrading Firmware ......................................................................... 305

17.11.1.2 Upgrading Languages ....................................................................... 308

17.11.2 File Manager Operations .................................................................. 310

17.12 Using the Fast Programmer ............................................................................. 311

17.12.1 Connecting the Fast Programmer to the Controller .......................... 312

17.12.2 Installing the Fast Programmer on a PC ........................................... 312

17.12.3 Fast Programmer File Operations .................................................... 313

17.12.3.1 Accessing the Fast Programmer using the Keypad ......................... 313

17.12.3.2 Accessing the Fast Programmer using the Browser ........................ 313

18 Accessing web server remotely ................................................................... 315

18.1 PSTN connection ............................................................................................. 315

18.2 GSM connection ............................................................................................... 317

19 Intruder alarm functionality ........................................................................... 320

19.1 Financial mode operation ................................................................................. 320

19.2 Commercial mode operation ............................................................................ 320

19.3 Domestic mode operation ................................................................................ 321

19.4 Full and local alarms ........................................................................................ 321

20 System examples and scenarios .................................................................. 322

20.1 When to use a common area ........................................................................... 322

21 Seismic Sensors ............................................................................................. 324

21.1 Seismic Sensor Testing .................................................................................... 325

21.1.1 Manual and Automatic Test Process ................................................ 325

21.1.2 Automatically Testing Sensors ......................................................... 326

21.1.3 Manually Testing Sensors................................................................. 327

22 Blocking Lock Operation ............................................................................... 328

22.1 Blocking Lock ................................................................................................... 328

22.2 Authorized Setting of the Blocking Lock ........................................................... 329

22.3 Locking Element ............................................................................................... 330

23 Appendix ......................................................................................................... 332

23.1 Network cable connections .............................................................................. 332

23.2 Controller status LEDs ..................................................................................... 332

23.3 Powering expanders from the auxiliary power terminals ................................. 333

23.4 Calculating the battery power requirements ..................................................... 334

23.5 Domestic, Commercial and Financial mode default settings ........................... 336

23.6 Wiring of the X10 interface ............................................................................... 337

23.7 SIA Codes ........................................................................................................ 337

23.8 CID Codes ........................................................................................................ 342

23.9 Overview of keypad types ................................................................................ 343

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23.10 User PIN combinations ..................................................................................... 344

23.11 Duress PINs ..................................................................................................... 345

23.12 Automatic inhibits ............................................................................................. 345

23.12.1 Zones ................................................................................................ 345

23.12.2 Access PINs ...................................................................................... 345

23.12.3 Engineer Access ............................................................................... 345

23.12.4 Keypad User Logoff .......................................................................... 345

23.13 Wiring of mains cable to the controller ............................................................. 346

23.14 Maintenance controller ..................................................................................... 346

23.15 Maintenance Smart PSU .................................................................................. 347

23.16 Zone types ........................................................................................................ 347

23.17 Zone attributes .................................................................................................. 350

23.18 Applicable attributes to zone types ................................................................... 352

23.19 ATS levels and attenuation specifications ........................................................ 354

23.20 Supported card readers and card formats........................................................ 354

23.21 SPC Support for E-Bus Devices ....................................................................... 356

23.21.1 Configuring and Addressing E-Bus Devices ..................................... 356

23.21.1.1 Addressing Transponders for SAP 8, SAP 14, and SAP 20 ............. 358

23.21.1.2 Addressing Transponders for PSU SAP 25 ...................................... 358

23.22 FlexC Glossary ................................................................................................. 359

23.23 FlexC Commands ............................................................................................. 360

23.24 ATS Category Timings ..................................................................................... 362

23.25 ATP Category Timings ..................................................................................... 363

Meaning of symbols

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Symbol

Description

Not available for SPC42xx, SPC43xx.

Only available for SPC controller with IP interface (SPC43xx/SPC53xx/SPC63xx).

Not available for installation type Domestic.

Only available in unrestricted mode.

Find further information about Security Grade, Region or Mode in text. See Appendix for further information.

SPC4xxx

1 Meaning of symbols

There are several symbols in the document:

Security

Target group

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Target readers

Qualification

Activity

Condition of the equipment

Installation personnel

Technical training for building or electrical installations.

Assembles and installs the hardware components on site.

Individual components that need to be assembled and installed.

Operational startup personnel

Has appropriate technical training with regard to the tasks and the products, devices or systems to be put in service.

Puts the device or system which is readily assembled and installed on site into service.

New, readily assembled and installed device or modified device.

WARNING

Before starting to install and work with this device, please read the Safety Instructions. This device shall only be connected to power supplies compliant to EN60950-1, chapter 2.5 ("limited power source").

2 Security

2.1 Target group

The instructions in this documentation are directed at the following target group:

2.2 General safety instructions

2.2.1 General information

 Keep this document for later reference.  Always pass this document on together with the product.  Please also take into account any additional country-specific, local safety

standards or regulations concerning project planning, operation and disposal of the product.

Liability claim

 Do not connect the device to the 230 V supply network if it is damaged or any

parts are missing.

 Do not make any changes or modifications to the device unless they are

expressly mentioned in this manual and have been approved by the manufacturer.

 Use only spare parts and accessories that have been approved by the

manufacturer.

2.2.2 Transport

Unit damage during transport

 Keep the packaging material for future transportation.  Do not expose the device to mechanical vibrations or shocks.

Security

General safety instructions

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2.2.3 Setup

Radio interference with other devices in the environment / EMS

 When handling modules that are susceptible to electrostatic discharge, please

Damage due to unsuitable mounting location

 The environmental conditions recommended by the manufacturer must be

 Do not operate the device close to sources of powerful electromagnetic

Danger of electrical shock due to incorrect connection

 Connect the device only to power sources with the specified voltage. Voltage

 Ensure that the device is permanently connected to the electricity supply; a

 Ensure that the circuit that the device is connected to is protected with a 16 A

 This device is designed to work with TN power systems. Do not connect the

 Electrical grounding must meet the customary local safety standards and

 Primary supply cables and secondary cables should be routed such that they

 Telephone cables should be fed into the unit separately from other cables.

observe the ESD guidelines.

observed. See Technical Data.

radiation.

supply requirements can be found on the rating label of the device.

readily accessible disconnect device must be provided.

(max.) fuse. Do not connect any devices from other systems to this fuse.

device to any other power systems.

regulations.

do not run in parallel or cross over or touch one anther inside the housing.

Risk of cable damage due to stress

 Ensure that all outgoing cables and wires are sufficiently strain-relieved.

2.2.4 Operation

Dangerous situation due to false alarm

 Make sure to notify all relevant parties and authorities providing assistance

before testing the system.

 To avoid panic, always inform all those present before testing any alarm

devices.

2.2.5 Service and maintenance

Danger of electrical shock during maintenance

 Maintenance work must only be carried out by trained specialists.  Always disconnect the power cable and other cables from the main power

supply before performing maintenance.

Danger of electrical shock while cleaning the device

 Do not use liquid cleaners or sprays that contain alcohol, spirit or ammonia.

Security

Meaning of written warning notices

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2.3 Meaning of written warning notices

Signal Word

Type of Risk

DANGER

Danger of death or severe bodily harm.

WARNING

Possible danger of death or severe bodily harm.

CAUTION

Danger of minor bodily injury or property damage

IMPORTANT

Danger of malfunctions

WARNING

Warning of hazard area

WARNING

Warning of dangerous electrical voltage

2.4 Meaning of hazard symbols

Directives and standards

EU directives

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emc emission

EN 55022 Class B

emc immunity

EN 50130-4

Safety

EN 60950-1

Address of Certifying Body

VDS (VDS A / C / EN / SES Approval) AG Köln HRB 28788 Sitz der Gesellschaft:

Amsterdamer Str. 174, 50735 Köln Geschäftsführer:

Robert Reinermann JörgWilms-Vahrenhorst (Stv.)

Product Type

Standard

 SPC6350.320  SPC6330.320  SPC5350.320  SPC5330.320  SPCP355.300  SPCP333.300  SPCE652.100  SPCK420.100  SPCK421.100  SPCE452.100  SPCE110.100  SPCE120.100  SPCA210.100  SPCK620.100  SPCK623.100  SPCN110.000  SPCN310.000

EN50131 Grade 3

3 Directives and standards

3.1 EU directives

This product complies with the requirements of the European Directives

2004/108/EC “Directive of Electromagnetic Compatibility”, 2006/95/EC “Low Voltage Directive”, and1999/5/EC on Radio and Telecommunications Terminal

Equipment (R&TTE). The EU declaration of conformity is available to the responsible agencies at http://pcd.vanderbiltindustries.com/doc/SPC

European Directive 2004/108/EC „Electromagnetic Compatibility”

Compliance with the European Directive 2004/108/EC has been proven by testing according to the following standards:

European Directive 2006/95/EC „Low-Voltage Directive”

Compliance with the European Directive 2006/95/EC has been proven by testing according to the following standard:

3.1.1 Overview of Conformity to EN50131 Standard

This section gives an overview of the SPC compliance to the EN50131 standard.

SPC products listed have been tested according to EN50131-3:2009 and all relevant RTC specifications.

Directives and standards

EU directives

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Product Type

Standard

 SPC5320.320  SPC4320.320  SPCP332.300

EN50131 Grade 2

EN50131 Requirement

SPC Installation & Configuration Manual

Operating temperature and humidity range

Technical data SPC4000 [➙ 31] Technical data SPC5000 [➙ 32] Technical data SPC6000 [➙ 35]

Weights and dimensions

Technical data SPC4000 [➙ 31] Technical data SPC5000 [➙ 32] Technical data SPC6000 [➙ 35]

Fixing details

Mounting system equipment [➙ 40]

Installation, commissioning and maintenance instructions, including terminal identifications

Mounting system equipment [➙ 40] Controller hardware [➙ 66]

Type of interconnections (refer to 8.8);

Technical data SPC4000 [➙ 31] Technical data SPC5000 [➙ 32] Technical data SPC6000 [➙ 35]

Wiring the X-Bus Interface [➙ 72]

Details of methods of setting and unsetting possible (see 11.7.1 to 11.7.3 and Tables 23 to 26);

User programming via the keypad Areas – Setting/Unsetting [➙ 243] Configuring a keyswitch expander [➙ 207]

Configuring a wireless fob [➙ 106] Triggers [➙ 255]

Serviceable parts

Technical data SPC4000 [➙ 31] Technical data SPC5000 [➙ 32] Technical data SPC6000 [➙ 35]

Power supply requirement if no integrated PS

See installation instructions for SPCP33x and SPCP43x Expander PSUs.

Where PS is integrated, the information required by EN 50131-6:2008, Clause 6

Technical data SPC4000 [➙ 31] Technical data SPC5000 [➙ 32] Technical data SPC6000 [➙ 35]

Maximum number of each type of ACE and expansion device.

Wiring the X-Bus Interface [➙ 72]

Technical data SPC4000 [➙ 31] Technical data SPC5000 [➙ 32] Technical data SPC6000 [➙ 35]

Current consumption of the CIE and each type of ACE and expansion device, with and without an alarm condition.

See relevant installation instructions.

Maximum current rating of each electrical output

Technical data SPC4000 [➙ 31] Technical data SPC5000 [➙ 32] Technical data SPC6000 [➙ 35]

Programmable functions provided

Engineer programming via the keypad [➙ 110]

Engineer programming via the browser [➙ 159]

Specific information in relation to EN50131 requirements can be found in the following sections in this document.

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SPC Installation & Configuration Manual

How indications are made inaccessible to level 1 users when level 2, 3 or 4 user is no longer accessing the information (see 8.5.1)

Keypad user interface [➙ 90] Standard keypad settings [➙ 121] Comfort keypad settings [➙ 122] Configuring an Indicator Expander [➙ 206]

Masking/reduction of range

signals/messages processed as “fault” or “masking” events (see 8.4.1, 8.5.1 and Table

11);

System Options [➙ 222] Wiring the zone inputs [➙ 83] SIA Codes [➙ 337]

PIR masking is always reported as a zone masked event (SIA - ZM). Additionally, antimask can cause an alarm, tamper, trouble or no additional action depending on configuration

Current defaults of PIR addition effect: Ireland

Unset - None Set - Alarm

UK, Europe, Sweden, Swiss, Belgium Unset - Tamper Set - Alarm

Prioritization of signal and message processing and indications (see 8.4.1.2,

8.5.3);

Standard keypad display [➙ 92] Comfort keypad display [➙ 95]

Minimum number of variations of PIN codes, logical keys, biometric keys and/or mechanical keys for each user (see 8.3);

User PIN combinations [➙ 344]

Method of time-limiting internal WD for level 3 access without level 2 authorization (see

8.3.1);

Not supported - Engineer cannot access system without permission.

Number and details of disallowed PIN codes (see 8.3.2.2.1);

Automatic inhibits [➙ 345]

Details of any biometric authorization methods used (see 8.3.2.2.3);

Not applicable

Method used to determine the number of combinations of PIN codes, logical keys, biometric keys and/or mechanical keys (see

11.6);

User PIN combinations [➙ 344]

Number of invalid code entries before user interface is disabled (see 8.3.2.4);

Access PINs [➙ 345]

Details of means for temporary authorization for user access (see 8.3.2);

User Menus – Grant Access

if automatic setting at pre-determined times provided, details of pre-setting indication and any automatic over-ride of prevention of set (see 8.3.3, 8.3.3.1);

Areas – Setting/Unsetting [➙ 243]

Details of conditions provided for the set state (see 8.3.3.4);

Setting and unsetting the system

Standard keypad configuration [➙ 121] Comfort keypad configuration [➙ 122] Outputs [➙ 198] Zone types [➙ 347]

Notification of output signals or messages provided (see 8.6);

Outputs [➙ 198] Areas – setting/unsetting [➙ 243] User rights [➙ 187]

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EN50131 Requirement

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Other output configurations to interface with I&HAS components (see 8.2);

Outputs [➙ 198] Zone types [➙ 347] Test [➙ 145] Keypad user interface [➙ 90]

Criteria for automatic removal of “soak test” attribute (see 8.3.9);

Timers [➙ 230]

Number of events resulting in automatic inhibit

Automatic Inhibits [➙ 345]

If ACE is Type A or Type B (see 8.7) and whether portable or moveable (see 11.14);

All devices are hardwired and powered by system PSUs. Refer to relevant technical data on PSUs.

Component data for non-volatile memory components (see Table 30, step 6);

See user documentation for SPCK420/421 and SPCK620/623 keypads.

Life of memory support battery (see 8.10.1);

N/A. Stored in non-volatile memory.

