GCS Satellite Hardware Manual
Contents
1. Version 1 3 November 22 2000 Information in this document is subject to change without notice No part of this document may be reproduced copied adapted or transmitted in any form or by any means electronic or mechanical for any purpose without the express written consent of Galaxy Control Systems Copyright protection claims include all forms and matters of copyrighted material and information including but not limited to material generated from the software programs which are displayed on the screen such as icons look and feel etc Revision History 1 0 1 1 1 2 1 3 First Release 06 29 2000 Release 08 18 2000 Updated diagrams backplane references Release 08 29 2000 New I O diagrams Lantronix to PC diagrams Release 11 22 2000 Added Lantronix Configuration section Galaxy Control Systems 3 North Main Street Walkersville MD 21793 Phone 301 845 6600 Fax 301 898 3331 Email info galaxysys com Internet http Awww galaxysys com Copyright 2000 Galaxy Control Systems All Rights Reserved Satellite Installation Manual Table of Contents TABLE OF CONTENTS INTRODUCTION Le BE KEE 5 gt The Satellite Hardware sscsscssssssssssssessssesssesssecssecssecsseeseesseesnseeseeessoessseees 5 Satellite Coni oee Stu eee A he on eh ee cc ete 5 Card Readers Keypads ieiiniec it 6 The Input Output Port I Q eei cerei reacted eene n nan enne ntn atc euo E2. When using MR Sensor s magnetic stripe reader the card can be swiped in only one direction If cards are swiped in the wrong direction the controller will not acknowledge the activity For this reason the Duress feature cannot be used with magnetic stripe readers Additionally these readers cannot be used with alarm cards to Arm and Disarm the systems alarm partitions Only Galaxy Control System s Infrared format readers and keypads can be used for Duress or to Arm and Disarm alarms The remaining connections for door contacts request to exit devices and output relays can be found in the Door Contact Rex and Lock Wiring sections The maximum controller to reader distance using 22 AWG shielded cable is 500 feet The CPU voltage jumper J1 or J5 must be set to 5 volts for this reader Satellite Installation Manual 21 BACKPLANE SILKSCREEN Figure 10 Barcode Readers Galaxy Control System s Satellite Controller can use a barcode reader to identify most industry standard barcode formats The Barcode reader provided by Galaxy Part 90 0840 00 uses the ABA Magnetic Stripe format BACKPLANE SILKSCREEN 1 2 3 4 5 6 DI Q Qo Oo Quo Qo Yellow amp Black Figure 11 When using a standard barcode reader the card does not provide a direction For this reason the Duress feature cannot be used with barcode readers Additionally these readers cannot be used as alarm cards to Arm and Disarm the syst
3. gt PC Connections iii add 40 Direct Connection ii dicos 40 Dial up C nnection ee rm 40 TCP IP ee ll ET Un TEEN 41 gt Power CONNECTIONS cinc 41 gt Eantronix Configuration miii 42 Setup for MSS100 100Mb systems ccccccccnnonnccocccononononnnnnanaccnnnnnnnnnnnnnnnncnrrr renacer 42 Setup for MSS1 MSS1T2 10Mb systems eeeeeeeeeeeeeeeeeeennennnn nn 46 EA o OOO OO IA 50 4 Satellite Installation Manual Introduction O OOOO Overview Satellite is an easy to install easy to use high performance access control and security management system Designed for use in a wide variety of security applications the Satellite system allows users to monitor and control many facility control and security functions The Microsoft Windows based software and graphical user interface facilitate its use by individuals of all skill levels Microsoft Windows was chosen because of its graphical user interface GUI ease of use and wide acceptance The GUI is consistent throughout most Windows based programs Once familiar with the basic Windows concepts most applications or programs are easily learned The Satellite system provides integrated access control and many security management functions With the software and hardware that make up the Satellite a user can control a complete facility or multiple facilities The Satellite system was designed to combine Access Control Al
4. Navigator 6 Satellite Installation Manual 2 GB of free hard drive space to install Satellite more space needed depending on size of database Standard graphics card capable of 24 bit color at 1024 x 768 resolution 17 monitor or larger Standard Parallel Port COM serial ports as required One COM port per loop An additional COM port if using an RS 232 programming reader One COM port if using a serial Port UPS One serial Port UPS recommended Any Windows compatible printer for report printing The above specifications are minimum requirements only and are subject to change with the addition of software modules Please contact Galaxy Control System to ensure these are the latest specifications NOTE ANY deviation from these minimum requirements can cause Satellite to not function or to operate with degraded performance Simple System Configuration to be sent to the controller and status information to be sent back to the reader indicator lights Additional cabling allows for the control of a door release and a sensor signal to be sent to the controller when the door is opened A manual access switch can be added to the system so that personnel without cards may be visually recognized and the door opened for them The processor board provides the surge protection necessary to protect the CPU in the event that the reader receives a i V The basic system configuration would be one controller and one c
5. Included with your Lantronix device is a CD and a 3 5 floppy The 3 5 floppy contains pre configured setup files for the various types of configurations and Lantronix models used with Galaxy systems 1 Use the CD to install EZWebCon on the PC 2 Note the Hardware address on back of the Lantronix device For example 00 80 a3 21 5f 63 3 Connect the device to an Ethernet port 46 Satellite Installation Manual 4 Open EZWebCon Start button gt gt Programs gt gt EZWebCon 5 Click on the Lantronix box in the lower left had corner to open the menu 6 Click on Assign IP address to server 7 Enter the Hardware address from the back of the device and the IP address and subnet address as provided by the local IT department 8 Click OK 9 You will be prompted to reboot the Lantronix device To do this unplug the device from the power source then plug it back in 10 Click on Micro Serial Servers in the EZWebCon window 11 Enter the IP address for the device Same as previous 12 Click OK 13 On the next screen scroll down and click on Download Configuration to server 14 Insert the 3 5 floppy disk provided with the device into the drive of the PC 15 Browse to one of the following files on that disk If Device will be used for Ethernet TCP IP connections to loop PC to Primary connection using MSS1 IP Connect MSS1 cfg PC to Primary connection using MSS1T2 IP Connect MSS1T2 cfg If Device
6. Low battery AC Failure Tamper Dry input normally closed Optional Input Output 8 inputs 8 outputs 2 Readers Door contact Exit request inputs Satellite Installation Manual Unit Number Switches S2 To the immediate left of the eight OPTION switches is a bank of switches labeled UNIT NO The combination on this bank determines the Unit Identification number of the controller The local primary controller hooked to the computer is always Unit Number 000 If there are additional controller each one MUST have its own unique ID number Other controller numbers range from numbers 001 through 127 allowing for systems of up to 128 controllers There cannot be two controllers on a system with the same Unit Number It is recommended that secondary units be assigned unit numbers in ascending order starting with Unit 001 The table on the following page lists the different switch settings for Unit Numbers 000 05 Appendix A lists the switch settings for unit numbers 0 through 99 0 Switch Down OFF 1 Switch Up ON Switch 1 2 3 4 6 7 8 Value 1 2 4 8 16 32 64 128 Unit 00 0 0 0 0 0 0 0 0 01 1 0 0 0 0 0 0 0 02 0 1 0 0 0 0 0 0 03 1 1 0 0 0 0 0 0 04 0 0 1 0 0 0 0 0 05 1 0 1 0 0 0 0 0 Option Switches S3 The OPTION S3 switch bank is the second of three sets of dip switches located along the left side of the CPU board This bank of switches enables certain unique functions for the panel Below
