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Simons Voss Technologies 3060 Manual

Simons Voss Technologies 3060 Manual

Digital locking system 3060

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Manual 3060 System

State of: July 2007

If the contents of the foreign language version of the documentation differ from the contents of the original German version,

the original German version shall apply in case of doubt. We reserve the right to make technical changes.

SimonsVoss Technologies AG • Feringastraße 4 • 85774 Unterföhring • Germany

Hotline 01805-SV3060 • FAQs www.simons-voss.de

Telefon +49-89-99 228-0 • Fax +49-89-99 228-222

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Summary of Contents for Simons Voss Technologies 3060

Page 1 Manual 3060 System State of: July 2007 If the contents of the foreign language version of the documentation differ from the contents of the original German version, the original German version shall apply in case of doubt. We reserve the right to make technical changes.
Page 2 Table of Contents Version: March 2008...
Page 3 Table of Contents Seite 2 PEOPLE TO CONTACT Sales Technical Address in Munich DIGITAL LOCKING SYSTEM 3060 General method of operation The components Access control, time zone administration TRANSPONDER 3064 Method of operation Loss of a transponder Password-protected transponder BIOMETRIC TRANSPONDER Q3007...
Page 4 Table of Contents Seite 3 DIGITAL LOCKING CYLINDER 3061 (TN4) Method of operation Installation instructions Battery warning, battery replacement DIGITAL HALF CYLINDER 3061 (TN3) Method of operation Installation instructions Battery warning, battery replacement DIGITAL HALF CYLINDER 3061 (TN4) Method of operation Installation instructions Battery warning, battery replacement DIGITAL SMART RELAY 3063...
Page 5 Table of Contents Seite 4 WAVENET RADIO NETWORK Components Structure Installation LON NETWORK 3065 Network configuration Components Installation PROGRAMMING TRANSPONDER 3067 Backup card Error messages Programming PALM CD2 Initiation Export and import Programming SMART CD Initiation Export and import Programming +65 Explanation of technical terms Special Symbols...
Page 6 People to contact Version: September 2006...
Page 7 People to contact Page 2 SALES If you have any questions please contact our specialist dealers, or the sales representative responsible for your region. You can obtain information concerning the responsible contact at the following telephone number. +49 89-9 92 28-180 United Kingdom SimonsVoss Technologies Ltd.
Page 8: Digital Locking System
Digital Locking System 3060 State of: June 2006...
Page 9: Table Of Contents
Digital Locking System 3060 Register General Method of Operation ___________________________3 The Components of the Digital Locking and ________________ Organization System 3060______________________________3 Software LDB ___________________________________________ 3 Programming ___________________________________________ 4 Digital Locking Cylinder 3061 ______________________________ 4 Digital Smart Relay 3063 __________________________________ 4...
Page 10: General Method Of Operation
Page 3 General Method of Operation The Digital Locking and Organization System 3060 is modularly constructed and is suitable for uses ranging from a simple locking system for individual doors all the way to a complex PC-controlled access control system. Conventional mechanical keys are replaced by the programmable transponder, which controls doors, gates, barriers, furniture and elevators, for example, over radio transmission.
Page 11: Programming
Digital Locking System 3060 Page 4 Programming You will need the SmartCD and a PDA for programming the digital components. The data is encoded and then transmitted to the digital components via radio signal. Another possibility for programming a Digital Locking Cylinder 3061 and Transponder 3064 is with the Programming Transponder 3067.
Page 12: Network 3065
Network 3065 The cable-free Network 3065 is an online access control system that administers, visualises and archives all System 3060 information in one central location, and all without manipulations at the door, door frame or the door hardware. It is especially recommended for medium-sized and large locking systems in order to be able to configure and administer the locking system from a central PC.
Page 13: Time Zone Control
Digital Locking System 3060 Page 6 After the access list has been read out with the programming device or network nodes, it is imported into the PC and administered there by the locking plan software. A total of 10,000 accesses can be stored in the PC file. When the data is accepted from the programming device, a comparison is done so that it is always only the current, new accesses that are accepted into the PC file.
Page 14 Transponder 3064 State of: September 2006...
Page 15 Transponder 3064 Content Method of Operation __________________________________3 General ________________________________________________ 3 Higher Priority Locking Level ______________________________ 4 Special Models _______________________________________5 Password Transponder ___________________________________ 5 Switching Transponder ___________________________________ 5 Explosion Protection Transponder__________________________ 5 Explosion Protection Transponder ______________________6 General Information ______________________________________ 6 Standards ______________________________________________ 6 Grouping _______________________________________________ 6 Additional Functions __________________________________7 Time Zone Control _______________________________________ 7...
Page 16: Transponder 3064
(cylinder, Smart Relay and activation unit) takes place by sending and receiving constantly changing crypto codes, which makes misuse practically impossible. Since the System 3060 works with active transponder technology, the transponder has its own voltage source (battery) available. The advantage in comparison to passive technologies lies in the smaller energy requirements of the cylinder and the larger range.
Page 17: Transponder 3064
Transponder 3064 Page 4 Higher Priority Locking Level If it is necessary to have transponders that are authorised for more than 3 mutually independent locking systems, “higher priority locking levels” must be set up in these locking systems. There are a maximum of 3 higher priority locking levels available for this.
Page 18 Transponder 3064 Page 5 Special Models Password Transponder Instead of manually entering the locking system password, you can transmit it over radio frequency with the help of a special transponder. Standard transponders cannot be used as password transponders. Switching Transponder With this transponder, a two-wire cable (approx.
Page 19 Transponder 3064 Page 6 Explosion Protection Transponder General Information This special product is a transponder that is permitted to be carried into and used in areas subject to explosion hazards, called Zone 1. An area is denoted as Zone 1 when atmospheres capable of exploding occur occasionally. It is crucial that you keep in mind the following issues: •...
Page 20: Time Zone Control
Transponder 3064 Page 7 Additional Functions The following functions can be activated in the locking plan software: Time Zone Control For TZC version digital lockings, you can program transponders that have locking authorisation for specific times only. These time zones are deposited in the locking plan software, and the transponders are then assigned to an appropriate time zone group.
Page 21: Battery Replacement 3064
Transponder 3064 Page 8 Battery Replacement Battery Replacement 3064 If a battery warning occurs, then the transponder battery can be changed at any time (see the Manual on the 3061 Locking Cylinder – Battery warning). Open the casing carefully so that you can see the battery. Open the battery clip and remove the battery, insert a new one, and close the clip.
Page 22 Transponder 3064 Page 9 Data Sheet Housing • Made of weather-resistant plastic • Colour: Black • Degree of protection: IP 65 • Diameter: 42 mm • Integrated lithium battery • Max. 1,000,000 operations, or 10 years standby • Access authorisations for up to 48.149 doors •...
Page 23 Q3007 Biometric Transponder State of: September 2006...
Page 24 Q3007 Biometric Transponder Content General Instructions __________________________________3 Safety instructions _______________________________________ 3 Product description ______________________________________ 3 Overview of function __________________________________4 Basic information on operation_____________________________ 4 Operating states _________________________________________ 4 How the transponder works _______________________________ 5 "Learn" mode: start-up, scanning in fingerprints ______________ 5 Querying the number of fingerprints scanned in ______________ 8 "Recognise"...
Page 25: General Instructions
Q3007 Biometric Transponder Page 3 General Instructions Please take 15 minutes to familiarise yourself with how your Biometric Transponder Q3007 works with the help of these operating instructions. Safety instructions Caution! – The batteries used in this product could burn or cause a fire if they are not handled properly.
Page 26 Q3007 Biometric Transponder Page 4 Overview of function Basic information on operation The Biometric Transponder Q3007 scans fingerprints using a fingerprint sensor. The finger is dragged across the sensor, rather than being pressed against it. The following should be noted: The fingerprint to be scanned/ memorised should always be dragged over the sensor in the same way.
Page 27 Q3007 Biometric Transponder Page 5 How the transponder works Stand-by mode: LED not illuminated Briefly press button once, then release Recognise mode: LED flashes green Press button and hold Drag finger across sensor down for 3 sec. Transponder triggered Learn mode: LED flashes yellow Drag Administrator finger once over sensor and new Press button and hold...
Page 28 Q3007 Biometric Transponder Page 6 Please note: The first two fingerprints to be scanned in are automatically (!) the Administrator fingerprints. Without them, no further fingerprints can be scanned in or deleted later! To scan in and store the first Administrator fingerprint (e.g. left thumb), please do the following: 1.
Page 29 Q3007 Biometric Transponder Page 7 Further fingerprints (maximum 4) can be scanned in as the Administrator fingerprints have been, except that the Q3007 must first be cleared for this by an Administrator fingerprint. This prevents unauthorised persons from scanning in their own fingerprints and thus gaining access rights that are not allowed.
Page 30 Q3007 Biometric Transponder Page 8 6. Now repeat step 4 twice again (so that you have drawn your finger three times across the fingerprint sensor altogether). If an attempt has been unsuccessful (LED is illuminated red), drag your finger across the sensor again. Once the fingerprint has successfully been scanned, the data are saved.
Page 31 Q3007 Biometric Transponder Page 9 "Recognise" mode: one-off triggering of transponder The mode known as the Recognise mode is the normal operating state for the Q3007, i.e. a person whose fingerprint has been scanned in would like to trigger a Transponder signal, e.g.
Page 32: Transparent Mode
Q3007 Biometric Transponder Page 10 "Delete" mode: deleting fingerprints Both individually scanned fingerprints and all the fingerprints can be deleted from the memory. If normal fingerprints (not Administrator fingerprints) are deleted, the other fingers that have been scanned in are not deleted. No Administrator fingerprint is needed to do this (any normal user can delete his own fingerprint).
Page 33: Changing The Batteries
Q3007 Biometric Transponder Page 11 To enter Transparent mode, please proceed as follows: 1. Press and hold the transponder button (longer than 1.5 seconds, < 3 sec.). The LED will flash green rapidly. The Transponder will now react to the button as if it were in Recognise mode.
Page 34 Q3007 Biometric Transponder Page 12 Technical Data Dimensions: H x W x D 65 x 32 x18 mm Weight 22 g Colour Grey, with blue button Operating distance, approx. transponder locking cylinders (lengthways) is held parallel with the cylinder antenna) Operating distance, approx.
Page 35 Q3007 Biometric Transponder Page 13 Table of Diode Signals Mode Standby moving finger on sensor followed by comparison with scanned fingerprint, please wait (max. 4 seconds) Slow green flashing light Recognise mode, wait for finger (max. 30 seconds) Fast green flashing light Release for transparent mode, wait for finger (max.
Page 36 BIOMETRIC READER Q3008 State of: August 2007...
Page 37 MANUAL - BIOMETRIC READER Q3008 Page 2 1.0 General information ___________________________________4 1.1 Safety information ________________________________________ 4 1.2 Description of product _____________________________________ 5 2.0 Overview of function___________________________________6 2.1 Functional overview _______________________________________ 6 2.2 Basic operation ___________________________________________ 6 2.3 Operating statuses ________________________________________ 8 2.4 Operation ________________________________________________ 8 3.0 Programming _________________________________________9 3.1 Commissioning ___________________________________________ 9...
Page 38 MANUAL - BIOMETRIC READER Q3008 Page 3 16.0 Assembly __________________________________________21 17.0 Special functions ____________________________________22 17.1 Wireless circuit for SimonsVoss VdS shunt lock 3066_________ 22 17.2 Miscellaneous __________________________________________ 22 18.0 Technical data ______________________________________23...
Page 39: General Information
MANUAL - BIOMETRIC READER Q3008 Page 4 General information Please take 15 minutes to read this manual and familiarise yourself with the function of your Q3008 biometric reader. To assemble the housing you will need a Torx key of size TX6. Safety information Caution! –...
Page 40: Description Of Product
Assembly is very simple as there is no need for wiring. Because of its modular nature, this component can be easily integrated into the SimonsVoss System 3060 and like all SimonsVoss components can be programmed with the locking plan software.
Page 41: Overview Of Function
MANUAL - BIOMETRIC READER Q3008 Page 6 Overview of function Functional overview The Q3008 biometric reader consists of the following components: • Biometric analysis unit • Integrated digital transponder which opens the appropriate lock when triggered by a successful biometric analysis. The Q3008 biometric reader enables you to address all SimonsVoss locks (e.g.
