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Related Manuals for Sygonix 1888207
Summary of Contents for Sygonix 1888207
- Page 1 Operating Instructions Fingerprint code lock Item No. 1888207...
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Page 2: Table Of Contents
Table of contents Page 1. Introduction ........................4 2. Explanation of symbols ....................5 3. Intended use ......................... 5 4. Package contents ......................6 5. Safety instructions ......................7 6. Battery safety information ..................... 9 7. Connections and control elements ................10 8. - Page 3 Page 11. Wiegand function ......................52 a) Connection ......................52 b) Setting Wiegand device ID .................. 53 c) Configuring the Wiegand output ................54 d) Using fingerprints with the Wiegand controller ............ 55 12. Interlock function ......................56 13. Operation ........................57 a) Enabling the changeover contact ................ 57 b) Enabling the changeover contact via button ............
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Page 4: Introduction
1. Introduction Dear customer, Thank you for purchasing this product. This product complies with statutory national and European regulations. To ensure that the product remains in this state and to guarantee safe operation, always follow the instructions in this manual. These operating instructions are part of this product. -
Page 5: Explanation Of Symbols
2. Explanation of symbols The symbol with the lightning in a triangle indicates that there is a risk to your health, e.g. due to an electric shock. The symbol with an exclamation mark in a triangle is used to highlight important information in these operating instructions. -
Page 6: Package Contents
4. Package contents • Code lock • IR remote control with CR2025 battery • 1x transponder card for adding user transponders • 1x transponder card for deleting user transponders • Mounting material (2x screws, 2x dowels) • 1x L-key • 3x 1N4004 diodes • Operating instructions Up-to-Date Operating Instructions Download the up-to-date operating instructions at www.conrad.com/downloads or scan the... -
Page 7: Safety Instructions
5. Safety instructions Read the operating instructions and safety information carefully. If you do not follow the safety instructions and information on proper handling in these operating instructions, we assume no liability for any resulting per- sonal injury or damage to property. Such cases will invalidate the warranty/ guarantee. - Page 8 • Do not leave packaging material lying around carelessly. It may become a dangerous toy for children! • Maintenance, modifications and repairs must be carried out by a technician or a specialist repair centre. • If you are not sure how to operate the product correctly, or if you have any questions that are not answered in these operating instructions, contact us or another specialist.
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Page 9: Battery Safety Information
6. Battery safety information Keep batteries out of the reach of children. Do not leave batteries lying around in the open; there is a risk of them being swallowed by children or pets. If swallowed, consult a doctor immediately, it could be fatal! Always ensure that the battery in the IR remote control is inserted with the correct polarity (observe the plus/+ and minus/- symbols). -
Page 10: Connections And Control Elements
7. Connections and control elements Control LED Fingerprint sensor C Transponder sensor surface D IR receiver Fastening screw Keypad for buttons button H Clip for battery compartment button IR transmission LED The wall mounting bracket and the connection cable are located on the back of the code lock. - Page 11 Connecting cable: Colour Function 12 V/DC Black Blue NO contact of the relay Purple COM contact of the relay Orange NC contact of the relay Yellow Input for door opener button (NO contact / normally open contact) Green Wiegand connection, Data 0, D0 White Wiegand connection, Data 1, D1 Grey...
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Page 12: Mounting And Connection
Alarm output (cable: grey) This can be used to control an alarm siren (12 V/DC, max. 2 A). Input for door sensor (cable: brown) The code lock uses a door sensor to emit an alarm when the door is opened without a valid access attempt having been made previously using a transponder or fingerprint. - Page 13 The mounting plate must be mounted so that the screw hole for the fixing screw points downwards. Ensure that no cables or wires are damaged when drilling holes or tightening screws. • Wire the connection cables according to the following circuit examples. Ensure that there is suitable insulation (e.g. heat shrink tubing). • Suitable protective diodes for connecting a door opener are included. They protect the code lock from damage caused by voltage peaks.
- Page 14 Connection to conventional voltage/power supply: If a conventional power supply unit with an output voltage of 12 V/DC will be used to operate the code lock, please note the following connection diagram: With “Fail Secure” door opener: This releases the locking latch only when its operating voltage is applied (common design for front doors).
- Page 15 With “Fail Safe” door opener: The locking latch is only released when the operating voltage is absent (rare type, used, for example, for escape route doors, as the door can be opened in the event of a power failure). Blue Orange Purple Yellow...
- Page 16 Connection to a special power supply for access control systems: Such a power supply can be identified by its connection for the door opener, amongst other things. With “Fail Secure” door opener: This releases the locking latch only when its operating voltage is applied (common design for front doors). Blue Orange Purple Yellow Brown Grey Green White Black...
