PR612 and PR622 Installation guide Rev.B
Contents
1. Roger Access Control System Installation guide for PR612 and PR622 access controllers Firmware version 1 18 2 or newer Hardware version 1 0 Document version Rev B C OO POO QOOO e M Contents reel fro dT EUM quas 3 DL TES manual zeiten sux exa Sa 3 2 Description and specification 1 eee eee eese esee nena U u 3 3 Installation asi eiii aiii ER de RR ER RO RC OR D Rl lb CE TT EE RR VERD RR 4 3 1 Wires and connection diagram r 4 32 EED indicators uy um e tuo sess reb cree a PRX ra hua 5 3 3 POWER SUPDIW TR 6 3 4 Connection of door locking device 6 3 5 Connection of external reader and or extension module 6 3 6 Input and output lines fuso ad 7 GNOME E LIE 7 3 0 2 Relay OULU Secale uu uu N Sau uuu au aspe e oA Moose LiT meet 7 3 6 3 General purpose OUtpUls orare cxt cu aoa eae E Dv epa ERE EUREN RU NEUE RPG DES 7 3 7 RS485 COMMUNICATION asua Susa cle vp E Dux 7 3 9 Controller MOUNN G aas sears oa Duc o du aa ies 8 3 9 Inst llation Ouidelill8s 52 2 xcd kasa des Sadat d2. aa An etna V ig e anda 10 C PESO 10 pole 10 4 2 Memory Reset procedure 11 4 3 Contreller progr MMINg iaa u uuu o Cd Qa Dk bun E CONS 9v tos uda op Mie 12 4 4 Firmware update creep cu mit Gave E ON cR vea gU x Ova ER XAR RTT EK tu 12 5 Ordering I formatio on cocco coo xor ERES ERA ERR EAR RA ERR A uwsaasawaaswsawawa 13 6 Product lilStOry 2 aa a anu xus xus ER ES EV EY FUE Y Y VY VY RYE RR REN KENNEN EE 14 Page 2 of 14 roger 1 INTRODUCTION 1 1 This manual This manual contains minimum information that is necessary to properly install the device and to perform initial tests Full functional description of the controller has been included in the document PRxx2 series controllers Functional description and programming guide Whereas PR Master software which is used for access control system management is described in detail within the manual for that software Both documents are available at www roger pl 2 DESCRIPTION AND SPECIFICATION PR612 and PR622 controllers belong to advanced PRxx2 series controllers and they are identical in regard of their functions The difference between both types of controllers is such that PR612 is equipped with keypad while PR622 is not The new factory made controller has
3. the address ID 00 and is equipped with the MASTER card Controllers are equipped with built in reader of EM125kHz standard so the MASTER card can be used for the initial tests after installation Additional external reader of PRT series Roger operating in RACS Clock amp Data mode can be connected to PR612 PR622 controller if it is required to provide access control at both sides of the door Controllers can be installed both outdoors and indoors and do not require special protection against rain and moisture Controller can be programmed by means of computer with PR Master software Controller can be connected to PC by means of communication interface i e UT 2USB UT 4DR or RUD 1 Note PR612 PR622 controllers require PR Master 4 4 12 or newer Table 1 Specification Supply voltage Nominal 12VDC min max range 10 15VDC Proximity cards EM 125 kHz UNIQUE in accordance with EM4100 4102 Reading distance Up to 15 cm for ISO cards depends on card type and quality Current consumption PR612 PR622 average 70mA average 50mA Tamper Isolated contact NC type 24V 50 mA rated Input lines IN1 IN3 NO NC inputs electrically biased to 12V via 5 6 resistor triggering level approx 3 5V Output REL1 Relay output with single NO NC contact 30V 1 5A max load Output lines IO1 IO2 Open collector transistor outputs internally biased to 12V via 5 6k resistor when active sh
4. type rated 15VDC 1 0A REL1 NC REL1 relay output contact normally closed rated 30V 1 5A REL1 COM REL1 relay output common contact rated 30V 1 5A REL1 NO REL1 relay output contact normally opened rated 30V 1 5A Page 4 of 14 roger Power supply PR612 PR622 e g PS10 PS20 Access Controller NO COM NC REL1 A B 101 102 TAMPER DTA CLK RS485 IN3 IN2 INT GND 12V Communication interface e g UT 2USB or UT 4DR Tamper loop A RS485 B PRT series reader adress ID 0 Aux control peating light alarm system etc Alarming device 12VDC XM 2 sensor Extension module Door bell Address ID 5 strike Tamper loop rodr175 Fig 1 PR612 PR622 connection diagram 3 2 LED indicators PR612 PR622 controllers are equipped with 3 LED indicators Their functions and colours are specified in table 3 below Functioning of LEDs can be verified by means of included MASTER card Page 5 of 14 roger Table 3 LED indicators Symbol Name Colour Description amp STATUS Red Green Armed Disarmed Mode respectively OPEN Green Door unlocking 5 5 Various system functions and programming 3 3 Power supply The controller requires 12VDC nominal power supply The power should be connected to the 12V line and GND line Additionally the GND line can be used as reference potential for the RS485 bus IN1 IN3 input lines and RACS Clock amp Data bus The power suppl