Page 42 MANUAL - BIOMETRIC READER Q3008 Page 7 Activate the biometric reader by placing your finger on the finger guide (see chapter 2.4), and then place your finger at the top of the sensor. Figure 1 Draw your finger across the sensor at an even speed and applying gentle pressure.
Page 43: Operating Statuses
Operation Once the Q3008 biometric reader has been commissioned and configured, it forms a ‘wireless circuit’ with a SimonsVoss lock within the System 3060. The following chapters describe in detail how to program individual fingerprints and the relevant transponder data records and how to use the Q3008 biometric reader.
Page 44: Programming
MANUAL - BIOMETRIC READER Q3008 Page 9 Programming The following chapters describe the programming process in detail. If you are using the biometric reader in a small-scale locking system, please refer to chapter 11.0 Master finger mode. Do not undertake any programming after a battery warning. Replace the battery before proceeding.
Page 45: Programming Additional Fingerprints (Users)
MANUAL - BIOMETRIC READER Q3008 Page 10 In SmartLSM, launch the ‘Read’ locks function. The biometric reader is recognised and read. Select ‘Modify transponder‘ and start the function by selecting ‘Execute’. Select the appropriate transponder (biometric reader user) and launch the ‘Programming’...
Page 46: Recognize' Process
MANUAL - BIOMETRIC READER Q3008 Page 11 If you want the reader to learn other fingerprints, repeat from step 4. You must first create additional transponders in the software using the biometric reader user option (see step 1) and assign authorisations to them. Bring the SmartCD into the communication range of the lock to be addressed in situ.
Page 47: Assigning Fingerprints To Transponder Ids
MANUAL - BIOMETRIC READER Q3008 Page 12 • If a fingerprint is rejected and the LED lights up red, the quality of the scan was not sufficient. This may be because the finger was not moved correctly across the sensor (not straight or not evenly, for example), or because the surface of the sensor is dirty.
Page 48: Replacing Fingerprints
MANUAL - BIOMETRIC READER Q3008 Page 13 Replacing fingerprints You can replace existing fingerprints with new ones at any point, for example if an employee has left the company or no longer requires access through a certain door. Do not undertake any programming after a battery warning. Replace the battery before proceeding.
Page 49: Querying The Number Of Learned Fingerprints
MANUAL - BIOMETRIC READER Q3008 Page 14 Querying the number of learned fingerprints You can query the number of learned fingerprints / transponder IDs at any time. Please proceed as follows: Open the locking plan with the SimonsVoss software. Export the locking plan (pocket PC). Bring the SmartCD into the communication range of the biometric reader.
Page 50: Deleting All Fingerprints
MANUAL - BIOMETRIC READER Q3008 Page 15 Deleting all fingerprints Do not undertake any programming after a battery warning. Replace the battery before proceeding. Refer to chapter 15.0 Replacing the battery. To delete all stored fingerprints from the Q3008 biometric reader at the same time, you need to completely reset the device.
Page 51: Master Finger Mode
MANUAL - BIOMETRIC READER Q3008 Page 16 11.0 Master finger mode Master finger mode was developed specially for small locking systems. The biometric reader is programmed once and fingerprints can then be learned simply on the biometric reader itself. No distinctions can be made using different transponder IDs (TIDs), because no TIDs are learned in master finger mode.
Page 52: Programming User Fingers
MANUAL - BIOMETRIC READER Q3008 Page 17 Highlight the lock to be addressed by the biometric reader and launch ‘Programming Lock‘ in the programming software. This is where you undertake basic configuration of the lock. Please perform the next steps on the biometric reader itself. The first two fingerprints are automatically stored as the master fingers! Place your finger on the sensor to activate the biometric reader.
Page 53: Recognize' Process
MANUAL - BIOMETRIC READER Q3008 Page 18 11.3 ‘Recognize’ process Please refer to chapter 4.0 Recognize process. 11.4 Deleting individual fingerprints To delete an individual fingerprint, proceed as follows: Place your finger on the sensor to activate the biometric reader. The LED flashes slowly in green.
Page 54: Resetting The Biometric Reader
MANUAL - BIOMETRIC READER Q3008 Page 19 11.6 Resetting the biometric reader To delete all stored fingerprints from the Q3008 biometric reader at the same time (including the locking system data), or if you want to exit master finger mode, you need to delete the complete fingerprint database and reset all locking system data.
Page 55: Meaning Of Led Signals
MANUAL - BIOMETRIC READER Q3008 Page 20 13.0 Meaning of LED signals The LED can light up in three colours: green, yellow and red. These colours have the following meanings: • Green Reader activated, awaiting fingerprint Fingerprint recognised, signal to open sent Fingerprint learning process successful •...
Page 56: Replacing The Battery
MANUAL - BIOMETRIC READER Q3008 Page 21 15.0 Replacing the battery Generally speaking, the battery should only be replaced by a trained specialist. To open the housing you will need a Torx key of size TX6. Please proceed as follows: Fully unscrew the two screws from the base of the housing.
Page 57: Special Functions
MANUAL - BIOMETRIC READER Q3008 Page 22 17.0 Special functions 17.1 Wireless circuit for SimonsVoss VdS shunt lock 3066 The biometric reader can be used to activate SimonsVoss arming units (VdS shunt lock 3066). The reader is fitted within the transmission range of the VDS arming unit for this purpose.
Page 58: Technical Data
MANUAL - BIOMETRIC READER Q3008 Page 23 18.0 Technical data 96 mm x 96 mm x 21.5 mm Dimensions (W x H x D) Weight 115 g (incl. batteries) Material Plastic Colour (housing) Grey Colour (finger guide) Black Number of fingers Number of fingers (master 48 users + 2 masters finger programming)
Page 59 PinCode Keypad 3068 State of : September 2006...
Page 60 PinCode Keypad 3068 Content General information Safety Remarks __________________________________________ 4 Product Description _______________________________________ 5 Functional Overview Function Overview ________________________________________ 5 Operating modes _________________________________________ 6 Operating _______________________________________________ 6 Start-up Programming PINs First Startup _____________________________________________ 8 Programming Additional PINs. _______________________________ 8 Procedure _______________________________________________ 9 Deleting PINs Description ______________________________________________ 9 Procedure ______________________________________________ 10...
Page 61 PinCode Keypad 3068 Content 13.0 Special Functions 13.1 Hidden Lock for SimonsVoss VdS Shuntlock 3066 ______________ 17 13.2 Miscellaneous ___________________________________________ 18 14.0 Technical Specification...
Page 62 PinCode Keypad 3068 Page 4 1.0. General information Please take 15 minutes and read through these Instructions in order to familiarise yourself with the function of your PinCode Keypad.. Safety Remarks Caution! Incorrect handling of the batteries used in this product can result in the risk of fire or burns.
Page 63 Installation is very simple, because absolutely no cabling is required. Because of the modularity, this component can be seamlessly integrated into the SimonsVoss System 3060, and, like all SimonsVoss components (on the transponder side), it can be programmed with the locking plan software. Functional Overview...
Page 64 After starting up and configuring the PinCode Keypad, it and a SimonsVoss locking represent a so-called "hidden lock" within the System 3060. You can program the PIN directly by making entries on the Keypad. On the other hand, the integrated transponders are programmed by means of the SimonsVoss software, and incorporated into the locking system in this way.
Page 65 PinCode Keypad 3068 Page 7 Start-up The first time the system is started up, you will need to replace the factory-set master PIN: 1 2 3 4 5 6 7 8 with your own master PIN. Requirement: • 8 digits •...
Page 66: Programming Pins
PinCode Keypad 3068 Page 8 Programming PINs The Master PIN required for all programming procedures is defined by the user (e.g. the System Administrator). Please keep it safe and inaccessible to unauthorised persons, since the Master PIN is required for all programming procedures. First Start-up For the first start-up, the safety of your locking system requires that you program at least one PIN.
Page 67 PinCode Keypad 3068 Page 9 Procedure Input "0" Input "master PIN" Input "1 Input "2" Input "3" (for PIN 1) (for PIN 2) (for PIN 3) Input PIN length 4, 5, 6, 7 or 8 Input "PIN" Deleting PINs Description To deactivate PINs again, follow these steps: Press "0"...
Page 68 PinCode Keypad 3068 Page 10 Attention: It is not possible to enter programming mode when there is a battery warning. This means that it is not possible to change or delete PINs when there is a weak battery. Programming mode will only be available again after you have successfully changed the battery (see the section "Battery Replacement).
Page 69 PinCode Keypad 3068 Page 11 Description To program the various transponders with the SimonsVoss software, please follow the procedure described in the following (also see the SimonsVoss "Software Manual"): Press the "0" button twice in order to enter the transponder programming mode.
Page 70 PinCode Keypad 3068 Page 12 Procedure Input "00" Input "master PIN“ Start “Transponder programming” function in the SV software!!! Transponder 1 = Transponder 2 = Transponder 3 = press "1" button press "2" button press "3" button Reading out Transponders Anytime it is possible to read out the integrated transponders (after they were programmed) with the SimonsVoss locking plan software.
Page 71 PinCode Keypad 3068 Page 13 Resetting Transponders Description To reset the various transponders, please proceed as follows: Press the "0" button twice. Enter the master PIN. Start the “Reset transponder" function n the SimonsVoss software. For the particular transponder : •...
Page 72 PinCode Keypad 3068 Page 14 Opening In order to use the PinCode Keypad to open the associated locking, proceed as fol- lows: Enter a PIN that has already been programmed. You are not permitted to wait more than 5 seconds between the entries of the individual numbers. In you have entered the correct number and the integrated transponder has been programmed, the LED lights GREEN and a signal is sounded.
Page 73 PinCode Keypad 3068 Page 15 11.0 Battery Warning To obtain a defined status for the PinCode Keypad and to minimise operating errors, a 2-level battery warning system has been integrated. When the battery capacity begins to drop, you will be notified of this in plenty of time to allow you to replace the batteries.
Page 74 PinCode Keypad 3068 Page 16 When replacing the batteries, be absolutely sure that no water is allowed to penetrate into the housing and that the electronics do not come into contact with water. If necessary, carefully wipe dry the housing section that is attached to the wall. (picture 1) (picture 2) (picture 3)
Page 75 PinCode Keypad 3068 Page 17 13.0 Special Functions 13.1 Hidden Lock for SimonsVoss VdS Shuntlock 3066 The PinCode Keypad can be used for activating SimonsVoss activation units (VdS Shuntlock 3066). This is done by mounting the Keypad within the transmitting range of the activation unit.
Page 76: Technical Specification
PinCode Keypad 3068 Page 18 Important: Please set the two-time opening protocol (double-click) only when you are using a SimonsVoss VdS Shuntlock 3066. Otherwise, there may be malfunctions or unwanted effects. You can switch from one configuration to the other at any time. Attention: It is not possible to enter programming mode when there is a battery warning.
Page 77 Digital Locking Cylinder 3061 VdS State of: September 2006...
Page 78 Digital Locking Cylinder 3061 VdS Page 2 Method of Operation __________________________________3 General Information ______________________________________ 3 Opening and Locking From Outside_________________________ 3 Opening and Locking From Inside __________________________ 3 Special Models _______________________________________4 FH Version ______________________________________________ 4 Overview _______________________________________________ 4 Additional Functions __________________________________4 OMRON ________________________________________________ 4 Extending the Coupling Time ______________________________ 4 Logging Unauthorized Access Attempts _____________________ 5...
Page 79: General Information
Digital Locking Cylinder 3061 VdS Page 3 Method of Operation General Information The Digital Locking Cylinder 3061 VdS meets the requirements of VdS (Association of German Property Insurers) Class B and its outer dimensions exactly match those of a standard mechanical cylinder. In comparison to mechanical systems, it excels because it is very easy to install, provides greater security, is more flexible and costs less to operate.
Page 80: Special Models
Digital Locking Cylinder 3061 VdS Page 4 Special Models The standard Digital Locking Cylinder 3061 VdS is equipped as a TZC version, which means that the following functions are always included: Access logging The locking cylinder stores the last 128 accesses with date, time and the user name of the transponder.
Page 81: Logging Unauthorized Access Attempts
Digital Locking Cylinder 3061 VdS Page 5 Logging Unauthorised Access Attempts For cylinder version 10.2 and later and in combination with the LDG Version 1.40, it is possible to log unauthorised access attempts, as well as authorised accesses. This includes both access attempts without authorisation and access attempts outside the specified time zone.