- Page 17 With “Fail Safe” door opener: The locking latch is only released when the operating voltage is absent (rare type, used, for example, for escape route doors, as the door can be opened in the event of a power failure). Blue Orange Purple Yellow...
- Page 18 Circuit diagram with two code locks for double door systems: For programming, see chapter 12. The use of two code locks makes it possible, for example, to control special access systems when accessing a room/area with double doors, of which only one may be opened.
- Page 20 With “Fail Safe” door opener: The locking latch is only released when the operating voltage is absent (rare type, used, for example, for escape route doors, as the door can be opened in the event of a power failure). “Fail Safe” door opener Power adapter C Code lock D Door opener button (NO contact, normally open contact)
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Page 22: Setup
9. Setup a) IR remote control • If a small transparent plastic strip protrudes from the bottom of the IR remote control, the battery is already inserted. Pull the plastic strip out of the IR remote control and then it will be ready for use. -
Page 23: Programming
10. Programming a) General notes Do not disconnect the code lock from the power supply during programming. Oth- erwise, the existing data or programming could be damaged. Note the following important information: • The master code is required to enter programming mode. By default, the master code is “123456”. -
Page 24: B) Activating/Exiting Programming Mode
b) Activating/exiting programming mode To enter programming mode, you need to enter the master code using the IR remote control. In the default setting of the code lock (or after a reset), the master code is “123456”. The master code is used only to activate programming mode. The master code cannot be used to switch the relay in the code lock. -
Page 25: C) Changing The Master Code
c) Changing the master code • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red. Example: • Press the button. The control LED will light up orange. • Enter the new master code, for example: The master code must always consist of six digits. -
Page 26: D) Setting The User Fingerprint
d) Setting the user fingerprint General information: The user fingerprints can be assigned a specific user ID (it is a number of ..without “0” at the beginning). The user IDs ..have a special function. See chapter 10. a). Fingerprints can also be tuned-in even without these user IDs. This speeds up the tuning-in of fingerprints. - Page 27 Option 1: Tuning-in a user fingerprint with input of the user ID: • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red. Example: • Press the button. The control LED will light up orange. The code lock is now in tuning- in mode.
- Page 28 Option 2: Tuning-in a user fingerprint without a specific user ID (the code lock auto- matically uses the next free user ID, but it is not possible to determine which one it is): • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red.
- Page 29 Option 3: Tuning-in a user fingerprint using the supplied master transponder (inscription “Master Add Card”); the code lock automatically uses the next free user ID, but it is not possible to determine which one it is: This function is also possible with a fingerprint stored in user ID • The code lock must be in standby mode; the control LED lights up red. • Hold the master transponder (inscription “Master Add Card”) provided in front of the code lock (below the fingerprint sensor).
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Page 30: E) Tuning-In The User Transponder
e) Tuning-in the user transponder General information: The user transponders can be assigned a specific user ID (it is a number from ..The user IDs have a special function. See chapter 10. a). Transponders can also be tuned-in even without a user ID. This speeds up the tuning-in of transponders. If a user ID is not specified when tuning-in a user transponder, the code lock will auto- matically take the next free user ID;... - Page 31 Option 1: Tuning-in a user transponder with input of the user ID: • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red. Example: • Press the button. The control LED will light up orange. The code lock is now in tuning- in mode.
- Page 32 Option 2: Tuning-in a user transponder without a specific user ID (the code lock auto- matically uses the next free user ID, but it is not possible to determine which one it is): • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red.
- Page 33 Option 3: Tuning-in a user transponder using the supplied login transponder (inscrip- tion “Master Add Card”); the code lock automatically uses the next free user ID, but it is not possible to determine which one it is: A special transponder with inscription “Master Add Card” is included. This transponder makes the login of user transponders very simple because code input via the IR remote control is not required.
- Page 34 Option 4: Tuning-in a user transponder with input of the user ID and the 8- or 10-digit transponder number: • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red. Example: • Press the button.
- Page 35 Option 5: Tuning-in a user transponder without a specific user ID (the code lock auto- matically uses the next free user ID, but it is not possible to determine which one it is) and the 8- or 10-digit transponder number: • The code lock must be in standby mode;...
- Page 36 Option 6: Mass installation of user transponders (with consecutive transponder num- bers) If you want to store a greater number of user transponders in the code lock and all have a consecutive 8- or 10-digit transponder number, the code lock has a separate function for this purpose.