Optional functions provided (see 4.1);

Engineer programming via the keypad Engineer programming via the browser

[➙ 159]

Additional functions provided (see 4.2,

8.1.8);

Grade - Unrestricted Policies – System options [➙ 222]

Access levels required to access such additional functions provided;

User configuration (keypad) [➙ 151] User configuration (browser) [➙ 183]

Details of any programmable facility that would render an I&HAS non-compliant with EN 50131-1:2006, 8.3.13 or compliant at a lower security grade, with instruction on consequent removal of compliance labeling (see 4.2 and 8.3.10).

Grade - Unrestricted Policies – System options [➙ 222] EN50131 Compliance [➙ 19]

Product Type

Standard

 SPC6350.320  SPC6330.320  SPC5350.320  SPC5330.320  SPCP355.300  SPCP333.300  SPCP355.300  SPCE652.100  SPCK420.100  SPCK421.100  SPCE452.100  SPCE110.100  SPCE120.100  SPCA210.100  SPCK620.100  SPCK623.100  SPCN110.000  SPCN310.000

EN50131-6

SPC products listed have been tested according to EN50131-6, and all relevant RTC specifications.

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Product Type

Standard

 SPC5320.320  SPC4320.320  SPCP332.300

EN50131-6

It is not possible to change the Region or Grade in SPC Pro. It is only possible to change these settings in the browser or keypad.

3.1.2 Compliance with EN50131 Approvals

Software Requirements

 In the Standards settings page, select Europe under Region to implement

EN50131 requirements.

 Select Grade 2 or Grade 3 to implement the grade of EN50131 compliance.  The Wireless settings Prevent Setting Time and Device Lost Time must be set

to a value other than 0.

 Select Synchronization Time with Mains under Clock settings to use mains as

clock master.

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 DO NOT select the attribute Setting State in the Keypad configuration settings

for Visual indications.

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Hardware Requirements

NOTICE

The SPCN110 PSTN module and SPCN130 GSM/GPRS module are tested with EN50131 approved Grade 2 and Grade 3 panels and can be used with these approved panels.

 The back tamper kit (SPCY130) must be installed for panels and power

supplies for compliance with EN50131 Grade 3.

 EN50131 Grade 3 compliant components must be installed for EN50131 Grade

3 compliant systems.

 Either EN50131Grade 2 or 3 compliant components must be installed for

EN50131 Grade 2 compliant systems.

 It is not possible to enrol a wireless device with a signal strength lower than 3.  The recommended ratio of wireless receivers to transmistters is no more than

20 transmitters for every one receiver.

 Glassbreak must be used with an EN-compliant glassbreak interface.  To comply with EN50131-3:2009, do not set or unset the system using the

SPCE120 (Indicator Expander) or the SPCE110 (Keyswitch Expander).

3.1.3 Compliance with EN 50136-1:2012 and EN 50136-2:2014

SPC products listed have been tested according to EN 50136-1:2012 and EN 50136-2:2014.

3.1.4 Compliance with INCERT Approvals

Software Requirements Selecting Belgium (*) under Region implements local or national requirements

which supercede EN50131 requirements.

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COMMS

NONE

PSTN

GSM

PSTN+GSM

Standby time

12 h

568 mA

543 mA

438 mA

413 mA

24h

214 mA

189 mA

84 mA

59 mA

30 h

143 mA

118 mA

13 mA

N/A

60h

2mA

N/A

Selecting Grade 2 or Grade 3 selects EN50131 compliance plus any additional INCERT requirements:

 Only an engineer can restore a tamper. For INCERT, this applies across all

grades. This is normally only a requirement for Grade III En50131.

 A tamper on an Inhibited / Isolated zone must be sent to an ARC and displayed

to the user. For INCERT, tampers are processed for isolated zones. On all other standard variations, tampers are ignored on isolated zones.

 User PIN codes must be defined with more than 4 digits.

Hardware Requirements

 The minimum battery capacity for SPC42xx/43xx/52xx/53xx/63xx is 10 Ah / 12

V. If a 10 Ah battery is used, then the battery is biased to the left of the cabinet and the bottom flap is bent to meet the battery.

 Fit jumper (J12) on the battery selector for 17/10 Ah battery use and remove for

7 Ah battery.

 The amount of current from Aux output using a 10 Ah battery for

SPC42xx/SPC52xx is:

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 The amount of current from Aux output using a 10 Ah battery for

COMMS

NONE

PSTN

GSM

PSTN+GSM

Standby time

12 h

538 mA

513 mA

408 mA

383 mA

24 h

184 mA

159 mA

54 mA

29 mA

30 h

113 mA

88mA

N/A

60 h

N/A

SPC4320.320-L1 Grade 2 Controller SPC5320.320-L1 Grade 2 Controller SPC5330.320-L1 Grade 3 Controller SPC5350.320-L1 Grade 3 Controller SPC6330.320-L1 Grade 3 Controller SPC6350.320-L1 Grade 3 Controller SPCK420/421.100 LCD Keypad SPCE452.100 Expander, 8 Relay Outputs

SPCE652.100 Expander, 8 Inputs / 2 Outputs

SPCP332.300 Smart PSU with I/O Expander

SPCP355.300 Smart PSU with 8 Inputs / 2 Outputs Expander

SPCP333.300 Smart PSU with I/O Expander

SPCN110.000 PSTN Module SPCN310.000 GSM Module

PD 6662:2010 BS 4737-3.1:1977 BS 8243:2010 BS 8473:2006+A1:2008 BS EN 50131-1:2006+A1:2009 BS EN 50136-1-1:1998+A2:2008 BS EN 50136-1-2:1998 BS EN 50136-1-3:1998

BS EN 50136-1-5:2008 BS EN 50136-2-1:1998 +A1:1998 BS EN 50136-2-2:1998 BS EN 50136-2-3:1998 BS EN 50131-3:2009 BS EN 50131-6:2008 DD 263:2010 DD CLC/TS 50131-7:2008

3.1.5.3.1

SPC43xx/SPC53xx/ SPC63xx is:

3.1.5 PD 6662:2010 Conformance Guidelines

This appendix contains all the criteria for the installation, and commissioning and maintenance of the SPC System to enable it to conform to the PD 6662:2010 Standard.

3.1.5.1 Product scope

The scope of this document is aimed at the following components of the SPC system:

3.1.5.2 Standards overview

3.1.5.3 Methods for the completion of setting and unsetting

Methods of completion of setting (BS 8243:2010 - Clause 6.3)

Guidelines are provided for the implementation of PD 6662:2010 conformance for an SPC system to the following relevant standards:

Completion/Termination of the full setting procedure is achieved by any of the following methods:

a) Shunt lock fitted to the final exit door A shunt lock must be installed by the installer as follows:

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4K7

Lock - NC, open when locked

Zone – EXIT TERMINATOR zone type

4K7

Tamper

3.1.5.3.2

An EXIT TERMINATOR zone type must be configured for SPC. Refer to the following section in this manual: Zone types [➙ 347]

b) Push button switch mounted outside the supervised premises Connect the push button into an SPC zone input as follows:

An EXIT TERMINATOR zone type must be configured for SPC. Refer to the following section in this manual: Zone types [➙ 347]

c) Protective switch (i.e. door contact) fitted to the final exit door of the alarmed premises or area

Connect the switch to the SPC System as follows:

The contact is fitted to the final exit door and is connected to an ENTRY/EXIT zone with a ‘Final Exit‘ attribute.

Refer to the following section in this manual:

Zone types [➙ 347] Zone attributes [➙ 350]

A misoperation signal is possible using the alarm abort feature. This is enabled by default.

Refer to the following section in this manual: OPTIONS [➙ 111] (Kypad) Options [➙ 222] (Browser)

d) Digital key Not supported by SPC.

e) In conjunction with an ARC This method of setting is supported by using SPC COM XT or other third party

ARC software using EDP commands.

Methods of completion of unsetting (BS 8243:2010 - Clause 6.4)

Unsetting methods are complied with as follows:

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6.4.1 For all the unsetting methods in the SPC system there is an audible

WARNING

Your attention is drawn to the fact that by allowing this method of unsetting, if an intruder succeeds in forcing the initial entry door, the police will not be called, regardless of the intruder’s further progress through the premises.

This method of unsetting the intruder alarm system might be unacceptable to your insurers.

indication to the user that the system has been unset successfully. This is in the form of a beep sequence from the CIE.

6.4.2 Prevention of entry to the supervised premises before the intruder alarm system (IAS) is unset:

a) Unlocking the initial entry door causes the IAS to be unset; Compliance by SPC if KEYARM zone type is used with the UNSET attribute only.

This zone type must not be used for setting. b) Unsetting the IAS by the user before entering the supervised premises causes

or permits the initial entry door to be unlocked. Compliance by SPC by unsetting using an access card reader on an entry reader

with the UNSET option, or an input from a third party access system to a KEYARM zone with an UNSET attribute.

6.4.3 Prevention of entry to the supervised premises before all means of intruder alarm confirmation have been disabled:

a) Unlocking the initial entry door causes all means of confirmation to be disabled Operation not permitted by SPC. b) Disabling all means of confirmation by the user before entering the supervised

premises causes or permits the initial entry door to be unlocked Operation not permitted by SPC.

6.4.4 Opening the initial entry door disables all means of intruder alarm confirmation

Operation not permitted by SPC.

6.4.5 Completion of unsetting using a digital key a) Operation of a digital key before entering the supervised premises (for example,

via radio) SPC satisfies this clause when the installer installs a PACE reader (e.g. SPCK421)

outside the premises. b) Operation of a digital key after entering the supervised premises from a location

as near as practicable to the initial entry door. This functionality is provided by use of a PACE reader (e.g. SPCK421) near the

entry door of a premises. Refer to the following sections in this manual:

 Zone types [➙ 347]  Zone attributes [➙ 350]

6.4.6 Unsetting in conjunction with an alarm receiving centre (ARC)

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Compliance by SPC using third party ARC software. Indication external to the building must be provided by means of a timed buzzer/strobe, etc. that will operate on a system unset for a timed period e.g. 30 seconds.

Refer to the following sections in this manual: Timers [➙ 114]

3.1.5.4 Configuration requirements for PD 6662:2010

conformance

Recommendations for the recording of remotely notified alarm conditions (BS 8243:2010 - Annex G.1 and G.2

Alarm conditions can be categorised for analysis in accordance with Annex G if the SPC system is configured so that the entry timer is less than 30 seconds, and the dialer delay is set to 30 seconds.

Refer to the following sections in this manual: AREAS [➙ 116] Adding / Editing an area [➙ 238] Timers [➙ 114]

Requirements for systems using dedicated alarm paths (BS EN 50136-1-2, 1998

The SPC system should be configured to do an automated test call to the ARC. The SPC system should be configured with a 'Fail to Communicate‘ output. Refer to the following section in this manual: Adding/Editing an ARC [➙ 292]

Requirements for equipment used in systems with digital communicators using PSTN (BS EN 50136-2-2, 1998)

Fault Output The SPC system should be configured with a 'Fail to Communicate‘ output. Refer to the following sections in this manual:

OUPUTS [➙ 136] (Keypad) Configuring controller inputs & outputs [➙ 196] (Browser) Adding/Editing an ARC [➙ 292]

Retransmission Attempts Retransmission attempts (Dial Attempts) are configured in this manual:

Adding/Editing an ARC [➙ 292] Editing EDP settings [➙ 301]

A minimum of 1 and a maximum of 12 retransmissions are allowed.

Intrusion and hold-up - System design (DD CLC TS 50131-7, 2008

Setting and unsetting SPC system is configurable in such a way that the setting is completed by 'Final

Exit'. It is possible to configure the SPC so that a WD (Warning Device) is activated

momentarily on setting.

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Refer to the following sections in this manual:

Timers [➙ 114] Zone attributes [➙ 350] OUTPUTS [➙ 136] (Keypad) Editing an output [➙ 197] (Browser)

Intrusion and confirmed hold-up alarm (BS8243:2010 Designation of hold-up alarm (HUA) signals for sequential confirmation)

SPC system is configurable in such a way that the following scenarios, when triggered more than two minutes apart from any hold-up zone or hold-up device (HD), will report a confirmed hold-up alarm event (HV for SIA and 129 for CID) to the CIE:

 two hold-up zone activations  a hold-up zone and a panic zone activation

If a hold-up zone and a tamper zone or a panic zone and a tamper zone activation occurs within the two minute period, this will also send a confirmed hold-up alarm event.

A confirmed hold-up will not require an engineer restore even if engineer restore is enabled. A confirmed hold-up event is logged in the system log.

Security of communications for remote support and remote system checks (DD 263:2010)

Please ensure that SPC Pro is used within the guidelines specified in DD 263:2010.

3.1.5.5 Additional commissioning requirements for PD 6662:2010

conformance

Information to be included in the system design proposal and asfitted document (BS 8243:2010 - Annex F)

 During the installation, configuration and commissioning of an SPC system, the

installer must adhere to the following guidelines as required in the above annex:

 It is recommended that dual paths are used for signalling which are supported

in the SPC system using GSM, PSTN and Ethernet options.

 The SPC system must be installed and configured to provide an effective

confirmation facility. Any exceptions to this should be outlined in the ‘As Fitted’

document.

 Combinations and sequences which contribute to a confirmed alarm should be

clearly notified to the end user.

 The intrusion confirmation time should be clearly notified to the end user.  Methods of completion of setting and unsetting methods should be clearly

described to the end user as detailed in this document.

 Ensure written arrangements are supplied to the end user in the event of a lock

failure.

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It is recommended that the enclosed PD 6662:2010 label is affixed in an appropriate position on the inside of the SPC housing beside the product type label.

Transmission time

D2 as max.

Transmission time, max. values

M0 - M4 Reporting time

T3 as max.

Availability

Refer to the following section in this manual: ATS levels and attenuation specifications [➙ 354]

Signalling security level

Tested to EN50136-1-1 and classified as ‘S0’.

3.1.5.6 Additional information

Transmission Network Requirements – Performance, Availability and Security Levels (BS EN 50136-1-2, 1998 and BS EN 50136-1-5,

2008)

The SPC System has been tested and approved to EN50136-1-1. SPC levels are classified as follows:

3.1.6 Compliance with VdS approvals

This installation document encompasses the required product installation information for VdS approvals.

Vanderbilt SPC42xx/43xx/53xx/63xx : VdS Approval Nr. G 112104, G112124, and G112128.

VdS EN Certificates EN-ST000142, EN-ST000143, EN-ST000055, EN-ST000056, EN-ST000057, EN-ST000058, EN-ST000061, EN-ST000062.