Page 82: Transponder
Digital Locking Cylinder 3061 VdS Page 6 Transponder If the transponder battery voltage is coming to an end, eight short signal tones, coming quickly one after another, sound each time the transponder is operated on the locking cylinder after the uncoupling. Attention: Do not take out the transponder battery because this will probably result in the loss of data.
Page 83: Installation Instructions
Digital Locking Cylinder 3061 VdS Page 7 Fix the lock nut in position with the special tool and press it against the flange. Now turn the inner knob onto the screw thread until the stop and tighten the locknut firmly. Now operate an authorised transponder and test the function.
Page 84: Inserting The Digital Cylinder Into The Lock
Digital Locking Cylinder 3061 VdS Page 8 Inserting the Digital Cylinder Into the Lock First turn the lock pin until it is pointing straight down. Then insert the Digital Locking Cylinder through the lock so that the inner knob (long knob) points toward the inside of the door.
Page 85: Data Sheet
Digital Locking Cylinder 3061 VdS Page 9 Data Sheet Knobs Material Stainless steel Colours Brushed stainless steel Brass Diameter 30 mm FH cylinder knobs Material Outer knob stainless steel, inner knob plastic Colour Black Diameter 30 mm Profile cylinders Standard length Outside 30 mm, inside 30 mm Construction length In 5 mm increments (no kit) up to a total...
Page 86 DIGITAL LOCKING CYLINDER 3061 Status: May 2007...
Page 87 Manual – Digital locking cylinder 3061 Page 2 1. General ________________________________________________________ 4 1.1 Notes on safety ___________________________________________ 4 1.2 Product description _______________________________________ 5 1.3 Design __________________________________________________ 5 1.4 Opening and locking from the outside ________________________ 6 1.5 Opening and locking from the inside _________________________ 6 2.
Page 88 Manual – Digital locking cylinder 3061 Page 3 4.3 Deactivated _____________________________________________ 15 4.4 Emergency connection activated ___________________________ 16 4.5 Time-controlled opening active_____________________________ 16 4.6 Engaged________________________________________________ 16 5. Installation instructions _________________________________________ 16 5.1 General notes ___________________________________________ 16 5.2 Programming the locking cylinder __________________________ 17 5.3 Installing twin-knob cylinders (except Type .AP) ______________ 18 5.4 Installing the anti-panic cylinder (Type .AP) __________________ 20 6.
Page 89: General
Manual – Digital locking cylinder 3061 Page 4 1. General Notes on safety • Lock installation and battery changes should only be carried out by trained personnel. • The cylinder must not come into contact with oil, paint or acids. •...
Page 90: Product Description
Your investment is thus protected, as "retrofitting" new functions is an uncomplicated matter. The System 3060 has a modular design that makes it easy to install further cylinders to subsequent extensions and to manage them online as a wireless network. An integrated voltage supply makes cylinder operation self-sufficient and independent from a mains power supply.
Page 91: Opening And Locking From The Outside
Manual – Digital locking cylinder 3061 Page 6 Opening and locking from the outside The external and internal knobs rotate freely when deactivated. The door cannot be opened or locked. Hold the transponder approximately 10 to 40 cm from the digital locking cylinder and briefly press the transponder button.
Page 92: Zk Version
Manual – Digital locking cylinder 3061 Page 7 ZK version Same design as the standard version but with access logging and time zone control. Access logging The locking cylinder can log the last 3,072 admissions together with the corresponding date, time and transponder ID (TID).
Page 93: Vds Version
Manual – Digital locking cylinder 3061 Page 8 VdS version Locking cylinder 3061 is also available as a VdS cylinder. Additional mechanical protection places this version in VdS Class B. This version cannot be combined with the WP and anti-panic versions. The VdS cylinder is only available in combination with ZK functionality.
Page 94: Wp Version
Manual – Digital locking cylinder 3061 Page 9 The following points need to be considered for doors installed along escape routes after 1. April 2003 (locks pursuant to standards DIN EN 179 and DIN EN 1125): • Cylinders from the 3061 design range can be used for all locks whose approval for use states that the locking cylinder has no influence on the lock's functionality.
Page 95: Overview
Manual – Digital locking cylinder 3061 Page 10 2.10 Overview Locking cylinder Locking cylinder FH Locking cylinder TS Locking cylinder AP (ZK) (ZK) (ZK) (ZK) Entrance doors Fire doors House doors Anti-panic doors House doors Aluminium doors Office doors Emergency exits Office doors Intermediate doors Self-locking doors...
Page 96: Programming And Configuration
Manual – Digital locking cylinder 3061 Page 11 Programming and configuration The following configuration options are available when the locking cylinder is selected as the locking type in the SimonsVoss Software (as of LDB Version 1.52 / 1.53): Configuration menu Access Control This is only possible with the .ZK version.
Page 97: Overlay Mode
Manual – Digital locking cylinder 3061 Page 12 Overlay mode This mode applies to the complete locking system and needs to be selected during the system's design phase. Replacement transponders can overwrite the original transponders. The first use of a replacement transponder will overwrite and block the original transponder.
Page 98: No Acoustic Confirmation Signals
Manual – Digital locking cylinder 3061 Page 13 No acoustic confirmation signals This checkbox should be activated if you want to suppress the acoustic confirmation signal for programming from the locking cylinder. This function is especially practical for network-based programming or data reading, as the acoustic signal emitted by the locking cylinder is not usually audible due to the distance.
Page 99: Flip-Flop
Manual – Digital locking cylinder 3061 Page 14 Manual engage (default setting) The locking cylinder does not engage automatically at the appointed time but remains disengaged until a subsequent command is received from an authorised transponder. Automatic engage The locking cylinder does not engage automatically at the appointed time but remains disengaged until a subsequent command is received from the first transponder.
Page 100: Status Reports
Manual – Digital locking cylinder 3061 Page 15 Status reports Status menu Battery condition critical This checkbox is checked automatically by the programming software when battery capacity starts to decline and status changes to battery warning level 1. Please change the batteries.
Page 101: Emergency Connection Activated
Manual – Digital locking cylinder 3061 Page 16 Emergency connection activated Locking cylinders installed within a SimonsVoss network can be permanently engaged automatically via an automated command in the programming software. The signal is usually transmitted by a fire detection system and can be interpreted by the LDB (if configured accordingly).
Page 102: Programming The Locking Cylinder
Manual – Digital locking cylinder 3061 Page 17 Programming the locking cylinder The digital locking cylinder and the corresponding transponders must be programmed into the locking plan prior to installation. Please see the software operating instructions for further details. Locking cylinders are delivered from the factory in so-called warehouse mode;...
Page 103: Installing Twin-Knob Cylinders (Except Type .Ap)
Manual – Digital locking cylinder 3061 Page 18 Installing twin-knob cylinders (except Type .AP) Ratchet disk with opening (external side identical) Assembly/battery tool External knob Assembly tool Internal knob Recessed grip ring Side marking 5.3.1 Remove the external knob Hold the assembly/battery tool against the external knob so that both nibs fit into the openings on the external knob (if necessary rotate the knob until the nibs slot into the ratchet disk).
Page 104 Manual – Digital locking cylinder 3061 Page 19 Replace the knob and rotate it anti-clockwise under light pressure until the external knob fits into the recesses on the flange. If necessary, push the knob in this position towards the profile cylinder housing. Caution: rotating the bayonet disk when not installed can prevent the knob from fitting correctly.
Page 105: Installing The Anti-Panic Cylinder (Type .Ap)
Manual – Digital locking cylinder 3061 Page 20 Installing the anti-panic cylinder (Type .AP) Assembly/battery tool External knob Recessed grip ring Internal knob 5.4.1 Remove internal knob Loosen the inner knob's threaded pin (see illustration in chapter 5.4) with an Allen key (but do not unscrew it completely).
Page 106 Manual – Digital locking cylinder 3061 Page 21 5.4.3 Fitting the internal knob Screw the internal knob onto the thread; the actuator in the lock will provide the necessary counterforce. Tighten the inner knob or, in the case of .AP cylinders, slide it right up to the stop.
Page 107: Battery Warnings
Manual – Digital locking cylinder 3061 Page 22 Actuators that remain in the highest position will have no effect on the functionality of approved anti-panic locks pursuant to standards DIN EN 179 and DIN EN 1125. If the knob is moved slightly beyond the transition point between the areas "O"...
Page 108 Manual – Digital locking cylinder 3061 Page 23 Warning level 2: extremely weak batteries If the batteries are allowed to discharge even further, subsequent transponder operation will induce a succession of short signal tones lasting approximately 30 seconds before the cylinder engages. The cylinder will not engage until after the acoustic signal has ended.
Page 109: Transponder
Manual – Digital locking cylinder 3061 Page 24 6.1.2 Procedure for emergency battery - warehouse mode Please proceed as follows to change the batteries if the locking cylinder is in emergency battery - warehouse mode: • Go to the door and take a Notebook or PDA (having exported the locking plan) and a programming device with you.
Page 110: Signal Tones
Manual – Digital locking cylinder 3061 Page 25 Signal tones Signal type Meaning Required action 2 short tones prior to engaging Normal operation None and one short tone after sengaging Battery warning level 1: Batteries will soon be empty Change the cylinder batteries 8 short tones prior to engaging Batteries are nearly Battery warning level 2:...
Page 111: Procedure
Manual – Digital locking cylinder 3061 Page 26 Please dispose of discharged lithium batteries immediately. Keep out of reach of children. Do not open. Do not throw into a fire. Always replace both batteries together at the same time. Please also see the safety notes in chapter 1.1. Procedure Hold the assembly/battery tool against the knob so that both nibs fit into the openings on the ratchet disk (if necessary rotate the knob until the nibs slot into the...
Page 112: Possible Uses
Manual – Digital locking cylinder 3061 Page 27 Slide the recessed grip ring back onto the knob so that the knob and ring are flush against each other. 10. Hold the assembly/battery tool against the internal knob so that both nibs fit into the openings on the ratchet disk (if necessary rotate the knob until the nibs slot into the openings).
Page 113: Accessories
Manual – Digital locking cylinder 3061 Page 28 10. Accessories 10.1 Knobs The following special knobs are available as accessories: • External knob in a TN3 design • External knob 42 mm diameter with grip recesses • Internal knob 36 mm diameter for .TS cylinders •...
Page 114: Data Sheet
Manual – Digital locking cylinder 3061 Page 29 11. Data sheet Knobs Material Stainless steel Colours Satin stainless steel Diameter 30 mm Length 37 mm (from profile face) FH cylinder knobs Material Internal knob: cap stainless steel Recessed grip area plastic External knob: identical to standard cyl.
Page 115 Manual – Digital locking cylinder 3061 Page 30 Batteries Type CR 2450 Manufacturer Varta, (Panasonic, Sony) Quantity 2 pieces Voltage 3 Volt Lifetime Approx. 150,000 operations or approx. 7 years on stand-by Ambient conditions Operating temperature -20°C to +50°C Storage temperature -30°C to +60°C Protection Class IP 54 (when installed)
Page 116 Digital Half Cylinder 3061 State of: September 2006...
Page 117 Digital Half Cylinder 3061 Content Method of Operation __________________________________4 General Information ______________________________________ 4 Opening and Locking _____________________________________ 4 Special Models _______________________________________4 PLUS Version ___________________________________________ 4 Additional Functions __________________________________5 OMRON ________________________________________________ 5 Extending the Coupling Time ______________________________ 5 Logging Unauthorized Access Attempts _____________________ 5 No Acoustic Programmer Acknowledge _____________________ 5 Battery Warnings _____________________________________6 Half Cylinder ____________________________________________ 6...
Page 118 Digital Half Cylinder 3061 Content Installation Instructions________________________________8 General Information ______________________________________ 8 Programming a Half Cylinder ______________________________ 8 Installing in Doors _______________________________________ 8 Installation Behind Blanks for Half Cylinders With 3 Setscrews __ 9 (New Flange Mounting) _________________________________________ 9 6.4.1 Removal of the Knob and Flange of the Half Cylinder __________ 9 6.4.2 Installing the Knob and Flange of the Half Cylinder ___________ 10 Installation Behind Blanks for Half Cylinders With 2 Setscrews _ 11 (Old Flange Mounting) ________________________________________ 11...