5. 2USB UT 4DR or RUD 1 and then connect the interface to PC with installed RogerISP software RogerISP is Page 12 of 14 roger available free of charge at www roger pl It is not necessary to disconnect the controller from access control system it is only required to place jumper in order to put the device in firmware download mode Therefore firmware update can be performed by means of RS485 bus of access control system Firmware update procedure e Connect power supply to the device Place jumper on FDM pins 2121010 012 010101012 01012 010 rcdr175 Fig 5 Location of FDM and RST contacts inside the enclosure of PR612 PR622 controller Reset the device place and remove jumper on RST contacts or switch power supply off on Start RogerISP software and select communication port in case of RUD 1 select RS 485 Select Erase button in Roger ISP window Reset the device again place and remove jumper on RST contacts or switch power supply off on In Firmware window select firmware file can be downloaded from www roger pl and then select Program button After firmware upload remove jumper from FDM contacts and reset the device In case of network system it is required to restart controller within PR Master software by right dicking particular controller and selecting the option Restart controller and verify version 5 ORDERING INFORMATION Table 4 Ordering information PR612 Access controller of advanced
6. Keypad commands requires previous activation in regard of its schedule and authorization by means of PR Master software By default the command is disabled 4 2 Memory Reset procedure Memory Reset procedure enables erasing of current settings and returning to default factory settings Full procedure also allows to program new Master card PIN as well as new address of the controller After Memory Reset procedure the controller automatically enters normal working mode 4 2 1 Simplified Memory Reset Procedure Simplified Memory Reset restores default settings and automatically sets controller address ID 00 MASTER card and PIN cannot be configured e Remove connections to CLK and IN1 terminals e Connect CLK terminal and IN1 terminal Restart the controller place and remove jumper on RST contacts see fig 5 or switch power supply off on e Disconnect CLK and IN1 terminals e After a few seconds the controller shall restart automatically and switch to normal mode Page 11 of 14 roger 4 2 2 Full Memory Reset procedure only PR612 controller Full Memory Reset restores default settings and enables programming of new MASTER card MASTER PIN and controller ID address e Remove connections to CLK and DTA terminals e Connect CLK terminal with DTA terminal Restart the controller place and remove jumper on RST contacts see fig 5 or switch power supply off on e Disconnect CLK and DTA terminals Enter new MASTER PIN 3 6 digits f
7. PRxx2 series with built in EM 125 kHz UNIQUE card reader with keypad and screw terminals PR622 Access controller of advanced PRxx2 series with built in EM 125 kHz UNIQUE card reader without keypad and screw terminals XM 2 Input output addressable extension module which provides two NO NC inputs and two relay outputs Communication with host device can be performed using CLK and DTA lines The module can be located in a distance of 150 m from the host device controller Page 13 of 14 roger RM 2 Module with two relay outputs and two NO NC inputs Relays can be triggered by applying low or high voltage signal XM 8 Input output addressable extension module which provides eight NO NC inputs and eight relay outputs The module is dedicated for operations with PRxx2 series controllers as elevator access control module UT 4DR Communication interface Ethernet RS485 UT 2USB Communication interface USB RS485 UT 2 Communication interface RS232 RS485 RUD 1 Portable communication interface USB RS485 with 12VDC output which can supply connected controller 6 PRODUCT HISTORY Table 5 Product history Product version Released Description PR612 PR622 v 1 0 11 2012 The first commercial version of the product This symbol placed on a product or packaging indicates that the product should not be disposed of with other wastes as this may have a negative impact on the environmen
8. ally and switch to normal mode After Memory Reset the controller resumes its work with default factory settings and entered address You can then test its operation using the MASTER card or PIN if available Using the MASTER card PIN once activates the REL1 output for 4 seconds LED OPEN A is on for the time when REL1 is active Using of MASTER card PIN twice switches the IO1 output to the opposite state and switches Arm Disarm Mode LED STATUS amp changes its colour Note If previous address of the controller is hardware type see 4 1 Controller address i e FixedID then address entered within Memory Reset procedure is ignored 4 3 Controller programming PR612 PR622 settings can be entered based on following method By means of PR Master software which must be installed on computer The computer must be connected to the controller by means of communication interface e g UT 2USB RUD 1 UT 4DR PR Master software is available at www roger pl By means of command entered with controller limited configuration More information on controller programming can be found in the document PRxx2 series controllers Functional description and Programming Guide as well as in PR Master User Manual which are available at www roger pl 4 4 Firmware update The latest version of firmware is available at www roger pl In order to update firmware it is necessary to connect the device by means of RS485 bus to communication interface UT