Siemens SPC42xx/43xx/53xx/: VdS Approval Nr. G116035. VdS EN Certificates EN-

ST000225, EN-ST000226, EN-ST000227, EN-ST000228, EN-ST000229, ENST000230, EN-ST000231, EN-ST000232.

This section describes the compliance of this system with VdS approvals. Software To set the system for VDS compliance, do the following:

1. Log on to the panel with the browser.

2. Click Full Engineer.

3. Click Settings on the menu.

4. Click Standards.

5. Select the German region from the Region list.

6. Select the VDS grade required by your installation type.

 Remote Isolations — It is not possible to deisolate isolated faults using the

browser or SPCPro. Deisolation can only be performed on the keypads.

 Remote Connections — it is not possible to use the browser or SPCPro to

connect to an armed system.

 Confirmed alarms — an internally set system cannot create a confirmed alarm.

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 Hardware Fault reporting — in Options, you must select the Enabled +

Address of Certifying Body

CNPP Cert

Pôle Européen de Sécurité - Vernon Route de la Chapelle Réanville

CD 64 - CS 22265 F-27950 SAINT MARCEL www.cnpp.com

AFNOR Certification 11 rue François de Pressensé 93571 Saint Denis La Plaine Cedex www.marque-nf.com

To comply with NF & A2P installation regulations, this enclosure must be sealed by affixing the accompanying Tamper Label after installation.

Reporting (10s) option from the Watchdog Output Mode drop-down list. Note: Hardware faults are not reported if the Engineer is logged in to the

system.

Hardware

VDS compliance requires the following:

 A G5 housing with Front tamper implemented as a minimum requirement.  Keypads do not show status information if the system is armed.  The number of supported zones is as follows:

– 512 zones in ring configuration – 128 zones per X-Bus in multi-drop (spur) configuration

 The following end of line resistance combinations do not comply with VdS

standards:

– 1k, 470 ohm – 1k, 1k, 6k6 ohm

3.1.7 Compliance with NF and A2P approvals

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SPC products listed have been tested according to NF324 - H58, with reference to

Product Type

Configuration

Standard

Logo

SPC6350.320 + SPCP355.300

(Cert. 1233700001A0)

60h, unmonitored

NF Grade 3, Class 1

SPC5350.320 + SPCP355.300

(Cert. 1233700001B0)

60h, unmonitored SPC6350.320

(Cert. 1233700001A0)

60h, unmonitored

SPC5350.320 (Cert. 1233700001B0)

60h, unmonitored

SPC6330.320 + SPCP333.300

(Cert. 1232200003)

60h, unmonitored

NF Grade 3, Class 1

SPC5330.320 + SPCP333.300

(Cert. 1232200003)

60h, unmonitored SPC6330.320

(Cert. 1232200003)

30h, monitored

SPC5330.320 (Cert. 1232200003)

30h, monitored

SPC5320.320 (Cert. 1222200003)

36h, unmonitored

NF Grade 2, Class 1

SPC4320.320 (Cert. 1222200003)

36h, unmonitored

SPCN110.000 SPCN310.000 SPCK420.100 SPCK620.100 SPCK623.100 SPCE652.100 SPCE452.100 SPCE110.100 SPCE120.100

NF Grade 2 and 3, Class 1

RTC50131-6 and RTC50131-3 and current EN certifications, see Compliance with EN50131 Approvals [➙ 19].

Technical Data

SPC4000

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Programmable areas

Max. number of user PINs

100

Remote controls

Up to 32

Wireless Panic Alarm

Up to 128

Event memory

1000 intrusion events, 1000 access events

Number of on-board zones

Max. number of hardwired zones

Max. number of wireless zones

32 (take away wired zones)

Max. number of Intrunet wireless detectors per wireless receiver (recommended)

EOL resistor

Dual 4k7 (default), other resistor combinations configurable

Number of on-board relays

1 strobe (30 VDC / 1 A resistive switching current)

Number of on-board open coll.

2 internal / external bell, 3 freely programmable (each max. 400 mA resistive switching current, supplied via auxiliary output)

Firmware

V3.x

Door capacity

Max. 4 entry doors or 2 entry/exit doors

Number of card reader

Max. 4

Radio module

 SPC4221: integrated SiWay RF receiver (868 MHz)  SPC4320.220: Optional (SPCW111),  SPC4320.320: Optional (SPCW110)

Verification

4 verification zones with max. 4 IP-cameras and 4 audio devices.

Video

Up to 16 pre / 16 post event images (by JPEG resolution 320 x 240, max. 1 frame / sec.)

Audio

Up to 60 sec. pre / 60 sec. post audio recording

Field bus 1)

X-BUS on RS-485 (307 kb/s)

Number of field devices 2)

Max. 11 (4 keypads, 2 door-expanders, 5 input/output expanders)

Connectable field devices

 Keypads: SPCK42x, SPCK62x  Door expanders: SPCA210, SPCP43x  Expanders with I/O: SPCE65x, SPCE45x,

SPCP33x, SPCE110, SPCE120, SPCV32x

Interfaces

 1 X-BUS (1 spur)  1 RS232  USB (PC connection)  1 SPC Fast Programmer  SPC43xx: Additionally 1 Ethernet (RJ45)

Tamper contact

Front spring tamper, 2 auxiliary tamper contact inputs

Power supply

Type A (per EN50131-1)

Mains voltage

230 VAC, + 10%/ -15%, 50 Hz

Mains fuse

250 mA T (replaceable part on mains terminal block)

Power consumption

SPC42xx: Max. 160 mA at 230 VAC SPC43xx: Max. 200 mA at 230 VAC

Operating current

SPC42xx Controller: Max. 160 mA at 12 VDC SPC43xx Controller: Max. 200 mA at 12 VDC

4 Technical Data

4.1 SPC4000

Technical Data

SPC5000

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Quiescent current

SPC42xx Controller: Max. 140 mA at 12 VDC (165 mA with PSTN, 270 mA with GSM, 295 mA with PSTN & GSM)

SPC43xx Controller: Max. 170 mA at 12 VDC (195 mA with PSTN, 300 mA with GSM, 325 mA with PSTN & GSM)

Output voltage

13-14 VDC in normal conditions (mains powered and fully charged battery), min. 10.5 VDC when powered by secondary device (before system shut down to battery deep discharge protection)

Low voltage trigger

7.5 VDC

Overvoltage protection

15.7 VDC

Peak to Peak ripple

Max. 5 % of output voltage

Auxiliary power (nominal)

Max. 750 mA at 12 VDC

Battery type

SPC422x/4320: YUASA NP7-12FR (7 Ah), Battery not supplied

Battery charger

SPC422x/4320: Max. 72h to 80% of battery capacity

Battery protection

Current limited to 1 A (fuse protected), deep discharge protection at 10.5 VDC +/- 3 %

Software update

Local and remote upgrade for controller, peripherals and GSM/PTSN modems.

Calibration

No calibration checks required (calibrated at manufacturing)

Serviceable parts

No serviceable parts

Operating temperature

-10 ~ +50 °C

Relative humidity

Max. 90 % (non condensing)

Colour

RAL 9003 (signal white)

Weight

SPC422x/4320: 4.500 kg

Dimensions (W x H x D)

SPC422x/4320: 264 x 357 x 81 mm

Housing

SPC4320.320: Small metal housing (1.2 mm mild steel) SPC422x.220: Small housing with metal base (1.2 mm

mild steel) and plastic lid

Housing can contain up to

SPC422x/4320: 1 additional expander (size 150 mm x 82 mm)

IP rating

ATS

ATP 4 Event Profiles

Event Exceptions

Command Profiles

Programmable areas

Max. number of user PINs

500

Remote controls

Up to 100

Wireless Panic Alarm

Up to 128

1) Max. 400 m between devices / cable types IYSTY 2 x 2 x Ø 0.6 mm (min.), UTP

cat5 (solid core) or Belden 9829.

2) More I/O expanders can be addressed instead of a keypad or door expander, but number of programmable inputs / outputs cannot exceed specified system limits.

4.2 SPC5000

Technical Data

SPC5000

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Event memory

10,000 intrusion events, 10,000 access events

Number of on-board zones

 SPC5320\5330 — 8  SPC5350 — 16

Max. number of hardwired zones

128 Max. number of wireless zones

120 (take away wired zones)

Max. number of Intrunet wireless detectors per wireless receiver (recommended)

20 EOL resistor

Dual 4k7 (default), other resistor combinations configurable

Relay Outputs

 SPC5320\5330 — 1 strobe (30 VDC/1A resistive

switching current)

 SPC5350 — 4 (single-pole changeover, 30VDC/

maximum 1A resistive switching current)

Electronic Outputs

 SPC5320\5330 — 5 outputs:

– 2 internal/external bells – 3 programmable. Maximum 400 mA resistive

switching current per output, supplied by auxiliary output.

 SPC5350 — 8 outputs. Maximum 400mA resistive

switching current per output

– 5 standard power outputs – 3 supervised outputs

Firmware

V3.x

Door capacity

Max. 16 entry doors or 8 entry/exit doors

Number of card reader

Max. 16

Radio module

Optional (SPCW110)

Verification

16 verification zones with max. 4 IP-cameras and 16 audio devices.

Video

Up to 16 pre / 16 post event images (by JPEG resolution 320 x 240, max. 1 frame / sec.)

Audio

Up to 60 sec. pre / 60 sec. post audio recording

Field bus 1)

X-BUS on RS-485 (307 kb/s)

Number of field devices 2)

Max. 48 (16 keypads, 8 door-expanders, 16 input/output expanders)

Connectable field devices

 Keypads: SPCK42x, SPCK62x  Door expanders: SPCA210, SPCP43x  Expanders with I/O: SPCE65x, SPCE45x, SPCP33x,

SPCP35x, SPCE110, SPCE120, SPCV32x

Interfaces

 2 X-BUS (2 spurs or 1 loop),  2 RS232  1 USB (PC connection),  1 SPC Fast Programmer,  SPC53xx: Additionally 1 Ethernet (RJ45)

Tamper contact

 SPC5320/5330: Front spring tamper, 2 auxiliary

tamper contact inputs

 SPC5350: Front/back tamper switch

Power supply

Type A (per EN50131-1)

Mains voltage

230 VAC, + 10%/ -15%, 50 Hz

Technical Data

SPC5000

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Mains fuse

 SPC5320/5330: 250 mA T (replaceable part on mains

terminal block)

 SPC5350 : 800mA T (replaceable part on mains

terminal block)

Power consumption

 SPC5320/5330: Max. 200 mA at 230 VAC  SPC5350: Max. 500mA at 230 V AC

Operating current

 SPC5320/5330: Controller: Max. 200 mA at 12 VDC  SPC5350: Max. 210 mA at 12 VDC

Quiescent current

SPC53xx Controller: Max. 170 mA at 12 VDC (195 mA with PSTN, 300 mA with GSM, 325 mA with PSTN & GSM)

Output voltage

13-14 VDC in normal conditions (mains powered and fully charged battery), min. 10.5 VDC when powered by secondary device (before system shut down to battery deep discharge protection)

Low voltage trigger

11 VDC

Overvoltage protection

 SPC5320/5330: 15.7 VDC  SPC5350: 15 VDC nominal

Peak to Peak ripple

Max. 5 % of output voltage

Auxiliary power (nominal)

 SPC5320/5330: Max. 750 mA at 12 VDC  SPC5350: Max. 2200 mA at 12 VDC (8 separately

fused outputs, 300 mA per output)

Battery type

 SPC5320: YUASA NP7-12FR (7 Ah),  SPC5330: YUASA NP17-12FR (17 Ah)  SPC5350: YUASA NP24-12 (12 V 24 Ah), Alarmcom

AB1227-O (12 V 27 Ah)

 SPC5350: FIAMM FGV22703 (12V 27Ah) Battery not supplied

Battery charger

 SPC5320: Max. 72h,  SPC5330/5350: Max. 24h to 80% of battery capacity

Battery protection

 SPC5320/5330: Current limited to 1 A (fuse

protected), deep discharge protection at 10.5 VDC +/3 %

 SPC5350: Current limited to 2 A (protected by PTC

resettable fuse), deep discharge protection at 10.5 VDC

Software update

Local and remote upgrade for controller, peripherals and GSM/PTSN modems.

Calibration

No calibration checks required (calibrated at manufacturing)

Serviceable parts

 SPC5320/5330: No serviceable parts  SPC5350: 8 glass fuses (400mA AT) for 12 VDC

outputs

Operating temperature

-10 ~ +50 °C

Relative humidity

Max. 90 % (non condensing)

Colour

RAL 9003 (signal white)

Weight

 SPC5320: 4.500 kg  SPC5330: 6.400 kg  SPC5350: 18.600 kg

Technical Data

SPC6000

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Dimensions (W x H x D)

 SPC5320: 264 x 357 x 81 mm  SPC5330: 326 x 415 x 114 mm  SPC5350: 498 x 664 x 157 mm

Housing

 SPC5320: Small metal housing, (1.2 mm mild steel)  SPC5330: Hinged metal housing, (1.2 mm mild steel)  SPC5350: Metal housing (1.5 mm mild steel)

Housing can contain up to

 SPC5320: 1 additional expander,  SPC5330: 4 additional expanders (size 150 mm x 82

mm)

 SPC5350: 4 additional expanders (150 x 82 mm)

IP / IK Rating

30 / 06

ATS

ATP

Event Profiles

Event Exceptions

Command Profiles

Programmable areas

Max. number of user PINs

2500

Remote controls

Up to 100

Wireless Panic Alarm

Up to 128

Event memory

10,000 intrusion events, 10,000 access events

Number of on-board zones

 SPC6320\6330 — 8  SPC6350 — 16

Max. number of hardwired zones

512

Max. number of wireless zones

120 (take away wired zones)

Max. number of Intrunet wireless detectors per wireless receiver (recommended)

EOL resistor

Dual 4k7 (default), other resistor combinations configurable

Relay Outputs

 SPC6320\6330 — 1 strobe (30 VDC/1A resistive

switching current)

 SPC6350 — 4 (single-pole changeover, 30VDC/

maximum 1A resistive switching current)

1) Max. 400 m between devices / cable types IYSTY 2 x 2 x Ø 0.6 mm (min.), UTP cat5 (solid core) or Belden 9829.

2) More I/O expanders can be addressed instead of a keypad or door expander, but number of programmable inputs / outputs cannot exceed specified system limits.

4.3 SPC6000

Technical Data

SPC6000

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Electronic Outputs

 SP6320\6330 — 5 outputs:

– 2 internal/external bells – 3 programmable. Maximum 400 mA resistive

switching current per output, supplied by auxiliary output.