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Page 37: F) Deleting The User Id
f) Deleting the user ID A user ID can also be assigned when tuning-in a user fingerprint or user transponder. If an employee leaves the company or a user transponder gets lost, the user fingerprint or user transponder can be deleted separately by deleting the associated user ID. If user fingerprints or user transponders have been tuned-in without entering the user ID, they can only be deleted separately if the fingerprint or transponder is available! Instead of simply deleting a user ID with the fingerprint or transponder stored in it, all data stored in the code lock would have to be deleted for security reasons to prevent unauthorised access. -
Page 38: G) Deleting The User Fingerprint
g) Deleting the user fingerprint Option 1: Deleting a user fingerprint with the IR remote control: • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red. Example: • Press the button. The control LED will light up orange. The code lock is now in delete mode. - Page 39 Option 2: Deleting a user fingerprint with the supplied deletion transponder “Master Delete Card”: A special transponder with inscription “Master Delete Card” is included. This transponder al- lows user fingerprints to be deleted quickly because no code input via the IR remote control is required. This function is also possible with a fingerprint that is stored in a user ID Proceed as follows: • The code lock must be in standby mode;...
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Page 40: H) Deleting The User Transponder
h) Deleting the user transponder Option 1: Deleting a user transponder with the IR remote control: • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red. Example: • Press the button. The control LED will light up orange. The code lock is now in delete mode. - Page 41 Option 2: Deleting a user transponder with the supplied deletion transponder “Master Delete Card”: A special transponder with inscription “Master Delete Card” is included. This transponder allows user transponders to be deleted quickly because code input via the IR remote control is not required.
- Page 42 Option 3: Deleting a user transponder with the card number If you want to delete a user transponder using the printed card number, proceed as follows: • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red.
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Page 43: I) Deleting All User Data
i) Deleting all user data This function allows all user data (all fingerprints and transponders) to be deleted from the code lock memory. Proceed as follows: • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red. Example: • Press the button. The control LED will light up orange. The code lock is now in delete mode. -
Page 44: J) Setting The Activation Duration For Output Or Toggle Operation
j) Setting the activation duration for output or toggle operation The potential-free changeover contact of the code lock can be activated via a user transponder or a user fingerprint. The following functions are possible: • Changeover contact is activated for 2..99 seconds (5 seconds by default); optimal e.g. for a door opener • Changeover contact is activated for 100 ms (pulsed operation);... -
Page 45: K) Selecting Access Mode
k) Selecting access mode There are several options for activating the changeover contact (relay) of the code lock: • Activating the changeover contact with the user transponder Hold a transponder in front of the sensor surface. If a valid transponder has been detected by the code lock, the changeover contact will be activated. - Page 46 Proceed as follows: • The code lock must be in standby mode; the control LED lights up red. • Activate programming mode, as described in chapter 10. b); then the control LED will flash red. Example: • Press the button. The control LED will light up orange. • Enter the desired function for access mode: = Access only via the transponder = Access via the transponder or fingerprint (by default) = Access only via the fingerprint...
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Page 47: L) Setting The Alarm Duration
l) Setting the alarm duration If a door secured with the code lock is also provided with a door sensor, the code lock can detect a violent attempt to open the door and then emit an alarm. For this purpose, an alarm siren can be connected to the code lock;... -
Page 48: M) Security Function For Invalid Access Attempts
m) Security function for invalid access attempts The code lock may be locked if ten invalid access attempts have been made consecutively (for example, in an attempt to test transponders). The following functions are available: • No lock (default setting) Invalid access attempts are ignored. -
Page 49: N) Security Function With Door Sensor
n) Security function with door sensor In the default setting of the code lock, the door sensor function is deactivated. If you connect a door sensor (NC contact / normally closed contact) to the code lock and enable the door sensor function, the following functions will be available: • In case of a violent attempt to open the door (the door is opened without a valid access attempt having been made in advance using a transponder or fingerprint), the code lock emits an alarm sound and the alarm output is activated. -
Page 50: O) Reset
o) Reset When the code lock is reset, it returns to the default settings. However, the user fingerprints and user transponders stored are retained after reset. To delete these as well, please refer to chapter 10. i). Two special preprogrammed transponder cards are included. • Inscription “Master Add Card”: This card can be used to tune-in new transponders. - Page 51 Resetting and tuning-in two transponder cards: • Disconnect the code lock from the voltage/power supply. Wait until the control LED goes off. • Keep the door opener button pressed and connect the code lock to the voltage/power supply. • The code lock will emit two beeps, and the control LED will light up orange. Then release the door opener button.