Page 119 Digital Half Cylinder Page 4 Method of Operation General Information The outer dimensions of the Digital Half Cylinder exactly match those of a mechanical cylinder complying with DIN 18252. Please ask for approved self-locking and anti- panic locks at the manufacturer. Opening and Locking When not activated, the outer knob turns freely.
Page 120 Digital Half Cylinder Page 5 Additional Functions OMRON All product versions can be operated in OMRON mode. You will find a detailed description in the Smart Relay manual. Extending the Coupling Time The default time for the coupling of the cylinder is approximately 5 seconds. You can use the software to extend this time to approximately 10 seconds.
Page 121 Digital Half Cylinder Page 6 Battery Warnings Half Cylinder Warning level 1 for main battery If the main battery of the half cylinder goes empty, eight short signal tones, coming quickly one after another, sound after you operate the transponder and before the cylinder couples.
Page 122 Digital Half Cylinder Page 7 Battery Replacement Only authorised personnel are permitted to replace the battery. Use only batteries that are supplied by SimonsVoss. 1. Firmly hold the knob and remove the locknut on the back of the knob from the knob with the special tool for half cylinders.
Page 123 Digital Half Cylinder Page 8 Installation Instructions General Information Only trained and authorised personnel are permitted to perform the installation. The battery used in the cylinder can present a risk of fire and burns if not handled correctly! Do not charge, open, heat to more than 100° C (212° F) or burn! Do not short-circuit! When installing the digital half cylinder, make sure that there are no sources of interference in the vicinity.
Page 124 Digital Half Cylinder Page 9 Installation Behind Blanks for Half Cylinders With 3 Setscrews (New Flange Mounting) pipe locknut setscrews pipe main backuo battery battery knob slot cable flange allen screw electronics module 6.4.1 Removal of the Knob and Flange of the Half Cylinder 1.
Page 125 Digital Half Cylinder Page 10 6.4.2 Installing the Knob and Flange of the Half Cylinder 1. Put on the locknut. The flat surface with the bore holes faces away from the cylinder. Note: If you cannot see any screw thread on the end of the pipe, this cylinder has a new flange mounting (in this case, refer to Point 6.4).
Page 126 Digital Half Cylinder Page 11 Installation Behind Blanks for Half Cylinders With 2 Setscrews (Old Flange Mounting) locknut flange pipe electronics module knob slot for positioning of the special tool setscrew 6.5.1 Removal of the Knob and Flange of the Half Cylinder 1.
Page 127 Digital Half Cylinder Page 12 the flange holds securely. To find the exact position quickly, the flat surfaces of the pipe and flange have black markings that must line up. 3. Put the flange on the end of the pipe without screwing it in. The side with the small outside diameter points towards the door.
Page 128 Digital Half Cylinder Page 13 Data Sheet Dimensions Standard length 30/10 mm Standard length Multirast (MR) 30/15 mm Max. profile length 100 mm (in 5mm intervals) Knob diameter 33,5 x 30 mm Knob length 51.5 mm (distance from knob end to profile fore-part) Standard for profile DIN 18252...
Page 129 DIGITAL HALF CYLINDER 3061 Status: April 2007...
Page 130 Manual – Digital Half Cylinder 3061 Page 2 1. General ________________________________________________________ 4 1.1 Notes on safety ___________________________________________ 4 1.2 Product description _______________________________________ 5 1.3 Design __________________________________________________ 5 1.4 Opening and closing ______________________________________ 5 2. Versions _______________________________________________________ 6 2.1 Standard version__________________________________________ 6 2.2 ZK version _______________________________________________ 6 2.3 WP version ______________________________________________ 6 2.4 Overlengths ______________________________________________ 7...
Page 131 Manual – Digital Half Cylinder 3061 Page 3 5.3 Installing the half cylinder (except .MR) ______________________ 13 5.4 Removing the multistage half cylinder _______________________ 14 5.5 Installing the multistage half cylinder _______________________ 15 6. Battery warnings _______________________________________________ 16 6.1 Half cylinder ____________________________________________ 16 6.2 Transponder ____________________________________________ 18 7.
Page 132: General
Manual – Digital Half Cylinder 3061 Page 4 General Notes on safety • Lock installation and battery changes should only be carried out by trained personnel. • The cylinder must not come into contact with oil, paint or acids. • Only use batteries approved by SimonsVoss.
Page 133: Product Description
Your investment is thus protected, as "retrofitting" new functions is an uncomplicated matter. The System 3060 has a modular design that makes it easy to install further cylinders to subsequent extensions and to manage them online as a wireless network. An inte- grated voltage supply makes cylinder operation self-sufficient and independent from a mains power supply.
Page 134: Versions
Manual – Digital Half Cylinder 3061 Page 6 You have approximately five seconds for this operation. (The engaging time can be ex- tended to 10 seconds using the software. This will not shorten battery life.) The half cyl- inder will emit a single signal tone and the knob will again turn freely. Make sure the half cylinder knob turns freely after the disengaging.
Page 135: Overlengths
Manual – Digital Half Cylinder 3061 Page 7 Overlengths All half cylinders are available up to a maximum length of 100 mm, and 90 mm on the external side. Longer versions are available on request. Programming and configuration The following configuration options are available when the locking cylinder is selected as the locking type in the SimonsVoss Software (as of LDB Version 1.52 / 1.53): Configuration menu...
Page 136: Time Zone Control
Manual – Digital Half Cylinder 3061 Page 8 Time zone control This is only possible with the .ZK version. It is possible to load time zones which then authorise and block transponders according to their time zone group. A time zone plan also enables time-controlled switching. Overlay Modus This mode applies to the complete locking system and needs to be selected during the system's design phase.
Page 137: Logging Unauthorised Access Attempts
Manual – Digital Half Cylinder 3061 Page 9 This function is especially practical for network-based programming or data reading, as the acoustic signal emitted by the half cylinder is not usually audible due to the dis- tance. Logging unauthorised access attempts As a rule, the system only logs authorised transponder operations.
Page 138: Flip-Flop
Manual – Digital Half Cylinder 3061 Page 10 The half cylinder does not engage automatically at the appointed time but re- mains disengaged until a subsequent command is received from the first trans- ponder. You should select this option if you want the half cylinder to engage automatically at the appointed time.
Page 139: Status Reports
Manual – Digital Half Cylinder 3061 Page 11 Status reports Status menu Battery condition critical This checkbox is checked automatically by the programming software when battery ca- pacity starts to decline and status changes to battery warning level 1. Please change the batteries.
Page 140: Emergency Switch Activated
Manual – Digital Half Cylinder 3061 Page 12 Emergency switch activated Half cylinders installed within a SimonsVoss network can be permanently engaged automatically via an automated command in the programming software. The signal is usually transmitted by a fire detection system and can be interpreted by the LDB (if configured accordingly).
Page 141: Installation Instructions
Manual – Digital Half Cylinder 3061 Page 13 Installation instructions General notes When installing the digital half cylinder, make sure no sources of low- frequency radio interference are located nearby. There should be at least 0.5 m distance between individual locking cylinders and 1.5 m between Smart Relays or arming units.
Page 142: Removing The Multistage Half Cylinder
Manual – Digital Half Cylinder 3061 Page 14 5.3.1 Perform a function test Engage the half cylinder using the transponder; with the door open, turn the knob in both directions for opening and locking. The knob should turn freely in both directions. Close the door and repeat the test.
Page 143: Installing The Multistage Half Cylinder
Manual – Digital Half Cylinder 3061 Page 15 Installing the multistage half cylinder 1. Remove the metal plates from the inner tube and slide a plastic plate on to it. (The plastic plates are included in the packaging!) 2. Now slide the metal plates back on to the inner tube so that one plastic plate and a number of metal plates determined by the half cylinder model are located on the inner tube.
Page 144: Battery Warnings
Manual – Digital Half Cylinder 3061 Page 16 Battery warnings Each half cylinder has a battery management system that indicates declining battery power in good time. This helps prevent the batteries from becoming completely dis- charged. The battery warning levels are described in the following. Half cylinder Warning level 1: weak batteries When a half cylinder's batteries are running low it will emit eight short signal...
Page 145 Manual – Digital Half Cylinder 3061 Page 17 6.1.1 Schema Normal operation 8x double beeps Residual capacity < 25% Battery warning level 1: Weak batteries Up to 15,000 operations or 9 months Programming device Emergency battery - Battery warning level 2: Warehouse mode Extremely weak batteries ca.
Page 146: Transponder
Manual – Digital Half Cylinder 3061 Page 18 Transponder When the transponder's battery voltage starts to decline, each transponder operation will cause the half cylinder to emit eight short signal tones in rapid succession after it has disengaged. Signal tones Signal type Meaning Required action...
Page 147: Battery Change
Manual – Digital Half Cylinder 3061 Page 19 Battery change General notes Batteries should only be changed by trained personnel. Only use batteries ap- proved by SimonsVoss. Please see the data sheet for further information. Reversing polarity can result in damage to the locking cylinder. The bat- teries used in this device can cause fire or burns if handled incorrectly.
Page 148 Manual – Digital Half Cylinder 3061 Page 20 Batteries Recessed grip ring Knob Markings Replace the knob (according to the triangular markings, see drawing), hold the re- cessed grip ring and turn the inner knob (approx. 10°) in a clockwise direction to tighten.
Page 149: Possible Uses
Manual – Digital Half Cylinder 3061 Page 21 Possible uses General The digital locking cylinder is designed to fit locks for Euro profile cylinders compliant with DIN 18252 and EN1303. Outdoor installation situations Unless it is ensured that the door is completely water-proof it is recommendable to use the .WP version of each respective model.
Page 150: Data Sheet
Manual – Digital Half Cylinder 3061 Page 22 11. Data sheet Knobs Material Stainless steel Colours Satin stainless steel Diameter 30 mm Length 37 mm (from profile face) Profile cylinder Basic length External 30 mm, internal 10 mm Design lengths in increments of 5 mm (no kits) up to 100 mm overall length, whereby the external side of the cylinder can be up to a maximum of 90 mm in...
Page 151 Smart Relay: SREL, SREL.ZK, SREL.AKV State of: September 2006...
Page 152 Smart Relay: SREL, SREL.ZK, SREL.ADV Content Important Information _________________________________4 Product Description ___________________________________4 Before Ordering ______________________________________5 Determine Which Version of the Smart Relay you need_________ 5 Determine Which Accessories you need _____________________ 5 Dimension and Procure Power Supplies _____________________ 5 Determine the Installation Position__________________________ 6 Additional Information: ___________________________________ 6 Before Installation ____________________________________6 Installation of the Backup battery ___________________________ 7...
Page 153 Smart Relay: SREL, SREL.ZK, SREL.ADV Content 7.11 Number of expansion modules ____________________________ 15 7.12 Pulse length ___________________________________________ 15 7.13 Interface _______________________________________________ 16 7.14 Restricted range ________________________________________ 16 7.15 External Beeper/ External LED ____________________________ 16 7.16 Log unauthorised accesses ______________________________ 17 Serial Interface ______________________________________18 Functional Description ___________________________________ 18 Wiegand Interface (32 bit and 26 bit) _______________________ 18...
Page 154: Important Information
Smart Relay: SREL, SREL.ZK, SREL.ADV Page 4 Important Information Safety remark: Caution! – Incorrect handling of the batteries and storage batteries used in this product can result in the risk of fire or burns. Do not charge, open or burn these batteries or heat them to more than 100 °C (212 °F).
Page 155 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 5 Before Ordering Determine Which Version of the Smart Relay you need 1. Smart Relay basic version: ordering code SREL This relay allows simple yes/no authorisation for up to 8184 different transponders. 2. Smart Relay TZC version with access logging and time zones: ordering code SREL.ZK.
Page 156: Before Installation
Smart Relay: SREL, SREL.ZK, SREL.ADV Page 6 Determine the Installation Position The range from the transponder to the Smart Relay (reader range) is a maximum of 1.5 m (5 feet), but can be dampened by a metal environment (particularly by strong magnetic fields or aluminium).
Page 157 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 7 Installation of the Backup battery Backup Batterie nur einsetzen, wenn das Smart Relais mit Insert the battery only if you will be operating the Smart Relay with Netzteil betrieben wird, bei Betrieb mit SREL.BAT diese the power supply.