 SPC6350 — 8 outputs. Maximum 400mA resistive

switching current per output

– 5 standard power outputs – 3 supervised outputs

Firmware

V3.x

Door capacity

Max. 64 entry doors or 32 entry/exit doors

Number of card reader

Max. 64

Radio module

Optional (SPCW110)

Verification

32 verification zones with max. 4 IP-cameras and 32 audio devices.

Video

Up to 16 pre / 16 post event images (by JPEG resolution 320 x 240, max. 1 frame / sec.)

Audio

Up to 60 sec. pre / 60 sec. post audio recording

Field bus 1)

X-BUS on RS-485 (307 kb/s)

Number of field devices 2)

Max. 128 (32 keypads, 32 door-expanders, 64 input/output expanders)

Connectable field devices

 Keypads: SPCK42x, SPCK62x  Door expanders: SPCA210, SPCP43x  Expanders with I/O: SPCE65x, SPCE45x, SPCP33x,

SPCP35x, SPCE110, SPCE120, SPCV32x

Interfaces

 2 X-BUS (2 spurs or 1 loop),  2 RS232  1 USB (PC connection),  1 SPC Fast Programmer,  SPC63xx: Additionally 1 Ethernet (RJ45)

Tamper contact

 SPC6330: Front spring tamper, 2 auxiliary tamper

contact inputs

 SPC6350: Front/back tamper switch

Power supply

Type A (per EN50131-1)

Mains voltage

230 V AC, + 10%/ -15%, 50 Hz

Mains fuse

 SPC6330 : 250 mA T (replaceable part on mains

terminal block)

 SPC6350 : 800mA T (replaceable part on mains

terminal block)

Power consumption

 SPC6330: Max. 200 mA at 230 V AC  SPC6350: Max. 500mA at 230 V AC

Operating current

 SPC6330: Max. 200 mA at 12 V DC  SPC6350: Max. 210 mA at 12 V DC

Quiescent current

SPC63xx Controller: Max. 170 mA at 12 V DC (195 mA with PSTN, 300 mA with GSM, 325 mA with PSTN & GSM)

Technical Data

SPC6000

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Output voltage

 SPC6330: 13-14 V DC in normal conditions (mains

powered and fully charged battery), min. 10.5 V DC when powered by secondary device (before system shut down to battery deep discharge protection)

 SPC6350: 13-14 V DC in normal conditions (mains

powered and fully charged battery), min. 10.5 V DC when powered by secondary device (before system shut down to battery deep discharge protection)

Low voltage trigger

11 V DC

Overvoltage protection

 SPC6330: 15.7 V DC  SPC6350: 15 V DC nominal

Peak to Peak ripple

Max. 5 % of output voltage

Auxiliary power (nominal)

 SPC6330: Max. 750 mA at 12 V DC  SPC6350: Max. 2200 mA at 12V DC (8 separately

fused outputs, 300 mA per output)

Battery type

 SPC6330: YUASA NP17-12FR (17 Ah)  SPC6350: YUASA NP24-12 (12 V 24 Ah), Alarmcom

AB1227-O (12 V 27 Ah)

 SPC6350: FIAMM FGV22703 (12V 27Ah) Battery not supplied

Battery charger

SPC63xx: Max. 24h to 80% of battery capacity

Battery protection

 SPC6330: Current limited to 1 A (fuse protected), deep

discharge protection at 10.5 V DC +/- 3 %

 SPC6350: Current limited to 2 A (protected by PTC

resettable fuse), deep discharge protection at 10.5 V DC, low voltage indicator at 11 V DC

Software update

Local and remote upgrade for controller, peripherals and GSM/PTSN modems.

Calibration

No calibration checks required (calibrated at manufacturing)

Serviceable parts

 SPC6330: No serviceable parts  SPC6350: 8 glass fuses (400mA AT) for 12 V DC

outputs

Operating temperature

-10 ~ +50 °C

Relative humidity

Max. 90 % (non condensing)

Colour

RAL 9003 (signal white)

Weight

 SPC6330: 6.400 kg  SPC6350: 18.600 kg

Dimensions (W x H x D)

 SPC6330: 326 x 415 x 114 mm  SPC6350: 498 x 664 x 157 mm

Housing

 SPC6330: Hinged metal housing (1.2 mm mild steel)  SPC6350: Metal housing (1.5 mm mild steel)

Housing can contain up to

 SPC6330: 4 additional expanders (size 150 mm x 82

mm)

 SPC6350: 6 additional expanders (150 x 82 mm) or 1

additional controller + 4 expanders

IP / IK Rating

30 / 06

ATS

ATP

Event Profiles

Event Exceptions

100

Technical Data

SPCP355.300

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Command Profiles

Number of on-board zones

EOL resistor

Dual 4K7 (default), other resistor combinations selectable

Relay Outputs

3 (single-pole changeover, 30 V DC/max. 1 A resistive switching current)

Electronic Outputs

3 supervised (each max. 400 mA resistive switching current),

Interfaces

X-BUS (in, out, branch)

Mains Voltage

230 V AC, +10 to -15 %, 50 Hz

Operating Current

Max. 245 mA at 12 V DC (all relays activated)

Quiescent Current

Max. 195 mA at 12 VDC

Output voltage

13-14 V DC in normal conditions (mains powered and fully charged battery),

Auxiliary power (nominal)

Max. 2360 mA at 12 V DC (8 separately fused outputs, max. 300mA per output)

Battery type

 YUASA NP24-12 (12 V 24 Ah)  Alarmcom AB1227-0 (12 V 27 Ah)  FIAMM FGV22703 (12V 27Ah)

Battery not supplied

Tamper contact

Front/back tamper switch

Operating temperature

0 to +40 °C

Housing

Metal housing (1.5 mm mild steel)

Colour

RAL 9003 (signal white)

Dimensions

498 x 664 x 157mm

Weight (without batteries)

18.400 kg (housing incl. cover), 11.300 kg (housing without cover)

IP / IK Rating

30 / 06

1) Max. 400 m between devices / cable types IYSTY 2 x 2 x Ø 0.6 mm (min.), UTP cat5 (solid core) or Belden 9829.

2) More I/O expanders can be addressed instead of a keypad or door expander, but number of programmable inputs / outputs cannot exceed specified system limits.

4.4 SPCP355.300

Introduction

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

PSTN

Wireless expander

GSM

PSU 3 Ethernet

Loop configuration

Wireless Receiver

PSTN network

AC mains

GSM network

Battery 12 V

Broadband router

Network

Wired outputs (6)

Central

Wired inputs (8)

LAN/WLAN

Keypads

Service desk

IO expander

Remote user

Output Expander

Mobile interfaces

14 2

8 9

10 11

5 Introduction

The SPC series controller is a true hybrid controller with 8 on-board wired zones that communicate with intruder devices.

The flexible design of the controller allows the functional components (PSTN/GSM/RF) to be mixed and matched, improving the capability of the system. Using this approach, an installer can ensure that an efficient installation with minimal wiring is achieved.

Overview

Mounting system equipment

Mounting a G2 housing

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Installation & Configuration Manual

A6V10276959

01.05.2016

6 Mounting system equipment

6.1 Mounting a G2 housing

The SPC G2 housing is supplied with a metallic or plastic cover. The cover is attached to the base of the housing by 2 securing screws located on the top and bottom of the front cover.

To open the housing, remove both screws with the appropriate screwdriver and lift the cover directly from the base.

The G2 housing contains the controller PCB (Printed Circuit Board) mounted on 4 support pillars. An optional input/output module can be mounted directly beneath the controller PCB. A battery with capacity of 7 Ah max. can be accommodated below the controller.

An optional external antenna must be fitted to housings with metallic lid if the wireless functionality is required. If an antenna is fitted to the unit, it must be enabled in the firmware.

The SPC G2 housing provides 3 screw holes for wall mounting the unit. To wall mount the housing, remove the cover and locate the initial fixing screw hole

at the top of the cabinet. Mark the position of this screw hole on the desired location on the wall and drill the initial screw hole. Screw the unit to the wall and mark the position of the bottom 2 screw hole positions with the unit vertically aligned.

Screws with a 4-5 mm shank, a minimum head diameter of 8 mm and a minimum length of 40 mm are recommended for mounting the housing. Additional expansion plugs or fixings may be required depending on the construction of the wall.

Mounting system equipment

Mounting a G3 housing

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Standard housing

Wireless antenna

SPC controller

Wall mounting screw holes

6.2 Mounting a G3 housing

The SPC G3 housing is supplied with a metallic front cover. The cover is attached to the base of the housing by hinges and secured with one screw on the right hand side of the front cover.

To open the housing, remove the screws with the appropriate screwdriver and open the front cover.

The G3 housing contains the controller PCB (Printed Circuit Board) mounted on a hinged mounting bracket. Expanders and PSUs can be mounted on the underside of the hinged mounting bracket and also on the back wall of the housing underneath the mounting bracket.

Mounting system equipment

Mounting a G3 housing

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Expanders/PSU

Controller

Expanders/PSU

Battery

An optional external antenna must be fitted to housings with metallic lid if the wireless functionality is required. If an antenna is fitted to the unit, it must be enabled in the firmware.

The SPC G3 housing provides 3 screw holes for wall mounting the unit (see item 1 below).

Mounting system equipment

Mounting a G3 housing

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

To wall mount the housing:

1. Open the cover and locate the initial fixing screw hole at the top of the cabinet.

2. Mark the position of this screw hole on the desired location on the wall and drill the initial screw hole.

3. Screw the unit to the wall and mark the position of the bottom 2 screw hole positions with the unit vertically aligned.

Back Tamper Requirements

A back tamper switch may be required by your local approval. The back tamper switch is delivered with SPC panels in G3 housings or is available

as an optional extra with a mounting kit (SPCY130). EN50131 G3 panels (SPCxx3x.x20) are supplied with a back tamper kit as standard.

6.2.1 Mounting a Back Tamper Kit

The SPC back tamper kit provides SPC control panels and power supplies with the option of having back tamper as well as front tamper.

The back tamper kit comprises the following parts:

 Tamper switch  Leads for connecting the back tamper switch to the controller  Wall fixing plate

Mounting the Wall Fixing Plate

1. Mount the SPC in the appropriate position on the wall using all three fixings (see item 1 below).

Mounting system equipment

Mounting a G3 housing

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Installation & Configuration Manual

A6V10276959

01.05.2016

+ –

2. Draw a line around the inside of the back tamper cut out (See item 2 above) to provide a guide for the wall plate on the fixing wall. Remove the enclosure from the wall.

3. Place the wall plate (See item 1 below) on the wall centering it precisely around the rectangle previously drawn (See item 2 below).

4. Ensure all four flanges on the wall plate are flush with the wall.

5. Mark the four fixings on the wall plate.

6. Drill and use suitable screws (max. 4 mm) for the wall substrate.

7. Fit the wall plate to the wall.

Fitting the Back Tamper Switch

1. Insert the tamper switch (See item 2 below) into the back of the enclosure so that the plunger faces outwards (See item 1 below).

Mounting system equipment

Mounting a G3 housing

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

2. Fit the enclosure back onto the wall using the three fixings previously removed

(See item 2 below). Visually check to ensure there is a flush finish between the wall plate and the enclosure metalwork.

Mounting system equipment

Mounting a G3 housing

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Enclosure

Wall Fixing Plate

Wall

Tamper Switch

WARNING

If the wall fixing plate is not accurately aligned then the enclosure will not sit properly on its fixings.

Wiring the Back Tamper Switch to the Control Panel

All control panels have spare inputs configured as tamper inputs that are designed for wiring the tamper switch and do not require any programming.

This tamper switch will be referred to as ‘Aux Tamper 1’ by the system.

Mounting system equipment

Mounting a G3 housing

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Installation & Configuration Manual

A6V10276959

01.05.2016

+ –

1. Connect NO on the tamper switch to T1 on the controller.

2. Connect COM on the tamper switch to C on the controller. Ensure the T2 jumper is not removed.

3. When the tamper switch is wired, the controller can be commissioned in the normal manner.

6.2.2 Battery installation for EN50131 compliance

For EN50131 compliance the battery needs to be retained within the housing to stop movement. This is achieved by bending out the flaps in the rear of the Hinged Enclosure so that the battery is retained.

If a 7 Ah battery is used then the battery is biased to the left of the cabinet and bottom flap is bent to meet the battery.

If a 17 Ah battery is used then the battery is biased to the right of the cabinet and middle flap is bent to meet the battery.

Mounting system equipment

Mounting a G5 housing

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Installation & Configuration Manual

A6V10276959

01.05.2016

The battery flaps should be bent carefully as not to damage the battery. If any signs of a damaged battery exist or any leakage of the electrolyte then the battery should be discarded as per the current regulations and a new battery fitted.

6.3 Mounting a G5 housing

The SPC G5 housing comprises of a metallic base and front cover. The cover is attached to the base of the housing by 4 securing screws located on the top and bottom of the front cover.

To open the housing, remove all the screws with the appropriate screwdriver and lift the cover directly from the base.

The G5 housing contains the controller PCB (Printed Circuit Board) and the SPCP355.300 Smart PSU, both mounted on 4 support pillars. An 8 In/2 Output Expander is mounted on top of the PSU. Four extra pillars are included to give you the option to mount the 8 In/2 Output Expander below the PSU board in the G5 cabinet. Additional expanders can be installed in the housing as shown.

Mounting system equipment

Mounting a G5 housing

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Number

Description

Number

Description

Battery

Battery temperature leads

Battery strap

PSU

Fixing tabs

Optional expander positions

Strap holes

Controller

Battery leads

Antenna

Two batteries, with a maximum capacity of 27 Ah, can be accommodated in the battery compartment at the bottom of the housing.

An optional external antenna must be fitted to a metallic housing if wireless functionality is required. Knockout holes are available in three positions on the top of the housing where the antenna can be installed. If an antenna is fitted to the unit, it must be enabled in the firmware.

The SPC G5 housing provides 4 screw holes for wall mounting the unit.

Mounting system equipment

Mounting a G5 housing

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Installation & Configuration Manual

A6V10276959

01.05.2016

Number

Description

Corner fixings

Tamper cutout

Shelf separating battery compartment

Telecom socket cutout

6.3.1 Tamper protection

The tamper switch and back tamper bracket are fitted to the housing. The switch is used on its own for front tamper purposes only or used with the back tamper bracket for both front and back tamper protection. Either back or front tamper protection is required depending on local approval.

The tamper bracket is held firmly in place with a securing screw. Remember to remove this screw if commissioning the system for back tamper protection. Do not remove this screw if using front tamper only.

6.3.2 Mounting the housing with tamper protection

To mount the housing:

1. Using the supplied mounting template, mark the 4 drill positions for fixing the housing to the wall.

2. Drill and install suitable screws (see enclosed template) into the wall. Leave the screws protruding 1.5cm from the wall.