7. S3 none up E2 E3 CGND E4 RX E5 Out E6 For test 12 Normally 0 E7 B E8 B E9 OUT E10 IN E11 45 E12 B E13 E14 D E15 D When testing the modems locally use the following connections for the RJ 45 cable between the modems pin 3 to pin 4 pin 4 to pin 3 pin 5 to pin 6 pin 6 to pin 5 US Robotics Courier V Everything A standard US robotics Courier modem may be used for certain applications of the Network Bridge The following AT commands need to be sent to the modem at the Remote Primary ATS13 16 amp W At Power on or Reset this dials the number of the extending secondary stored at position O AT amp Z0 number amp W Store phone number of the extending secondary at position 0 AT amp B1 amp W Fixes serial communication rate 38 Satellite Installation Manual AT amp N 6 Modem Switch Settings Controller to Modem cable Satellite Installation Manual Sets maximum connection rate 6 9600 baud 4 4800 3 2400 Extending Secondary 1 2 4 5 6 7 and 9 up Remote Primary 1 2 4 6 7 9 and 10 up 23456781 to 324567820 39 PC Connections Direct Connection In order to communicate to the Satellite controller a Personal Computer must be used The PC connects to the primary controller using the 8 pin female DB connector J14 on the Processor Board The connection uses the standard RS 232 interface and is used to configure and observe the system Most of the time the connec
8. device is being used for an Ethernet TCP IP connection between a PC and Primary controller skip this step and continue at step 16 For the extending secondary follow these instructions e Type CHANGE DEDICATED TCP nnn nnn nnn nnn 3001T and press the enter key nnn nnn nnn nnn IP address of the remote primary e Type CHANGE AUTOSTART ENABLED and press the enter key e Set Option switch 5 on the controller in the up position For the remote primary follow this set of instructions e Type CHANGE ACCESS REMOTE and press the enter key This disables the local port for configuration after this connection is terminated e Set Option switch 6 on the controller in the up position 17 To change the baud rate of the device type CHANGE SPEED equals either 9600 4800 or 2400 this baud rate must match the setting of the Satellite CPU and press the enter key Satellite Installation Manual 49 18 End the PC connection and remove the special cable if still connected 19 Connect the Lantronix to the Satellite controller using the following wiring diagram J15 Back Plane DB 25 Connector 2 3 7 6 20 to pin Lantronix MSS1 1T2 DB 25 Connector 2 3 7 20 6 You must test the connection for either the PC to Primary connection for TCP IP loop connections or the Extending Secondary to Remote Primary connection for Network bridges after the controllers have been added to the database Contact Galaxy s Technical support depart
9. devices can also be used however Galaxy Control System s Engineering Staff should be consulted prior to installing these types of devices This diagram shows how the line drivers are connected in a one controller to one controller setup The data comes OUT of the primary controller passes through the line drivers and IN to the secondary controller The data then completes the loop by passing OUT of the secondary controller back through the line drivers and then IN to the primary Primary Secondary Controller Controller UNIT 00 UNIT 01 NETYYORK 417 NETVVORK 417 Figure 24 The second diagram shows the wiring configuration that would be used in a two controller to two controller setup In this diagram the data passes OUT of the primary and IN to the local secondary second from the left The data then travels OUT of the local or first secondary and through the line drivers to the remote site At the remote site the data is received IN by the second controller from the right It then transmits the data OUT to the farthest right controller That controller then transmits the data through the line drivers and IN to the primary controller These examples should provide enough reference information when designing the wiring for different numbers of controllers at each location Satellite Installation Manual 35 Primary Secondary Secondary Secondary Controller Controller Cont
10. flip the INT EXT switch accordingly when changing from using the internal reader to the external reader or visa versa Dip Switches The bank of dip switches is used to tell the RS 232 interface what type of data Infrared Wiegand or ABA it should be receiving from the reader and transmitting to the computer This is how the switches need to be set for the three different data formats Infrared All OFF Wiegand 1 ON all others OFF ABA 2 ON all others OFF Satellite Installation Manual 31 Input Output Ports Each of the two Input Output ports can monitor and annunciate alarms When a port is configured as an Input Output Port in the Satellite software the wiring connections take on the functions shown in the following diagram Each Input Output Port can accept up to four inputs and can produce two relay outputs Processor Board Relays 1 and 2 and two Open Collector Outputs Pin 1 and Pin 6 Inputs The Inputs for the Input Output port are as follows Pin 2 is Input 3 Pin 5 is Input 4 Pin 8 is Input 1 and Pin 9 is Input 2 All inputs are normally closed Inputs 3 and 4 share Pin 4 while Inputs 1 and 2 share Pin 7 Galaxy Control System s technical support department recommends that a 1 microfarad capacitor be installed on Inputs 3 and 4 This will prevent any false alarms that may result from the contact bouncing and generating multiple alarms The capacitor is not necessary for Input
11. set to 12 volts for this reader Wiegand Swipe Reader Galaxy Control System s Satellite controller can use Wiegand readers to identify industry standard Wiegand cards The Wiegand reader provided by Galaxy Part 90 0724 00 uses the 26 bit Wiegand format When using Wiegand Swipe readers the card will only function when swiped in the correct direction If cards are swiped in the wrong direction the controller will not acknowledge the activity For this reason the Duress feature cannot be used with Wiegand Swipe readers Additionally these readers cannot be used with alarm cards to Arm and Disarm the systems 20 Satellite Installation Manual alarm partitions Only Galaxy Control System s Infrared format readers and keypads can be used for Duress or to Arm and Disarm alarms BACKPLANE SILKSCREEN 1 2 3 4 5 6 Figure 9 The remaining connections for door contacts request to exit devices and output relays can be found in the Door Contact Rex and Lock Wiring sections The maximum controller to reader distance using 22 AWG shielded cable is 500 feet The CPU voltage jumper J1 or J5 must be set to 5 volts for this reader Magnetic Stripe Reader Galaxy Control System s Satellite Controller can use Magnetic Stripe readers to identify most industry standard Mag Stripe formats The Track Il Mag Stripe reader provided by Galaxy Part s Black 90 0010 00 amp Chrome 90 001 1 00 uses the ABA format
12. 100 RemPri cfg 16 Highlight the file and click Open Satellite Installation Manual 43 17 Select NO when prompted to download the IP address 18 Click OK to reboot the device to save the configuration Using Hyperterminal 44 Connect the MSS100 to the Serial port of the configuring PC using the special cable included with the device The cable provides the following connections MSS100 DB 25 PC Serial Port 9Pin 25 Pin 2 2 3 3 3 2 7 5 7 Start Hyperterminal It is usually found at Start button gt gt Programs gt gt Accessories gt gt Hyperterminal If it is not available you can add it using Add Remove Programs in the Control Panel Once Hyperterminal opens enter a name for your connection and select an icon In the Connect To window select the COM port to which the cable is connected Click OK In the COM Port Properties use the following settings Bits per second 9600 Data bits 8 Parity None Stop bits 1 Flow Control None Click OK Cold reset the device Unplug the device from the power source Press and hold the reset button usually requires an unbent paper clip Still holding the reset button plug in the device to the power source Continue to hold the reset button until the Local prompt is displayed Type in SET PRIV and press the enter key This sets the privilege level so configuration commands can be issued Satellite Installation Manual 10 Type in SYSTEM as the password and press t
13. 3 and 18 AWG shielded wire for door release connections All system wiring should be in dedicated conduit with the shields grounded at the controller end only The controller should be centrally located in reference to the doors and or alarm points that it controls This will prevent many long wire runs It should also be located in a secure area to prevent tampering If the distance between networked controllers exceeds 1000 feet at 9600 baud line drivers or short haul modems are required Installation Procedure NOTAN Mount chassis Wire network J17 Wire power supply J17 DON T PLUG IN AC AT THIS TIME Set Options Unit No and Baud Rate Switches on the CPU Board Connect the personal computer and modem if necessary Connect AC Power and make sure the three LEDs are illuminated Put Option Switch One in the down position Satellite Installation Manual 9 The Satellite Controller Specifications Controller Enclosure Dimensions 21 00 x 14 00 x 4 00 The controller enclosure is designed to be wall mounted Input Power 12 VDC 2 amps minimum 11 5 V maximum 14 0 V This powers all PC boards and readers Lock Power must be provided separately Most biometric readers must also be separately powered Be sure to common the grounds between the supplies Port Output Form C SPDT contacts 24 VDC 1 5 amps maximum Each