Page 158 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 8 Installation Switch off the supply voltage (if necessary, pull out the plug or disconnect the battery). Connect all cables to the terminals provided on the Smart Relay (see Connection Assignments on the following page) If you are connecting a direct current power supply, make sure that you get the polarity right.
Page 159 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 9 Connection Assignments SREL and SREL.ZK + / ~ Power Netzteil - / ~ Battery Batterie SREL.BAT Antenna Relais Externe Ein- external inputs Ausgänge and outputs Brown White + / ~ Externe Antenne External antenna Power supply Green Netzteil...
Page 160 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 10 SREL.ADV Description of the SREL, SREL.ZK and SREL.ADV Connection Name Symbol Description Power supply + / ~ If connecting a direct current (5 to 24 VDC) source, use the positive pole, otherwise use one of the two alternating current connections (12 VAC) Power supply - / ~...
Page 161 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 11 Programming and Configuration When you choose Smart Relay as the locking type in the SimonsVoss software (Version 1.40 and later), you have the following configuration option’s:...
Page 162 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 12 Access control Only possible for SREL.ZK and SREL.ADV The last 1024 transponder activation’s are saved with the date and time. Time zone control Only possible for SREL.ZK and SREL.ADV You can load a time zone plan and the transponders are then approved or blocked, according to their time zone group.
Page 163 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 13 1. Manual locking: The door is not locked automatically according to the selected time of day, but instead only after an authorised transponder is operated after this time. 2. Automatic locking (default setting): The door is locked at exactly the time stored in the time zone plan.
Page 164 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 14 7.7.1 The Smart Relay in OMRON Mode Authorized? Access control system Externes Zutrittskontroll- oder External access control or Zeiterfassungssystem time recording system Release relay Freischalt Relais + 5..12VDC Pull up resistors Pull Up Widerstände Clock / D1 Data / D0 Brown...
Page 165 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 15 No acoustic programmer acknowledge Only SREL.ADV Mark this field if you want no programmer acknowledge to be given via a connected buzzer/beeper when the Smart Relay is programmed. External beeper/ External LED Only SREL.ADV This is where you specify which external unit is connected.
Page 166 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 16 7.13 Interface Only for SREL.ADV For operation as a serial interface, you can select the type of card reader here that the Smart Relay should simulate. You have the following option’s: Wiegand 32 bit Wiegand 26 bit Primion Siemens...
Page 167 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 17 If the current for the external component is larger than 10 mA, then this component must be fed by an external power supply. In this case, the connection should be made as follows: Ext.
Page 168 Smart Relay: SREL, SREL.ZK, SREL.ADV External access control or time recording system Page 18 Serial Interface Functional Description In order to use a Smart Relay as a card reader in an external access control or time recording system, both the hardware (cable and signal level) and the data formats must correspond exactly to those of the card reader.
Page 169 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 19 Kaba Benzing, Siemens, Gantner Legic, Primion, Isgus Interface Externes Zutrittskontroll- oder External access control or time recording system Zeiterfassungssystem + 5..12VDC Pull-up resistors Pull Up Widerstände Clock Data Brown + / ~ White Externe Antenne F2 F1 External antenna...
Page 170 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 20 Backup Battery A discharged backup battery can cause the internal clock in the type SREL.ZK or SREL.ADV Smart Relay to stop. For this reason, we recommend that you check the time of day at routine intervals. A backup battery will last approximately 10 years if there is no power supply interruption.
Page 171 Smart Relay: SREL, SREL.ZK, SREL.ADV Page 21 10.0 Data sheet Housing made of black plastic: 72 x 57 x 25.5 mm (approximately 2.8 x 2.2 x 1.0 inches) Dimensions [LxWxH Degree of protection IP 20, not tested for outside use Temperature Operation at: -22°C to +55°C (-31°F to +131°F)
Page 172 Smart Output Module State of: June 2006...
Page 173 Smart Output Module Content Important Information _________________________________4 Product Description ___________________________________4 Before Ordering ______________________________________5 Smart Relay _____________________________________________ 5 Determine the Number of Modules that are Needed ____________ 5 Obtain and Dimension the Power Supply ____________________ 5 Determine the Installation Technique and the Installation Site ___ 5 Cable Types and Paths ___________________________________ 5 Outside Installation ______________________________________ 5 Guidelines ______________________________________________ 5...
Page 174 Smart Output Module Content Meaning of the LEDs _________________________________15 LEDs for Each Output ___________________________________ 15 State LED ______________________________________________ 15 10.0 Technical Specifications ______________________________16...
Page 175 Installation of a SimonsVoss Smart Output Module requires knowledge in the areas of approvals for electronic and electrical installation and in the use of SimonsVoss software and the SimonsVoss System 3060. For this reason, only trained and expert personnel should install the unit.
Page 176 Smart Output Module Page 5 Before Ordering Smart Relay At least one type SREL.ADV Smart Relay is necessary for operating a Smart Output Module. Please read the Smart Relay Product Manual for information on ordering. Determine the Number of Modules that are Needed Up to 16 external modules can be connected to one type SREL.ADV Smart Relay.
Page 177 Smart Output Module Page 6 Before Installation Unpack the Smart Output Module and inspect it for external damages. Connect the Smart Output Module to a type SREL.ADV Smart Relay (see Connection to the Smart Relay) and provide both units with voltage over the power supply.
Page 178 Smart Output Module Page 7 Connections Terminal Assignments Outputs Ausgänge / Outputs Bus connection Busanschluß To type SREL.ADV zum Smart Relais Typ Smart Relay SREL.ADV I- / I+ Nicht belegt I- / I+ Not used Output Output -wenn die Versorgungsspannung unter This output switches 10,5 V +/-0,5V absinkt schaltet dieser off when the supply...
Page 179 Smart Output Module Page 8 Connection Assignments Name Symbol Description Output If the supply voltage falls below 10.0 VDC +/- 0.5V, this output switches off. Typically, this output is connected to A-, if it is necessary to switch the AUX relay before the switching functions fail.
Page 180 Smart Output Module Page 9 Connection to the Smart Relay Netzteil...
Page 181 Smart Output Module Page 10 Standard Power Supply Connection Netzteil Power supply Emergency Release Connection for a Fire Alarm System When the fire alarm system relay opens, the Smart Output Module supply voltage is stopped, consequently closing outputs 1 to 8. Out| I-|I+| B | A | C |4a|4b|3a|3b|2a|2b|1a|1b |A-|K1|A+| +|K2|8a|8b|7a|7b|6a|6b|5a|5b...
Page 182 Smart Output Module Page 11 Protective Circuit to Prevent an Opening when the Supply Voltage Fails When the supply voltage range falls below the acceptable level, the actuator supply over the AUX relay is interrupted. The switching output (OUT) is used in this connection.
Page 183 Smart Output Module Page 12 Protective Circuit for the Signaling Option Outputs Each pair of terminals opposite one another (1 and 5, 2 and 6, 3 and 7, 4 and 8) works together. When the lower output in the module is switched, the corresponding assigned output blinks.
Page 184 Smart Output Module Page 13 Programming and Configuration General Information To program the Smart Output Module, connect it to a type SREL.ADV Smart Relay. Supply power to both the Smart Relay and the Smart Output Module and hold the programming device close to the Smart Relay. The Smart Output Module itself cannot communicate with the Config Device.
Page 185 Smart Output Module Page 14 Adjust the Pulse Length The modules appear in the locking plan as the locking type "expansion module". You can select a pulse length from 0.1 to 25.5 seconds in the configuration for each module. This length then applies to all of the module's outputs. Select Signaling Signaling is a special function where two of a module's outputs always work together.
Page 186: Meaning Of The Leds
Smart Output Module Page 15 Meaning of the LEDs LEDs for Each Output Each of the 8 outputs has an LED assigned to it. This LED displays the state of the output. Green -> output closed Off -> output open State LED In addition, there is a three-color LED that displays the state of the Smart Output Module:...
Page 187: Technical Specifications
Smart Output Module Page 16 10.0 Technical Specifications Housing made of plastic with transparent Dimensions: L x W x H cover for mounting on DIN rail. 75 x 75 x 53 mm (approx. 3.0 x 3.0 x 2.1 inches) Weight Approx.
Page 188 VdS Shunt lock function 3066 Version: September 2006...
Page 189 VdS Shunt lock function 3066 Content Deactivation unit Deactivation unit Deactivation unit Activation unit with configuration MASTER Alarm System Functional Description ________________________________4 General Information ______________________________________ 4 Safety Remarks __________________________________________ 6 Assembly Instructions_________________________________7 General Information on Installing the Components ____________ 7 Installing the Deactivation Unit (DA)_________________________ 8 2.2.1 Testing the Deactivation Unit (DA) __________________________ 9 2.2.2 Connecting Power Supply, Lock Contact Evaluation and...
Page 190 VdS Shunt lock function 3066 Content Installing the Slave Activation Unit (SA) ____________________ 14 2.4.1 Testing the Slave Activation Unit (SA) ______________________ 15 2.4.2 Connecting Power Supply, Sabotage Contacts and Local______ 15 Activation Suppression: _______________________________________ 15 2.4.3 Connecting Deactivation Acknowledgement and Activation Request _______________________________________________ 16 Wiring the Shunt Lock Components________________________ 16 Functional Principles ____________________________________ 17...
Page 191: Functional Description
VdS Shunt lock function 3066 Page 4 Functional Description General Information In objects protected by the alarm, measures must be taken to prevent any unintentional entry of the secured area when the alarm system (burglar alarm system, BAS) is activated externally, because this would trigger a false alarm. The Shunt Lock function 3066 implements such a feature without requiring extensive work on the door or doorframe.
Page 192 VdS Shunt lock function 3066 Page 5 Switching on the alarm system (burglar alarm system, BAS) The person with switching authorization presses his or her transponder near an activation unit two times in quick succession (within 2 sec.). This sends a signal to all deactivation units present.
Page 193 VdS Shunt lock function 3066 Page 6 Time zone control und access logging The activation units (master and slaves) can log activation/deactivation switches (access logging), and you can define time slots during which it is possible to activate/deactivate the system (time zone control): Access logging The activation unit stores the last 128 activations/deactivations with date, time and the user name of the transponder.
Page 194 VdS Shunt lock function 3066 Page 7 Assembly Instructions General Information on Installing the Components Always install in the protected area, for example, in the inside area behind the door, behind brickwork, etc. There are some materials, however, such as stainless steel or aluminum, that can significantly reduce the range.
Page 195 VdS Shunt lock function 3066 Page 8 Installing the Deactivation Unit (DA) + 8 ...16V Masse +LED - LED SAB0 SAB0 SAB0 SAB0 Soldering terminal assignments: Supply voltage positive pole Supply voltage negative pole (ground) 3 + 4 Connection for LED (5 volts) in outside area 5 - 7 Not used 8 - 11 Sabotage contacts...
Page 196 VdS Shunt lock function 3066 Page 9 2.2.1 Testing the Deactivation Unit (DA): To test, connect the deactivation unit to a 9-volt compound battery. Make sure that the polarity is correct. Position the deactivation unit within radio range of the digital locking: Deactivation unit digital locking cylinder max.
Page 197 VdS Shunt lock function 3066 Page 10 Test the shunt lock function again after you have connected the lock switch contact. Try to deactivate the locking cylinder or Smart Relay even when the bolts have not been driven out. • External light emitting diode You can connect an external light emitting diode to soldering terminals 3 and 4 so that you have a visual display in the outside area showing whether the cylinder or Smart...
Page 198 VdS Shunt lock function 3066 Page 11 Installing the Master Activation Unit (MA) + 8 ..16 V Masse +LED - LED SAB0 SAB0 SAB0 SAB0 Soldering terminal assignments: Supply voltage positive pole Supply voltage negative pole (ground) 3 + 4 Connection for LED (5 volts) in outside area 5 - 7 Floating contacts for switching the alarm system...
Page 199 VdS Shunt lock function 3066 Page 12 The BAC must draw pin 29 to ground for the acoustic acknowledgement . Jumper B2 is inserted: ⇒ Maximum transmitting range. For VdS-compliant installation, however, you must then work with external keys to differentiate between outside and inside. (refer to 4.3 VdS-Compliant Installation of the Activation Unit).
Page 200 VdS Shunt lock function 3066 Page 13 • External light emitting diode You can connect an external light emitting diode to soldering terminals 3 and 4 for visual signaling. When the transponder is operated successfully, the LED blinks. Maximum length of the line: 10 m (33 feet). •...