3. The G5 housing is pre-configured for front tamper only. To configure the housing for both front and back tamper, remove the front tamper securing screw (item 1).

 The tamper bracket swings to the far right of the orientation slot (item 6).

Mounting system equipment

Mounting a G5 housing

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Installation & Configuration Manual

A6V10276959

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4. Mount the G5 housing in the appropriate position on the wall and tighten the 4

Number

Description

Number

Description

Front tamper securing screw

Back tamper screw

Tamper bracket

Orientation slot

Tamper switch

Shelf separating battery compartment

Back tamper cutout

WARNING

If the back tamper screw is not secure against the wall, then tamper protection is compromised. If the housing is removed from the wall or displaced, the back tamper contact needs to be tested again for proper functionality and re-adjusted if required.

mounting screws. Ensure that the housing is flush with the wall surface.

5. Move the tamper bracket to the far left of the orientation slot and tighten the back tamper screw (item 5) to the wall. The tamper bracket should be perpendicular to the back wall of the housing.

6. Install the lid on the housing to test the tamper switch connection. Lift the lid by approximately 1 mm to activate the tamper switch.

6.3.2.1 Tamper operation

Tamper switch - normal

Mounting system equipment

Mounting a G5 housing

Vanderbilt

Installation & Configuration Manual

A6V10276959

01.05.2016

Wall

Housing lid

Back tamper screw

Tamper switch contact closed

Back wall of housing

Wall

Housing lid

Back tamper screw

Tamper switch contact open

Back wall of housing

WARNING

If the tamper bracket screw is not secure against the wall, then tamper protection is compromised.

Tamper switch – displaced

If the housing is removed from the wall or displaced, the tamper bracket screw is no longer secure against the wall, causing the bracket to pivot. This in turn causes the tamper switch to swivel away from the lid and opens the switch contact.

Mounting system equipment

Mounting a G5 housing

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Installation & Configuration Manual

A6V10276959

01.05.2016

6.3.3 Installing the batteries

NOTICE

If using two batteries in the G5 housing, it is recommended that both batteries should be the same Ah rating.

Battery

Battery temperature lead

Fixing strap

PSU

Battery fixing tabs

Optional expander positions

Strap holes

Controller

Battery leads

Antenna

To install the batteries:

1. Place the batteries into the battery compartment.

2. Press the metal tabs at the top and either side of the batteries in towards the batteries.

3. Secure each battery to the housing using a battery strap. Ensure that the strap is thread through the battery strap holes at the back of the battery compartment and around the battery, with the two ends of the strap at the front of the battery.

4. Fasten the two ends of the strap firmly using the Velcro strip. Ensure that the strap is tight around the battery.

Mounting system equipment

Mounting a keypad

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5. Connect one end of the battery leads to the battery + and - terminals and the

CAUTION

When installing the battery, always connect the positive (+) lead to the battery first before connecting the negative (-) lead. When removing the battery, always remove the negative (-) lead first before removing the positive (+)

other ends to the corresponding + and - inputs of the PSU.

6. Connect the loose ends of the attached temperature monitoring leads to the battery temperature monitoring inputs on the PSU.

6.4 Mounting a keypad

Please refer to corresponding installation instruction.

6.5 Mounting an expander

Please refer to corresponding installation instruction.

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Number

Description

SPCP355.300 Smart PSU

Mains input and fuse block

Input transformer

AC IN — AC power input

MAINS — Mains power LED

BATT1 — Battery 1 charge state LED

BATT2 — Battery 2 charge state LED

FUSE — Fuse fail LED

LIMIT — Current limit LED

STATUS — Status LED

A2 — 14.5V power output.

 Not backed up by battery  Protected by PTC resettable fuse, rated at 300mA (Item 23 in image

above)

7 Smart PSU

This section describes the components and wiring of the Smart PSU.

7.1 SPCP355.300 Smart PSU

The SPCP355.300 Smart PSU is a power supply combined with an 8-input/2output expander, contained in a G5 housing. The PSU is backed up by either 2x24Ah, or 2x27Ah batteries, and provides eight power and four logical outputs

The expander monitors the PSU for overcurrent, fuse failures, AC voltage, communications, and battery output. The expander is powered by, and receives data from, the PSU via a connector cable. It also interfaces with the SPC controller over the SPX X-BUS.

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Number

Description

A1 — Connects to the power input (+/-) on the SPC5350/6350.

COMM1 — Expander 4-pin interface. Connects to item 32, power and data connection, in image above, with a straight-through cable.

Clock Reference — Connects to Clock Reference on SPC5350/6350.

T1, T2 — Tamper switch inputs. Connect these to the Front/Back tamper switch.

See Mounting the housing with tamper protection [➙ 50].

Front back tamper switch. See Mounting the housing with tamper protection [➙ 50].

NO/NC — Configurable NO/NC logical relay output. See Wiring the Outputs [➙ 62] for more information.

Glass fuses — 400 mA T fuses for outputs 1-8.

OP 6 – 8 and SW 6 – 8 — Combined power outputs (OP) and logical outputs (SW).

Standard 12V DC power outputs combined with configurable, open-drain, logical outputs (4K7 EoL supervised/unsupervised).

OP 1 – 5 — Standard 12V DC power outputs. See Warning note below table for more information.

BTE2 — Battery 2 temperature monitoring input.

BATT1 and BATT2 — Battery 1 and 2 connectors.

BTE1 — Battery 1 temperature monitoring input.

PTC fuses — Fuses rated at 300mA. Protecting the A1 and A2 outputs. For more information see System Recovery [➙ 65].

PTC fuse — Fuse rated at 5A. Protects the AC power input (item 3 in image above).

For more information see System Recovery [➙ 65].

PSU Kickstart Switch — For more information see System Recovery [➙ 65].

Expander

NO/NC — Logical relay outputs. The expander provides two configurable NO/NC logical relay outputs.

For more information, see Wiring the Inputs [➙ 61]

I 1 – 8 — Inputs. The expander has 8 on-board inputs which can be configured as intruder alarm zones on the SPC system.

For more information, see Wiring the Inputs [➙ 61]

Auxiliary power supply 12V — Do not use. Expander is powered through COMM1 on the SPCP355.300 Smart PSU.

X-BUS Input power — Do not use. Expander is powered through COMM1 on the SPCP355.300 Smart PSU.

X-BUS Interface — The communications bus connects expanders on the SPC system.

Termination Jumper — This jumper is always fitted, by default. For more information, see Wiring the X-BUS Interface [➙ 60].

PSU 4-pin interface — Connects to COMM1 on the SPCP355.300 Smart PSU (item 12 in image above), power and data connector, with a straight-through cable.

Front tamper switch — Not used. The Front/Back tamper connected to T1 and T2 of the SPCP355.300 Smart PSU is the only tamper required by this installation.

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Number

Description

JP1 — Front tamper bypass must be fitted.

Buzzer — Activated to locate the expander. See the X-BUS menu LOCATE [➙ 120] for more information.

JP6 — Back tamper bypass. Must be fitted.

Manual addressing switches — Enable manual setting of the ID of the expander.

X-BUS Status LED — Indicates the X-BUS status, when the system is in Full Engineer mode, as follows:

 Slow flash (every 1.5 seconds) — X-BUS communications status is OK.  Quick flash (every 0.2 seconds) — Indicates one of the following:

– Indicates the last-in-line expander for spur configurations. – Indicates a communications problem between two expanders. If two

adjacent expanders are flashing quickly, the problem exists between those two expanders.

LED — Not used.

PSU Status LED.

WARNING

The combined maximum load current drawn from all 12V DC outputs (OP 1 - 8) plus COMM1, should not exceed 2.4A. Each individual output, and output A2, should not exceed 300mA. If the device current requires more than 300mA, it is recommended to parallel the outputs.

Adding extra expanders

If adding extra expanders to the G5 enclosure, you must ensure the front and back tampers are deactivated by fitting the appropriate jumpers. In a G5 enclosure, the front and back tamper is handled by the enclosure itself and the SPCP355.300 Smart PSU.

7.1.1 Supervised Outputs

The SPCP355.300 Smart PSU supports three, open-drain, logical outputs, which can be supervised for tamper detection. Output tamper detection is enabled by configuration. Output tamper detection is enabled by connecting a 4K7 EoL resistor in parallel with the load device, such as an external bell. A power diode (1N4001 for example, or similar) is also required, if not already present in the external device.

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Number

Description

Standard 12V Power output

Configurable, supervised, 12V DC logical switched output.

4K7

OP 6 – OP 8

SW 6 – SW 8

Ext. Bell

OP 6 – OP 8

SW 6 – SW 8

PIR

12V

7.1.2 Batteries

7.1.2.1 Installing Batteries

This section describes the battery installation for the SPCP355.300 Smart PSU and G5 Enclosure.

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Number

Description

Battery

Battery strap

Fixing holes

Strap holes

Battery leads

Battery temperature leads

PSU\Expander

Mounting positions for additional expanders.

It is recommended that two batteries are used. These batteries must be of the same type and capacity.

1. Install the batteries in the battery compartment.

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2. Secure each battery using the battery straps provided, ensuring the strap is

DANGER

When removing the battery leads, always disconnect the negative (black) lead before disconnecting the positive (red) lead.

Maximum cable length = (number of expanders and keypads in the system) x (maximum cable distance for each cable type)

threaded through the battery strap holes at the back of the battery and around the battery.

3. Secure the two ends of the battery strap at the front of the battery, ensuring the battery strap is firmly tightened.

4. Connect the leads from the SPCP355.300 Smart PSU to the batteries in the following order:

- Connect the positive (red) wire first.

- Connect the negative (black) wire second.

7.1.2.2 Testing Battery Voltage

The SPCP355.300 Smart PSU performs a load test on each battery by placing a load resistor across the battery terminals and measuring the resultant voltage. This battery test is performed every five seconds.

7.1.2.3 Deep Discharge Protection

If mains power to the SPCP355.300 Smart PSU fails for a prolonged period, each battery supplies power to the PSU 12V DC power outputs for a finite time. The batteries eventually discharge. To prevent a battery discharging beyond recovery, the SPCP355.300 Smart PSU disconnects the battery if the measured voltage drops below 10.5V DC. The battery can then be recharged after the mains power is restored.

7.1.2.4 Battery Stand-By Times

See Calculating the battery power requirements [➙ 334] for the battery stand-by information.

7.1.3 Wiring the X-BUS Interface

The X-BUS interface connects expanders and keypads to the SPC controller. The X-BUS can be wired in a number of different configurations, depending on the installation requirements.

The following table lists the cable types and distances recommended:

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Cable Type

Distance

CQR Standard Alarm Cable

200m

UTP Cat-5 Solid core

400m

Belden 9829

400m

IYSTY 2x2x0.6(min)

400m

Number

Description

SPCP355.300 Smart PSU outputs

SPC Controller

SPCP355.300 Input/Output expander

Next expander

The following diagram shows an example of wiring the X-BUS:

7.1.3.1 Wiring the Inputs

The expander has 8 on-board zone inputs which can be configured as one of the following:

 No End of Line  Single End of Line  Dual End of Line  Anti-Masking PIR

Default Configuration

The following diagram shows the default configuration, Double EOL 4K7:

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Number

Description

Input 1

COM

Tamper

Alarm

4K7 6 EOL 4K7

Number

Description

Input 2

COM

Tamper

Alarm

4K7

Detector Fault

2K2

EOL 4K7

Anti-Masking PIR

The following diagram shows the Anti-Masking PIR configuration:

7.1.3.2 Wiring the Outputs

The expander and PSU relay logical outputs can be assigned to any of the SPC system outputs. The relay outputs can switch a rated voltage of 30V DC at 1A (non-inductive load).

When the relay is activated, the Common terminal connection (COM) is switched from the Normally Closed (NC) to the Normally open (NO) terminal.

The following diagram shows the wiring of an active, high output:

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Number

Description

Normally Open terminal

Common terminal connection (COM)

Normally Closed terminal (NC)

Address of Certifying Body

CNPP Cert

Pôle Européen de Sécurité - Vernon Route de la Chapelle Réanville

CD 64 - CS 22265 F-27950 SAINT MARCEL www.cnpp.com

AFNOR Certification 11 rue François de Pressensé 93571 Saint Denis La Plaine Cedex www.marque-nf.com

7.1.4 Compliance with NF and A2P approvals

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To comply with NF & A2P installation regulations, this enclosure must be sealed by affixing the accompanying Tamper Label after installation.

SPC products listed have been tested according to NF324 - H58, with reference to

Product Type

Configuration

Standard

Logo

SPC6350.320 + SPCP355.300

(Cert. XXXXXXXXXX)

60h, unmonitored

NF Grade 3, Class 1

SPC5350.320 + SPCP355.300

(Cert. XXXXXXXXXX)

60h, unmonitored SPC6330.320 +

SPCP333.300 (Cert. 1232200003)

60h, unmonitored

NF Grade 3, Class 1

SPC5330.320 + SPCP333.300

(Cert. 1232200003)

60h, unmonitored

LED

MAINS

BATT 1 & 2

FUSE

LIMIT

STATUS

COLOUR

Green

Red

Green

Condition

Normal

Off

Mains OK, battery charging

Flash

Mains Fail, Battery OK

Off

Mains OK, battery faulty or not present

Off

Mains OK, battery faulty, not present, or in deep discharge protection mode

All LEDs Off. Fuse Fail

On On

Total Load Current exceeded

On PSU switcher failure

Off

Flash

RTC50131-6 and RTC50131-3 and current EN certifications, see Compliance with EN50131 Approvals [➙ 19].

7.1.5 PSU LED Status

The following table lists the Smart PSU LED status information:

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7.1.6 System Recovery

Mains and Battery Failure

In the event of both mains and battery power failure, the PSU kickstart switch (item 25 in SPCP355.300 Smart PSU [➙ 55]) enables the system to be restarted if only battery power is reinstated. To kickstart the system, do the following:

 Mains power has failed  Battery power has failed  New batteries are available

1. Attach the battery leads.

2. Press and hold the PSU Kickstart button.  All LEDs flash.

3. Hold the PSU Kickstart button until the LEDs stop flashing.

4. Release the PSU Kickstart button.

PTC Fuse Reset

In the event of one of the PTC fuses resetting, you must manually disconnect then reconnect the mains and battery connections.

Controller hardware

Controller Hardware 42xx\43xx\53xx\63xx

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Optional wireless module

The controller PCB can be factory fitted with a wireless module for use with wireless (868 MHz) sensors.