14. 3 94 95 96 97 98 99 53 Satellite Installation Manual
15. Configuration The Lantronix device is an Internet communication device that converts Ethernet format data to RS 232 format data This allows Galaxy controllers to be connected to their supporting PC via an Ethernet connection such as a LAN WAN or to connect to each other over a Network Bridge created by two Lantronix devices one at the Extending Secondary and one at the Remote Primary The Lantronix device is available in three models MSS100 MSS1 and MSS1T2 MSS100 e supports up to 100Mb network connections MSS1 MSS1T2 e supports up to 10Mb network connections T2 version has coax adapter Setup for any model can be accomplished using either EZWebCon or Hyperterminal EZWebCon e allows you to plug the device into any available Ethernet port e provides a user friendly graphical interface for the configuration Hyperterminal e generally more reliable than EZWebCon requires a special cable between the device and setup PC sent with devices e does not have any graphical interface you must type the commands in directly Galaxy recommends attempting the configuration with EZWebCon first using Hyperterminal as a backup method Setup for MSS100 100Mb systems The MSS100 model supports 100Mb Ethernet LAN WAN connections It is the smaller newer model It can be configured using EZWebCon or Hyperterminal Using EZWebCon Included with your Lantronix device is a CD and a 3 5 floppy The 3 5 floppy
16. If this is 28 Satellite Installation Manual not done once the readers are powered up both reader LED s will come on This indicates a Forced Open condition and eventually both LED s will go off This indicates a Door Left Open condition Default time is 15 seconds before both LED s turn off In addition the readers will not recognize any card swipes The manual egress Request to Exit input allows the lock control relay Relay 1 and door contact to be activated by means other than a card The egress device can be anything which produces a momentary contact closure between Pins 7 and 9 Two examples of manual egress devices are a push button switch and a motion detector with contacts Lock Wiring RELAY 1 RELAY 2 NONCC NONCC V TOLOCI GND TOLOCE Surge protection diode REL AY 1 RELAY 2 provided with controller NO NC C NO NC C GND OYMONAL OVTIVT Surge protection diode f provided with controller LOCK V TO LOCK POWER GND TO LOCK Figure 17 The port pins labeled Relay 1 and Relay 2 are outputs which are used to control a door release and or other devices Pins 10 through 12 are assigned to Relay 1 while Pins 13 through 15 are assigned to Relay 2 Each relay consists of a Normally Open NO a Normally Closed NC anda common contact Typically Relay 1 is used for strike lock control Relay 2 can be used for anything that can be controlled by a contact closure or ope
17. Switch 4 up invalid setting If you are setting up a modem connection make sure the controller has a direct phone number It cannot use an extension or other type of phone connection that is interrupted by a switching system that would require dialing more numbers or being connected by a receptionist If you are setting up an Ethernet network connection you must use a device Such as a Lantronix device that converts an RS 232 signal into an Ethernet signal 10 100 Mb The network must also use a TCP IP format Switches 5 and 6 Network Bridge Extending secondary Switch 5 up Switch 6 down Switch 5 in the up position makes that controller an extending secondary Being an extending secondary allows the controller to asynchronously communicate with another controller loop This allows multiple remote sites to be monitored by the same PC For more information on asynchronous communication between controllers please see the Network Connections section titled Network Bridge Asynchronous controller communication Remote Primary Switch 5 down Switch 6 up Switch 6 in the up position makes that unit a primary controller no matter what the unit number is Unit 000 is still always a primary and should not have this switch in the up position Switch 6 would be used when a customer needs local and remote sites to behave as one system This enables two sites or controller loops to communicate asynchronously Please see the Networ
18. The PWR LED tells if the system is receiving power The other two report the controller loop line status XMIT is for the transmit signal while the RECV indicates that data is being received through the network input path During normal operation all three should be lit however the RECV and XMIT LEDs will be slightly dimmer than the PWR LED The PWR LED will light with less than 12 VDC Always check DC voltage between J17 pins 8 and 9 to verify that the controller is receiving approximately 13 8 VDC Satellite Installation Manual 15 l pun XMIT h Brightly lit indicates proper 12VDC applied Indicates that network data ts being trans mitted by board Indicates that network data is being recieved across the network Figure 5 Batteries B1 and B2 The CPU memory and clock components are under battery backup protection in the event of power loss The batteries may be removed from their respective sockets to save battery life before the unit is installed The memory battery located in position B1 is a coin type battery and can retain the system memory for a total of 90 days of down time Galaxy Control System recommends changing this battery semiannually as routine maintenance The clock battery located in position B2 is also a coin type battery rated for ten years Both batteries are socketed for easy replacement Network Connection On the upper right corner of the processor board there is an 8 pin terminal strip con
19. UNIT 01 This figure illustrates network wiring for 1 2 UNIT 00 NETWORK 17 NETWORK 1 7 NETWORK 17 ok and 3 controller systems If larger systems are 55 Ss s d zz 3 3 required simply wire the additional units into the zzoso klel e Rr network in the same fashion as shown with the three controller illustration Itis necessary to observe UNIT 00 eil ee polarity when wiring the network The OUT of one a Ns XOD unit must go to the IN of the next unit and likewise zzaa zz 33 zz 33 wit the other IN OUT pins plots isi Ss When wiring the network use 4 conductor 22 AWG Beldon 8723 shielded twisted pair cable It should be in its own grounded conduit with the Figure 23 34 Satellite Installation Manual shield attached to ground at one end only Keep the conduits as far away as reasonably possible from all high power and or high frequency lines If there are any questions or doubts concerning the running of wires please contact Galaxy before proceeding The maximum distance between controllers is 1000 feet at 9600 Baud Line Drivers Galaxy strongly recommends that Line Drivers be used when the network distance between controllers is greater than 1000 feet but less than 1 5 miles Line Drivers are easy to install and require no hardware changes to the controllers Galaxy can supply Black Box s SHMB 2 Short Haul Modem Other communication technologies such as fiber optics laser and radio frequency
20. ached to the TCP IP a pd is Network LAN WAN then to the primary controller s J14 connector epi This diagram shows the Lantronix to Primary controller connections To 7 5 a4 E See the Lantronix Configuration for instructions on configuring the 8 device p 42 Power Connections The controller requires a 12 volt battery backed DC power supply with a minimum 2 ampere continuous output These power supplies come with the Satellite unit and should actually put out 13 8 VDC under load The supply s output must be filtered and J17 electronically regulated It should also have a built in battery charger and should automatically switch to the battery when an AC failure occurs 12 VDC System Power is applied between Pins 1 and 2 of J17 The Power Supply Processor Board is silk screened with GND and 12V IN respectively If power supplies from Galaxy Control System are not used it is recommended that one with a battery backup be used This will allow the system to continue to operate for some time even after AC power is lost The power supply should also have a voltage ripple less than 2 millivolts GND 12V IN Figure 29 The controller power supply provides power for the control unit readers and Input Output ports only A separate power supply must be used to power the door strikes and magnetic locks Satellite Installation Manual 41 Lantronix