9. d reading is significantly lower than specified in technical documentation consider relocation of controller reader e Readers can be installed on metal surfaces but in such case reduction of reading distance should be expected The reading distance reduction effect can be minimized by installing readers on the non metal spacer with minimal thickness of 10 mm e g PVC If two readers have to be installed on opposite sides of the same wall it is recommended that they are not directly opposite in the same axis 4 CONFIGURATION 4 1 Controller address If PR612 PR622 controller with built in EM125kHz reader works autonomously standalone mode then address setting can be skipped default address ID 00 but if the controller is to be connected with other controllers by means of RS485 bus and operate in network system then it is necessary to assign unique address to particular controllers ID number from range 00 99 Two or more devices with the same address cause communication conflict and make a proper communication with these devices impossible There are four methods of setting controller address During update of controller firmware by means of RogerISP software so called Fixed ID Manually during Memory Reset procedure By means of PR Master software Manually by means of command entered with keypad The first method is based on hardware address and the remaining ones are based on software addresses The main difference between th
10. ese two addressing methods is that software addresses can be changed in all possible ways while hardware address can be changed only during firmware update Fixed ID has the highest priority and the other methods have lower priority Note A new controller can be connected to the existing system without the necessity to change its address but only if no other controller operates with default address ID 00 Once the controller is connected to the RS485 communication bus it should be detected by means of PR Master software and required address can be set It is recommended to assign addresses to all controllers as to make default address ID 00 unoccupied Page 10 of 14 roger 4 1 1 Setting the address during firmware update Fixed ID FixedID can be set during update of the controller firmware by means of RogerISP software Prior to firmware upload RogerISP software offers the possibility to set Fixed ID address in range of 00 99 Once the FixedID is selected and uploaded to the controller it is not possible to change it until the next firmware update If FixedID address in not required operator should select FixedID None Note When using FixedID address no other method except firmware update can be used to change controller address again The FixedID address is saved even in case of controller configuration error Thanks to this feature controller can be always detected on the communication bus by means of PR Master software with the same addre
11. nsmitting lines are not required In most cases communication works with any cable type standard telephone cable shielded or unshielded twisted pair etc but the recommended cable is unshielded twisted pair UTP Shielded cables should be limited to installations subject to strong electromagnetic interferences The RS485 communication standard used in the RACS 4 system guarantees proper communication in a distance of up to 1200 meters as well as high resistance to interferences UT 4DR communication interface can be used for communication of computer and PR Master software with remote above 1200m RACS 4 network subsystem of controllers UT 4DR enables the communication through LAN WAN Page 7 of 14 roger 3 8 Controller mounting TAMPER o o O o lt N x cO 84 A amp LED STATUS ARMED DISARMED MODE LED OPEN A LED SYSTEM Fig 3 Installation of PR612 controller Page 8 of 14 roger 92 1 sseooy zc9d WALSAS Q31 31 G3iwsivsla3aiwesiv SnIVIS q31 Fig 4 Installation of PR622 controller Page 9 of 14 roger 3 9 Installation guidelines e Install devices in such way as to ensure easy access to screw terminals and jumpers RST FDM located inside the controller e Prior to controller installation it is recommended to set its address ID number see 4 1 Controller address Factory default address is ID 00 e The contr