SPC status LEDs

These 7 LEDs display the status of various system parameters as

+ –

21 3 4

1112131415161718

12V

2B 2A 1B

1A 12V OP6

OP5

OP4

COM

BHO

IN –

IN +

EXP – EXP +

TXRXGND

T1CT2

I1CI2

I3CI4

I7CI8

8 Controller hardware

This section describes the controller hardware.

See also  Powering expanders from the auxiliary power terminals

[➙ 333]

 Wiring the X-BUS interface [➙ 72]  Wiring an internal sounder [➙ 87]  Wiring the zone inputs [➙ 83]  Controller status LEDs [➙ 332]  Controller status LEDs [➙ 332]  Powering expanders from the auxiliary power terminals

[➙ 333]

 Wiring the X-BUS interface [➙ 72]  Wiring an internal sounder [➙ 87]  Wiring the zone inputs [➙ 83]

8.1 Controller Hardware 42xx\43xx\53xx\63xx

This section describes the controller for the SPC42xx, 43xx, 53 xx and 63xx models. The SPC5350 and 6350 are described in Controller Hardware SPC5350 and 6350 [➙ 68].

The SPC controller provides 8 on-board wired zones and optional wireless zones.

Controller hardware

Controller Hardware 42xx\43xx\53xx\63xx

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described on page [➙ 332].

AC power input

A/C Mains Input: The mains AC input voltage is applied to this 2-pin connection via a transformer contained in the SPC enclosure. The earth lead from the mains supply is wired to a connection point on the metal cabinet. Clock Reference*: A clock reference signal can also be applied to this 2-pin connector to maintain accurate system time.

Reset button

 To reset the controller:

– Press this switch once.

 To reset the programming settings to default and reboot the

controller: – Hold down the button until you are asked if a factory reset is

desired.

– Select YES to reset to factory defaults.

Warning: Defaulting the controller to factory settings deletes all configuration files, including backups, stored on the controller. All isolates and inhibits are also deleted. It is recommended you backup your configuration to a PC before defaulting the controller.

Note: This feature is not available if engineer lockout is enabled.

Earth connection terminal

This terminal is not required and should not be connected.

Auxiliary 12 V output

The SPC controller provides an auxiliary 12 V DC output that can be used to supply power to expanders and devices such as latches, bells, etc. See page [➙ 333]. The maximum deliverable current is 750 mA. Please Note: The amount of current drawn is subject to the amount of time to be held up under battery conditions.

X-BUS interface

This is the SPC communications bus used to network expanders together on the system. See page [➙ 72]. SPC4000 only has 1 X-BUS interface.

On-board outputs

Outputs OP4, OP5, and OP6 are 12 V open collector resistive outputs that share a 400 mA current rating with the auxiliary 12 V output. If the outputs are not connected to the 12 V of the controller and are powered from an external power source the 0 V of the power source needs to be connected to the controller 0 V and the external power source cannot exceed 12 V.

Relay output

The SPC controller provides a 1 A, single-pole, changeover relay that can be used to drive the strobe output on the external bell.

Internal bell / external bell

Internal and external bell outputs (INT+, INT-, EXT+, EXT-) are resistive outputs with a 400 mA current rating. The BHO (Bell Hold Off), TR (Tamper Return), and EXT outputs are used to connect an external bell to the controller. The INT+ and INT- terminals are used to connect to internal devices such as an internal sounder. See page [➙ 87].

Zone inputs

The controller provides 8 on-board zone inputs that can be monitored using a variety of supervision configurations. These configurations can be programmed from system programming. The default configuration is Dual End of Line (DEOL) using resistor values of 4K7. See page [➙ 83].

Tamper terminals

The controller provides 2 additional tamper input terminals that can be connected to auxiliary tamper devices to provide increased tamper protection. These terminals should be shorted when not in use.

Serial port 2 terminal block

Serial port 2 terminal block (TX, RX, GND) may be used to interface to an external modem or PC terminal program. Serial port 2 shares a communications channel with the back-up modem. If a back-up modem is installed, ensure that no devices are connected to this serial port.

Ethernet connectivity LEDs

The 2 Ethernet LEDs indicate the status of the Ethernet connection. The left LED indicates data activity on the Ethernet port; the right LED indicates the Ethernet link is active.

Ethernet interface

The Ethernet interface provides for the connection of a PC to the controller for the purposes of programming the system.

4000

Controller hardware

Controller Hardware 42xx\43xx\53xx\63xx

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USB interface

This USB interface is used to access browser programming or a terminal program.

Serial port 2

This RS232 serial port may be used to interface to an external modem or PC terminal program. Serial port 2 shares a communications channel with the back-up modem. If a back-up modem is installed, ensure no devices are connected to this serial port.

Serial port 1

This RS232 serial port may be used to interface to an X10 protocol device.

Optional plug-in modules

A primary (left slot) and back-up (right slot) module can be connected to the controller. These modules can be GSM or PSTN modems offering increased communication functionality. The back-up modem should not be connected if serial port 2 interface is connected to an external modem or other device.

Front tamper

This on-board front tamper (switch & switch) provides the cabinet tamper protection.

Note: The front tamper is not used in the G5 housing.

Battery selector

J12: Fit jumper for 17 Ah battery use and remove for 7 Ah battery. Please Note: This selector is only available on 2.3 revision controller

PCB. (Not applicable for SPC5350 and SPC5360 panels)

Auxiliary power input

12 v input from battery or PSU**.

4000

* Default setup for SPC5350 and SPC5360 panels ** PSU only applies to SPC5350 and SPC6350 panels.

Controller hardware

Controller Hardware SPC5350 and 6350

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8.2 Controller Hardware SPC5350 and 6350

The expander that is connected to the power supply within the G5 is set to ID1 by default. This setting should not be changed.

Optional wireless module

The controller PCB can be factory fitted with a wireless module for use with wireless (868 MHz) sensors.

SPC status LEDs

These 7 LEDs display the status of various system parameters as described on page [➙ 332].

Clock Reference

A clock reference signal can also be applied to this 2-pin connector to maintain accurate system time.

Connect to Clock Reference CN17 on SPCP355.300 Smart PSU.

Reset button

 To reset the controller:

– Press this switch once.

 To reset the programming settings to default and reboot the

controller: – Hold down the button until you are asked if a factory reset is

desired.

– Select YES to reset to factory defaults.

Note: This feature is not available if engineer lockout is enabled.

Earth connection terminal

This terminal is not required and should not be connected.

X-BUS interface

This is the SPC communications bus used to network expanders together on the system. See page [➙ 72].

Terminals 1B and 1A must be connected to SPCP355.300 I/O Expander

This section describes the SPC5350 and SPC6350.

Controller hardware

Controller Hardware SPC5350 and 6350

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terminals 2B and 2A, respectively Terminals 2A and 2B must be connected to terminals 2A and 2B,

respectively, of the next expander on the X-BUS.

On-board outputs

Outputs OP4, OP5, and OP6 are 12 V open collector resistive outputs with a 300 mA current rating.

The OP4 load must be connected to the SPCP355.300 Smart PSU.

Relay output

The SPC controller provides a 1 A, single-pole, changeover relay that can be used to drive the strobe output on the external bell.

Bell Hold-Off (BHO) and Tamper Return (TR)

The BHO (Bell Hold Off) and TR (Tamper Return) (and EXT output) are used to connect an external bell to the controller. See page [➙ 87].

Internal Bell (negative)

The INT- terminal is used to connect to internal devices such as an internal sounder. The power for the internal sounder must be connected to the SPCP355.300 Smart PSU.

External Bell (negative)

The Ext- terminal is used to connect to external devices such as an external bell. The power for the external sounder must be connected to the SPCP355.300 Smart PSU.

Do not use.

Zone inputs

Tamper terminals

Serial port 2 terminal block

Ethernet connectivity LEDs

The 2 Ethernet LEDs indicate the status of the Ethernet connection. The left LED indicates data activity on the Ethernet port; the right LED indicates the Ethernet link is active.

Ethernet interface

The Ethernet interface provides for the connection of a PC to the controller for the purposes of programming the system.

USB interface

This USB interface is used to access browser programming or a terminal program.

Serial port 2

Serial port 1

This RS232 serial port may be used to interface to an X10 protocol device.

Optional plug-in modules

Real-time clock battery

Battery for real-time clock (RTC).

Auxiliary power input

12 v input from A1 on SPCP355.300 Smart PSU.

See also  Powering expanders from the auxiliary power terminals

[➙ 333]

Door Expander

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Each free zone number can be assigned to the zones. But the assignment is not fixed. If number 9 was assigned to a zone, the zone and an input expander with the address 1 is connected to the X-Bus (which is using the zone numbers 9-

16).The assigned zone from the two door controller will be moved to the next free zone number. Configuration will be adapted accordingly.

9 Door Expander

The two door expander can handle up to two doors and two card readers. Configuration of the operation mode is done via the two door I/Os. Each of the two door I/Os is responsible for the functionality of two inputs and one output of the door controller. A specific door number can be assigned to a door I/O, which gives the inputs and output predefined functionality. If no door number is assigned to

neither of the door I/Os (option “Zones” is selected), the inputs and outputs of the

door controller can be used like inputs and outputs on the control panel. Thus, no access functionality is available on this two door controller.

If a door number is assigned only to the first door I/O of the two door controller, the first reader is used as entry reader for this door. If a second reader is available, it is used as exit reader for the configured door. Two inputs and one output have predefined functionality and two inputs and one output can be configured by the user. Additionally, the door position sensor input of the first door can be used as intrusion zone but only with limited functionality.

If a door number is assigned to each of the two door I/Os, the two doors are handled independently. The first card reader is used as entry reader for the first door and the second card reader is used as entry reader for the second door. All inputs and outputs have predefined functionality. The door position sensor inputs of the two doors can additionally be used as intrusion zones but only with limited functionality.

Refer to the Appendix [➙ 354] for details of currently supported card readers and card formats.

Wiring the system

Wiring the X-BUS interface

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NOTICE

The X-BUS is an RS-485 bus with a baud rate of 307 kb. The full performance is only supported in loop [➙ 73] and spur [➙ 74] wiring configuration (best signal quality due to daisy chain of isolated sections with 1 transmitter / 1 receiver and balanced terminating resistors on each end).

The performance in star [➙ 75] or multi-drop [➙ 75] configuration wiring is limited due to non-optimal conditions of the RS-485 bus specification (reduced signal quality due to multiple receivers / transmitters in parallel with unbalanced terminating resistors).

NOTICE

It’s strongly recommended to use loop [➙ 73] or spur [➙ 74] configuration.

Cable Type

Distance

CQR standard alarm cable

200 m

UTP Category: 5 (solid core)

400 m

Belden 9829

400 m

IYSTY 2 x 2 x 0.6 (min)

400 m

10 Wiring the system

10.1 Wiring the X-BUS interface

The X-BUS interface provides for the connection of expanders to the controller. The X-BUS can be wired in a number of different configurations depending on the installation requirements. The X-BUS interface baud rate is 307 kb.

The table below shows the maximum distances between controller / expander or expander / expander for all cable types in loop and spur configuration.

Each device has 4 terminals (1A, 1B, 2A, 2B) for connection to expanders via the X-BUS cable. The controller initiates a detection procedure on power up to determine the number of expanders connected on the system and the topology in which they are connected.

Wiring the system

Wiring the X-BUS interface

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Wiring expander

Previous expander

Next expander

SPC controller

NOTICE

The SPC42xx/43xx doesn’t support loop configuration (only 1 X-BUS

port).

NOTICE

All expanders/keypads are fitted with a termination jumper by default. In loop configuration it’s imperative to have these jumpers fitted.

2B 1A 1B

2A 2B 1A 1B

1A 1B 2A 2B

4000

Most expanders are equipped with additional terminals 3A/3B and 4A/4B for branch expander wiring. See page [➙ 81] for instructions on branch expander wiring.

10.1.1 Loop configuration

The loop (or ring) cabling method offers the highest security by providing fault tolerant communications on the X-BUS. All keypads and expanders are supervised and in case of a X-BUS fault or break, the system continues to operate and all

Wiring the system

Wiring the X-BUS interface

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detectors are monitored. This is achieved by connecting 1A, 1B on the controller to

Controller

2-4

Expanders

NOTICE

SPC52xx/53xx/63xx supports 2 spurs (2 X-BUS ports). SPC42xx/43xx supports 1 spur (1 X-BUS port).

NOTICE

All expanders/keypads are fitted with a termination jumper by default. In spur configuration it is imperative to have these jumpers fitted.

2A, 2B on the first keypad or expander. The wiring continues with connection 1A, 1B to 2A, 2B on the next expander and so on to the last keypad or expander. The last connection is 1A, 1B of the last expander to 2A, 2B of the controller. See wiring configuration in the figure below.

10.1.2 Spur configuration

The spur (or open loop) cabling method offers a high level of fault tolerance and may be more convenient on certain installations. In the case of a X-BUS fault or break, all expanders and detectors up to the fault continue to be supervised.

In this configuration, the SPC controller uses a single the X-BUS port (1A/1B or 2A/2B) to support a group of expanders. See wiring configuration in the figure below. The last expander in an open loop configuration is not wired back to the controller and can be identified by the fast LED flashing light (one flash every 0.2 seconds approx) when in Full Engineer programming.

In automatic mode, the expander numbering commences at the expander nearest to the controller and ends with the expander connected farthest from the controller. E.g. if 6 expanders are connected in an open loop configuration, then the nearest expander on the X-BUS connection is expander 1, the second nearest expander is 2, etc. ending with the expander wired farthest from the controller, which is expander 6.

Wiring the system

Wiring the X-BUS interface

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Spur configuration

Controller

2-4

Expanders

NOTICE

Please read the section for wiring examples [➙ 79] and the section Shielding [➙ 80] before starting the installation.

SPC42xx/SPC43xx

SPC52xx/SPC53xx/SPC63xx

Max. expanders/keypads

16 (8 per X-BUS port)

Total cable length

200 m

NOTICE

The performance in star or multi-drop configuration wiring is limited due to nonoptimal conditions of the RS-485 bus specification (reduced signal quality due to multiple receivers/transmitters in parallel with unbalanced terminating resistors).

All expanders/keypads are fitted with termination jumpers, as default, allowing termination on all the devices. This is imperative for the spur (chain) configuration, as the jumper acts as a resisting terminator cancelling echoes on the line.

Within the loop wiring configuration all expanders/keypads are fitted with a jumper, as default, allowing termination on the device.

10.1.3 Star and multi-drop configuration

The star and multi-drop cabling methods enables takeover of existing wirings with four-core cables in small buildings (typically homes) with low electrical noise environment. These wiring methods are limited to the specifications below:

Wiring the system

Wiring the X-BUS interface

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Star configuration

NOTICE

All expanders/keypads are fitted with a termination jumper by default. In star configuration it’s imperative to remove these jumpers.