21. any name A Local prompt should then appear Type in SET PRIV and press the enter key This sets the privilege level so configuration commands can be issued Type in SYSTEM as the password and press the enter key Satellite Installation Manual 12 The IP configuration will now be set Type CHANGE IPADDRESS HHETHETLTEHE THER HAH THER EHE THEE the IP address and press the enter key The IP address must be assigned by the facility s network administrator to fit into the facility s address scheme Otherwise the communication will not work After an IP address is assigned you may continue the configuration from the PC or you may connect the device to the network and Telnet to port 423 of the device 13 Type CHANGE FLOW CONTROL NONE to disable all flow control and press the enter key 14 Type CHANGE GATEWAY nnn nnn nnn nnn nnn nnn nnn nnn the gateway and press the enter key This allow access from the Internet or from a different sub net to which the device is connected The facility s valid Gateway must be used Contact the Facility s Manager of Information Systems to obtain this information 15 Type the following commands and press the enter key after each line CHANGE BOOTP DISABLED CHANGE RARP DISABLED CHANGE SUBNET MASK mmm mmm mmm mmm mmm mmm mmm mmm the subnet mask Contact the MIS department to obtain this information 16 If the device is being used for a network bridge follow these instructions If the
22. ard reader The card reader and door controls would of course be located at the point of entry Cabling between the card reader and the controller allows data DOOR CONTACT eEwuEsT TO EXIT PC DOOR Ld RELEASE Most installations will consist of at Figure 1 least two entry points controlled by one primary controller For systems with more than two points of entry multiple controllers are connected in a loop configuration with one controller acting as the primary unit and the others as Satellite Installation Manual 7 secondary units In a loop of this type all controllers work in a similar fashion to make access decisions but only the primary controller is connected to a PC This means that regardless of the size of the network only one connection is needed for system programming or for logging activity Such a design allows for the installation of a large enough system to accommodate up to 256 points of entry and also provides the capability for upgrading or expanding at any time Each reader port on the control panel can support one of the following devices Galaxy Infrared Reader Galaxy Key pad Reader Wiegand Output Reader Magnetic Stripe Reader Barcode Reader Proximity Reader Biometric Reader Smart Card Reader m Primary Control Unit Satellite Control Panels 2 Reader Ports 2 1 0 Ports Up to 128 controllers per loop allowed Secondary Control Unit Figure 2 An expanded
23. arm Monitoring Photo Imaging Badging Photo Verification HVAC and Lighting within a facility The Satellite system consists of both electronic hardware and software components that work together to control and monitor a facility The software components are used to configure and monitor the operation of the hardware while the hardware components implement the actual security and control functions This manual is written around the features of the Satellite software and the Satellite Controller Both of these are required to take advantage of all the features discussed in this guide Please contact Galaxy Control System s Technical Support with any questions The Satellite Hardware The Satellite system hardware consists of four major components the Satellite Control Units Card Readers Input Output Ports and the Personal Computer Satellite Controllers Satellite Installation Manual 5 This is the heart and brains of the hardware All system functions such as cards being granted access and alarm devices monitoring the system are controlled by this unit In addition all system events such as card reads and alarm events are recorded by the Satellite control units Card Readers Keypads The GES Satellite system supports most of the industry s major card readers and technologies The supported technologies and readers include but are not limited to Galaxy Control System s infrare
24. ation Manual 25 BACKPLANE SILKSCREEN 1 2 3 4 5 12 VDC GND Data 0 Data 1 Data RTN Green LED Red LED Beeper Hold 10 Com Green LED GO Oo JO o P GO 11 Tamper Figure 14 The remaining connections for door contacts request to exit devices and output relays can be found in the Door Contact Request to exit and Lock Wiring sections The maximum controller to reader distance using 22 AWG cable is 500 feet For HID and most other proximity readers the CPU jumper setting J1 or J5 is 12 volts Please check the documentation that accompanies the reader or contact Galaxy Control System s Technical Support for assistance HID Prox Pro with Keypad In order to adjust the Facility Code for the Prox Pro with Keypad a set of configuration reset cards are required Contact Galaxy to obtain these Follow these instructions to reset the keypad 1 Once the Prox Pro with keypad is wired and the keypad is connected power on the device 2 After the initialization beeping for the reader has stopped pass the Reset card over the reader The reader should beep again 3 After the beeping stops again pass the configuration card over the reader and type the desired facility code followed by Galaxy suggests 096 To test the keypad go into the Cardholders window and add a 26 bit Wiegand format card see user guide for adding a card If 96 appears as the Facility code and 1234 comes in as the card code then the
25. ched The Programming Reader works well for dial up systems where swiping cards into a system used to be quite difficult Interface to PC connection 25 pin 9 pin PC com A PC com port The Programming Reader Interface wires L en 37 235 into a communication port on the Satellite system PC using the configuration shown 235 E RS 232 Interface Interface Connector Connector Figure 18 Reader to interface connections There are two connectors for readers to be attached on the RS 232 423456 interface One is labeled INT internal and the other is labeled EXT external The internal connection is usually already wired from the factory The External connection can be used for any Galaxy supported reader type Both connectors are labeled 1 6 with the pins having the properties shown in the diagram An infrared reader would wire as shown but a Wiegand reader would wire Brown to pin 1 White to 2 Red to 3 Black to 4 and Green to 5 just as a regular Wiegand reader would Figure 19 Additional reader wiring can be found in the individual reader s section of the Installation manual 30 Satellite Installation Manual Voltage jumper There is a voltage jumper on the RS 232 Reader Interface The jumper must be set to 5 volts for all 5 volt readers or the readers and the Interface will be damaged INT EXT Switch This switch is used to tell the interface which connector internal or external it should be receiving data through Be sure to
26. configuration of the system would consist of several Satellite controllers each controlling up to two points of entry as shown Only one personal computer is required to program the system regardless of the number of controllers in a system 8 Satellite Installation Manual Controller Installation Site Plan The first step to a successful installation is to make a site plan This is a drawing indicating the location of each component of the access system It should include the controllers power supplies PC card readers and or keypads door contacts door strike sensors all alarm points and all wiring lengths Have the customer provide blueprints of the building or buildings to assist you with this task It is very helpful to have access to the electrical drawings as well Always remember to have your site plans approved by the local regulatory agency to assure that your installation will conform to all safety codes When drawing any site plan keep the following items in mind 1 Keep all wire power network strike door sensor alarm and reader well away from high frequency and high power lines If the crossing of these lines is unavoidable do so at a 90 degree angle This minimizes the electrical interference which could disrupt the system s normal operation Use 22 AWG Beldon 9946 shielded wire for readers 22 AWG shielded twisted pair for controller to controller loop wiring Beldon 872