12. oller is delivered with MASTER proximity card however any proximity card in EM 125kHz UNIQUE standard can be programmed as MASTER card e The controller should be installed at vertical wall in vicinity of controlled door e All electric cables must be connected to devices with disconnected power supply e All devices within RACS 4 system controllers readers extension modules should have common supply minus GND In order to ensure this all the GND terminals from various power supply units used in the system including access controllers with built in power modules should be connected with each other using separate wire Alternatively the common supply minus GND of the entire system can be earthed however in one arbitrary selected point only diode of general use e g 1N4007 should be always connected in parallel to the door locking device magnetic lock electric strike relay coil one piece of such diode is delivered with the controller It should be connected as close as possible to the inductive element tis recommended to supply door locking device by means of separate wires directly connected to power supply unit e It is recommended to install controllers readers in minimal distance of 0 5m from each other Because of relatively low magnetic field the reader should not interfere with other devices however its operation can be disrupted by devices generating a strong electromagnetic field e If the range of car
13. ollowed with the 2 key or skip this step and press only the 2 key Read card at the reader this will be a new MASTER card or skip this step and press only the 2 key Enter two digits in range of 00 to 99 by means of keypad this will be new ID address or skip this step and press only the 7 key so the default ID 00 could be assigned e After a few seconds the controller shall restart automatically and switch to normal mode 4 2 3 Full Memory Reset procedure without use of keypad only PR622 controller PR622 controller is not equipped with any keypad but it is possible to program MASTER card and controller ID address without connection of external PRT series reader In such case card readings are used e Remove connections to CLK and IN3 terminals e Connect CLK terminal with IN3 terminal Restart the controller place and remove jumper on RST contacts see fig 5 or switch power supply off on e Read any card at the controller this will be the new MASTER card Then the controller shall generate three short acoustic signals e Read MASTER card X times where X corresponds to the first digit of the required controller ID address Then the controller shall generate two short acoustic signals e Read MASTER card Y times where Y corresponds to the second digit of the required controller ID address Then the controller shall generate three short acoustic signals e After a few seconds the controller shall restart automatic
14. ort to ground rated 15VDC 1A Distances Between controller and communication interface RS485 max 1200m Between reader and controller max 150 m Between controller and XM 2 XM 8 expansion modules max 150 m Environmental class according to EN 50131 1 Class IV outdoor general conditions temperature 259 to 60 C relative humidity 10 to 9596 no condensation Dimensions HxWxD Weight PR612 115 X 80 X 35 mm PR622 85 X 85 X 27 mm approx 120g Certificates CE Page 3 of 14 roger 3 INSTALLATION 3 1 Wires and connection diagram Screw terminal Description 12V Positive power supply contact 12VDC GND Negative power supply contact and reference potential for RS485 communication bus input lines and RACS Clock amp Data interface IN1 IN1 input line internally connected to the power supply plus 12V through a 5 6kQ resistor IN2 IN2 input line internally connected to the power supply plus 12V through a 5 6kQ resistor IN3 IN3 input line internally connected to the power supply plus 12 through a 5 6kQ resistor RS485 A RS485 communication bus RS485 B RS485 communication bus CLK RACS Clock amp Data bus DTA RACS Clock amp Data bus TMPA Tamper switch line A 24V 50mA rated TMP B Tamper switch line B 24V 50mA rated IO1 IO1 transistor output of open collector type rated 15VDC 1 0A IO2 IO2 transistor output of open collector
15. s one switched contact rated 30V 1 5A The relay contacts are internally protected against overvoltage by semiconductor elements However this does not release the installer from responsibility to eliminate interferences from inductive elements by an additional diode It is forbidden to use relay output to switch voltages above 30V because this for sure will cause damage to the semiconductor elements protecting the relay s contacts In the normal state the relay is off the NC COM contacts are shorted In the triggering state the relay is on the NO COM contacts are shorted In case of lack of the power the REL1 output is in the off state 3 6 3 General purpose outputs Two transistor outputs IO1 IO2 are available in PR612 PR622 controllers All these lines are open collector type i e in the normal off state are pulled to supply plus via 5 6kQ resistor and when on they short to supply minus Both lines can switch current up to 1A DC while voltage connected to the output must not exceed 15VDC In case of overcurrent state transistor outputs are automatically switched off and the controller automatically restarts 3 7 RS485 communication bus The RS485 bus consists of two signal lines A and B In the RACS 4 system any topology can be used star tree or any combination of them except for loop in order to connect controllers in subsystem and to establish access control system The matching resistors terminators connected at the ends of tra