Page 201 VdS Shunt lock function 3066 Page 14 Installing the Slave Activation Unit (SA) + 8 ..16 V Masse +LED - LED SAB0 SAB0 SAB0 SAB0 Soldering terminal assignments: Supply voltage positive pole Supply voltage negative pole (ground) 3 + 4 Connection for LED (5 volts) in outside area 5 - 7 Not used...
Page 202 VdS Shunt lock function 3066 Page 15 Jumper B2 is inserted: ⇒ Maximum transmitting range. For VdS-compliant installation, however, you must then work with external keys to differentiate between outside and inside. (Refer to 4.3 VdS-Compliant Installation of the Activation Unit). ⇒...
Page 203 VdS Shunt lock function 3066 Page 16 • Switch contacts Soldering terminal 5 to 7 are not needed for the slave activation unit unless you want to use the SA for internal activation. In this case, wire the SA separately from other activation units.
Page 204 VdS Shunt lock function 3066 Page 17 Deactivation request Solder pin 13 Solder pin 14 Deactivation acknowledgement Solder pin 14 Solder pin 13 Solder pin 13 Activation request Solder pin 12 Solder pin 14 Activation suppression Solder pin 12 Solder pin 12 Supply voltage positive Solder pin 1 Solder pin 1...
Page 205 VdS Shunt lock function 3066 Page 18 7. Instead of operating the transponder at the MA, the slave activation units (after transponder activation at the SA by someone authorized to activate the system) can trigger an activation or deactivation process with a "high- impedance –...
Page 206 VdS Shunt lock function 3066 Page 19 After you have completed the installation work, carry out a function test. Do this by operating an authorized transponder near the activation unit twice in quick succession. The light emitting diodes on the activation unit and the deactivation unit(s) go out and you receive the acoustic acknowledgement signal from the BAC or (if jumper B1 is inserted on the right) the signal lasting 2.5 seconds from the activation unit indicating that the alarm system has been activated.
Page 207 VdS Shunt lock function 3066 Page 20 Programming Programming the Activation Units (MA and SA) If you want to add the shunt lock components at some time after the initial installation, open your locking plan with the password. If this is the initial installation, create a new locking plan.
Page 208 VdS Shunt lock function 3066 Page 21 In the locking plan, make a cross by the employees who are authorized to turn the alarm system on and off. You do not have to reprogram the transponders in this case. ☺ Approve your locking system and program the activation unit under Programming Locking .
Page 209 VdS Shunt lock function 3066 Page 22 Programming the Deactivation Units (DA) Click the line in the locking plan above the one where you want to add a deactivation unit. Select New Locking . Then give the deactivation unit a name: Such as Deactivation unit, main entrance In the field Type , select Control unit .
Page 210 VdS Shunt lock function 3066 Page 23 Read out the shunt lock components: Programming Read unknown locking . The type of the component (deactivation unit or activation unit) is displayed. Attention: The display treats slave activation units as normal control unit.
Page 211 VdS Shunt lock function 3066 Page 24 Installation Installing the Deactivation Unit Install the deactivation unit DA in the immediate vicinity of the digital locking cylinder (no farther than approximately 30 cm or 12 inches). This guarantees optimum transmission traffic. Align the deactivation unit so that both fastening screws lie in a horizontal line.
Page 212 VdS Shunt lock function 3066 Page 25 Installing the Activation Unit (MA and SA) You should install the activation unit (AU), no matter whether it is a master activation unit MA or slave activation unit (SA), above the door case and above the locking cylinder.
Page 213 VdS Shunt lock function 3066 Page 26 VdS-Compliant Installation of the Activation Unit (MA and SA) VdS-compliant installation must guarantee that the system can be activated from the outside, but not from the inside. This requires the following measures: 3. Use activation units with antenna extender. Shorten the color-coded cable on the antenna extender to the required length, pull the cable through the bore hole in the aluminum screening sleeve and connect the cable to soldering connections 16 to 20 as follows:...
Page 214 VdS Shunt lock function 3066 Page 27 7. You can also optionally use an activation unit without antenna extender. Install it as described in Chapter 4.2. In order to guarantee that the system can be externally activated from the outside only, you must then install a button in the outside area. You cannot externally activate or deactivate the system by operating a transponder until this button is pushed.
Page 215 VdS Shunt lock function 3066 Page 28 Special Versions of the Shunt lock function 3066 Operating the Activation Unit without a Deactivation Unit If you want to activate and deactivate the burglar alarm system externally with the transponder instead of with a key, you only need a master activation unit (MA). In this case, however, you will lose the true purpose of the Shunt lock function.
Page 216 VdS Shunt lock function 3066 Page 29 Data Sheet MA, SA and DA Operating voltage 8 to 16 volts DC Current consumption < 30 mA Applied relay Max. continuous current for switching output Max. switch on current Max. switching voltage 40 V AC Max.
Page 217 Shunt lock function 3066 Operator Instructions Version: January 2004...
Page 218 VdS Shunt lock function 3066 Content Deactivation unit Deactivation unit Deactivation unit Activation unit with configuration MASTER Alarm System Shunt lock function 3066 System Components ____________3 Shunt lock function 3066 Operation______________________4 Special Versions of the Shunt lock function 3066 __________6 Operating the Activation Unit without a Deactivation Unit_______ 6 Operating the Deactivation Unit without an Activation Unit______ 6 Data Sheet___________________________________________7...
Page 219 VdS Shunt lock function 3066 Page 3 Shunt lock function 3066 System Components In objects protected by the alarm, measures must be taken to prevent any unintentional entry of the secured area when the alarm system is activated externally (burglar alarm system, BAS) because this would trigger a false alarm. The Shunt lock function 3066 implements such a feature without extensive work on the door or doorframe.
Page 220 VdS Shunt lock function 3066 Page 4 Shunt lock function 3066 Operation Switching on the alarm system (burglar alarm system, BAS) The person with switching authorization presses his or her transponder two times in quick succession (within 2 sec.) near an activation unit. This sends a signal to all deactivation units present.
Page 221 VdS Shunt lock function 3066 Page 5 • Special model If you want to keep a log of who switched the alarm system and when, you need an activation unit with access logging (PLUS version). PLUS activation unit Design is similar to the standard version, but with access logging and time zone control.
Page 222 VdS Shunt lock function 3066 Page 6 Special Versions of the Shunt lock function 3066 Operating the Activation Unit without a Deactivation Unit If you want to activate and deactivate the burglar alarm system externally with the transponder instead of with a key, you only need a master activation unit (MA). In this case, however, you will lose the true purpose of the shunt lock function.
Page 223 VdS Shunt lock function 3066 Page 7 Data Sheet MA, SA and DA Operating voltage 8 to 16 Volts DC Current consumption < 30 mA Applied relay Max. continuous current for switching output Max. switch on current Max. switching voltage 40 V AC Max.
Page 224 WAVENET RADIO NETWORK 3065 Status: August 2007...
Page 225 WAVENET RADIO NETWORK 3065 Table of Contents INTRODUCTION................5 NOMENCLATURE................6 TRANSMISSION MEDIA..............7 USABLE RADIO BANDS...............8 WHAT ARE THE BASIC INFLUENCING FACTORS? ....9 SECURITY OF TRANSMITTED INFORMATION......10 WAVENET SYSTEM 3065 NETWORK COMPONENTS.....11 PCs ___________________________ Fehler! Textmarke nicht definiert. Router nodes (general) __________________________________ 12 Router nodes (special variants) ___________________________ 12 Repeater nodes _________________________________________ 13...
Page 226 WAVENET RADIO NETWORK 3065 Table of Contents SECURITY..................26 Secure communication between WaveNet nodes _____________ 26 Automatic checking of individual system components ________ 26 Alarms ________________________________________________ 26 10.0 BATTERY WARNING..............27 11.0 NETWORK ‘N’ / ‘W’..............27 12.0 REPLACING LOCKNODE BATTERIES........27 13.0 INSTALLATION OF WAVENET LOCKNODES.
Page 227 WAVENET RADIO NETWORK 3065 Table of Contents 15.13 WaveNet router node as Ethernet/868 MHz converter _________ 36 15.14 WaveNet router node as WLAN/RS485 converter _____________ 37 15.15 WaveNet router node as WLAN/868 MHz converter ___________ 37 15.16 WaveNet LockNode _____________________________________ 38 ©...
Page 228 Page 5 INTRODUCTION. In the text that follows, the components of the System 3060 (locking cylinders, Smart Relays, shunt lock) are always referred to as lock(s) and door(s). Unless explicitly stated otherwise, the information given applies to all other components of the System 3060.
Page 229 WAVENET RADIO NETWORK 3065 Page 6 NOMENCLATURE. WaveNet LockNode Router Node Repeater Node Central Node Serial (RS232) Radio (868 MHz) Cable (RS485) Ethernet (TCP/IP) WLAN Placeholder for user’s choice of transmission medium...
Page 230 WAVENET RADIO NETWORK 3065 Page 7 TRANSMISSION MEDIA. WaveNet supports the following transmission media for the transfer of data within the system: • RS485 bus cabling for connecting individual WaveNet routers and repeaters as network backbone (cable type: CAT 5, screened, max. cable length 900 m). WN.RN.(X)C, WN.RN.C(X), WN.RP.CC, WN.CN.(X)C •...
Page 231 WAVENET RADIO NETWORK 3065 Page 8 USABLE RADIO BANDS. The modern radio technologies used in security technology should not be confused with the kind of radio system found in your car or in future in-home communication. Radio transmission in access control systems must satisfy the necessary security standards.
Page 232 WAVENET RADIO NETWORK 3065 Page 9 WHAT ARE THE BASIC INFLUENCING FACTORS? Regardless of the transmission procedure, radio transmission is subject to various environmental factors which can disrupt or hinder transmission. Device characteristics can also have an effect on range. What does range depend on? •...
Page 233 WAVENET RADIO NETWORK 3065 Page 10 SECURITY OF TRANSMITTED INFORMATION. The security of information transmitted by radio in WaveNet depends on: • radio transmission security in relation to data telegram management • potential sources of interference • deliberate disruption, i.e. manipulation or sabotage •...
Page 234 WAVENET RADIO NETWORK 3065 Page 11 WAVENET SYSTEM 3065 NETWORK COMPONENTS. WaveNet network components essentially have two mutually independent interfaces. This makes it possible to connect two different network segments via the WaveNet network components. WN.CN.(XX), WN.RN.(XX) Definition: Network segments are characterised firstly by a certain transmission medium (e.g.
Page 235 WAVENET RADIO NETWORK 3065 Page 12 Router nodes (general) WaveNet router nodes connect two different network segments which use either the same transmission medium (e.g. RS485-RS485) or different transmission media (e.g. RS485 cable/radio 868 MHz, Ethernet/RS485 or radio 868 MHz, WLAN/RS485 or radio 868MHz).
Page 236 WAVENET RADIO NETWORK 3065 Page 13 Repeater nodes WaveNet repeater nodes are repeaters that can be used within one segment to extend the range (wiring length). In other words, if the cable laid in the network exceeds the specified length (up to 900 m), it can be extended using the WaveNet repeater node (WN.RP.CC) in accordance with the system specifications.
Page 237 WAVENET RADIO NETWORK 3065 Page 14 Router nodes WaveNet router nodes as converters from radio (868 MHz) to cable (RS485) or from cable to radio. WN.RN.RC or WN.RN.CR • The user is free to select the transmission medium depending on the building structure / installation situation...
Page 238 WAVENET RADIO NETWORK 3065 Page 15 WaveNet router nodes can be used • If you require a radio range to a LockNode that exceeds the radio range of the WaveNet router node (the radio signal is sent from one WaveNet router node (868 MHz) to another WaveNet router node and then to the LockNode (LN)).
Page 239 WAVENET RADIO NETWORK 3065 Page 16 WaveNet router nodes can be used • If there is a computer network (LAN) or Internet/Intranet installed at the customer’s premises. Any transmission media may be selected. WN.RN.E(X)
Page 240 WAVENET RADIO NETWORK 3065 Page 17 WaveNet router nodes can be used • If there is a computer network (WLAN) or Internet/Intranet installed at the customer’s premises. Any transmission media may be selected. WN.RN.W(X)
Page 241 WAVENET RADIO NETWORK 3065 Page 18 Central nodes WaveNet central nodes can be used • If there is a computer network (LAN) or Internet/Intranet installed at the customer’s premises. Any transmission media may be selected. The central nodes WN.CN.S(X) or WN.CN.U(X) are connected to the PC. Communication node software (CommNode) is installed on this PC.