27. contains pre configured setup files for the various types of configurations and Lantronix models used with Galaxy systems 42 Satellite Installation Manual 1 Use the CD to install EZWebCon on the PC 2 Note the Hardware address on back of the Lantronix device For example 00 80 a3 21 5f 63 3 Connect the device to an Ethernet port 4 Open EZWebCon Start button gt gt Programs gt gt EZWebCon 5 Click on the Lantronix box in the lower left had corner to open the menu 6 Click on Assign IP address to server 7 Enter the Hardware address from the back of the device and the IP address and subnet address as provided by the local IT department 8 Click OK 9 You will be prompted to reboot the Lantronix device To do this unplug the device from the power source then plug it back in 10 Click on Micro Serial Servers in the EZWebCon window 11 Enter the IP address for the device Same as previous 12 Click OK 13 On the next screen scroll down and click on Download Configuration to server 14 Insert the 3 5 floppy disk provided with the device into the drive of the PC 15 Browse to one of the following files on that disk If Device will be used for Ethernet TCP IP connections to loop PC to Primary connection using MSS100 IP Connect MSS100 cfg If Device will be used for Network Bridges Extending secondary using MSS100 RS232 Bridge MSS100 ExtSec cfg Remote Primary using MSS100 RS232 Bridge MSS
28. d swipe readers keypads and card reader keypad combinations Wiegand format readers including Proximity Wiegand swipe Wiegand key keypads and most biometric technologies ABA format readers including magnetic stripe readers barcode readers and keypads Additionally the Parallel reader module allows a pair of readers to be connected to the same controller port This allows both entry and exit door control through the use of a single port Galaxy is continually expanding its range of supported readers If you have a particular installation requirement please contact Galaxy Control System for assistance The Input Output Port I O This type of port allows up to four alarm devices to be monitored and provides two form C relay outputs and 2 open collector outputs The open collector outputs are suitable for driving low current circuits such as LEDs or low current relay coils The output is pulled low by the controller when the output is on current flowing External components must complete the circuit by providing an electrical pull up to positive voltage See the Input Output section for more detail The Computer System Minimum Requirements for PC Configuration IBM Compatible PC with an Intel Celeron amp 500 MHz processor or higher 64 Mb of RAM Windows 95 98 or Windows NT Workstation 4 0 with Service Pack 5 Microsoft Internet Explorer version 4 0 or higher cannot be replaced by Netscape
29. e dn nn ee 6 The Computer System hine tt 6 Simple System Configuration eeeeeeeeeeeeeeeese ee eeee nente nennen nnnm 7 CONTROLLER INSTALLATION MO PLA eve EN 9 gt Installation PrOCOdU FE iria 9 gt The Satellite Controller icciiccsiciiiscsinceiccsiveissenisnsntsvedsvecaieniecewntsenmeunnanwadeinsas 10 Specifications cms pi acia 10 Mounting the Controller occitano 11 Gentral Processing Unit ee eege eege 11 PORT CONFIGURATION dii du EN 17 Infrared Swipe Readers and Keypads ccccccssseeseeeeeeeeeeeeeeeeeeeeeeeeeeeeeeaeeeseneeeeeeeeees 19 Wiegand Swipe Readler eter eee annt nne anta tn tate tenu n Inna nsn ae nnne 20 Satellite Installation Manual 3 Magnetic Stripe Reader eene ciue a 21 Barcode E eut teat edite tune eerte e eui Eres eh eui eeu 22 Essex Cip p 23 Proximity E 25 Parallel Reader Module itenim eiae ern his teca hune en pa Ice R EE See 27 Door Contact Request to Exit oooooconnnnnccccoccccnncnnnnnnnnaccnnnnnnnnnnnnnnncc cn ener nennen nnns 28 Nose dnm 29 Programming Reader ocn ha edoceri ra aede dti uaa doa ta Eua iae 30 COMMUNICATIONS AND POWER CONFIGURATION 0 cccccseseesseeeeeeeees OA gt Network ee TE de TTC 34 Direct ell el 34 Line DAVE Soi 35 Network Bridge Asynchronous Controller Communication 36
30. e the correct version of Essex Keypad With Magstripe barcode and any other ABA reader USE THE ABA VERSION OF THE ESSEX KEYPAD d With Proximity Wiegand Swipe Wiegand Key and any other 26 bit Wiegand format USE THE 26 BIT WIEGAND VERSION OF THE ESSEX KEYPAD d With any Galaxy Infrared format reader USE THE INFRARED FORMAT OF THE ESSEX KEYPAD 4 ALWAYS set the CPU board voltage to 12 V when using the Parallel Reader Module The Reader Voltage jumpers on the Parallel Reader Module will be used to regulate the voltage to the desired voltage For 5 volt readers the Parallel Reader Interface voltage must be set to 5 V Door Contact Request to Exit On each port pins 7 through 9 on the Processor COMMON SENSE Board are the COMMON i L mouse SENSE and MANUAL pins 7 8 9 respectively These are the door contact sensor and manual egress inputs with Pin 7 being common to both To use the door sense capability a sensor which generates a closed circuit when the door is closed is e required Usually a magnetic switch with Normally Open NO contacts is used When the door Figure 16 is closed the contact should be closed This device should be wired between Pins 7 and 8 If door open sensors contacts are not being installed the jumper associated with that port J3 and J5 must be placed in the marked position marked with a white line next to the jumper so that the system thinks that the door is always closed
31. ems alarm partitions Only Galaxy Control 22 Satellite Installation Manual System s Infrared format readers and keypads can be used for Duress or to Arm and Disarm alarms The remaining connections for door contacts request to exit devices and output relays can be found in the Door Contact Rex and Lock Wiring sections The maximum controller to reader distance using 22 AWG shielded cable is 500 feet The CPU voltage jumper J1 or J5 must be set to 5 volts for this reader Essex keypads Galaxy offers three formats of the Essex keypad Infrared ABA and Wiegand These formats are available so that Pin Required can be used with Infrared Magnetic Stripe and Wiegand format stand alone readers Below are the wiring diagrams for the ABA and Wiegand formats The Infrared format diagram can be found in the Infrared Swipe Reader and Keypads section Please contact Galaxy Control System s Technical Support to find out which format of Essex keypad is best for your application ABA Format The ABA version of the Essex keypad Part 90 0050 00 provides ABA Track II format data to the controller When using this diagram make sure the label on the back of the keypad identifies it as the ABA Track II format Alarms cannot be Armed or Disarmed and the Duress feature cannot be used with Non Infrared format keypads Only Galaxy Control System s Infrared format readers and keypads can be used for Duress or to Arm a
32. he enter key 11 The IP configuration will now be set Type CHANGE IPADDRESS HHETHETLTEHE THER HAE THER EHE THEE the IP address and press the enter key The IP address must be assigned by the facility s network administrator to fit into the facility s address scheme Otherwise the communication will not work After an IP address is assigned you may continue the configuration from the PC or you may connect the device to the network and Telnet to port 423 of the device 12 Type CHANGE FLOW CONTROL NONE to disable all flow control and press the enter key 13 Type CHANGE GATEWAY nnn nnn nnn nnn nnn nnn nnn nnn the gateway and press the enter key This allow access from the Internet or from a different sub net to which the device is connected The facility s valid Gateway must be used Contact the Facility s Manager of Information Systems to obtain this information 14 Type the following commands and press the enter key after each line CHANGE BOOTP DISABLED CHANGE RARP DISABLED CHANGE SUBNET MASK mmm mmm mmm mmm mmm mmm mmm mmm the subnet mask Contact the MIS department to obtain this information 15 If the device is being used for a network bridge follow these instructions If the device is being used for an Ethernet TCP IP connection between a PC and Primary controller skip this step and continue at step 16 For the extending secondary follow these instructions e Type CHANGE DEDICATED TCP nnn nnn nnn
33. is a description of these switch functions Switch 1 Reset Mode In the up position this switch initializes wipes clean or COLD STARTS the controller memory when the controller is reset The controller is shipped with this switch in the up position so that it gets a clean start when it is initially powered on at the site Switch 1 should be placed in the down position upon power up of the controller With Switch 1 ON anytime the system is reset a COLD START will occur With Switch 1 OFF down the system will reset with a WARM START A warm start does not wipe out the controller memory A system reset can occur for any of these reasons Satellite Installation Manual 13 The reset button is depressed The CPU system voltage drops below 11 5 volts The CPU automatically resets itself based on a built in watchdog timer A Power surge occurs PONS In the down position switch 1 off and with a fresh Lithium memory backup battery installed a warm reset will occur when any of these conditions occur Switch 2 Not Used at this time Switches 3 and 4 Communication Method Combinations of settings for switches set the method of communication between the controller and the PC or Network to which it is connecting Switch 3 down and Switch 4 down Direct cable connection Switch 3 up and Switch 4 down Modem connection Switch 3 down and Switch 4 up Ethernet network connection Switch 3 up and