A star configuration is established when multiple expanders are wired back to the same X-BUS port on the SPC controller. Depending on controller type 2 ports may exist (1A/1B, 2A/2B), however only one port (1A/1B) is to be used on each keypad or expander.

In the case of a X-BUS break the single will be disconnected, all other expanders and detectors continue to be supervised. A short in the cable renders all expanders disabled.

Star configuration

Wiring the system

Wiring the X-BUS interface

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Star configuration 2

SPC Controller

2-4

Expanders

NOTICE

All expanders/keypads are fitted with a termination jumper by default. In multidrop configuration it’s imperative to remove these jumpers with exception of last keypad or expander.

Multi-drop configuration

The multi-drop configuration varies in that each expander uses the same communication channel as it wires onto the next expander, with all expanders using the same input channel. See multi-drop configuration in the second figure.

In the case of a X-BUS break, all expanders and detectors up to the fault continues to be supervised. A short in the cable renders all expanders disabled.

Multi-drop configuration

Wiring the system

Wiring the X-BUS interface

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Multi-drop configuration 2

SPC controller

2-4

Expanders

10.1.3.1 Examples of correct wiring

Star wiring

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Wiring the X-BUS interface

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Multi-drop wiring

NOTICE

A mix of star and multi-drop configuration is only allowed if the star point is at the controller X-BUS port. In this case, all expanders/keypads must be wired in multidrop configuration without any other star points in the wiring.

Mixed wiring

10.1.3.2 Examples of incorrect wiring

Wiring the system

Wiring the X-BUS interface

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Not allowed wiring with a second star point

NOTICE

If the mix of star and multi-drop configuration is not properly wired the reduced signal quality may lead to slow reaction time of connected devices (e.g. keypad operation) or even loss of communication to devices. If such behavior is observed a wiring in loop OR star configuration is strongly recommended.

The shielding terminals (SHLD) should only be used for cables types with shielding (e.g. Belden 9829). If shielding is required (i.e. sites with high electric field interference): connect the cable shield to the SHLD terminals on the controller and all networked expanders. If the shield needs to be connected to earth then a cable needs to be connected from the SHLD terminal on the controller to the chassis earth stud. Do NOT earth the SHLD terminal on any of the expanders.

NOTICE

For star and multi-drop wiring

It’s not recommended to use shielded cables due to disadvantageous electrical

characteristics (higher capacitance) in star and multi-drop wiring configuration. However, if shielding is required (i.e. sites with high electric field interference) a new wiring in proper spur or loop configuration with appropriate installation cable configuration has to be done.

10.1.4 Shielding

Wiring the system

Wiring of branch expander

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10.1.5 Cable Map

Identification and numbering order for expanders and keypads differ depending on automatic or manual addressing of the expanders. For information on manual and automatic configuration, see page [➙ 118].

For a system with manual addressing, expanders and keypads have a separate numbering sequence and are defined by the engineer manually. I.e., expanders are numbered 01, 02, 03, and so on as desired. Using same numbers, keypads may be numbered as desired.

In the manual configuration, the system automatically allocates zones to each expander. For this reason, devices with no zones, such as 8 output expanders should be addressed last.

For a system with automatic addressing, expanders and keypads belong to the same numbering group and are assigned by the controller. I.e., expanders and keypads are together numbered 01, 02, 03, in the order that they are detected relative to the location of the controller.

10.2 Wiring of branch expander

The wiring of the X-BUS interface with 8 terminals 1A/1B to 4A/4B provides for the connection of an additional branch expander.

If the branch is not used then the terminals 1A/1B are used to connect to the next expander/keypad. Terminals 3A/3B and 4A/4B are then not used.

The following modules have branch expander wiring capability (additional terminals 3A/B and 4A/B):

 8 Input / 2 Output Expander  8 Output Expander  PSU Expander  Wireless Expander  2-door Expander

Wiring the system

Wiring the system ground

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Wiring of a branch expander

Previous expander

Expander connected to branch

Next expander

Expander with branch

2B 1A

2A 2B

SHLD

4A 4B

1A 1B

1A 1B 2A 2B

1A 1B

10.3 Wiring the system ground

0V of Smart PSU's, Keypads and Expanders must be connected to the SPC controller 0V (System GND).

10.4 Wiring the relay output

The SPC controller has one on-board 1 A single pole changeover relay that can be assigned to any of the SPC system outputs. This relay output can switch a rated voltage of 30 V DC (non-inductive load).

When the relay is activated the common terminal connection (COM) is switched from the Normally Closed terminal (NC) to the Normally Open terminal (NO).

Wiring the system

Wiring the zone inputs

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Standard wiring

Normally open terminal

COM

Common terminal connection

Normally closed terminal

10.5 Wiring the zone inputs

The SPC controller has 8 on-board zone inputs. By default these inputs are monitored using end of line supervision. The installer can choose from any of the following configurations when wiring the inputs:

 No End of Line (NEOL)  Single End of Line (SEOL)  Dual End of Line (DEOL)  Anti-masking PIR

Wiring the system

Wiring the zone inputs

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Default configuration (DEOL 4K7)

Tamper

Alarm

EOL 4K7

Tamper

Alarm

EOL 4K7

Fault

EOL 2K2

EOL 4K7

EOL Type

Quiescent

Alarm

Min

Nom

Max

Min

Nom

Max

NONE

0Ω (-100%)

150Ω

300Ω

(+100%)

300Ω (+100%)

N/A

Infinite SINGLE_1K

700Ω

1kΩ

1.3kΩ

23kΩ

N/A

Infinite

SPC

COM

43 5

Anti-Masking PIR configuration

The following table shows the resistance ranges associated with each configuration.

Single EOLs

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Wiring the zone inputs

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(-30%)

(+30%)

SINGLE_1K5

1.1kΩ (-27%)

1.5kΩ

2.1kΩ

(+40%)

23kΩ

N/A

Infinite

SINGLE_2K2

1.6kΩ (-28%)

2.2kΩ

2.9kΩ

(+32%)

23kΩ

N/A

Infinite

SINGLE_4K7

3.1kΩ (-22%)

4.7kΩ

6.3kΩ

(+24%)

23kΩ

N/A

Infinite

SINGLE_10K

7kΩ (-30%)

10kΩ

13kΩ

(+30%)

23kΩ

N/A

Infinite

SINGLE_12K

8.5kΩ (-30%)

12kΩ

15.5kΩ

(+30%)

23kΩ

N/A

Infinite

EOL Type

Quiescent

Alarm

Min

Nom

Max

Min

Nom

Max

Mask_1K_1K_6K8 (1K / 1K / 6K8)

700Ω (-30%)

1kΩ

1.3kΩ

(+30%)

1.5kΩ (-25%)

2kΩ

2.5kΩ

(+25%)

Mask_1K_1K_2K2 (1K / 1K / 2K2)

700Ω (-30%)

1kΩ

1.3kΩ

(+30%)

1.5kΩ (-25%)

2kΩ

2.6kΩ

(+30%)

Mask_4K7_4K7_2K2 (4K7 / 4K7 / 2K2)

3.9kΩ (-18%)

4.7kΩ

5.6kΩ

(+20%)

8.4kΩ (-11%)

9.4kΩ

10.3kΩ

(+10%)

EOL Type

Fault

Masking

Min

Nom

Max

Min

Nom

Max

Mask_1K_1K_6K8

2700Ω (-69%)

8.8kΩ

12.6kΩ

(+20%)

- - -

Mask_1K_1K_2K2

2.8k (-13%)

3.2k

3.6k (+13%)

3.8k (-10%)

4.2k

4.8k (+15)

Mask_4K7_4K7_2K2

6k (-14%)

6.9k

7.8k (+14%)

10.8k (-7%)

11.6k

12.6k (+9%)

EOL Type

Quiescent

Alarm

Min

Nom

Max

Min

Nom

Max

DUAL_1K0_470

400Ω (-20%)

470Ω

700kΩ

(+40%)

1.1kΩ (-27%)

1.5kΩ

2kΩ

(+34%)

DUAL_1K0_1K0

700Ω (-30%)

1kΩ

1.3kΩ

(+30%)

1.5kΩ (-25%)

2kΩ

2.6kΩ

(+30%)

DUAL_1k0_2k2

1.6kΩ (-28%)

2.2kΩ

2.9kΩ

(+32%)

2.3kΩ (-29%)

3.2kΩ

4.2kΩ

(+32%)

DUAL_1k5_2k2

1.6kΩ (-28%)

2.2kΩ

2.9kΩ

(+32%)

2.7kΩ (-28%)

3.7kΩ

4.8kΩ

(+30%)

DUAL_2K2_2K2

1.6kΩ (-28%)

2.2kΩ

2.9kΩ

(+32%)

3.4kΩ (-23%)

4.4kΩ

5.6kΩ

(+28%)

DUAL_2k2_4k7

4.1kΩ (-13%)

4.7kΩ

5.4kΩ

(+15%)

6kΩ (-14%)

6.9kΩ

7.9kΩ

(+15%)

DUAL_2K7_8K2

7.2 kΩ (-13%)

8.2kΩ

9.2kΩ

(+13%)

9.9kΩ (-10%)

10.9kΩ

11.9kΩ

(+10%)

DUAL_3K0_3K0

2.1kΩ

3.0kΩ

3.9kΩ

4.5kΩ

6kΩ

7.5kΩ

Dual EOLs with PIR Masking and Fault

Dual EOLs

Wiring the system

Wiring an external SAB bell

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(-30%)

(+30%)

(-25%)

(+25%)

DUAL_3K3_3K3

2.3kΩ (-26%)

3.3kΩ

4.3kΩ

(+31%)

4.9kΩ (-26%)

6.6kΩ

8.3kΩ

(+26%)

DUAL_3K9_8K2

7.0 kΩ (-15%)

8.2kΩ

9.5kΩ

(+16%)

10.5kΩ (-14%)

12.1kΩ

13.8kΩ

(+15%)

DUAL_4K7_2K2

1.6kΩ (-28%)

2.2KΩ

2.9kΩ

(+32%)

5kΩ (-28%)

6.9kΩ

8.8kΩ

(+28%)

DUAL_4K7_4K7

3.3kΩ (-30%)

4.7kΩ

6.1kΩ

(+30%)

7kΩ (-26%)

9.4kΩ

11.9kΩ

(+27%)

DUAL_5K6_5K6

4.0kΩ (-26%)

5.6kΩ

7.2kΩ

(+29%)

8.3kΩ (-26%)

11.2kΩ

14.1kΩ

(+26%)

DUAL_6K8_4K7

3.3kΩ (-30%)

4.7kΩ

6.1kΩ

(+30%)

8.1kΩ (-30%)

11.5kΩ

14.9kΩ

(+30%)

DUAL_2k2_10K

9.2kΩ (-8%)

10kΩ

10.8kΩ

(+8%)

11.3 kΩ (-8%)

12.2kΩ

13.2kΩ

(+9%)

DUAL_10k_10k

7.5kΩ (-25%)

10kΩ

12.5kΩ

(+25%)

17kΩ (-15%)

20kΩ

23kΩ

(+15%)

For all EOL types, a resistance below 300Ω is considered a short. If the resistance is not within the thresholds stated, this is treated as a disconnection.

Strobe +

Strobe –

Hold off

Tamper return

Bell -

Bell +

10.6 Wiring an external SAB bell

On an external bell to the SPC controller board the relay output is wired to the strobe input with Bell Hold Off (BHO) and Tamper Return (TR) connected to their respective inputs on the external bell interface.

A resistor (2K2) is pre-fitted on the controller board between the BHO and TR terminals. When wiring an external bell, connect this resistor in series from the TR terminal on the controller to the TR terminal on the external bell interface.

External bell wiring

Wiring the system

Wiring an internal sounder

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10.7 Wiring an internal sounder

IN–

IN– (SPC controller)

IN+

IN+ (SPC controller)

To wire an internal sounder to the SPC controller connect the IN+ and IN– terminals directly to the 12 V sounder input.

Internal sounder wiring (12 V)

10.8 Wiring Glassbreak

SPC supports the RI S 10 D-RS-LED glassbreak interface in combination with GB2001 glassbreak detectors.

The following diagram shows how the glassbreak interface is wired to the SPC controller for power, or to an 8-in/2-out expander:

For information on wiring the glassbreak interface to a zone, see the productspecific documentation.

For information on wiring the glassbreak sensors to the glassbreak interface, see the product-specific documentation.

10.9 Installing plug-in modules

2 modems (PSTN or GSM) may be installed on the controller board to increase functionality. The picture below shows the 2 slots available for each modem, the primary (left) slot and the back-up (right) slot.

If both modem slots are available, always install the plug-in module in the primary slot; the system always attempts to make PSTN or GSM calls on a modem installed on the primary slot before attempting to use the back-up slot.

Wiring the system

Installing plug-in modules

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WARNING

Modems are not plug and play. You must log on to the panel as Full Engineer, then power the controller board down before installing, removing or moving modems from one position to the other. After completing the modem task, reconnect the system to the power supply and log on to the controller as Full Engineer again. Configure and save the configuration. Failure to follow this process results in a CRC error.

Wireless receiver slot

Primary modem slot

Back-up modem slot

For installation please refer to the corresponding Installation Instruction.

Plug-in modules

Powering up the SPC controller

Powering from battery only

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NOTICE

The battery will continue to power the system until deep discharge level (10.5 V to

10.8 V) has been detected. The time duration that the system will hold up on battery will depend on the external loading and Ah rating of the battery.

11 Powering up the SPC controller

The SPC controller has two power sources, the mains supply and the integral standby battery. A qualified electrician should undertake connection to the mains and the mains supply should be connected from a spur that can be isolated. See Page [➙ 346] for full details of conductor sizes / fuse ratings etc.

The SPC should be powered from the mains first and then the internal standby battery. For compliance to EN only one battery should be fitted of the appropriate capacity.

11.1 Powering from battery only

It is recommended that when powering a system from battery only, the battery should be in a fully charged state (>13.0 V). The system will not power up when using a battery with less than 12 V and no mains is applied.

Keypad user interface

SPCK420/421

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12 Keypad user interface

The following keypad models are available:

 SPCK420/421 — referred to throughout this document as the LCD Keypad  SPCK620/623 — referred to throughout this document as the Comfort Keypad

12.1 SPCK420/421

12.1.1 Introduction

The LCD keypad is a wall-mounted interface that allows:

 Engineers to program the system through the Engineer Programming menus

(password protected) and to set/unset the system; a user can control the system on a day-to-day basis.