Page 242 WAVENET RADIO NETWORK 3065 Page 19...
Page 243 WAVENET RADIO NETWORK 3065 Page 20 Backbone cabling for router / repeater node An RS485 segment (backbone) is wired up using a bus line in the form of a screened standard CAT 5 cable. The bus line consists of two data lines (Data+, Data-) and a ground line (screening).
Page 244 LockNodes Lock Node with housing WaveNet LockNodes represent the interface between WaveNet and the locks in the digital locking and organisation system 3060 (e.g. locking cylinders, Smart Relays etc.). They always have: • a special B-field interface which enables communication with SimonsVoss locks (e.g.
Page 245 WAVENET RADIO NETWORK 3065 Page 22 Note: We recommend installing an empty mounting box. This will physically separate the LockNode from the switch unit. A switch unit, e.g. a dimmer or electronic ballast, can have a negative impact on communication between LockNode and lock. In addition, no switching power supplies must be used (e.g.
Page 246 WAVENET RADIO NETWORK 3065 Page 23 In the LDB or LSM user interface, an open contact has a value of 0 and a closed contact has a value of 1. In the diagram above, for example, if contact 1 is used to monitor a door, an opening door will constitute an event: ‘Input1 transition from 1 to 0’, if contact 1 is closed when the door is closed and open when the door is open.
Page 247 WAVENET RADIO NETWORK 3065 Page 24 NETWORK STRUCTURE WITH LSM. The network structure shown above allows different users with individual rights to access a shared server via the Internet / Intranet using the SimonsVoss WaveNet communication node software (CommNode) and the GUI (Graphic User Interface). This server functions as a communication node and is connected to the WaveNet central node by an RS232 cable or a USB cable.
Page 248 WAVENET RADIO NETWORK 3065 Page 25 In the LSM, virtually any number of WaveNet Ethernet routers WN.RN.E(X) or WaveNet WLAN (Wireless Local Area Network) routers WN.RN.W(X) can be integrated in a customer computer network (LAN or WLAN). There is no need to install a backbone (RS485 bus cabling), but it is possible in locations without Ethernet/WLAN.
Page 249: Security
WAVENET RADIO NETWORK 3065 Page 26 SECURITY. Since WaveNet records and logs critical data, it must be reliably protected against unauthorised access. This demands high standards of the system in terms of information security and manipulation security. Secure communication between WaveNet nodes Network communication is protected against eavesdropping and data monitoring by sophisticated cryptography.
Page 250: Battery Warning
WAVENET RADIO NETWORK 3065 Page 27 10.0 BATTERY WARNING. If the voltage of the batteries fitted in the LockNode falls below a certain level, communication problems may arise both between the LockNode and the associated lock and between the LockNode and a router node (WaveNet router node, WaveNet central node).
Page 251: Installation Of Wavenet Locknodes
WAVENET RADIO NETWORK 3065 Page 28 13.0 INSTALLATION OF WAVENET LOCKNODES. The distance to the locking cylinder must be kept as short as possible. However, a minimum gap of 3 cm from the frame must be maintained. The max. distance between WaveNet lock node and locking cylinder is 30 cm.
Page 252: Display Of Operating Statuses And Led Displays
WAVENET RADIO NETWORK 3065 Page 29 14.0 DISPLAY OF OPERATING STATUSES AND LED DISPLAYS. 14.1 WN.RN.(XX), WN.LN.C Power-on reset: 2 x short red flashes Link quality between two WN.RN.R by activating button on baseboard: 1/2 flashes of signal LED Transmission and reception power poor 3/4 flashes of signal LED Transmission and reception power OK 5/6 flashes of signal LED...
Page 253: Wn.ln
WAVENET RADIO NETWORK 3065 Page 30 14.6 WN.LN Power-on reset: 2 x short red flashes Battery status (after power-on reset): 1 x short red flash Battery fully charged 1 x long red flash Battery critical 1 x continuously on > 4 seconds Battery flat Link quality between WN.(X)N.(X)R and LockNode by activating button on LockNode baseboard:...
Page 254: Technical Data
WAVENET RADIO NETWORK 3065 Page 31 15.0 TECHNICAL DATA. 15.1 WaveNet plug-in power supplies Order number WN.POWER.SUPPLY.PPP Description Externally regulated 230V AC / 9V DC / 250 mA Plug-in power supply for WaveNet central node, WaveNet repeater node & WaveNet router node (PPP = Plug Power Pack) Order number WN.POWER.SUPPLY.LNC...
Page 255: Wavenet Central Node, Usb / Rs485 Interface
WAVENET RADIO NETWORK 3065 Page 32 15.4 WaveNet central node, USB / RS485 interface Order number WN.CN.UC Description WaveNet central node for connecting to a PC/server. Central node with integrated RS485 interface for backbone Dimensions (L*W*H) 100x65x40 mm (applies to all routers without antenna) Power supply From USB port Output...
Page 256: Wavenet Central Node, Usb / 868 Mhz Interface
WAVENET RADIO NETWORK 3065 Page 33 15.6 WaveNet central node, USB / 868 MHz interface Order number WN.CN.UR Description WaveNet central node with 868 MHz radio interface and external antenna Dimensions (L*W*H) 100 x 65 x 40 mm or 100 x 65 x 130 mm (with antenna) Power supply From USB port Output...
Page 257: Wavenet Router Node 868 Mhz
WAVENET RADIO NETWORK 3065 Page 34 15.8 WaveNet router node 868 MHz Order number WN.RN.R Description WaveNet router node with 868 MHz radio module. Incl. connecting terminals for external plug-in power supply and external transmission and receiver antenna Dimensions (L*W*H) 100 x 65 x 40 mm or 100 x 65 x 130 mm (with antenna) Frequency band...
Page 258: Wavenet Router Node As Rs485/868 Mhz Converter
WAVENET RADIO NETWORK 3065 Page 35 15.10 WaveNet router node as RS485/868 MHz converter Order number WN.RN.CR Description WaveNet router node as converter between RS 485 interface and 868 MHz interface for using router node as backbone, incl. connecting terminals for external plug-in power supply and external transmission and receiver antenna Dimensions (L*W*H) 100 x 65 x 40 mm or...
Page 259: Wavenet Router Node As Ethernet/Rs485 Converter
WAVENET RADIO NETWORK 3065 Page 36 15.12 WaveNet router node as Ethernet/RS485 converter Order number WN.RN.EC Description WaveNet router node as converter between Ethernet interface (TCP/IP) and RS 485 interface for using router node as backbone, incl. connecting terminals for external plug-in power supply Dimensions (L*W*H) 100 x 65 x 40 mm or...
Page 260: Wavenet Router Node As Wlan/Rs485 Converter
WAVENET RADIO NETWORK 3065 Page 37 15.14 WaveNet router node as WLAN/RS485 converter Order number WN.RN.WC Description WaveNet router node as converter between WLAN interface (TCP/IP) and RS 485 interface for using router node as backbone, incl. connecting terminals for external plug-in power supply Dimensions (L*W*H) 100 x 65 x 40 mm or...
Page 261: Wavenet Locknode
WAVENET RADIO NETWORK 3065 Page 38 15.16 WaveNet LockNode Order number WN.LN Description Battery-operated WaveNet LockNode (Node for PC networking of digital components) with 3 inputs and 1 output Dimensions (H x ∅) 37 mm x 53 mm Power supply 2x CR2/3AA batteries, lithium 3.6 V Tadiran, SL761 Power consumption Radio transmit: 32 mA;...
Page 262 WAVENET RADIO NETWORK 3065 Page 39 Order number WN.LN.C Description WaveNet LockNode with RS485 interface for use in ‘wired’ WaveNet. (Node for PC networking of digital components) with 3 inputs and 1 output Dimensions (H x ∅) 37 mm x 53 mm Power supply Connecting terminals for external power supply 6-24 V DC Power consumption...
Page 263 LON – Network 3065 State of: September 2006...
Page 264 LON – Network 3065 Content Introduction _________________________________________4 General Information ______________________________________ 5 Connection to LPI-10 ______________________________________ (Version: Open PCB With External Plug-in Power Supply) ______ 6 Connection to LPI-10 Compact _____________________________ 6 The Software_________________________________________7 Central Node _________________________________________8 Method of Operation______________________________________ 8 Lock Node ___________________________________________9 Method of Operation______________________________________ 9 Assembly Instructions ____________________________________ 9...
Page 265 LON – Network 3065 Content Repeater ___________________________________________20 Method of Operation_____________________________________ 20 Assembly Instructions ___________________________________ 20 Terminators ________________________________________20 Network Cable ______________________________________21 General Information _____________________________________ 21 Cable Laying ___________________________________________ 21 Cable Types____________________________________________ 21 Bus-Shaped Cabling (Example) ___________________________ 22 Star-Shaped Cabling (Example) ___________________________ 22 10.0 Planning Examples __________________________________24 10.1 Connecting External Buildings via Twisted Pair, Modem &...
Page 266: Introduction
LON – Network 3065 Page 4 Introduction In the following, we always speak of locking(s) and doors as the System 3060 components (locking cylinder, control unit, Smart Relay, shuntlock). Unless otherwise expressly mentioned, however, this information is valid for all other System 3060 components.
Page 267: General Information
LON – Network 3065 Page 5 General Information A so-called LockNode is placed next to the digital locking at a distance of about 30 cm (12 inches), depending on the particular components installed (refer to page N7). This LockNode maintains radio contact with the locking. The digital lockings do not need additionally wiring.
Page 268: Connection To Lpi-10
LON – Network 3065 Page 6 Connection to LPI-10 (Version: Open PCB With External Plug-in Power Supply) The LockNodes are connected to the CentralNode using a two-wire line (twisted pair). The LPI-10 (version: open printed circuit board with external plug-in power supply) provides the LockNodes with voltage over the same line.
Page 269: The Software
LON – Network 3065 Page 7 The Software If you use a PC to administer the locking system, you only need the locking plan software LDB or LSM . To access the locking system from more than one workplace, you must have LSM installed. In network operation, the LDB software handles functions for visualisation, filtering, encoding, network management and data calibration.
Page 270: Central Node
LON – Network 3065 Page 8 Central Node Method of Operation The CentralNode produces the interface between the PC and the network. One CentralNode is needed per network. ☺ To use a CentralNode in combination with LSM, please contact your trade partner or the manufacturer.
Page 271: Lock Node
LON – Network 3065 Page 9 Lock Node Method of Operation LockNode takes programming assignments in the network. Data is also transmitted to the digital components by radio. Assembly Instructions The LockNodes are pre-configured by SimonsVoss and are provided with numbers (see the picture on page N6).
Page 272: Antenna Extender
LON – Network 3065 Page 10 In order to guarantee proper radio transmission, you should maintain the following distances between the LockNode and the digital locking: Minimum Maximum LockNode to the digital locking cylinder 10 cm 30 cm LockNode to the digital control unit 20 cm 100 cm LockNode to the Smart Relay...
Page 273 LON – Network 3065 Page 11 Connect the network cable to terminals 1 and 2 of the LockNode. If you need an antenna extender because of a double door, connect the antenna extender cable to the terminals, according to the line colours. When connecting the extended antenna, also remove the four solder bridges (0Ω...
Page 274: Locknode Inputs And Outputs
LON – Network 3065 Page 12 LockNode Inputs and Outputs Terminals 3 to 8 are available for floating inputs or one output. The inputs transmit the state of the door or lock contact, for example. However, you can also incorporate external systems, such as motion detectors, photoelectric barriers, etc., into the system and then also report their signals to the central computer.
Page 275 LON – Network 3065 Page 13 LPI-10 General Warnings The LPI-10 is a regulated power supply, designed for use in single-phase AC power networks. Furthermore, it is a built-in device, so that it is intended for installation in a distribution box or control cabinet. You must comply with the relevant DIN/VDE regulations or the regulations that apply to your country when installing the device.
Page 276 LON – Network 3065 Page 14 5.2.2 Assembly Instructions The LPI-10 is intended Connect the network cable installation (twisted pair) here. You can distribution boxes with also lay a network cable to DIN rails. You will also the router (if there is one). need an outlet for the Connect cable...