34. k Connections section titled Network Bridge Asynchronous controller communication 14 Satellite Installation Manual Switches 7 and 8 are unused at this time Baud Switches S5 To the right of the UNIT NO switches there is a bank of four switches labeled BAUD These are used to select communication parameters and must be compatible with those selected on your PC or modem Following is a list of the possible switch combinations and the settings associated with each of them 9600 All switches in the ON up position Factory Default 4800 Switches 1 and 3 in the ON up position Switches 2 and 4 in the OFF down position 2400 All switches in the OFF down position These switches correlate to the settings within the communications options of the Satellite Software Consult the Satellite User s Guide for further information on PC to controller communication Reset Switch S6 The final switch on the CPU is a push button labeled RESET When the controller is powered up certain operations are performed including the reading of the UNIT No and OPTIONS switches If any of the OPTION or UNIT NO switches are changed a reset must be performed Simply press the button and release The new parameters will then take effect ALWAYS MAKE SURE OPTION SWITCH ONE IS IN THE DESIRED POSITION BEFORE RESETTING LEDs There are three indication LEDs to provide some basic information about the system Each is labeled by its function
35. l System s Engineering staff to determine which would be best for your system Lantronix MSS1 The Lantronix MSS1 is an Internet communication device that enables RS 232 format data to travel between points on a Computer Network Because Computer Network Traffic can greatly affect how the Satellite panels communicate it is necessary to consult Galaxy s Engineering Support before specifying or installing these devices See the Lantronix Configuration for instructions on configuring the device p 42 Motorola UDS v 3225 Digital leased lines can also be used to create a Network Bridge between controllers Below is a description of how the Motorola UDS v 3225 needs to be configured EXTENDING SECONDARY REMOTE PRIMARY Modem Options DCE rate is 9600 Trellis same Normal Originate Forced Answer 4 Wire same Tx level 15 dBm same Satellite Installation Manual 37 Dial Line jack is RJ 45 same DTE Options Async Data same Make DTE Rate same on both modems 8 Bit char size same No Parity same Ignores DTR same DCD is normal same CTS follows RTS same RTS CTS delay is Oms same DTE Fallback disabled same Black Box 201 BC AS Analog leased lines can also be used for the Network Bridge The settings below designate how the switches and jumpers need to be set for the Black Box 201BC AS devices to function properly Analog lines can only communicate at 2400 baud so set the Satellite CPU baud rate accordingly S1 1 4 6 8 up S2 2 up
36. l studs Do not connect Chassis to Cold Water Ground Avoid power transformers and high frequency devices Figure 3 Central Processing Unit The Central Processing Unit CPU is the Heart and Brains of the Satellite system It is responsible for all decisions made by the system Its inputs consist of card PIN codes door sensors manual egresses alarm conditions network messages and PC data Control signals for the door releases reader LEDs output relays network and PC communications make up the CPU s outputs The illustration on the following page is of a Satellite CPU The CPU includes Option Switches Unit Number Switches Baud Switches a Reset Switch LEDs and Batteries Each of these elements is discussed in the following sections Satellite Installation Manual 11 Aia BE Ot CE iE gt EA TE ECHOES OE ELE e EEC pa FAN a oh e ST H i cec 104 ee A Gu NEM ARR d e kg Si c J lary YN mi el Ekel 7 Yo SESE TN weng es DA E TEONE E Enge El DESEN Maa fnac tet al Jumpers J7 J12 Mim dem e T ERN W E I O Port Voltage ves I mee iy Eg le 3 STE ah Wsssssesssesswvewsws s Z BE CE E um qw SAGER d ees S i uil EREM ap t ee hns rsrn iii RE d yo EEE eei Qe AMAT CITA id E Xi Ee ma Sr NEEN Jumpers J1 J5 Reader Voltage Ae A mg ES gt al x y DESSEN Ee a EFE ES 000 Eg NE W ai ITA E D UU Figure 4 Supervision
37. ment with any question J16 Connector The AC Failure and Low Battery connections on the J16 Connector allow the unit s power status to be monitored by the Satellite s software The Tamper connection connects to an enclosure Tamper switch The Low Battery AC Fail and Tamper must all be Normally Closed dry inputs to report safe conditions 50 Satellite Installation Manual Switch Down Unit Number Table Switch Up 0 1 1 1 Switch Value 64 128 32 16 Unit 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 51 Satellite Installation Manual 1 1 Switch Value 64 128 32 16 Unit 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 5f 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 Satellite Installation Manual 52 1 1 Switch Value 64 128 32 16 Unit 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 9
38. nd Disarm alarms The remaining connections for door contacts request to exit devices and output relays can be found in the Door Contact Rex and Lock Wiring sections The maximum reader to controller distance is 500 feet when using 22 AWG shielded cable The CPU voltage jumper J1 or J5 must be set to 12 volts for this reader Satellite Installation Manual 23 BACKPLANE SILKSCREEN Figure 12 Wiegand Format The 26 bit Wiegand version of the Essex keypad Part 90 0060 00 provides 26 Bit Wiegand data to the controller When using this diagram make sure the label on the back of the keypad identifies it as the Wiegand format BACKPLANE SILKSCREEN 1 2 3 4 5 6 0 Figure 13 24 Satellite Installation Manual Alarms cannot be Armed or Disarmed and the Duress feature cannot be used with Non Infrared format Keypads Only Galaxy Control System s Infrared format readers and keypads can be used for Duress or to Arm and Disarm The remaining connections for door contacts request to exit devices and output relays can be found in the Door Contact Rex and Lock Wiring sections The maximum reader to controller distance is 500 feet when using 22 AWG shielded cable The CPU voltage jumper J1 or J5 must be set to 12 volts for this reader Proximity Readers Galaxy Control System s Satellite Controller supports HID as well as most other Proximity devices which are Wiegand format outputs There are als
39. nector labeled network This is where additional controllers are attached and system power is applied 16 Satellite Installation Manual Port Configuration Each port on a Satellite controller can be used as a reader port or an Input Output Port Only one device can be used on a port at a time The port type is specified in the Satellite software in the Controller Properties window Consult the Satellite User Manual for instructions on how to program the software Reader Port The basic wiring for a Galaxy Reader Port can consist of the 5 or 6 reader wires a door contact a request to exit device a lock of some sort and a device such as a sounder This diagram shows the how a typical reader port is wired MODELS 2108 220 INFRARED SWIPE BROWN RED ORANGE dadvad YELLOW IOCONDUCTOR 22 AWG SHIELDED BELDEN 945 GREEN BLUE 1 2 3 4 5 6 COMMON 7 o sense 8 EJ 9 MANUAL ne E 10 Primary Relay Contact NC D 11 OutputLock Control DOOR CONTACT 3 RELAY SPECIFICATIONS CLOSED DOOR CLOSED on 12 Es Form C Dry Contact Arrangement wo Ju Rated 1 5 Amp 24 VDC OPTONALOUTPUT ZS 3 T ai BOTH RELAYS C 15 Ei 1 54 24 VDC REQUEST on x TO EXIT NO DEVKE Figure 6 Satellite Installation Manual 17 The above color codes indicate which color wire goes into each pin for Galaxy Control System s Infrared Reader A diagram of each type of reader indicating its