 Users to enter User Programming menus (password protected), and to perform

operational procedures (set/unset) on the system. (Please refer to the SPCK420/421 User Manual for more details of user programming.)

The LCD keypad unit includes an integral front tamper switch and has a 2 line x 16 character display. It features an easy-to-use navigation key to assist in locating required programming options, and has 2 context sensitive soft keys (left and right) for selecting the required menu or program setting. 3 LEDs on the keypad provide an indication of AC power, system alerts, and communications status.

The LCD keypad may be factory fitted with a Portable ACE (PACE) proximity device reader (see page [➙ 343]).

Keypad user interface

SPCK420/421

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LCD keypad

LCD display

The keypad display (2 lines x 16 characters) shows all alert and warning messages and provides a visual interface for programming the system (engineer programming only). The display can be adjusted for contrast and under which conditions the backlight comes on.

Alphanumeric keys

Alphanumeric keypad allow for both text and numeric data entry during programming. Alphabetic characters are selected by applying the appropriate number of key presses. To switch between upper and lower case characters, press the hash (#) key. To enter a numeric digit, hold down the appropriate key for 2 seconds.

Leverage access tabs

The leverage access tabs provide access to the keypad back assembly clips. Users can unhinge these clips from the front assembly by inserting a 5mm screwdriver into the recesses and pushing gently.

Back assembly securing screw

This screw secures the front and back assemblies on the keypad. This screw must be removed to open the keypad.

LED status indicators

The LED status indicators provide information on the current status of the system as detailed in the table below.

Soft function keys

The left and right soft function keys are context sensitive keys to navigate through menus/programming.

Proximity device receiver area

If the keypad has been fitted with a proximity device receiver (see page [➙ 343]), users should present the Portable ACE Fob to within 1 cm of this area to SET/UNSET the system.

Multi-functional navigation Key

The multi-functional navigation key in combination with the keypad display provides an interface for programming the system.

LED

Status

ghi

jkl

mno

pqrs

tuv

wxyz

abc

def

Keypad user interface

SPCK420/421

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AC mains (Green)

Indicates the presence or failure of the mains supply FLASHING: AC mains fault detected STEADY: AC mains OK

System alert (Yellow)

Indicates a system alert FLASHING: System alert detected; display indicates the location and nature

of alert. If the system is SET, then NO indication is given of system alerts OFF: No alert detected; If a keypad is assigned to more than one area, LED

does not indicate an alert condition if any of those areas is SET

X-BUS Status (Red)

Indicates the status of the X-BUS communications when in FULL ENGINEER programming

Flashes regularly: (once every 1.5 seconds approx) indicates communications status is OK

Flashes quickly: (once every 0.25 seconds approx) indicates the keypad is the last expander on the X-BUS

If the keypad is being installed for the first time and power is supplied to it before a connection to the controller X-BUS interface is made, the LED remains in the ON state

RIGHT SOFT KEY

This key is used to select the option presented on the right side of the bottom line display.

Possible values are:

→ SELECT to select the option displayed on the top line → ENTER to enter the data displayed on the top line → NEXT to view the next alert after the one displayed on the top line → CLEAR to clear the alert displayed on the top line → SAVE to save a setting

The OK button acts as a SELECT key for the menu option displayed on the top line and also as an ENTER/SAVE key for data displayed on the top line.

In Programming mode, the right arrow key advances the user through the menus in the same way as pressing the SELECT option (right soft key).

In data entry mode, press this key to move the cursor one position to the right.

In Programming mode, the down arrow key moves the user to the next programming option in the same menu level. Continually press this key to scroll through all programming options available on the current menu level.

In alphanumeric mode, press this key over an upper case character to change the character to lower case.

12.1.2 Using the LCD keypad interface

Keypad display

Keypad user interface

SPCK420/421

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When alerts are displayed, the down arrow key moves the user to the next alert message in the order of priority. (See section on Prioritization of Display Messages)

In Programming mode, the left arrow key returns the user to the previous menu level. Pressing this key when in the top menu level exits the user from programming.

In data entry mode, press this key to move the cursor one position to the left.

In Programming mode, the up arrow key moves the user to a previous programming option in the same menu level. Continually press this key to scroll through all programming options available on the current menu level.

In Alphanumeric mode, press this key over a lower case character to change the character to upper case.

LEFT SOFT KEY

This key is used to select the option presented on the left side of the bottom line display.

Possible values are:

→ EXIT to exit programming → BACK to return to previous menu

BOTTOM LINE OF DISPLAY

In the IDLE state, this line is blank. In Programming mode, this line displays options available to the user. These

options align over the left and right soft keys for selection as required.

TOP LINE OF DISPLAY

In the IDLE state, displays the current date and time. In Programming mode, this line displays one of the following:

→ The programming feature to be selected → The current setting of the selected feature → The nature of the current alert during an alert condition. (See Prioritization of

Display Messages below)

Prioritization of display messages

Trouble messages and alerts are displayed on the keypad in the following order:

 Zone

– Alarms – Tamper – Trouble

 Area Alerts

– Fail to set – Entry time out – Code tamper

 System Alerts

Keypad user interface

SPCK420/421

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– Fail to communicate – User panic – XBUS cable fault – XBUS communications fault – XBUS mains fault – XBUS battery fault – XBUS power supply fault – XBUS fuse fault – XBUS tamper fault – XBUS antenna fault – XBUS wireless jamming – XBUS panic – XBUS fire – XBUS medical – XBUS Power supply link – XBUS output tamper – XBUS Low voltage – Engineer restore Required – Autoarm

 System information

– Soaked zones – Open zones – Area state – Low battery (sensor) – Sensor lost – WPA low battery – WPA lost – WPA test overdue – Camera offline – Fob low battery – Xbus over current – Installer name – Installer phone – Engineer enable – Manufacture enable – Reboot – Hardware fault – Aux over current – Battery low – Ethernet link – System name

12.1.3 Data entry on the LCD keypad

Entering data and navigating the menus on the LCD keypad is facilitated through the use of the programming interface. The use of the interface for each type of operation is detailed below.

Entering numeric values

In Numeric Entry mode, only the numeric digits (0 - 9) can be entered.

Keypad user interface

SPCK620/623

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 To move the position of the cursor one character to the left and right

respectively, press the left and right arrow keys.

 To exit from the feature without saving, press the BACK menu key.  To save the programmed setting press ENTER or OK.

Entering text

In Text Entry mode, both alphabetic characters (A-Z) and numeric digits (0 – 9) can be entered.

 To enter an alphabetic character, press the relevant key the required number of

times.

 To enter a language specific special character (ä, ü, ö…) press button 1 to

cycle through the special characters.

 To enter a space + special characters (+, -./[ ]…) press button 0.  To enter a digit, hold the relevant key down for 2 seconds and release.  To move the position of the cursor one character to the left and right

respectively, press the left and right arrow keys.

 To exit from the feature without saving, press BACK.  To save the programmed setting press ENTER or OK.  To change the case of an alphabetic character, press the up/down arrow keys

when the character is highlighted by the cursor.

 To toggle between upper and lower case for all subsequent characters, press

the hash (#) key.

 To delete character to the left of the cursor, press the star key(*).

Selecting a programming option

In navigation mode, the Engineer/User selects one of a number of pre-defined programming options from a list.

 To scroll through the list of options available for selection, press the up and

down arrow keys.

 To exit from the feature without saving, press BACK.  To save the selected option, press SAVE or OK.

12.2 SPCK620/623

12.2.1 Introduction

The Comfort keypad is a wall-mounted interface that allows:

 Engineers to program the system through the Engineer Programming menus

(password protected) and to set/unset the system; a user can control the system on a day-to-day basis.

 Users to enter User Programming menus (password protected), and to perform

operational procedures (set/unset) on the system. (Please refer to the SPC620/623 User Manual for more details of user programming)

The SPCK620 is equipped with soft keys and large graphical LCD for easy operation. The functionality can be enhanced with key switch expander SPCE110 or indication expander SPCE120.

The SPCK623 is equipped with a proximity card reader (125 kHz EM 4102) for easy user access, soft keys, large graphical LCD and voice annunciation support. The functionality can be enhanced with key switch expander SPCE110 or indication expander SPCE120.

Keypad user interface

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LED status indicators

The LED status indicators provide information on the current status of the system as detailed in the table below.

LCD display

The keypad display shows all alert and warning messages and provides a visual interface for programming the system (engineer programming only). (See section on Display Message Prioritization) The display can be configured under which conditions the backlight comes on.

Soft function keys

Context sensitive keys to navigate through menus/programming.

Enter key

Confirm display or input.

Back menu key

 Go back in the menu Reset buzzers, siren and alarms in the memory.

Proximity device receiver area

Only SPCK 623: If the keypad has been fitted with a proximity device receiver, users should present the Portable ACE Fob to within 1 cm of this area.

Alphanumeric keys

Multi-functional navigation key

Navigation through menus and to scroll through alert messages. (See Display Message

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Prioritization below)

Information key

Displays information.

Prioritization of display messages

Trouble messages and alerts are displayed on the keypad in the following order:

 Zone

– Alarms – Tamper – Trouble

 Area Alerts

– Fail to set – Entry time out – Code tamper

 System Alerts

– Mains – Battery – PSU fault – Aux fault – External bell fuse – Internal bell fuse – Bell tamper – Cabinet tamper – Aux tamper 1 – Aux tamper 2 – Wireless jamming – Modem 1 fault – Modem 1 line – Modem 2 fault – Modem 2 line – Fail to communicate – User panic – XBUS cable fault – XBUS communications fault – XBUS mains fault – XBUS battery fault – XBUS power supply fault – XBUS fuse fault – XBUS tamper fault – XBUS antenna fault – XBUS wireless jamming – XBUS panic – XBUS fire – XBUS medical – XBUS Power supply link – XBUS output tamper – XBUS Low voltage – Engineer restore Required

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– Autoarm

Description

Symbol

Color

Operation

Description

Information

Blue

The system or area cannot be set. Forced setting is possible (faults or open zones can be inhibited).

Flashing

The system or area cannot be set or forced set (faults or open zones cannot be inhibited).

Off

The system or area can be set.

Amber

Flashing

Engineer is on site.

User Green

Assigned area is unset.

Flashing

Assigned area is Partset A / B

Off

Assigned area is fullset

Alarm Red

Alarm

Flashing

Off

No alarm

Alert Amber

Flashing

Trouble

Off

No trouble

Mains Green

System ok

Flashing

Mains fault

 System information

12.2.2 LED description

Keypad user interface

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Off

No bus connection

NOTICE

The LED indications for information, area status, alarm and fault is deactivated in idle state of the keypad. A valid user PIN has to be entered. It is configurable if the power indication can be seen in idle state.

NOTICE

The rights of a user can be restricted by the user settings or the settings of the keypad the user is logging in to. Only if the user and the keypad that is being used for logging in have the right for an area, the area is displayed. If the user has the right for several areas but the keypad has only the right for one area, the user will also see the single area view.

Panic Alarm

Fire alarm

12.2.3 Viewing mode description

There are 2 viewing modes (automatic):

 Multi area view: User has access to several areas. Displaying the areas is done

via area groups. If no area group is configured, only the general group “All my areas” is displayed.

 Single area view: The user has only rights for 1 area. In the single area view,

only one area is displayed in large fonts and can be controlled directly.

12.2.4 Function keys in idle state

Emergency Keys

Depending on configuration, emergency keys are displayed. A simultaneous pressing of the keys activates an emergency call.

Keypad user interface

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Medical Alarm

The activated process depends on the system configuration. Please ask the installer for details.

Direct Settings

Depending on configuration, the direct set option is displayed. A forced set / part set without PIN is possible of the area the keypad is assigned to.

Vanderbilt SPC53, SPC5000, SPC63, SPC43, SPC355.300 Installation & Configuration Manual

Specifications and Main Features

Frequently Asked Questions

User Manual

1 Meaning of symbols

2 Security

2.1 Target group

2.2 General safety instructions

2.2.1 General information

2.2.2 Transport

2.2.3 Setup

2.2.4 Operation

2.2.5 Service and maintenance

2.3 Meaning of written warning notices

2.4 Meaning of hazard symbols

3 Directives and standards

3.1 EU directives

3.1.1 Overview of Conformity to EN50131 Standard

3.1.2 Compliance with EN50131 Approvals

3.1.3 Compliance with EN 50136-1:2012 and EN 50136-2:2014

3.1.4 Compliance with INCERT Approvals

3.1.5 PD 6662:2010 Conformance Guidelines

3.1.5.1 Product scope

3.1.5.2 Standards overview

3.1.5.3 Methods for the completion of setting and unsetting

3.1.5.6 Additional information

3.1.6 Compliance with VdS approvals

3.1.7 Compliance with NF and A2P approvals

4 Technical Data

4.1 SPC4000

4.2 SPC5000

4.3 SPC6000

4.4 SPCP355.300

5 Introduction

6 Mounting system equipment

6.1 Mounting a G2 housing

6.2 Mounting a G3 housing

6.2.1 Mounting a Back Tamper Kit

6.2.2 Battery installation for EN50131 compliance

6.3 Mounting a G5 housing

6.3.1 Tamper protection

6.3.2 Mounting the housing with tamper protection

6.3.2.1 Tamper operation

6.3.3 Installing the batteries

6.4 Mounting a keypad

6.5 Mounting an expander

7 Smart PSU

7.1 SPCP355.300 Smart PSU

7.1.1 Supervised Outputs

7.1.2 Batteries

7.1.2.1 Installing Batteries

7.1.2.2 Testing Battery Voltage

7.1.2.3 Deep Discharge Protection

7.1.2.4 Battery Stand-By Times

7.1.3 Wiring the X-BUS Interface

7.1.3.1 Wiring the Inputs

7.1.3.2 Wiring the Outputs

7.1.4 Compliance with NF and A2P approvals

7.1.5 PSU LED Status

7.1.6 System Recovery

8 Controller hardware

8.1 Controller Hardware 42xx\43xx\53xx\63xx

8.2 Controller Hardware SPC5350 and 6350

9 Door Expander

10 Wiring the system

10.1 Wiring the X-BUS interface

10.1.1 Loop configuration

10.1.2 Spur configuration

10.1.3 Star and multi-drop configuration

10.1.3.1 Examples of correct wiring

10.1.3.2 Examples of incorrect wiring

10.1.4 Shielding

10.1.5 Cable Map

10.2 Wiring of branch expander

10.3 Wiring the system ground

10.4 Wiring the relay output

10.5 Wiring the zone inputs

10.6 Wiring an external SAB bell

10.7 Wiring an internal sounder

10.8 Wiring Glassbreak