16. ss as it was assigned during firmware update 4 1 2 Manual address setting during Memory Reset procedure When hardware address is not used i e FixedID None then the controller address be set manually during Memory Reset procedure see 4 2 Memory Reset procedure Note If controller works with Fixed ID then Memory Reset procedure can be executed but still the new software address shall not be effective 4 1 3 Setting the address by means of PR Master software In order to set or change the address by means of PR Master software the controller must be connected to PC via communication interface UT 2USB UT 4DR or RUD 1 and detected by the software Once it is detected you can use Change ID command Note The address which is set manually during Memory Reset procedure can be changed by means of PR Master software and by means of manual command entered with keypad 4 1 4 Manual address setting by means of command entered with keypad All commands for manual programming of controller by means of keypad are specified in the document PRxx2 series controllers Functional description and Programming Guide which is available at www roger pl Controller PR622 which is not equipped with keypad can also be programmed manually In such case it is just enough to connect PRT series reader with keypad e g PRT12LT to such controller Following Keypad Command can be used for address setting 0 0 Login new ID address The
17. t and health The user is obliged to deliver equipment to the designated collection points of electric and electronic waste For detailed information on recycling contact your local authorities waste disposal company or point of purchase Separate collection and recycling of this type of waste contributes to the protection of the natural resources and is safe to health and the environment Weight of the equipment is specified in the document Contact Roger sp j 82 400 Sztum Gosciszewo 59 Tel 48 55 272 0132 Fax 48 55 272 0133 Tech support 48 55 267 0126 E mail biuro roger pl Web www roger pl Page 14 of 14 roger
18. uilt in reader for EM 125kHz UNIQUE proximity cards and can operate with additional external reader of PRT series XM 2 I O extension module and up to four XM 8 modules dedicated to access control in elevators The address of external reader must Page 6 of 14 roger be ID 0 i e factory default address of PRT reader the address of XM 2 must be ID 5 and addresses of XM 8 modules must be in range of ID 8 11 All mentioned device must be connected to CLK and DTA lines Any type of cables e g unshielded twisted pair can be used for CLK and DTA lines Guaranteed communication distance is 150 meters Note Practically devices communicating in RACS Clock amp Data standard e g PRT readers can be connected to the controller for distances up to 500m but it is not guaranteed by the manufacturer 3 6 Input and output lines The functions are assigned to input and outputs by means of PR Master software Default function for REL1 relay output is door unlocking 3 6 1 Inputs inputs IN1 IN3 of PR612 PR622 controller have identical electric structure and can be configured as NO or NC lines The NO input is triggered by shorting it to supply minus GND while the NC input must be normally shorted to supply minus GND and it becomes triggered when connection with ground is discontinued Every input is internally connected pulled up to the power supply plus 12V through a 5 6kQ resistor 3 6 2 Relay outputs The relay output REL1 offer
19. y can be provided by means of power supply unit PS10 or PS20 which are available in Roger offer The power supply units can be connected to backup battery in order to ensure operation of access control in case of power failure All devices connected to RS485 bus including controllers should have common supply minus GND In order to ensure this all the GND terminals from various power supply units within the system should be connected with each other using separate wire Alternatively the common supply minus GND of the entire system can be earthed however in one arbitrary selected point only 3 4 Connection of door locking device In majority of cases door locking devices are inductive type It means that turning off the current flow through the device causes the over voltage condition voltage surges which can interfere with the controller electronic components In extreme cases it may result in improper operation of the controller or even freeze of the unit Moreover overvoltage condition causes quicker wear of the relay contacts In order to limit this negative condition it is necessary to use a general type semiconductor diode e g 1N4007 one piece of such diode is included with the controller It should be connected as close as possible to the inductive element electric strike or magnetic lock Fig 2 Connection of door lock 3 5 Connection of external reader and or extension module PR612 PR622 controllers are equipped with b
Download Pdf Manuals
Related Search