40. ning such as an alarm shunt a sounder or CCTV control Upon access being granted Relay 1 will energize Relay 1 will remain active for the time specified in the System Software or until the Door Sensor indicates that the door has opened Relay 2 if used is independently timed and can be configured to activate for all of its door alarm events as well as its own valid unlock When wiring door releases the output contacts should act like a switch between the strike lock and its power supply For devices which need power applied to lock and release only when power is removed fail safe the Common and Normally Closed outputs are used If the strike requires power to unlock fail secure the Common and Normally Open pins would be used The maximum power through the contacts should not exceed 24 VDC 1 5 amps Do not use the controller power supply for the strikes Satellite Installation Manual 29 Programming Reader Cards can be swiped or learned into the Satellite system using a Galaxy provided RS 232 Programming Reader Interface This interface allows Transmissive Infrared ABA and Wiegand reader technologies to plug into a communication port on the back of the PC Cards can still be added to the system through a reader on a controller however The RS 232 Programming reader does not occupy a port on the Satellite controller The Programming Reader Interface can be purchased from Galaxy with any of our provided readers atta
41. nnn 3001T nnn nnn nnn nnn IP address of the remote primary and press the enter key e Type CHANGE AUTOSTART ENABLED and press the enter key e Set Option switch 5 on the controller in the up position For the remote primary follow this set of instructions e Type CHANGE ACCESS REMOTE and press the enter key This disables the local port for configuration after this connection is terminated e Set Option switch 6 on the controller in the up position Satellite Installation Manual 45 16 To change the baud rate of the device tyoe CHANGE SPEED equals either 9600 4800 or 2400 this baud rate must match the setting of the Satellite CPU and press the enter key 17 End the PC connection and remove the special cable if still connected 18 Connect the Lantronix to the Satellite controller using the following wiring diagram J14 Back Plane DB 8Connector 2 3 7 6 1 to pin Lantronix MSS100 DB 25 Connector 2 3 7 20 6 You must test the connection for either the PC to Primary connection for TCP IP loop connections or the Extending Secondary to Remote Primary connection for Network bridges after the controllers have been added to the database Contact Galaxy s Technical support department with any question Setup for MSS1 MSS1T2 10Mb systems The MSS1 MSS1T2 models support 10Mb Ethernet LAN WAN connections MSS1T2 has a coax adapter They can be configured using EZWebCon or Hyperterminal Using EZWebCon
42. o portal and road loop readers available however these models are not discussed in this manual For information on these systems contact Galaxy Control System s Technical Support Staff The Proximity readers provided by Galaxy use the 26 Bit Wiegand format Alarms cannot be Armed or Disarmed and the Duress feature cannot be used with Non Infrared format readers Only Galaxy Control System s Infrared format readers and keypads can be used for Duress or to Arm and Disarm alarms Do Not install the read head antenna in close proximity to devices that could emit radio frequency interference such as computer monitors cordless telephones and radio transmitters Any device that emits RF interference in the area of the read head antenna will reduce the overall read range Some large computer monitors can emit RF for up to 40 feet In addition do not install the read head antenna on metallic surfaces of any kind The metal will greatly reduce the read range Most window glass in today s buildings contain some percentage of metallic silver used to reflect ultraviolet rays These metallic qualities will reduce the maximum read range that can be achieved Proper grounding is crucial for optimum read ranges to be achieved When wiring the device the shield and ground Black wires from the reader CANNOT be connected together otherwise a ground loop condition may occur This will cause the maximum read range to be reduced Satellite Install
43. port J3 and J5 must be placed in the marked position marked with a white line next to the jumper A Request to Exit Device can be wired between this Pin and pin 7 common This Device is normally open When the panel sees a closure it can be programmed to shunt the door contact and trigger Relay One or just shunt the door contact Infrared Swipe Readers and Keypads The following diagram of the Processor Board describes each pin s function for a Galaxy reader port Pin 1 is on the left Galaxy recommends using 10 conductor 22 AWG Beldon 9946 shielded cable for the reader 6 door sense 2 and manual egress wiring 2 Maximum distance is 2500 feet All cables should be run inside a grounded conduit with only the controller end of the cable shield grounded Do not run cables in conduit that already has wire in it The reader door sensor and egress device wires should be kept in a separate cable from the relay output because door releases generally draw more power than the other devices and may cause interference and voltage spikes if both are in the same jacket Satellite Installation Manual 19 BACKPLANE SILKSCREEN 1 2 3 4 5 6 PP Qo Q Vd Qo Q Model 225 Card Reader Model 220 Model 210 Infrared Format Keypad combination Essex Keypad e O 0 O Figure 8 This diagram illustrates the color of the wires as they are wired to the port pins for Galaxy devices The CPU voltage jumper J1 or J5 must be
44. port circuit provides relay contacts for controlling external devices PC to Controller Communications Serial Asynchronous RS 232 Interfaces at 2400 4800 and 9600 baud Connections Straight lead barrier strips All cable should be shielded and connected to the Power Supply Ground DO NOT USE THE CONTROLLER CHASSIS FOR GROUND Connection Distance Wire Beldon PC to controller RS 232 50 ft 22 AWG 4 conductor twisted pair 8723 Controller to Modem RS 232 50 ft 22 AWG 4 conductor twisted pair 8723 Controller to Controller at 9600 baud 1000 ft 22 AWG 4 conductor twisted pair 8723 Galaxy provided line drivers can be used to go longer distances All Galaxy readers 2500 ft 22 AWG 10 conductor 9946 All other readers 500 ft 22 AWG 10 conductor 9946 Lock Hardware 18 AWG 2 conductor minimum 10 Satellite Installation Manual Mounting the Controller The controller enclosure is designed to be wall mounted Its specifications are 21 00 x 14 00 x 4 00 Four tear dropped shaped mounting holes are available as shown below It is not necessary to remove the back plane board to hang the unit Typically 1 4 wood screws or anchors with sheet metal screws would be used When selecting a mounting location keep the following points in mind Clean reasonably dust free environment Temperature should be between 10 C and 60 C Location should have limited access for security purposes Do not mount to meta
45. power source Satellite Installation Manual 33 J17 is a 8 position screw terminal connector located on the upper right corner of the Processor Board labeled NETWORK This is where networked controllers are attached and controller power is applied J15 is a 6 position screw terminal connector also located at the top of the Processor Board labeled PWR MODEM RELAY This is the modem relay connections are made Network Connections In a Satellite controller network the controllers form a daisy chain loop around which the controller data travels for all units to utilize as necessary The main controller is designated as the primary controller while the rest are called secondaries The maximum number of controllers in one network is 128 The four pins on the right of the terminal connector are labeled IN IN and OUT OUT All controllers transmit network information through the OUT pins to the next controller The next unit receives the data on the IN pins then retransmits it out on the OUT pins The data travels completely around the network loop in this manner and is eventually received in by the primary unit s IN pins Each Processor Board comes with two jumper wires between each set of IN OUT pins These jumpers are required for a stand alone primary so that the controller network is complete THESE JUMPERS MUST BE REMOVED WHEN MORE THAN ONE CONTROLLER IS ON THE NETWORK Direct Connection UNIT 00
46. procedure worked properly Please contact Galaxy if you have any questions about this procedure 26 Satellite Installation Manual Parallel Reader Module In certain cases it is desirable to attach more than one reader to a single port The Parallel Reader Module makes this possible Two readers on one port A customer who does not need to differentiate the direction of travel but wants to control the entrance and exit through a given door can do so with one port Installing a Parallel Reader Module allows two readers to be installed on the same port one on either side of the door Both readers then appear as one to the controller The Anti Passback function cannot be implemented on a particular door if readers on both sides of that door are wired into the same Parallel Adapter This is because there is then no way to assign each reader into a different Passback Area Pin required The Satellite controller can be programmed to require both a card and PIN code for entry This can be accomplished with either the Model 225 Card Reader Keypad Combination reader or by using a separate card reader and keypad connected together with a Parallel Reader Module This option can also be exercised with Wiegand output devices Magnetic Stripe and Barcode readers Installation n t3 O The Parallel Reader Module is very easy to install There are three sets of connectors two for the INFRARED 3 Gad MAREE readers and a third which connect