Page 277: Compact
LON – Network 3065 Page 15 LPI-10 Compact (Version: compact construction with 230V power supply from the customer) 5.3.1 Installation Only a qualified expert who is familiar with and who complies with the generally applicable rules of the technology and the regulations and standards valid at the time is permitted to assemble and wire the LPI-10.
Page 278 LON – Network 3065 Page 16 5.3.2 Method of Operation You need at least one LPI-10 for each network segment in order to supply the Lock- Nodes. The LPI-10 (new construction) has 3 terminals for connection to the supply voltage: Terminals: INPUT AC 230V: 230V~ connection...
Page 279: Router
LON – Network 3065 Page 17 Build the LPI-10 into the separate segments in such a way that there is voltage of at least 35V DC at each LockNode. Consequently, the installation location depends on the number and particular distribution of the LockNodes in the corresponding segment. If it is not possible to guarantee voltage of 35 VDC at each LockNode with one LPI-10, you must install a repeater (including power supply) and an additional LPI-10 (including power supply) in the segment.
Page 280 LON – Network 3065 Page 18 Routers need a 230 V AC power supply from the customer (outlet). Routers, as they come from the factory, do not have any over voltage protection. For this reason, this protection should be already provided for by customer.
Page 281 LON – Network 3065 Page 19 Installation Example...
Page 282: Repeater
LON – Network 3065 Page 20 Repeater Method of Operation The repeater increases the allowable communication distance by regenerating the signals. Unlike routers, the repeater does not have a group ID, so it does not have to be configured by SimonsVoss. Assembly Instructions Install it in a small housing that is suitable for DIN rail assembly.
Page 283: Network Cable
LON – Network 3065 Page 21 Network Cable General Information Every LockNode is networked with one line consisting of two twisted wires (twisted pair). The data and the supply voltage are both transmitted over this line (see Fig. on page N2 or N3). An LPI-10 or LPI-10 Compact module feeds the twisted pair line with voltage (approximately 48 V DC).
Page 284: Bus-Shaped Cabling (Example)
LON – Network 3065 Page 22 Bus-Shaped Cabling (Example) Router Router Router Segment 3 / GID 3 LPI 10 LPI 10 LPI 10 max. total cable length 900m (approx. 2950 feet) max. number of LNs = 62 Router Router Router Segment 2 / GID 2 LPI 10 LPI 10...
Page 285 LON – Network 3065 Page 23 Cabling With no Topology (Example) Terminal Terminal distributor distributor Electric Electric distributor distributor with LPI10 with LPI10 & router & router Segment 2 / GID 2 max. total cable length 450m (approx. 1480 feet) max.
Page 286: Planning Examples
LON – Network 3065 Page 24 10.0 Planning Examples 10.1 Connecting External Buildings via Twisted Pair, Modem & TCP/IP Remark: The planning and implementation of the following planning examples must be carried out by SimonsVoss. This chapter therefore offers only a short description of networking via modem and TCP/IP router.
Page 287: Network Via Modem
LON – Network 3065 Page 25 10.2 Network via Modem Branch 1 (Network) Branch 1 (Network) Modem Modem Central Central Headquarters Headquarters Modem Central ↔ ↔ Node (Tel (Tel RS232) RS232) Node (Tel ↔ RS232) Node Server Server LPI 10 LPI 10 LPI 10 with LDB...
Page 288: Security
LON – Network 3065 Page 26 11.0 Security Because the Network 3065 records and logs critical data, it must be reliably protected from unauthorised accesses. This demands a great deal from the system as far as information and manipulation security. 11.1 Secure Communication Between the Network Nodes Network communication is protected against data tapping in the following ways:...
Page 289: Answers To The Most Common Questions Regarding The Network
LON – Network 3065 Page 27 12.0 Answers to the Most Common Questions Regarding the Network Is it possible to use a cable that is already there for a twisted pair? Yes, you can use a cable that is already there, as long as it holds two strands that are not in use yet.
Page 290 LON – Network 3065 Page 28 What is an LPI-10 Compact? An LPI-10 Compact essentially corresponds to the LPI-10, but with the difference that the LPI-10 Compact is always designed for 62 LockNodes and does not need a separate plug-in power supply. It is connected directly to the 230V~ at the customer. How many LPI-10 or LPI-10 Compact modules are needed? At least one LPI-10 or LPI-10 Compact must be used for each segment (divided by routers).
Page 291: Data Sheet
LON – Network 3065 Page 29 13.0 Data sheet CentralNode Dimensions 100 x 54 x 30 mm [L/W/H] Network connecting 200 cm cable (approx. 6.6 feet) RS232 connecting 300 cm cable (approx. 9.9 feet) LockNode Dimensions 53 x 40 x 20 mm [L/W/H] Input Input voltage range 5–24 V...
Page 292 LON – Network 3065 Page 30 LPI-10 (Version: Compact) Input quantities Nominal input voltage AC 120 / 230V Input voltage range AC 85 to 264V Nominal frequency 50/60Hz, 47 to 63Hz range Power failure buffering > 50 ms at U =195V Nominal input current 0.8 / 0.5A...
Page 293 LON – Network 3065 Page 31 Protection class to I (with ground terminal) VDE 0106 Part 1 Electrical isolation, SELV to EN 60950 primary/secondary Electromagnetic compatibility Emitted interference Class B to EN 60950 (EN 500081-1) Noise immunity EN 61000-4-2/3/4/5/6, level 3 (EN 50082-2) Weight Weight...
Page 294 Programming Transponder 3067 State of: June 2006...
Page 295 Programming Transponder 3067 Content Introduction _________________________________________3 Backup Card _________________________________________3 Programming Notes ___________________________________4 Error Messages __________________________________________ 4 Initial Programming ______________________________________ 4 Reading Out a Transponder _______________________________ 5 Adding a New Transponder ________________________________ 5 Emergency Opening ______________________________________ 6 Blocking a Lost Transponder ______________________________ 6 Loss of the Programming Transponder___________________7 Data Sheet___________________________________________7...
Page 296: Introduction
Programming Transponder 3067 Page 3 Introduction The Programming Transponder 3067 is used for programming Digital Locking Cylinder 3061 and Transponder 3064 devices. You can use it to perform the following actions: Program the system for the first time Make changes to the authorisations Block lost transponders Determine the ID number of a transponder It is not possible to read out the locking cylinder with the Programming Transponder.
Page 297: Programming Notes
Programming Transponder 3067 Page 4 Programming Notes Always position only one locking cylinder in the immediate vicinity of the Programming Transponder during programming. All other components must be at a distance of at least 1 m (3.3 feet). Error Messages If you receive one of the following signals when not expected during the programming, there has been an error.
Page 298: Reading Out A Transponder
Programming Transponder 3067 Page 5 button one time. Attention: you must press the button during the LED’s blinking phase. The data is then transferred. The locking cylinder makes several signal tones during this part of the programming. If the programming was successful, the cylinder couples and the LED on the Programming Transponder lights green.
Page 299: Emergency Opening
Programming Transponder 3067 Page 6 Emergency Opening It is possible to perform an emergency opening with the Programming Transponder. Proceed as follows: 1. Press the Programming Transponder button briefly one time. Then the LED blinks green. 2. Hold the Programming Transponder at a distance of approximately 10 to 20 cm (approximately 4 to 8 inches) from the locking cylinder and briefly press the button.
Page 300: Loss Of The Programming Transponder
Programming Transponder 3067 Page 7 4. The Programming Transponder repeats the ID number that you enter as a check. First the LED briefly lights yellowish. Then the Programming Transponder outputs the ID number with red and green blinking. The color then changes back to yellow and finally the LED blinks green.
Page 301 PalmCD2 Programming Device State of : September 2004...
Page 302 PalmCD2 Programming Device Content Introduction _________________________________________3 Commissioning ______________________________________3 Programming with the PC or Laptop _____________________3 Programming with the Palm Organizer ___________________4 Setting Up the PalmCD2 With Transponder Function _______4 Data Sheet___________________________________________4...
Page 303: Introduction
PC/Laptop or in combination with a Palm m5xx or Palm Tungsten W, or T3 Organiser. It makes it very easy to program and read out all digital components of the 3060 system. You can also use the Palm to match up your personal data (addresses, calendar, etc.) Commissioning Insert the two batteries into the battery compartment.
Page 304: Programming With The Palm Organizer
PalmCD2 Programming Device Page 4 been tested and approved by SimonsVoss). In this configuration, you can program all digital components directly on the PC. If you use the same interface (such as COM1) for both the docking station and the PalmCD2, you need to end the HotSync manager first in order to free the serial interface for the PalmCD2.
Page 305 SmartCD Programming Device State of : Dezember 2007...
Page 306 SmartCD Programming Device Content Safety notes _________________________________________3 Introduction _________________________________________3 Connecting to a PC/laptop _____________________________4 Charging the batteries ____________________________________ 4 Configuring the Bluetooth connection____________________5 First-time installation _____________________________________ 5 Changing the connection__________________________________ 5 Configuring the USB connection ________________________5 Start-up _____________________________________________6 Programming with the SmartCD . . . ______________________6 .
Page 307: Safety Notes
Windows Mobile 5.x PDA (Personal Digital Assistant). It allows you to program and retrieve all digital components in the SimonsVoss 3060 system very easily. You can also compare personal data (such as addresses, calendars, etc.) with the PDA.
Page 308: Connecting To A Pc/Laptop
Using the cable supplied, you can connect the SmartCD directly to a PC or laptop via a free USB interface. All digital components in the SimonsVoss 3060 system can be programmed using a PC/laptop and a SmartCD. Note: When carrying out programming with a PDA and SmartCD, you must remove the connecting cable from the SmartCD to the PC/laptop.
Page 309: Configuring The Bluetooth Connection
SmartCD Programming Device Page 5 Configuring the Bluetooth connection First-time installation When coupling the SmartCD and the PDA, ensure that both units are: • switched on and can be recognised by Bluetooth. • placed close to one another. Please refer to the ‘SmartLSM’ software manual (and the user manual of the PDA manufacturer as necessary) for more information on coupling the SmartCD and PDA.
Page 310: Start-Up
SmartCD Programming Device Page 6 Start-up The installed batteries are pre-charged. The unit is therefore ready for immediate use. (Before using the SmartCD for this first time, we recommend charging the unit on a USB port for around 3-4 hours.) To use the programming unit, please perform the following steps: •...
Page 311: Antenna Orientation
SmartCD Programming Device Page 7 Antenna orientation The antenna orientation for selected components is shown below to guarantee faultless programming. To ensure the largest possible range when programming, the antennas of the SmartCD and the lock should be aligned parallel to one another. To prevent over-modulation, however, the distance between the antennas should always be at least 10 cm.
Page 312: Replacement Of The Batteries
SmartCD Programming Device Page 8 Replacement of the batteries Please proceed as follows when you need to change the batteries: • Remove the belt clip carefully (if you use a small Phillips screwdriver, you do not need to remove the belt clip). •...
Page 313: Meaning Of Led's
SmartCD Programming Device Page 9 10.0 Meaning of LED’s First LED (green) on Unit ready for operation First LED (green) flashing Standby Second LED (yellow) on Batteries are charging Second LED (yellow) off Batteries are charged Third LED (green) flashing rapidly Unit is communicating with a SimonsVoss lock Third LED (green) flashing slowly...
Page 314: Specifications
SmartCD Programming Device Page 10 12.0 Specifications Housing dimensions H x W x D 112 x 63 x 22 mm Weight (including batteries) 95 g Housing material Plastic Housing colour Grey Number of LED’s Battery type Li-Ion manganese storage batteries (rechargeable) Voltage 4.2 V Manufacturer...
Page 315 Caption State of: July 2007...
Page 316 Caption Page 2 Explanation of technical terms Access logging Additional function of the digital components in the TC ver- sion: The digital lockings store the last 128 accesses with date, time of day and user name. The stored accesses can be read out with the help of the Config-Device or PalmCD2 or over the network.
Page 317 PDA. It makes it very easy to program and read out all digital components of the System 3060. You can also use the PDA to match up your personal data (addresses, calendar, etc.). Password...
Page 318 Caption Page 4 Special symbols used in the text ☺ Remark, tip Example Attention Subject to technical modifications...