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Page 52: Wiegand Function
11. Wiegand function The code lock can serve as an external reader connected to a Wiegand controller. Follow the operating instructions for the controller or monitoring system operating the code lock. a) Connection Black Green White Code lock Wiegand controller / monitoring system... -
Page 53: B) Setting Wiegand Device Id
b) Setting Wiegand device ID This setting function should only be used if fingerprints are to be read and transmit- ted by the code lock. The code lock can be assigned a different device ID (“0” by default) in order to establish a connection with a Wiegand controller, if required. If the code lock is used as a Wiegand reader and detects a valid fingerprint, it will transmit a virtual transponder number. If, for example, the device ID 255 has been programmed and the user ID of the valid fin- gerprint is “3”, the virtual transponder number 255,00003 will be transmitted (example for Wiegand controllers with a bit rate of 26 bits). -
Page 54: C) Configuring The Wiegand Output
c) Configuring the Wiegand output The code lock can output data to the Wiegand output with different bit formats. Check the operating instructions of the controller or surveillance system being used with the code lock to find out which bit format is supported. The Wiegand output can also be disabled. By default, the Wiegand output is enabled;... -
Page 55: D) Using Fingerprints With The Wiegand Controller
d) Using fingerprints with the Wiegand controller If the code lock is used as a Wiegand reader and detects a valid fingerprint, it will transmit a virtual transponder number. If, for example, the device ID 255 has been programmed (see chapter 11. a)) and the user ID of the valid fingerprint is “3”, the virtual transponder number 255,00003 will be transmitted (example for Wiegand controllers with a bit rate of 26 bits). If the code lock is only used as a Wiegand reader and you want to use a fingerprint as an access point for the Wiegand controller or the Wiegand access system, proceed as follows: • Tune-in the fingerprints to the code lock, as described in chapter 10. d). -
Page 56: Interlock Function
12. Interlock function The connection diagrams for interlocking two code locks can be found in chapter 8. The interlock function can be used, for example, to control special access systems when accessing a room/area with double doors, of which only one may be opened. To enable the interlock function, switch on the interlock function on both code locks. -
Page 57: Operation
13. Operation a) Enabling the changeover contact Activation via user transponder The transponder must be held in front of the sensor surface (area below the fingerprint sen- sor) (max. distance approx. three cm). If a valid transponder has been detected, the code lock emits a long audio signal, the control LED briefly lights up green and the changeover contact is activated. Activation via user fingerprint Place your finger on the sensor surface. If a valid fingerprint has been detected, the code lock emits a long audio signal, the control LED briefly lights up green and the changeover contact is activated. b) Enabling the changeover contact via button If a door opener button has been connected to the code lock (see connection examples in chapter 8), the changeover contact can be activated by briefly pressing the button. The... -
Page 58: D) Superuser Lock Function
d) Superuser lock function Some of the 3000 available user IDs are reserved for special functions, as described in chapter 10. a). : Superuser fingerprint : Superuser transponder If fingerprints or transponders are stored in these user IDs, the code lock can be temporarily locked. In this state, it is no longer possible to access the code lock via user fingerprints or user transponders. How to lock the code lock: • The code lock must be in standby mode; the control LED lights up red. • Allow the code lock to read a superuser fingerprint or superuser transponder stored in the aforementioned user IDs. -
Page 59: Sound Signals And Led Displays
14. Sound signals and LED displays Function Beep Standby LED lights up red Program mode Flashing red LED 1x short beep Programming code has been Orange LED 1x short beep entered; awaiting further code entries Error LED flashes red three 3x short beep times Valid access attempt via LED flashes green once... -
Page 60: Troubleshooting
15. Troubleshooting Preprogrammed settings are not affected by a power cut. However, the code lock will be non-operational during a power cut. For safety reasons, we recommend that you use an uninterruptible power supply for the code lock (as in case of an alarm system) depending on the intended use. The door opener doesn't work • The changeover contact is potential-free. -
Page 61: Care And Cleaning
Other functionality issues • Reset the code lock (see chapter 10. o) or delete all existing data (see chapter 10. i) and restart the programming. • Check that the cables are connected correctly. • Check the voltage/power supply. The code lock requires a stabilised DC voltage (12 V/DC). -
Page 62: Disposal
18. Disposal a) Product Electronic devices are recyclable waste and must not be disposed of in the house- hold waste. At the end of its service life, dispose of the product according to the relevant statutory regulations. Remove any inserted battery from the remote control and dispose of it separately from the product. -
Page 63: Technical Data
19. Technical Data a) Code lock Operating voltage .........12 V/DC Current consumption ......standby < 45 mA; max. 175 mA Transmission frequency range .....124.6 - 125.4 kHz Transmission power......< 11.62 dBm Wiegand connection ......yes (programmable bit format 26 bits ..44 bits) Data retention in case of a power cut ...yes Suitable transponders ......Commercially available EM transponders for frequency 125 kHz... - Page 64 This is a publication by Conrad Electronic SE, Klaus-Conrad-Str. 1, D-92240 Hirschau (www.conrad.com). All rights including translation reserved. Reproduction by any method, e.g. photo- copy, microfilming, or the capture in electronic data processing systems require the prior written approval by the editor. Reprinting, also in part, is prohibited. This publi- cation represent the technical status at the time of printing. Copyright 2019 by Conrad Electronic SE.
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