47. roller Controller UNIT 00 UNIT 01 UNIT 02 UNIT 03 NETWORK 17 NETWORK 17 NETWORK 17 NETWORK 17 Figure 25 Network Bridge Asynchronous Controller Communication Many customers need to monitor their local system and a remote site or sites simultaneously on the same PC Additionally it is sometimes required that when cards are entered into one system they are automatically entered into the others and that when an alarm event occurs on a remote system it is annunciated on the local system This can be done using asynchronous communications between controllers With Satellite secondary controllers have the ability to communicate with other controller loops All programming is still done from the local computer the only difference is the way the information passes back and forth between the loops In the diagram notice that each controller loop is independent and the only connection between the two loops is an RS 232 connection 36 Satellite Installation Manual Extending Remote j Secondary Primary econdary Controller Controller Controller Primary Controller UNIT 00 UNIT 01 UNIT 02 LINIT 03 417 417 NETWORK Asynchronous Asynchronous S Leased Line or e Communication enat Link Communication Device Device Figure 26 There are several different kinds of devices that can be used as a Network bridge between controllers Each type of device has advantages and disadvantages Please contact Galaxy Contro
48. s 1 and 2 The debounce circuitry is built in to these lines In the software these inputs can be programmed to trip any local or global outputs Pin functions e gt Y L ee LEN 579 E sa E ca RSH 8375 Bs 2 E 5 BR E S5 35 SE E SC 8 3 o a o o 3 o a a oko m a O E oO amp O O SS OS O O SO Backplane Silkscreen 3 4 5 7 8 9 3100 1 42 43 44 45 Figure 20 Outputs Outputs 1 and 2 are Form C relays 1 and 2 on the Processor Board Output 3 is Pin 1 Output 4 is the Pin 6 and both are Open Collector Outputs The open collector outputs are suitable for driving low current circuits such as LEDs or low current relay coils The output is 32 Satellite Installation Manual pulled low by the controller when the output is on current flowing External components must complete the circuit by providing an electrical pull up to positive voltage as shown in the following diagrams These outputs can be tripped by any I O Group Figure 21 Wiring UO Ports for Relays The type of relay shown in the above diagram is comparable to the Altronix RBSN TTL The relay selected must support a positive trigger as shown in the diagram 12 3 4 5 6 7 8 1 up CEL UP OEI Figure 22 Wiring UO Ports for LEDs When wiring an LED from the I O port a 150 ohm resistor is the typical minimum resistance A higher resistance will result in a dimmer LED When wiring either relays or LEDs do not attempt to connect a separate
49. s to JP3 OTHER the controller port There are six A BROWN terminal pins for each of the three connectors all labeled according to Galaxy Control System s infrared YELLOW reader color code There are also GREEN three separate jumpers which must B BLUE be set correctly for the device to nn function Two of the three jumpers CONTROLLER JP1 and JP2 are used to select reader voltage Each reader can be powered by either 12 V or 5 V depending on the reader requirements The third jumper JP3 is used to select the reader type If Figure 15 these jumpers are not set correctly ul a mI E EOS pr RED LS ORANGE EOS pps EOS rps Satellite Installation Manual 27 the device will not operate as intended The Parallel Interface can be used in two modes Infrared or Other Reader formats To select Infrared Jumper JP3 should be placed on the left hand two pins In order to use the module for other readers JP3 is placed on the right most two pins Both readers used in the module must put out the same format For example an Infrared reader would not work with a proximity reader through a parallel reader interface but a proximity reader will work with a Wiegand format Essex keypad NOTES 1 Install the Parallel Reader Module as close to the readers as possible 2 Use 18 AWG wire rather than 22 AWG This is required to Figure 16 provide sufficient current to the readers 3 When using the PIN required option always choos
50. specific wiring can be found in this section The following describes each pin s function for a Satellite controller reader port Note If you do not use door contacts place a jumper between the Common and Sense pins READER DOOR RELAY 1 RELAY 2 4 23 4 5 ell 8 alba 11 12 f13 14 15 PlPlelelelelelelelelelelelele BROWN LED COMMON RED DATA 1 N C ORANGE V N O YELLOW GND COMMON GREEN DATA 0 N C BLUE LED N O COMMON SENSE MANUAL Figure 7 Pin 1 This is the green LED for Galaxy Control System s Infrared readers and the LED line for all others Pin 2 This is Data 1 for the reader Pin 3 This is the positive voltage that is output by the processor board Depending upon how the jumper J1 or J5 is set the voltage here will either be 5 VDC or 12 VDC Check the reader specifications before setting the voltage jumper Pin 4 This is the reader ground 18 Satellite Installation Manual Pin 9 This is Data 0 for the reader This is the red LED for Galaxy Control System s Infrared format readers Because most other readers support only one LED this is unused for all other readers This pin is the common pin for the Door Contact and the Request to Exit Device This pin is the sense pin The Door contact should wire between this pin and pin 7 common When the door is closed the panel must see a contact closure between these pins If contacts are not being used the jumper associated with that
51. tion is made through a direct connection as shown here If the distance between the PC and controller is greater than 50 feet but less than 1 5 miles a line driver or short haul modem can be used Galaxy Control System can provide Black Box s SHMB 2 Short Haul Modem Dial up Connection PC to Primary Controller PC 9 PIH Com Port Backplane Backplane Figure 27 If the distance is too long or cable cannot be pulled between the locations then external US Robotics Sportster Modems can be installed at the PC and the primary controller locations The Primary can then be dialed and connected This is the wiring configuration for a dial up scenario Modem Connections PC 9 PIH or 25 PIH J14 TERMIHAL 2345671 Standard Modem Cable 23456 7 20 RJ1143 Phone Line Local Modem Remote Modem Transformer Transformer Power Cord Figure 28 40 Satellite Installation Manual While at the controller location be sure to record the Primary unit s serial number for system registration Each US Robotics Sportster modem must have switches 3 5 and 8 in the ON position and all other switches must be OFF Place Option switch 3 on the Satellite CPU board in the up position to enable dial up TCP IP Connection Lantronix Primary When connecting to the PC from the Primary Controller using TCP IP a a AN Lantronix device is used The Lantronix device is att
52. will be used for Network Bridges Extending secondary using MSS1 RS232 Bridge MSS1 ExtSec cfg Remote Primary using MSS1 RS232 Bridge MSS1 RemPri cfg 16 Highlight the file and click Open 17 Select NO when prompted to download the IP address 18 Click OK to reboot the device to save the configuration Satellite Installation Manual 47 Using Hyperterminal 10 11 48 Connect the MSS1 to the Serial port of the configuring PC using the special cable included with the device The cable provides the following connections MSS1 MSS1T2 DB 25 PC Serial Port 9Pin 25 Pin 2 2 3 3 3 2 7 5 7 Start Hyperterminal It is usually found at Start button gt gt Programs gt gt Accessories gt gt Hyperterminal If it is not available you can add it using Add Remove Programs in the Control Panel Once Hyperterminal opens enter a name for your connection and select an icon In the Connect To window select the COM port to which the cable is connected Click OK In the COM Port Properties use the following settings Bits per second 9600 Data bits 8 Parity None Stop bits 1 Flow Control None Click OK Cold reset the device e Unplug the device from the power source e Press and hold the reset button usually requires an unbent paper clip e Still holding the reset button plug in the device to the power source e Continue to hold the reset button until the Username prompt is displayed At the Username prompt log in using
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